Wekedelentumoren

Initiatief: NVVH Aantal modules: 14

Eerstelijns-chemotherapie

Uitgangsvraag

Wat is de plaats van eerstelijns-chemotherapie bij behandeling van patiënten met primair irresectabele en/of gemetastaseerde wekedelensarcomen?

Aanbeveling

Coördineer het behandelplan van patiënten met een primair irresectabel en/of gemetastaseerd wekedelensarcoom vanuit een wekedelen-referentiecentrum in multidisciplinair overleg.

 

Overweeg patiënten met een primair irresectabel en/of gemetastaseerd wekedelensarcoom te behandelen met doxorubicine (eerstelijns) indien:

  • systemische therapie gewenst is;
  • (snelle) respons niet het belangrijkste behandeldoel is en;
  • het aannemelijk is dat het subtype sarcoom gevoelig is voor doxorubicine.

Overweeg symptomatische patiënten met een goede orgaanfunctie onder een leeftijd van circa 65 jaar  te behandelen met een combinatie van doxorubicine en ifosfamide. Hiermee komt het voor dat irresectabele tumoren resectabel worden.

 

Houd bij de behandelkeuze rekening met:

  • de symptomatologie van de patiënt;
  • de leeftijd van de patiënt;
  • de lokalisatie van de metastasen of de primair irresectabele tumor;
  • het subtype wekedelensarcoom;
  • de biologie van de tumor;
  • het doel dat met de behandeling wordt nagestreefd (bijvoorbeeld levenskwaliteit/verlenging);
  • de wensen van de patiënt.

Overwegingen

Voor- en nadelen van de interventie en de kwaliteit van het bewijs

Er is literatuuronderzoek verricht naar de eerstelijnsbehandeling met chemotherapie of andere systeemtherapie (pazopanib) bij patiënten met een primair irresectabel en/of gemetastaseerd wekedelensarcoom. In totaal zijn er zes randomized controlled trials (RCTs) geïncludeerd., zowel fase 2 als fase 3. In deze studies werd behandeling met doxorubicine vergeleken met andere soorten chemotherapie als toevoeging aan de behandeling met doxorubicine of als vervanging van doxorubicine. In één studie werd alleen naar leiomyosarcomen in de eerste lijn gekeken (Pautier, 2022). Andere subtypes zijn niet meegenomen. Vijf van de zes geïncludeerde studies gebruikten progressievrije overleving als primaire uitkomstmaat. In een studie werd algehele overleving als primaire uitkomstmaat gebruikt (Judson, 2014).

 

De cruciale uitkomstmaat is algehele overleving. Deze uitkomstmaat wordt door alle zes de geïncludeerde studies. De verschillen tussen doxorubicine en de andere soorten chemotherapie met betrekking tot algehele overleving zijn over het algemeen niet klinisch relevant. De bewijskracht hiervan is echter laag. Er is bij deze uitkomstmaat afgewaardeerd voor risico op bias vanwege beperkingen in de studie-opzet en het niet behalen van de optimal information size (OIS). Hiermee is de algehele bewijskracht laag en kan de cruciale uitkomstmaat slechts beperkt richting geven aan de aanbevelingen. Daarnaast zijn de geïncludeerde studies met name gerandomiseerde fase 2 studies met beperkt aantal patiënten en zijn er heel weinig goede fase 3 studies gedaan.

 

De belangrijke uitkomstmaten zijn progressievrije overleving, responspercentage, kwaliteit van leven en veiligheid. Progressievrije overleving, responspercentage en veiligheid werden gerapporteerd in alle zes de geïncludeerde studies. Kwaliteit van leven werd door één studie gerapporteerd. Met betrekking tot progressievrije overleving werd gevonden dat er weinig tot geen verschil is tussen doxorubicine en de andere soorten chemotherapie. Voor responspercentages zijn enkele klinisch relevante verschillen gevonden. Er werd gevonden dat de combinatie van doxorubicine en ifosfamide, leidt tot een verhoogd responspercentage vergeleken met behandeling met doxorubicine alleen. Analyses van kwaliteit van leven werden niet of nauwelijks meegenomen. In studie waarin pazopanib met doxorubicine werd vergeleken is kwaliteit van leven meegenomen maar werden alleen de baseline scores gerapporteerd. Uitspraken hierover zijn dus niet te doen. Met betrekking tot veiligheid werden er over het algemeen geen klinisch relevante verschillen gevonden. In één van de studies werd wel een klinisch relevant verschil gevonden waarbij er meer adverse events (met name hematologische events) werden gerapporteerd bij patiënten die doxorubicine en trabectedine kregen vergeleken met patiënten die alleen doxorubicine kregen. Er werd een toename van toxiciteit gerapporteerd in de combinatie doxorubicine en ifosfamide versus doxorubicine alleen. De bewijskracht van de belangrijke uitkomstmaten wordt echter beoordeeld als zeer laag tot laag. Er is bij deze uitkomstmaten afgewaardeerd voor onder andere voor risico op bias vanwege beperkingen in de studie-opzet, het niet behalen van de optimal information size en betrouwbaarheidsintervallen die de grenzen van klinische besluitvorming overschrijden. De belangrijke uitkomstmaten kunnen dan ook geen richting geven aan de besluitvorming.  

 

Meer en grotere studies zijn nodig om de uitgangsvraag te beantwoorden. Er bestaat een kennislacune omtrent de effecten van doxorubicine vergeleken met de verschillende andere soorten chemotherapie bij patiënten met een primair irresectabel en/of gemetastaseerd wekedelensarcoom. Financiering van (academische) studies is moeizaam gezien de zeldzaamheid en complexiteit van deze groep tumoren en daarmee is bewijs van effectiviteit van nieuwe middelen of combinaties van behandelingen lastig te verkrijgen.

 

Na de literatuuranalyse kan worden geconcludeerd dat er geen goede bewijsvoering is om de zoekvraag te kunnen beantwoorden. De huidige aanbevelingen zijn dus grotendeels gebaseerd op expert opinies. De beschreven overwegingen en aanbevelingen sluiten volledig aan bij de internationale ESMO-richtlijn (Gronchi, 2021).

 

Er is een voortschrijdend inzicht dat niet alle wekedelensarcomen op dezelfde wijze behandeld kunnen worden. De follow-up resultaten van de studie van Pautier (gepubliceerd op de ESMO conferentie 2023, nog niet peer-reviewed) in leiomyosarcomen laten zien dat een studie in een enkel subtype, leiomyosarcoom, beter inzicht kan geven. Met een langere follow-up periode wordt er een relevant verschil gezien in algehele overleving. Bij deze langere follow-up wordt een mediane algehele overleving van 33.08 maanden (95% BI 26.22 tot 47.54) gerapporteerd voor de groep die doxorubicine plus trabectedine met onderhoudsbehandeling trabectedine ontving vergeleken met 23.78 maanden (95% BI 18.86 tot 30.68) voor de groep die alleen doxorubicine kreeg. De HR van 0.65 (95% BI 0.44 tot 0.95) geeft een klinisch relevant verschil weer voor de groep die de combinatie van doxorubicine en trabectedine ontving.

 

Waarden en voorkeuren van patiënten (en evt. hun verzorgers)

Bij de afweging in keuze van systeemtherapie van wekedelensarcomen spelen meerdere factoren een rol. De belangrijkste factoren zijn:

  • factoren die te maken hebben met de symptomatologie van de patiënt, de leeftijd, de lokalisatie van de metastasen of de primair irresectabele tumor
  • het subtype wekedelensarcoom en de biologie van de tumor (langzaam of snel groeiend, wel of nauwelijks chemotherapie-sensitief)
  • het doel dat wordt nagestreefd met de behandeling (bijvoorbeeld het resectabel maken van een tumor, kwaliteit van leven of verlenging van de levensduur)
  • de wensen van de patiënt.

Standaard chemotherapie met doxorubicine is een toxische behandeling en patiënten zien soms af van behandeling omdat de winst niet opweegt tegen het mogelijk inleveren van kwaliteit van leven. Voor patiënten met een angiosarcoom is eerstelijnsbehandeling met wekelijks paclitaxel  een keuzemogelijkheid die in het algemeen ook door ouderen goed verdragen wordt (Penel, 2008). Er zijn andere alternatieven voor doxorubicine beschikbaar maar deze kunnen in Nederland niet  in eerste lijn worden voorgeschreven. Trabectedine wordt in het algemeen beter verdragen en geeft bijvoorbeeld geen alopecia, maar lijkt alleen voor beperkt aantal wekedelensarcomen (met name leiomyosarcomen en myxoid liposarcomen)  effectief. Pazopanib kan ook niet in de eerste lijn worden voorgeschreven (wordt niet vergoed), terwijl dit voor sommige subtypes van wekedelensarcomen te verkiezen zou zijn (bijvoorbeeld solitair fibreuze tumoren).

 

Het gesprek in de spreekkamer met een ter zake kundig medisch oncoloog vormt de basis van  de   beslissing voor de keuze van behandeling, het tijdstip van starten van de behandeling of, indien goed voorgelicht, het afzien van behandeling. Ook worden hierin opties van lokale behandeling meegenomen (bijvoorbeeld radiotherapie van symptomatische botmetastasen of van een enkele longmetastase of resectie van een pijnlijke subcutane metastase). Ten slotte wordt met de patiënt besproken dat combinatiebehandeling in het algemeen meer kans op respons geeft, wat belangrijk is bij symptomatische tumoren of tumoren waarbij het streven is deze resectabel te maken, maar ook meer kans geeft op bijwerkingen.

 

Kosten (middelenbeslag)

Doxorubicine, ifosfamide, gemcitabine, docetaxel en paclitaxel zijn klassieke cytostatica die niet tot de dure geneesmiddelen worden gerekend. Trabectedine kan tot nu toe alleen in tweede lijn of later gegeven worden, wat een kostenaspect heeft. Het is sinds 2023 uit patent. Pazopanib behoort nog tot de dure geneesmiddelen.

 

Gezien het feit dat trabectedine uit patent is en de eerstelijns resultaten in combinatie met doxorubicine en met een onderhoudsbehandeling in leiomyosarcomen positief zijn (Pautier, 2022) zou beschikbaarheid van trabectedine in de eerste lijn wenselijk zijn.

 

Voor sommige (zeldzame) subtypes van wekedelensarcomen, zoals solitair fibreuze tumoren,  zou pazopanib in eerste lijn beschikbaar moeten zijn omdat doxorubicine niet werkzaam is en pazopanib in niet-gerandomiseerd onderzoek gunstig effect laat zien (Martin-Broto, 2020). Ook zou pazopanib beschikbaar moeten zijn bij (oudere) patiënten die op goede gronden doxorubicine in eerste lijn niet wensen of niet tolereren.

 

Aanvaardbaarheid, haalbaarheid en implementatie

De keuze met betrekking  tot de behandeling van het gemetastaseerd wekedelensarcoom dient gemaakt te worden door een internist-oncoloog met expertise in dit vakgebied, werkzaam in een referentiecentrum op het gebied van wekedelensarcomen. Gezien de toenemende kennis over de verscheidenheid in de biologie en systeemtherapiegevoeligheid is het noodzakelijk dat alle patiënten een oordeel krijgen van een ter zake deskundige internist-oncoloog, tenzij de patiënt een performancestatus heeft die elke vorm van systeembehandeling niet meer nuttig maakt. De gekozen behandeling kan op indicatie of wens van patiënt in een ziekenhuis dat onderdeel is van het netwerk van het referentiecentrum worden gegeven.

 

Rationale van de aanbeveling: weging van argumenten voor en tegen de interventies

De aanbevelingen sluiten aan bij de internationale ESMO-richtlijn (Gronchi, 2021).  In deze richtlijn wordt doxorubicine als eerstelijns therapie aanbevolen. In bepaalde gevallen kan hiervan worden afgeweken en geopteerd worden voor andere middelen, mits deze beschikbaar zijn en er voldoende bewijs is voor activiteit bij dit tumorsubtype.

Onderbouwing

Patiënten met primair irresectabele en/of gemetastaseerde wekedelensarcomen hebben over het algemeen een slechte prognose, met een mediane overlevingsduur van een tot anderhalf jaar, maar de verschillen tussen de verschillende subtypen zijn groot. De biologie van de tumor speelt daarbij een belangrijke rol: sommige sarcomen (zoals bijvoorbeeld epithelioid hemangioendotheliomen) hebben zelfs met uitgebreide longmetastasen toch een indolent beloop met een overleving die, ook zonder systeemtherapie, vele jaren kan zijn. Vaker echter zien we patiënten waarbij de progressie van de irresectabele tumor en/of metastasen zodanig is dat er een noodzaak is tot behandeling met een eerstelijns systeemtherapie. Met de toename in kennis van de verschillende subtypes komen er meer inzichten in verscheidenheid aan gevoeligheid voor systeemtherapie en is het opmerkelijk dat doxorubicine na decennia nog steeds als standaard eerstelijnsbehandeling wordt gezien. De zeldzaamheid van de subtypes en de uitdaging om in soms ultrazeldzame wekedelensarcomen voldoende bewijs voor alternatieve keuzes te krijgen, zorgt voor slechts langzame vooruitgang voor patiënten in de eerstelijns behandelopties.

 

Naast tumorbiologie speelt de leeftijd van de patiënt een belangrijke rol in de keuze van behandeling. Jongvolwassen patiënten kunnen een diagnose van een sarcoom krijgen dat meer op kinderleeftijd voorkomt, zoals alveolair of embryonaal rhabdomyosarcoom of Ewing sarcoom van de weke delen. In gemetastaseerde setting krijgen zij uitgebreide polychemotherapieschema’s die echter niet onderwerp van deze richtlijn zijn. Bij ouderen daarentegen kan het goed zijn dat  moet worden afgezien van behandeling vanwege fysieke of geestelijke kwetsbaarheid, beperkte levenswinst en inleveren van kwaliteit van leven door chemotherapie. In deze situatie is streven naar optimale palliatie door goede ondersteunende zorg het belangrijkste doel van begeleiding van de patiënt. Juist de (groeiende) groep oudere patiënten maakt de behandelkeuze een uitdaging zeker omdat studie in het algemeen gedaan zijn in een fittere en jongere groep patiënten.

 

Deze module richt zich uitsluitend op eerstelijns-chemotherapie. Tweede- en derdelijns behandeling worden niet besproken.

 

Low GRADE

Doxorubicin may result in little to no difference in overall survival when compared with  doxorubicin + trabectedin in patients with leiomyosarcoma.

 

Source: Pautier, 2022

Low GRADE

Doxorubicin may result in little to no difference in overall survival when compared with  doxorubicin + trabectedin in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Martin-Broto, 2016

Low GRADE

Doxorubicin may result in little to no difference in overall survival when compared with doxorubicin + ifosfamide  in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Judson, 2014

Low GRADE

Doxorubicin may result in little to no difference in overall survival when compared with trabectedin in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Bui-Nguyen, 2015

Low GRADE

Doxorubicin may result in little to no difference in overall survival when compared with pazopanib in elderly patients (>60 years) with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Grunwald, 2020

Low GRADE

Doxorubicin may result in little to no difference in overall survival when compared with gemcitabine and docetaxel in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Seddon, 2017

 

Low GRADE

Doxorubicin may result in little to no difference in progression-free survival when compared with doxorubicin + trabectedin in patients with leiomyosarcoma.

 

Source: Pautier, 2022; Martin-Broto, 2016

Low GRADE

Doxorubicin may result in little to no difference in progression-free survival when compared with doxorubicin + trabectedin in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Martin-Broto, 2016

Low GRADE

Doxorubicin may result in little to no difference in progression-free survival when compared with doxorubicin + ifosfamide  in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Judson, 2014

Low GRADE

Doxorubicin may result in little to no difference in progression-free survival when compared with trabectedin in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Bui-Nguyen, 2015

Low GRADE

Doxorubicin may result in little to no difference in progression-free survival when compared with pazopanib in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Grunwald, 2020

Low GRADE

Doxorubicin may result in little to no difference in progression-free survival when compared with gemcitabine and docetaxel in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Seddon, 2017

 

Low GRADE

Doxorubicin may result in little to no difference in response rate when compared with doxorubicin + trabectedin in patients with leiomyosarcoma.

 

Source: Pautier, 2022

Low GRADE

Doxorubicin may result in little to no difference in response rate when compared with doxorubicin + trabectedin in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Martin-Broto, 2016

Low GRADE

Doxorubicin may result in a reduced response rate when compared with doxorubicin + evofosfamide in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Tap, 2017

Low GRADE

Doxorubicin may result in a reduced response rate when compared with doxorubicin + ifosfamide in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Judson, 2014

Low GRADE

Doxorubicin may result in little to no difference in response rate when compared with trabectedin in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Bui-Nguyen, 2015

Very low GRADE

The evidence is very uncertain about the effect of doxorubicin on response rate when compared with pazopanib in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Grunwald, 2020

Low GRADE

Doxorubicin may result in little to no difference in response rate when compared with gemcitabine and docetaxel in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Seddon, 2017

 

NO GRADE

No evidence was found regarding the effect of doxorubicin on quality of life when compared with doxorubicin + trabectedin in patients with leiomyosarcoma.

 

Source: -

NO GRADE

No evidence was found regarding the effect of doxorubicin on quality of life when compared with doxorubicin + trabectedin in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: -

NO GRADE

No evidence was found regarding the effect of doxorubicin on quality of life when compared with doxorubicin + ifosfamide in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: -

NO GRADE

No evidence was found regarding the effect of doxorubicin on quality of life when compared with trabectedin in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: -

NO GRADE

No evidence was found regarding the effect of doxorubicin on quality of life when compared with pazopanib in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: -

NO GRADE

No evidence was found regarding the effect of doxorubicin on quality of life when compared with gemcitabine and docetaxel in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: -

 

Low GRADE

Doxorubicin may increase safety when compared with doxorubicin + trabectedin in patients with leiomyosarcoma.

 

Source: Pautier, 2022

Low GRADE

Doxorubicin may increase safety when compared with doxorubicin + trabectedin in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Martin-Broto, 2016

Low GRADE

Doxorubicin may increase safety when compared with doxorubicin + ifosfamide in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Judson, 2014

Low GRADE

Doxorubicin may result in little to no difference in safety when compared with trabectedin in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Bui-Nguyen, 2015

Low GRADE

Doxorubicin may result in little to no difference in safety when compared with pazopanib in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Grunwald, 2020

Low GRADE

Doxorubicin may result in little to no difference in safety when compared with gemcitabine and docetaxel in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas.

 

Source: Seddon, 2017

Description of studies

Six studies were included in the analysis of the literature. All studies are randomized controlled trials comparing first-line treatment with doxorubicin alone with either a combination of doxorubicin and a different type of chemotherapy or a different type of chemotherapy as a substitution of doxorubicin. Not all studies were phase 3 studies. Relevant study characteristics are presented in Table 1.

 

Table 1 – Study characteristics

Study

Patients (C; I): n, age, sex

Type of study

Type of sarcoma

Intervention

Comparison

Doxorubicin add-on

Pautier, 2022

76; 74, median age 64; 59 years, F/M 59/17; 53/21

Phase 3 trial

metastatic or unresectable leiomyosarcoma

doxorubicin (60 mg/m²) and  1·1 mg/m² trabectedin every 3 weeks for a maximum of six cycles, followed by trabectedin maintenance treatment

doxorubicin (75mg/m²) alone once every 3 weeks for up to six cycles

Martin-Broto, 2015

59; 54, median age 52; 53 years, F/M 29/30; 22/32

Phase 2 study

locally advanced non-resectable or metastatic STS

trabectedin as a 3-hour infusion at 1.1 mg/m2, combined with  doxorubicin 60 mg/m2 for six cycles

doxorubicin at 75mg/m2 for six cycles

Judson, 2014

228; 227, median age 48, 47 years, F/M 125/103; 113/114

Phase 3 trial

locally advanced, unresectable, or metastatic high-grade soft-tissue sarcoma

doxorubicin 25 mg/m² per day on days 1–3 and ifosfamide (2·5 g/m² per day, days 1–4) plus mesna (0·5 g/m² followed by pegfilgrastim (6 mg, day 5) every 3 weeks for a maximum of six cycles

doxorubicin 75 mg/m² on day 1 every 3 weeks for a maximum of six cycles

Doxorubicin substitution

Bui-Nguyen, 2015

3 groups: 43; 47; 43, median age 60; 60; 60 years, male: 18; 18; 20

Phase IIb study

advanced/ metastatic soft-tissue sarcoma

T3h group: trabectedin 1.3 mg/m2/3-hour intravenous infusion on day 1 every 3 weeks

T24h group: trabectedin 1.5 mg/m2/24 hour intravenous infusion on

day 1 every 3 weeks

doxorubicin 75 mg/m2 on day 1 every 3 weeks

Grunwald, 2020

39/81, median age 70; 72 years, F/M 22/17; 37/44

Phase II study

progressive advanced or metastatic STS (in elderly patients > 60 years)

pazopanib 800 mg once per day until progression or intolerance

doxorubicin 75 mg/m2 once every 3 weeks intravenously for up to 6 cycles

Seddon, 2017

129;128; median age 56; 55 years, F/M 79/50; 77/51

Phase 3 trial

advanced unresectable or metastatic soft-tissue sarcomas

gemcitabine 675 mg/m² on day 1 and gemcitabine 675 mg/m² followed by docetaxel 75 mg/m² on day 8 every 3 weeks

doxorubicin 75 mg/m² on day 1 every 3 weeks

 

Results

 

Overall survival

Doxorubicin add-on

Doxorubicin and trabectedin in leiomyosarcoma

Pautier (2022) reported an overall survival of 26 (34.2%) patients in the doxorubicin alone group and 32 (43.2%) patients in the doxorubicin plus trabectedin group, over the length of 48 months follow-up. The RR of 0.79 (95% CI 0.53 to 1.19) is not considered clinically relevant.

 

Doxorubicin and trabectedin in soft tissue sarcomas

Martin-Broto (2016) reported a median overall survival of 13.7 months in the doxorubicin group and 13.3 months in the doxorubicin plus trabectedin group. The HR of 1.21 (95% CI 0.77 to 1.92) is not considered clinically relevant.

 

Doxorubicin and ifosfamide

Judson (2014) reported a median overall survival of 12.8 months (95% CI 10.5 to 14.3) in the doxorubicin group and 14.3 months (95% CI 12.5 to 16.5 months) in the doxorubicin and ifosfamide group. The HR of 0.83 (95% CI 0.67 to 1.03) is not considered clinically relevant.  

 

Doxorubicin substitution

Trabectedin

Bui-Nguyen (2015) reported that at the time of analysis, 36 patients had died (16 in the T3h group (34%); 10 in the T24h group (23.3%); and 10 in the doxorubicin group (23.3%)). For T24h versus doxorubicin the HR of 0.94 (95% CI 0.39 to 2.25) is not considered clinically relevant while for T3h versus doxorubicin the HR of 1.30 (95% CI 0.58 to 2.90) is clinically relevant in favor of the doxorubicin group.

 

Pazopanib

Grunwald (2020) studied patients aged 60 years or older and reported an overall survival at 12 weeks of 14.3 months (95% CI 8.3 to 25.9) in the doxorubicin group and 12.3 (95% CI 8.7 to 19.8) in the pazopanib group. This difference was not considered clinically relevant. Median overall survival was 12.3 months (IQR 6.0 to 25.8 months) in the pazopanib group and 14.3 months (IQR 7.1 to 27.0 months) in the doxorubicin group. The HR of 1.08 (95% CI 0.68 to 1.72) is not clinically relevant.

 

Gemcitabine and docetaxel

Seddon (2017) reported an overall survival of 86.8% (95% CI 79.6 to 91.6) in the doxorubicin group, and 82.6% (95% CI 74.8 to 88.2) in the gemcitabine and docetaxel group at 24 weeks after randomization. Median overall survival was 76.3 weeks (95% CI 60.0 to 91.3) in the doxorubicin group and 67.3 weeks (95% CI 53.1 to 83.1) in the gemcitabine and docetaxel

Group. The HR of 1.14 (95% CI 0.83 to 1.57) is not clinically relevant.

 

Progression-free survival

Doxorubicin add-on

Doxorubicin and trabectedin in leiomyosarcoma

Pautier (2022) reported a progression free survival rate at 12 months of 16.0% (95% CI 9.4 to 25.9) in the doxorubicin group and 50.7% (95% CI 39.5 to 61.9) in the doxorubicin plus trabectedin group. Additionally, at 24 months of follow-up, progression-free survival rates of 5.3% (95% CI 2.1 to 12.9) and 30.2% (95% CI 20.9 to 41.5) were reported for respectively the doxorubicin and doxorubicin plus trabectedin group. Median progression-free survival was 6.2 months (95 % CI, 4.1 to 7.1) in the doxorubicin group, and 12.2 months (95% CI, 10.1 to 15.6) in the doxorubicin plus trabectedin group. The adjusted HR of 0.41 (95% CI 0.29 to 0.58) is considered clinically relevant in favor of the doxorubicin plus trabectedin group.

 

Doxorubicin and trabectedin soft tissue sarcomas

Martin-Broto (2016) reported progression-free survival for both groups. Median progression-free survival was  5.5 months in the doxorubicin group, and 5.7 months in the doxorubicin plus trabectedin group. The HR of 1.16 (95% CI 0.79 to 1.71) is not considered clinically relevant.

 

Doxorubicin and ifosfamide

Judson (2014) reported a median progression free survival of 4.6 months (95% CI 2.9 to 5.6) in the doxorubicin group and 7.4 months (95% CI 6.6 to 8.3) in the doxorubicin and ifosfamide group. The HR of 0.74 (95% CI 0.60–0.90) is not considered clinically relevant.

 

Doxorubicin substitution

Trabectedin

Bui-Nguyen (2015) presented Kaplan-Meier curves for progression-free survival. Median progression-free survival was 5.5 months in the doxorubicin group, 2.8 months in the trabectedin 3h group, and 3.1 months in the trabectedin 24h group. The HR of 1.50 (95% CI 0.91 to 2.48) for doxorubicin vs trabectedin 3h is clinically relevant in favor of the doxorubicin group. The HR of 1.13 (95% CI 0.67 to 1.90) for doxorubicin vs trabectedin 24h is not clinically relevant.

 

Pazopanib

Grunwald (2020) reported that patients in the doxorubicin group achieved a progression free survival rate of 44% (95% CI 28 to 59) at 12 weeks, and patients in the pazopanib group achieved a progression-free survival rate of 53% (95% CI 42 to 64). At 26 weeks, patients in the doxorubicin group achieved a progression free survival rate of 23% (95% CI 10 to 36) and in the pazopanib group patients achieve a progression free survival rate of 26% (95% CI 16 to 35). Median progression-free survival was 4.4 months (95% CI, 2.7 to 6.0 months) in the pazopanib group and 5.3 months (95% CI, 1.7 to 8.2 months) in the doxorubicin group. The HR of 1.00 (95% CI 0.65 to 1.53) is not clinically relevant.

 

Gemcitabine and docetaxel

Seddon (2017) reported progression-free survival at 12 weeks of 72.1% (95% CI 63.5 to 79.0) in the doxorubicin group and 63.8% (95% CI 54.8 to 71.5) in the gemcitabine and docetaxel group. At 24 weeks, the progression-free survival was respectively 46.3% (95% CI 37.5 to 54.6) and 46.4% (95% CI 37.5 to 54.8) in the doxorubicin and gemcitabine and docetaxel group.  Median progression-free survival was 23.3 weeks (95% CI 19.6 to 30.4) in the doxorubicin group and 23.7 weeks (95% CI 18.1 to 20.0) in the gemcitabine and docetaxel group. The HR of 1.28 (95% CI 0.99 to 1.65) is not clinically relevant.

 

Response rate

Doxorubicin add-on

Doxorubicin and trabectedin in leiomyosarcoma

Pautier (2022) reported ten (13%) partial and complete responses in the doxorubicin group compared to twenty-seven (36%) partial and complete responses in the doxorubicin plus trabectedin group, using the Response Evaluation Criteria in Solid Tumors (RECIST) criteria. The RR of 0.36 (95% CI 0.19 to 0.69) is considered clinically relevant in favor of the doxorubicin plus trabectedin group.

 

Doxorubicin and trabectedin in soft tissue sarcomas

Martin-Broto (2016) observed solely partial responses, and observed a partial response in 10 (17%) patients in the doxorubicin group and 9 (17%) patients in the doxorubicin plus trabectedin group. The RR of 1.02 (95% CI 0.45 to 2.31) is not considered clinically relevant.

 

Doxorubicin and ifosfamide

Judson (2014) observed objective response rates in 31 (14%) patients in the doxorubicin group and 60 (26%) patients in the doxorubicin and ifosfamide group. The RR of 0.51 (95% CI 0.35 to 0.76) is considered clinically relevant in favor of the doxorubicin and ifosfamide group.

 

Doxorubicin substitution

Trabectedin

Bui-Nguyen  (2015) reported respectively among 27 (62.8%) and 52 (57.8%) patients in the doxorubicin and trabectedin (stabilization or partial/complete) responses. The RR of 1.09  (95% CI 0.81 to 1.45) is not considered clinically relevant.

 

Pazopanib

Grunwald (2020) observed objective response rates (partial plus complete) of 6 (15.4%) patients in the doxorubicin group, and 10 (12.3%) in the pazopanib group. The RR of 1.25 (95% CI 0.49 to 3.18) is considered clinically relevant in favor of the pazopanib group. 

 

Gemcitabine and docetaxel

Seddon (2017) observed response rates in 25 (19%) patients in the doxorubicin group, and 25 (20%) patients in the gemcitabine and docetaxel group, by local investigators according to RECIST (complete or partial response). The RR of 0.99 (95% CI 0.60 to 1.63) is not considered clinically relevant.

 

Quality of life

Doxorubicin add-on

Doxorubicin and trabectedin in leiomyosarcoma

Pautier (2022) did not report the outcome quality of life.

 

Doxorubicin and trabectedin in soft tissue sarcomas

Martin-Broto (2016) did not report the outcome quality of life.

 

Doxorubicin and ifosfamide

Judson (2014) did not report the outcome quality of life.  

 

Doxorubicin substitution

Trabectedin

Bui-Nguyen (2015) did not report the outcome quality of life.

 

Pazopanib

Grunwald (2020) reported on global health status using the EORTC QLQ-C30, European Organisation for Research and Treatment of Cancer (30-item) Quality of Life Questionnaire; the  (EORTC QLQ-C30) to assess global HR-QoL in patients with cancer (not specified scale scoring). However, only baseline QoL scores were reported.  

 

Gemcitabine and docetaxel

Seddon (2017) had insufficient questionnaires returned in order to assess quality of life at 18 weeks. Quality-of-life measures did not differ between the treatment groups at 12 weeks

post-randomization.

 

Safety (adverse events and toxicity)

Doxorubicin add-on

Doxorubicin and trabectedin in leiomyosarcoma

Pautier (2022) reported adverse events (grade 3-4) using the National Cancer Institute Common Terminology Criteria for Adverse Events among 39 (52%) and 71 (96%) of the patients in respectively the doxorubicin and doxorubicin plus trabectedin group, with most of these being hematological events (neutropenia, anemia, thrombocytopenia, and febrile neutropenia). The RD of -0.45 (95% CI -0.57 to -0.33) is considered clinically relevant in favor of the doxorubicin group. Additionally, in the doxorubicin and doxorubicin plus trabectedin group, 3 (4%) and 17 (23%) of the patients stopped treatment because of toxicity. The RD of -0.19 (95% CI -0.30 to -0.08) is not considered clinically relevant.

 

Doxorubicin and trabectedin in soft tissue sarcomas

Martin-Broto (2016) reported adverse events in accordance with the National Cancer Institute’s common Terminology Criteria for Adverse Events version 3.0, see Table 2. The differences between the groups with regard to these adverse events are not clinically relevant.

 

Table 2 – Adverse events: worst toxicity by patient, grade 3 or 4

Type of adverse event

Doxorubicin group (n=59)

Doxorubicin + trabectedin group (n=54)

Thrombopenia

2%

18%

Neutropenia

36%

55%

Nausea

2%

8%

Stomatitis

0%

8%

Febrile neutropenia

24%

32%

 

Doxorubicin and ifosfamide

Judson (2014) reported Grade 3 and 4 toxic effects graded according to International Common Toxicity Criteria. Some adverse events (Grade 3-4) listed and reported were: leucopenia, neutropenia, febrile neutropenia, anemia, and thrombocytopenia, see Table 5. The differences between the groups with regard to leucopenia, febrile neutropenia, anemia and thrombocytopenia are clinically relevant in favor of the doxorubicin group. For neutropenia the difference is not considered clinically relevant.

 

Table 5 – Adverse events, grade 3-4

Type of adverse event

Doxorubicin group (n=228)

Doxorubicin + ifosfamide group (n=227)

Leucopenia

40 (18%)

97 (43%)

Neutropenia

83 (37%)

93 (42%)

Febrile neutropenia

30 (13%)

103 (46%)

Anemia

10 (5%)

78 (35%)

Thrombocytopenia

1 (<1%)

75 (33%)

 

Doxorubicin substitution

Trabectedin

Bui-Nguyen (2015) reported various adverse events (grade 3-4), see Table 5. The differences between the groups with regard to these adverse events are not clinically relevant.

 

Table 6 – Adverse events, grade 3-4

Type of adverse event

Doxorubicin group (n=40)

Trabectedin groups (n=87)

Nausea

2 (5.0%)

8 (8.9%)

Febrile neutropenia

3 (7.5%)

11 (12.2%)

Thrombocytopenia

1 (2.5%)

14 (15.6%)

Neutropenia

23 (57.5%)

41 (45.6%)

Fatigue

2 (5.0%)

6 (6.7%)

 

Toxicity was reported in 1 (2.5%) and 15 (16.7%) patients in the doxorubicin and trabectedin groups. The RD of -0.10 (95% CI -0.25 to 0.05) is not considered clinically relevant.

 

Pazopanib

Grunwald (2020) reported any event (Grade 3-4) according to the classification of the Common Terminology Criteria for Adverse Events (CTCAE 4.0) in 35 (94.6%) of the patients in the doxorubicin group, and 66 (81.5%) of the patients in the pazopanib group. The RD of 0.08 (95% CI -0.04 to 0.21) is not considered clinically relevant.

Treatment-related severe adverse events were respectively reported among 10 (27%) of the patients in the doxorubicin group, and 27 (33.3%) of the patients in the pazopanib group. The difference of -6.3% is not clinically relevant.

 

Gemcitabine and docetaxel

Seddon (2017) reported adverse events according to the National Cancer Institute Common Terminology Criteria for Adverse Events (CTCAE) version 4.0. The three most common Grade 3-4 serious adverse events were febrile neutropenia, fever, and neutropenia, see Table 7. The differences between the groups with regard to these adverse events are not clinically relevant.

 

Table 7 – Adverse events, grade 3-4

Type of adverse event

Doxorubicin group (n=40)

Trabectedin groups (n=87)

Febrile neutropenia

27 (17%)

15 (12%)

Fever

18 (12%)

19 (15%)

Neutropenia

22 (14%)

10 (8%)

 

Level of evidence of the literature

The level of evidence for all outcomes was based on randomized controlled trials and therefore started at high.

 

Overall survival

Doxorubicin add-on

Doxorubicin and trabectedin in leiomyosarcoma

The level of evidence regarding the outcome measure overall survival was downgraded by two levels to low because of study design (open-label study) (risk of bias, -1), and OIS not met (imprecision, -1).

 

Doxorubicin and trabectedin in soft tissue sarcomas

The level of evidence regarding the outcome measure overall survival was downgraded by two levels to low because of study design (open-label study) (risk of bias, -1), and OIS not met (imprecision, -1).

 

Doxorubicin and ifosfamide

For the outcome measure overall survival, the level of evidence was downgraded by two levels to low due to study limitations (blinding not reported, risk of bias, -1) and OIS not met (imprecision, -1).

 

Doxorubicin substitution

Trabectedin

The level of evidence regarding the outcome measure overall survival was downgraded by two levels to low because of study design (open-label study) (risk of bias, -1), and OIS not met (imprecision, -1).

 

Pazopanib

The level of evidence regarding the outcome measure overall survival was downgraded by two levels to low due to study limitations (no reporting of concealment of allocation and loss to follow-up) (risk of bias, -1) and OIS not met (imprecision, -1).

 

Gemcitabine and docetaxel

For the outcome overall survival, the level of evidence was downgraded by two levels to low due to study limitations (no blinding, risk of bias, -1) and OIS not met (imprecision, -1).

 

Progression-free survival

Doxorubicin add-on

Doxorubicin and trabectedin in leiomyosarcoma

The level of evidence regarding the outcome measure progression-free survival was downgraded by two levels to low because of study design (open-label study) and unreported concealment of allocation (risk of bias, -1), and due to the confidence interval crossing the border of clinical relevance (imprecision, -1).

 

Doxorubicin and trabectedin in soft tissue sarcomas

The level of evidence regarding the outcome measure progression-free survival was downgraded by two levels to low because of study design (open-label study) and unreported concealment of allocation (risk of bias, -1), and due to the confidence interval crossing the border of clinical relevance (imprecision, -1).

 

Doxorubicin and ifosfamide

The level of evidence regarding the outcome measure progression-free survival was downgraded by two levels to low due to study limitations (blinding not reported, risk of bias, -1) and OIS not met (imprecision, -1).

 

Doxorubicin substitution

Trabectedin

The level of evidence regarding the outcome measure progression-free survival was downgraded by two levels to low because of study design (open-label study) and unreported concealment of allocation (risk of bias, -1), and due to the confidence interval crossing the border of clinical relevance (imprecision, -1).

 

Pazopanib

The level of evidence regarding the outcome measure progression-free survival was downgraded by two levels to low due to study limitations (no reporting of concealment of allocation and loss to follow-up) (risk of bias, -1) and OIS not met (imprecision, -1).

 

Gemcitabine and docetaxel

The level of evidence regarding the outcome measure progression-free survival was downgraded by two levels to low due to study limitations (no blinding, risk of bias, -1) and OIS not met (imprecision, -1).

 

Response rate

Doxorubicin add-on

Doxorubicin and trabectedin in leiomyosarcoma

The level of evidence regarding the outcome measure response rate was downgraded by two levels low because of study design (open-label study), concealment of allocation not reported (risk of bias, -1) and OIS not met (imprecision, -1). 

 

Doxorubicin and trabectedin in soft tissue sarcomas

The level of evidence regarding the outcome measure response rate was downgraded by two levels low because of study design (open-label study), concealment of allocation not reported (risk of bias, -1) and OIS not met (imprecision, -1). 

 

Doxorubicin and ifosfamide

The level of evidence regarding the outcome measure response rate was downgraded by

by two levels to low due to study limitations (blinding not reported, risk of bias, -1) and OIS not met (imprecision, -1).

 

Doxorubicin substitution

Trabectedin

The level of evidence regarding the outcome measure response rate was downgraded by two levels low because of study design (open-label study), concealment of allocation not reported (risk of bias, -1) and OIS not met (imprecision, -1). 

 

Pazopanib

The level of evidence regarding the outcome measure response rate was downgraded by three levels to very low due to study limitations (no reporting of concealment of allocation and loss to follow-up) (risk of bias, -1) and the confidence interval crossing the border of clinical relevance on both sides  (imprecision, -2).   

 

Gemcitabine and docetaxel

The level of evidence regarding the outcome measure response rate was downgraded by two levels to low due to study limitations (no blinding, risk of bias, -1) and OIS not met (imprecision, -1).

 

Quality of life

Doxorubicin add-on

Doxorubicin and trabectedin in leiomyosarcoma

As none of the included studies reported data on quality of life, it was not possible to determine the level of evidence.

 

Doxorubicin and trabectedin in soft tissue sarcomas

As none of the included studies reported data on quality of life, it was not possible to determine the level of evidence.

 

Doxorubicin and ifosfamide

As none of the included studies reported data on quality of life, it was not possible to determine the level of evidence.

 

Doxorubicin substitution

Trabectedin

As none of the included studies reported data on quality of life, it was not possible to determine the level of evidence.

 

Pazopanib

As none of the included studies reported data on quality of life, it was not possible to determine the level of evidence.

 

Gemcitabine and docetaxel

As none of the included studies reported data on quality of life, it was not possible to determine the level of evidence.

 

Safety

Doxorubicin add-on

Doxorubicin and trabectedin in leiomyosarcoma

The level of evidence regarding the outcome measure safety was downgraded by two levels to low because of study design (open-label study, not reporting concealment of allocation) and OIS not met (imprecision, -1).

 

Doxorubicin and trabectedin in soft tissue sarcomas

The level of evidence regarding the outcome measure safety was downgraded by two levels to low because of study design (open-label study, not reporting concealment of allocation) and OIS not met (imprecision, -1).

 

Doxorubicin and ifosfamide

The level of evidence regarding the outcome measure safety was downgraded by

by two levels to low due to study limitations (blinding not reported, risk of bias, -1) and OIS not met (imprecision, -1).

 

Doxorubicin substitution

Trabectedin

The level of evidence regarding the outcome measure safety was downgraded by two levels to low because of study design (open-label study, not reporting concealment of allocation) and OIS not met (imprecision, -1).

 

Pazopanib

The level of evidence regarding the outcome measure safety was downgraded by

by two levels to low due to study limitations (no reporting of concealment of allocation and loss to follow-up) (risk of bias, -1) and OIS not met (imprecision, -1).

 

Gemcitabine and docetaxel

The level of evidence regarding the outcome measure safety was downgraded by two levels to low due to study limitations (no blinding, risk of bias, -1) and OIS not met (imprecision, -1).

 

A systematic review of the literature was performed to answer the following question:  What is the effectivity and safety of first-line chemotherapy X compared to first-line chemotherapy Y in patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcoma?

 

P: patients with locally advanced (primary irresectable) and/or metastatic soft tissue sarcomas

I: first-line chemotherapy X

C: first-line chemotherapy Y (doxo/anthracyclines)

O: overall survival, progression-free survival, response rate, quality of life, safety

 

Relevant outcome measures

The guideline development group considered overall survival as a critical outcome measure for decision making; and progression-free survival, response rate, quality of life, and safety (adverse events) as important outcome measures for decision making.

 

A priori, the working group did not define the outcome measures overall survival, progression-free survival, response rate and quality of life but used the definitions used in the studies. Safety was defined as adverse events such as febrile neutropenia, cardiotoxicity, stomatitis, fatigue

 

The working group defined the minimal clinically (patient) important differences for the outcomes overall survival based on the PASKWIL criteria (NVMO, 2023) and for the other outcomes based on relevant literature:

It should however be noted that PASKWIL criteria apply to new drugs and none of the drugs below are considered as new drugs anymore.

  • Overall survival:
    • Median OS control group ≤12 months: >12 weeks benefit and Hazard Ratio (HR) <0.7
    • Median OS control group >12 months: >16 weeks benefit and Hazard Ratio (HR) <0.7
  • Progression free survival: HR < 0.60.
  • Response rate: 25% difference, Risk ratio (RR) <0.8 or >1.25
  • Quality of life: The minimum important difference (MID) has been estimated to be a difference of 0.08 or more points for the EQ-5D utility index and seven or more points for the EQ-5D VAS (Pickard, 2007). For quality of life measured with the EORTC QLQ-C30, a difference of 10 points was considered as a clinical important difference (Fiteni, 2016)
  • Safety: adverse events including wound complications, lethal >5%, acute or severe >25%.

Search and select (Methods)

The databases Ovid/Medline, Embase were searched with relevant search terms from 2015 until 6 June 2023. The detailed search strategy is depicted under the tab Methods. The systematic literature search resulted in 495 hits. Subsequently, the references of the ESMO EURACAN GENTURIS Clinical Practice Guidelines (2021) were searched for additional relevant studies published before 2015. Studies were selected based on the following criteria:

  • Study design: randomized controlled trial or systematic review.
  • Patients with locally advanced or metastatic soft tissue sarcoma who received first line chemotherapy.
  • Comparing doxorubicin with a different type of chemotherapy (available in the Netherlands).
  • Describing at least one of the relevant outcomes specified in the PICO.
  • Published from 2015.

A total of 34 studies were initially selected based on title and abstract screening. After reading the full text, 24 studies were excluded (see the table with reasons for exclusion under the tab Methods), and 5 studies were included. Subsequently, the references of the ESMO guidelines for soft tissue and visceral sarcomas (Gronchi, 2021) were searched for additional relevant studies published before 2015. As a result, one additional study was included (Judson, 2014).

 

Results

Six studies were included in the analysis of the literature. Important study characteristics and results are summarized in the evidence tables. The assessment of the risk of bias is summarized in the risk of bias tables.

  1. Bui-Nguyen B, Butrynski JE, Penel N, Blay JY, Isambert N, Milhem M, Kerst JM, Reyners AK, Litière S, Marréaud S, Collin F, van der Graaf WT; European Organisation for Research and Treatment of Cancer Soft Tissue and Bone Sarcoma Group (EORTC/STBSG) and the Sarcoma Alliance for Research through Collaboration (SARC). A phase IIb multicentre study comparing the efficacy of trabectedin to doxorubicin in patients with advanced or metastatic untreated soft tissue sarcoma: the TRUSTS trial. Eur J Cancer. 2015 Jul;51(10):1312-20. doi: 10.1016/j.ejca.2015.03.023. Epub 2015 Apr 23. PMID: 25912752.
  2. Fiteni F, Anota A, Bonnetain F, Oster JP, Pichon E, Wislez M, Dauba J, Debieuvre D, Souquet PJ, Bigay-Game L, Molinier O, Dansin E, Poudenx M, Milleron B, Morin F, Zalcman G, Quoix E, Westeel V. Health-related quality of life in elderly patients with advanced non-small cell lung cancer comparing carboplatin and weekly paclitaxel doublet chemotherapy with monotherapy. Eur Respir J. 2016 Sep;48(3):861-72. doi: 10.1183/13993003.01695-2015. Epub 2016 Jun 23. PMID: 27338193.
  3. Gronchi A, Miah AB, Dei Tos AP, Abecassis N, Bajpai J, Bauer S, Biagini R, Bielack S, Blay JY, Bolle S, Bonvalot S, Boukovinas I, Bovee JVMG, Boye K, Brennan B, Brodowicz T, Buonadonna A, De Álava E, Del Muro XG, Dufresne A, Eriksson M, Fagioli F, Fedenko A, Ferraresi V, Ferrari A, Frezza AM, Gasperoni S, Gelderblom H, Gouin F, Grignani G, Haas R, Hassan AB, Hecker-Nolting S, Hindi N, Hohenberger P, Joensuu H, Jones RL, Jungels C, Jutte P, Kager L, Kasper B, Kawai A, Kopeckova K, Krákorová DA, Le Cesne A, Le Grange F, Legius E, Leithner A, Lopez-Pousa A, Martin-Broto J, Merimsky O, Messiou C, Mir O, Montemurro M, Morland B, Morosi C, Palmerini E, Pantaleo MA, Piana R, Piperno-Neumann S, Reichardt P, Rutkowski P, Safwat AA, Sangalli C, Sbaraglia M, Scheipl S, Schöffski P, Sleijfer S, Strauss D, Strauss S, Sundby Hall K, Trama A, Unk M, van de Sande MAJ, van der Graaf WTA, van Houdt WJ, Frebourg T, Casali PG, Stacchiotti S; ESMO Guidelines Committee, EURACAN and GENTURIS. Electronic address: clinicalguidelines@esmo.org. Soft tissue and visceral sarcomas: ESMO-EURACAN-GENTURIS Clinical Practice Guidelines for diagnosis, treatment and follow-up?. Ann Oncol. 2021 Nov;32(11):1348-1365. doi: 10.1016/j.annonc.2021.07.006. Epub 2021 Jul 22. PMID: 34303806.
  4. Grünwald V, Karch A, Schuler M, Schöffski P, Kopp HG, Bauer S, Kasper B, Lindner LH, Chemnitz JM, Crysandt M, Stein A, Steffen B, Richter S, Egerer G, Ivanyi P, Zimmermann S, Liu X, Kunitz A. Randomized Comparison of Pazopanib and Doxorubicin as First-Line Treatment in Patients With Metastatic Soft Tissue Sarcoma Age 60 Years or Older: Results of a German Intergroup Study. J Clin Oncol. 2020 Oct 20;38(30):3555-3564. doi: 10.1200/JCO.20.00714. Epub 2020 Aug 24. PMID: 32840417.
  5. Judson I, Verweij J, Gelderblom H, Hartmann JT, Schöffski P, Blay JY, Kerst JM, Sufliarsky J, Whelan J, Hohenberger P, Krarup-Hansen A, Alcindor T, Marreaud S, Litière S, Hermans C, Fisher C, Hogendoorn PC, dei Tos AP, van der Graaf WT; European Organisation and Treatment of Cancer Soft Tissue and Bone Sarcoma Group. Doxorubicin alone versus intensified doxorubicin plus ifosfamide for first-line treatment of advanced or metastatic soft-tissue sarcoma: a randomised controlled phase 3 trial. Lancet Oncol. 2014 Apr;15(4):415-23. doi: 10.1016/S1470-2045(14)70063-4. Epub 2014 Mar 5. PMID: 24618336.
  6. Martin-Broto J, Pousa AL, de Las Peñas R, García Del Muro X, Gutierrez A, Martinez-Trufero J, Cruz J, Alvarez R, Cubedo R, Redondo A, Maurel J, Carrasco JA, López-Martin JA, Sala Á, Meana JA, Ramos R, Martinez-Serra J, Lopez-Guerrero JA, Sevilla I, Balaña C, Vaz Á, De Juan A, Alemany R, Poveda A. Randomized Phase II Study of Trabectedin and Doxorubicin Compared With Doxorubicin Alone as First-Line Treatment in Patients With Advanced Soft Tissue Sarcomas: A Spanish Group for Research on Sarcoma Study. J Clin Oncol. 2016 Jul 1;34(19):2294-302. doi: 10.1200/JCO.2015.65.3329. Epub 2016 May 16. PMID: 27185843.
  7. Martin-Broto J, Cruz J, Penel N, Le Cesne A, Hindi N, Luna P, Moura DS, Bernabeu D, de Alava E, Lopez-Guerrero JA, Dopazo J, Peña-Chilet M, Gutierrez A, Collini P, Karanian M, Redondo A, Lopez-Pousa A, Grignani G, Diaz-Martin J, Marcilla D, Fernandez-Serra A, Gonzalez-Aguilera C, Casali PG, Blay JY, Stacchiotti S. Pazopanib for treatment of typical solitary fibrous tumours: a multicentre, single-arm, phase 2 trial. Lancet Oncol. 2020 Mar;21(3):456-466. doi: 10.1016/S1470-2045(19)30826-5. Epub 2020 Feb 14. PMID: 32066540.
  8. Nederlandse Vereniging voor Medische Oncologie (NVMO). PASKWIL-criteria. (last accessed October 2023).
  9. Pautier P, Italiano A, Piperno-Neumann S, Chevreau C, Penel N, Firmin N, Boudou-Rouquette P, Bertucci F, Balleyguier C, Lebrun-Ly V, Ray-Coquard I, Kalbacher E, Bardet A, Bompas E, Collard O, Isambert N, Guillemet C, Rios M, Archambaud B, Duffaud F; French Sarcoma Group. Doxorubicin alone versus doxorubicin with trabectedin followed by trabectedin alone as first-line therapy for metastatic or unresectable leiomyosarcoma (LMS-04): a randomised, multicentre, open-label phase 3 trial. Lancet Oncol. 2022 Aug;23(8):1044-1054. doi: 10.1016/S1470-2045(22)00380-1. Epub 2022 Jul 11. PMID: 35835135.
  10. Pautier, P., Italiano, A., Piperno-Neumann, S., Chevreau, C. M., Penel, N., Firmin, N., ... & Duffaud, F. (2023). 1913O A randomised, multicenter phase-III study comparing doxorubicin (dox) alone versus dox with trabectedin (trab) followed by trab in non-progressive patients (pts) as first-line therapy, in pts with metastatic or unresectable leiomyosarcoma (LMS): Final results of the LMS-04 study. Annals of Oncology, 34, S1030.
  11. Penel N, Bui BN, Bay JO, Cupissol D, Ray-Coquard I, Piperno-Neumann S, Kerbrat P, Fournier C, Taieb S, Jimenez M, Isambert N, Peyrade F, Chevreau C, Bompas E, Brain EG, Blay JY. Phase II trial of weekly paclitaxel for unresectable angiosarcoma: the ANGIOTAX Study. J Clin Oncol. 2008 Nov 10;26(32):5269-74. doi: 10.1200/JCO.2008.17.3146. Epub 2008 Sep 22. PMID: 18809609.
  12. Pickard AS, Neary MP, Cella D. Estimation of minimally important differences in EQ-5D utility and VAS scores in cancer. Health Qual Life Outcomes. 2007 Dec 21;5:70. doi: 10.1186/1477-7525-5-70. Erratum in: Health Qual Life Outcomes. 2010;8:4. PMID: 18154669; PMCID: PMC2248572.
  13. Seddon B, Strauss SJ, Whelan J, Leahy M, Woll PJ, Cowie F, Rothermundt C, Wood Z, Benson C, Ali N, Marples M, Veal GJ, Jamieson D, Küver K, Tirabosco R, Forsyth S, Nash S, Dehbi HM, Beare S. Gemcitabine and docetaxel versus doxorubicin as first-line treatment in previously untreated advanced unresectable or metastatic soft-tissue sarcomas (GeDDiS): a randomised controlled phase 3 trial. Lancet Oncol. 2017 Oct;18(10):1397-1410. doi: 10.1016/S1470-2045(17)30622-8. Epub 2017 Sep 4. PMID: 28882536; PMCID: PMC5622179.

 

Study reference

Study characteristics

Patient characteristics 2

Intervention (I)

Comparison / control (C) 3

 

Follow-up

Outcome measures and effect size 4

Comments

Pautier (2022)

Type of study:

RCT (LMS-04 was a multicenter, open-label, randomized,

phase 3 superiority study)

 

Setting and country:

Patients included from 20 centers of the French Sarcoma Group (anticancer centers or hospitals with an oncological unit) in France.

 

Funding and conflicts of interest:

Funding: PharmaMar.

 

All authors declare no competing interests.

 

 

Inclusion criteria:

- Patients included had histologically confirmed diagnosis

by experts, -18 years or older, -eastern cooperative oncology group performance status of less than 2, -adequate haematological, liver, and cardiac functions.

 

Exclusion criteria:

-patients history of malignancy, -who were in complete remission for less than 3 years, -who had CNS metastases

 

N total at baseline: 150

Intervention: 76

Control: 74

 

Important prognostic factors2:

For example

Median age:

I: 64 (53-69)

C: 59 (52-68)

 

Sex:

I: 17/76 (22%) M

C: 21/74 (28%) M

 

Groups comparable at baseline? yes

 

Describe intervention (treatment/procedure/test):

 

Doxorubicin alone as firstline therapy for metastatic or unresectable leiomyosarcoma

(uterine or soft tissue).

Patients received doxorubicin (75 mg/m²) alone once every 3 weeks for up to six cycles via the central venous route per slow perfusion for 10–15 min. An injection of subcutaneous lenograstim (granulocyte-colony

stimulation factor) was given every day from day 3 to day 9. No maintenance treatment was allowed in the doxorubicin alone group.

 

Surgery for residual disease (primary tumor or

metastasis, or both) was allowed in both groups (except for progressive disease) after six cycles according to investigator decisions;

 

A maximum of two dose reductions for each drug were permitted.

 

 

Describe  control (treatment/procedure/test):

 

doxorubicin plus trabectedin followed by trabectedin alone in patients without progression (doxorubicin plus trabectedin group) as firstline therapy for metastatic or unresectable leiomyosarcoma

(uterine or soft tissue).

In the doxorubicin plus trabectedin group, patients

received doxorubicin (60 mg/m²) for 10–15 min via central

venous perfusion followed by a 3-h central venous

perfusion of 1·1 mg/m² trabectedin on day 1. Pretreatment

with 20 mg dexamethasone was administered 30 min

before trabectedin. An injection of pegfilgrastim (6 mg;

pegylated granulocyte-colony stimulation factor) was

administered on day 2 subcutaneously. Treatment was

administered every 3 weeks for a maximum of six cycles. Patients in the doxorubicin plus trabectedin group

without progression after six cycles of doxorubicin and

trabectedin (with or without surgery) received maintenance

trabectedin (1·1 mg/m²) via central venous perfusion for

3 h (even in the case of previous dose reductions of

trabectedin in the combined phase with doxorubicin) after premedication with intravenous dexamethasone (20 mg). Maintenance trabectedin was administered every 3 weeks

until disease progression or for a maximum period of

12 months of treatment (maximum 17 cycles in

maintenance therapy), whichever occurred first.

 

Surgery for residual disease (primary tumor or

metastasis, or both) was allowed in both groups (except for progressive disease) after six cycles according to investigator decisions;

 

A maximum of two dose reductions for each drug were permitted.

Length of follow-up:

48 months

 

Loss-to-follow-up: not reported

Intervention:

N (%)

Reasons (describe)

 

Control:

N (%)

Reasons (describe)

 

Incomplete outcome data:

Intervention:

N (%)

Reasons (describe)

 

Control:

N (%)

Reasons (describe)

 

 

Outcome measures and effect size (include 95%CI and p-value if available):

 

Overall survivald

I: 26 (34.2%)

C: 32 (43.2%)

 

progression free survivalb

12 months:

I: 16.0% (95% CI 9.4-25.9]

C: 50.7% [95% CI 39.5-61.9]

 

24 months:

I: 5.3% [95% CI 2.1-12.9]

C: 30.2% [95% CI 20.9-41.5]

 

Median PFS:

I: 6.2 months (95 % CI, 4.1 to 7.1)

C: 12.2 months (95% CI, 10.1 to 15.6)

 

 

Response rate, N (%)c

Complete and partial

I: 10 (13%)

C: 27 (36%)  

(difference 23% [95% CI 10–37]; p=0·0009)

 

quality of life

not reported

 

safety (adverse eventsa and toxicitye)

Stopped treatment because of toxicity

I: 3 (4%)

C: 17 (23%)

Adverse events (grade 3-4) reported

I: 39 (52%)

C: 71 (96%)

 

 

-Conclusion: LMS-04 met its primary endpoint, identifying a statistically significant improvement in progression-free-survival with

the doxorubicin plus trabectedin combination compared with standard-of-care doxorubicin alone as a first-line treatment for metastatic leiomyosarcomas. This improvement was observed both in the uterine and the soft tissue populations.

 

Comments

 

-Clinical trial number registered.

 

-Funding: PharmaMar.

 

a= adverse events assessed using the National Cancer Institute Common Terminology Criteria for Adverse Events.

 

b= progression free survival was defined as the time from random assignment until date of progression, established on the basis of RECIST criteria, or the date of death from any cause,whichever occurred first.

 

c=   The response rate was defined as the proportion of patients with all complete or partial responses according to RECIST criteria. The response taken into consideration was the best response during the six induction cycles.

 

d= Overall survival was defined as the time from the date of random assignment to the date of death from any cause.

 

e= Because maintenance with trabectedin after six cycles of the combined therapy was a new method, the toxicity was

monitored in the first ten patients on maintenance in

group B and was discussed with the internal data safety

monitoring board.

Bui-Nguyen

 (2015)

 

 

 

 

Type of study:

randomized multicenter prospective dose-selection ( a multicenter, phase IIB study followed by a phase III study).

 

Setting and country:

Multiple centers in different countries such as United States, Austria, Belgium, Denmark, France, Germany, Hungary, the Netherlands, Poland, Slovakia, Spain, Switzerland, United Kingdom

 

Funding and conflicts of interests:

Nicolas Penel declares receiving funding from

Pharmamar, Novartis, Bayer Healthcare, Roche, and

Janssen Cilag and discloses a consultant or advisory role

for Pharmamar and Bayer Healthcare. Jean Yves Blay

declares receiving research funding from and having a

consultant or advisory role with Pharmamar; and

Winetter TA van der Graaf declares receiving speaker’s

bureau from GlaxoSmithKline and receiving research

funding from GlaxoSmithKline and Novartis. All other authors declare no conflicts of interest.

 

Inclusion criteria:

- Eligible patients were >=18 years old,

- Had one of the

following histologically-confirmed advanced and/or metastatic STS of grades II/III and with progressive disease as assessed by the local investigator, 

- Patients had the presence of measurable disease according to response

evaluation criteria in solid tumors (RECIST 1.1),

- World Health Organisation (WHO) performance

status (PS) 0 or 1,

- Having adequate bone marrow (absolute

neutrophils count (ANC) >= 1.5 X 109 /L,

- Hemoglobin

(HB) >= 9 g/dL or HB >= 5.6 mmol/L,

- Platelets

(PLT) P 100 >= 109/L),

- Hepatic (bilirubin 6 ULN,

alanine aminotransferase (SGPT/ALT) and aspartate

aminotransferase (SGOT/AST) =< 2.5 X ULN) and renal (serum creatinine =< 1.5 X ULN) functions,

- Normal left ventricular ejection fraction (LVEF) assessed by echocardiography or multiple gated acquisition scan (MUGA),

- Alkaline phosphatase =< 2.5 X ULN and

albumin P 25 g/L. Additionally, - For women of childbearing potential and men

the use of an effective contraception was mandatory.

 

Exclusion criteria:

-Patient had received any anti-cancer therapy

including other systemic therapy, radiotherapy and surgery, within 28 days prior to treatment start. Additionally, main exclusion criteria included;                              -patients with central nervous system metastases or leptomeningeal tumor spread,

- history

of malignancies other than STS,

-patients with in situ carcinoma of the cervix,     -patients with resected incidental prostate cancer staged pT2 with Gleason score 66 and postoperative prostate-specific antigen (PSA) < 0.5 ng/ml) within the past

5 years.

 

N total at baseline: 133

Intervention: 43

Control T3h + T24h: 90

 

Important prognostic factors2:

For example

Age (y): Median (range)

I: 60 (24-77)

C T3h: 60 (34-84)

C T24h: 60 (23-78)

 

Sex:

I: 18 (41.9%) M

C T3h: 18 (38.3%) M

C T24h: 20 (46.5%)M

 

Groups comparable at baseline?

 

Describe intervention (treatment/procedure/test):

 

Patients with advanced/metastatic soft tissue sarcoma receiving   doxorubicin hydrochloride 75 mg/m2 infusion on day 1 every 3 weeks. Treatment repeats every 3 weeks for 6 courses in the absence of disease progression or unacceptable toxicity.

 

Describe  control (treatment/procedure/test):

 

Patients with advanced/metastatic soft tissue sarcoma

 

T3h investigational arm consisting of trabectedin

1.3 mg/m2 /3-hour intravenous infusion on day 1 every 3 weeks. Courses repeat every 3 weeks in the absence of disease progression or unacceptable toxicity;

(ii) T24h investigational arm consisting of trabectedin 1.5 mg/m2/24 hour intravenous infusion on day 1 every 3 weeks. Courses repeat every 3 weeks in the absence of disease progression or unacceptable toxicity.

 

 

 

 

 

 

Length of follow-up:

Not specified. In article stated that; ‘’AEs were assessed every 6 weeks during the first 3 months

and every 12 weeks thereafter. After progression,

patients were followed-up every 12 weeks for survival.’’ And,

‘’Median follow-up per arm was: 7.8 months

(interquartile range (IQR) 5.4–10.3) doxorubicin,

8.0 months (IQR 6.4–11.3) T3h, and 7.9 months (IQR

5.7–11.3) T24h.

E.g. Overall survival (start date ‘June 2011 and August 2012’-the clinical cut-off date for analysis was 15th March 2013).’’

 

In the phase III trial – not this study, patients complete quality of life questionnaire (EORTC QLQ-C30 version 3) at baseline, at 6, 12, 24, and 36 weeks during study, and at the end of study.

After completion of study therapy, patients are followed up at 1 month, every 6 or 12 weeks until disease progression, and every 12 weeks thereafter.

 

Loss-to-follow-up: not reported

Intervention:

N (%)

Reasons (describe)

 

Control:

N (%)

Reasons (describe)

 

Incomplete outcome

Outcome measures and effect size (include 95%CI and p-value if available):

 

For the outcome measures: T3h and T24 h were added up.

 

Overall survivalc (N, %)

I: 33 (76.7%).

C: 64 (71.1%)

 

Progression-free survivalb:  (N, %)

6 months:

I: 16 (38%)

C: 32 (37%)

 

12 months

I:  8 (18%)

C:  15 (17%)

 

Median PFSb

I: 5.5 months

C T3H: 2.8 months

C T24H: 3.1 months

 

(objective) response ratea

I: 27 (62.8%)

C: 52 (57.8%)

 

Quality of life

Not reported

 

Safety (adverse events and toxicity) (Grade 3-4)d

Nausea (N, %):

I: 2 (5.0%)

C: 8 (8.9%)

Febrile neutropeniaI:

I: 3 (7.5%)

C: 11 (12.2%)

Thrombocytopenia

I: 1 (2.5%)

C: 14 (15.6%)

Neutropenia

I: 23 (57.5%)

C: 41 (45.6%)

Fatigue

I: 2 (5.0%)

C: 6 (6.7%)

 

Toxicity  (N, %)

I: 1 (2.5%)

C: 15 (16.7%)

 

Conclusion:  Doxorubicin continues to be the standard treatment in eligible patients with advanced/metastatic soft-tissue sarcoma (STS).

 

c= Overall survival was determined from the date of randomization to the date of death, whatever

the cause. Patients still alive at the time of analysis were

censored at the date of their last follow-up.

 

b=PFS, defined as the time

from random assignment until the date of either objective progression by RECIST 1.1, discontinuation of treatment or death from any cause.

 

a=  disease control rates (stabilisation or partial/complete responses)

 

Response duration was determined from the time when measurement criteria were first met until the first date of objectively documented progression or death. Stable disease duration was measured in the subset of patients achieving at least stable disease, from the date of randomization until the criteria for progression were met. For patients without progression, response duration and stable disease duration were censored at the date of the last tumor assessment.

 

d=  The most frequent grade 3–4 AE were haematologic.

Seddon (2017)

Type of study:

RCT phase 3

 

Setting and country:

Between Dec 3, 2010, and Jan 20, 2014, patients were recruited in 24 UK hospitals and one Swiss

Group for Clinical Cancer Research (SAKK) hospital.

 

Funding and conflicts of interests:

The GeDDiS trial was funded by Cancer Research UK (C2921/A11561),

with separate funding obtained from Sarcoma UK (SUK16.2015) to

support the pharmacogenomics studies described. Funding from Cancer

Research UK supported the central coordination of the trial.

 

Declaration of interests

BS has received honoraria and travel grants from Novartis, Pharmamar,

Ariad, Clinigen, Daiichi, and Lilly. SJS has received honoraria and travel

grants from Lilly Oncology, Pharmamar, and Pfizer. PJW has received

honoraria from Amgen, Bristol-Myers Squibb, Lilly, and Theradex, and

research grants from AstraZeneca, Pfizer, and Virtuu. CR has received

honoraria from Pfizer, GlaxoSmithKline, Novartis, and Astellas and a

research grant from Astellas. MM has received honoraria from Pharmamar and Pierre Fabre, and sponsorship for conferences from

Roche and Bristol-Myers Squibb. NA has received sponsorship and

funding for conferences from Pharmamar and Roche. SB has received

grants from AstraZeneca and professional fees from Biocompatibles.

JW, ML, FC, ZW, CB, GJV, DJ, KK, RT, SF, SN, and H-MD declare no

competing interests

 

 

Inclusion criteria:

-at least 13 years old (with the aim to encourage participation

of the teenage and young adult population), -with

histological confirmation of high-grade advanced softtissue sarcoma (defined as Trojani grade 2 or 3), measurable disease according to the Response Evaluation

Criteria In Solid Tumors version 1.1 (RECIST 1.1), -evidence of disease progression in the previous 6 months

(defined as radiological progression when comparing current imaging to a previous disease assessment done

within the previous 6 months; clinical progression was

accepted in patients for whom there were concerns

regarding treatment delays incurred by awaiting

radiological disease progression, on discussion with the

chief investigator), -no previous chemotherapy for

sarcoma, -no previous doxorubicin for any previously

treated cancer, -WHO performance status 0–2, -a life

expectancy of at least 3 months, -patients were required to

have adequate organ function (absolute neutrophil count

≥1·0×10⁹ per L; platelet count ≥100×10⁹ per L; bilirubin

≤1·5×upper limit of normal [ULN]; aspartate transaminase, alanine transaminase, or both ≤3·0×ULN;

alkaline phosphatase ≤3·0×ULN [patients were eligible

with a higher alkaline phosphatase concentration if this

was shown to be due to bone isoenzyme]; measured or

calculated creatinine clearance ≥30 mL/min; and cardiac

ejection fraction within local normal limits), and -tumor

tissue was required to be available for central review.

 

Exclusion criteria:

- Patients were excluded from the trial if they had alveolar

soft part sarcoma, gastrointestinal stromal tumor, -Ewing’s sarcoma, alveolar or embryonal rhabdomyosarcoma,

desmoplastic small round cell tumor, extraskeletal myxoid

chondrosarcoma, dermatofibrosarcoma protuberans,

malignant mixed mesodermal tumor or carcinosarcoma

of the uterus, smooth muscle tumors of uncertain

malignant potential of uterus, known active or uncontrolled

brain metastases, active uncontrolled infection, or grade 3

or 4 peripheral neuropathy, -pregnant or lactating women

were excluded, -patients with a history of malignancy

other than sarcoma (exceptions included basal or squamous

cell carcinoma of the skin and carcinoma in situ of the

cervix, breast, or prostate) within 3 years before enrolment were also excluded.

 

N total at baseline: 257

Intervention: 129

Control: 128

 

Important prognostic factors2:

For example

Age±SD:

I (Dox): 56 (49.4-64.0)

C: 55 (45.6-64.0)

 

Sex:

I (DOX): 50 (39%) M

C: 51 (40%) M

 

Groups comparable at baseline? yes

Describe intervention (treatment/procedure/test):

 

Patients with advanced

or metastatic soft-tissue sarcoma received six cycles of intravenous doxorubicin 75 mg/m² on day 1 every 3 weeks. Dose

capping according to sites’ local policy and dose banding to

within plus or minus 5% of the calculated dose were

permitted. Pre-treatment and post-treatment anti-emetics

were given for all trial treatments, as per local anti-emetics policy. In both groups, patients completed up to six cycles of treatment in the absence of disease progression, intolerable side-effects, or withdrawal of consent.

 

 

 

Describe  control (treatment/procedure/test):

 

Patients with advanced

or metastatic soft-tissue sarcoma received intravenous gemcitabine

675 mg/m² on days 1 and 8 and intravenous docetaxel 75 mg/m² on day 8 every 3 weeks. Pre-treatment and post-treatment anti-emetics

were given for all trial treatments, as per local anti-emetics

policy. In both groups, patients completed up to six cycles

of treatment in the absence of disease progression,

intolerable side-effects, or withdrawal of consent.

 

 

 

Length of follow-up:

24 weeks after date of randomization.

 

Loss-to-follow-up: 3

 

Intervention: 1

N (%)

Reasons (describe) did not start treatment after allocation to intervention group

 

Control: 2

N (%)

Reasons (describe)

Did not start treatment after allocation to intervention group

 

Incomplete outcome

Outcome measures and effect size (include 95%CI and p-value if available):

 

Overall survivalb

At 24 weeks:

I: 86.8% (95% CI 79.6–91.6)

C: 82.6% (95% CI 74.8–88.2)

 

Progression-free survivala

At 12 weeks:

I: 72.1% [95% CI 63.5–79.0]

C: 63.8% [95%CI 54.8–71.5]

 

At 24 weeks:

I: 46.3% [95% CI 37.5–54.6]

C: 46.4% [95% CI 37.5–54.8]

 

(objective) response rated

I: 25 (19%)

C: 25 (20%)

 

Quality of life eInsufficient questionnaires

were returned to be able to assess quality of life at 18 weeks and 24 weeks (83 [32%] of 257 questionnaires were returned at both 18 weeks and 24 weeks, compared with

132 [51%] of 257 at 12 weeks.

 

Safety (adverse eventsc and toxicity)

Grade 3-4 adverse events

Febrile neutropenia

I: 27 [17%]

C: 15 [12%]

Fever

I: 18 (12%)

C: 19 (15%)

Neutropenia

I: 22 (14%)

C: 10 (8%)

 

 

 

Comments:

 

-conclusion: In this randomized phase 3 trial of gemcitabine and

docetaxel compared with doxorubicin as first-line therapy

for locally advanced or metastatic soft-tissue sarcoma, we

found no significant difference between the two treatment

groups for the primary endpoint of the proportion of

patients alive and progression free at 24 weeks.

 

-registered clinical trial

 

-a=time from randomization to date of progression or death from

any cause, whichever occurred first

 

-b=time from randomization to date of death from any cause

 

-c= Adverse events were assessed according to the

National Cancer Institute Common Terminology

Criteria for Adverse Events (CTCAE) version 4.03. The three most common serious adverse events were febrile neutropenia, fever, and neutropenia

 

-d=Response was

assessed by local investigators according to RECIST 1.1 (complete or partial response).

 

-e=Quality of life was assessed at baseline and at 12, 18,

and 24 weeks after randomization, using the EORTC QLQ-C30, and fatigue-specific FA-13 questionnaires.

Grunwald (2020)

 

Type of study:

RCT

 

Setting and country:

Between October 2012 and march 2016, a total of 120 eligible patients were enrolled.

 

Funding and conflicts of interests:

Conflict of interest: The following represents disclosure information provided by authors of this manuscript. All relationships are considered compensated unless otherwise noted.

Relationships are self-held unless noted. I 5 Immediate Family Member, Inst 5 My Institution. 

 

Funding:   sponsored by the Hanover Medical School and was executed

within the academic network of the Sarcoma Working

Group of the German Studies Group for Medical Oncology in cooperation with the German Interdisciplinary

Sarcoma Group and a site in Belgium

 

Inclusion criteria:

-  progressive advanced nonresectable or metastatic measurable

disease of chemotherapy-sensitive STS subtypes in patients with local histopathology and age 60 years or older.

Main eligible histologies were fibrosarcoma, pleomorphic high-grade sarcoma, leiomyosarcoma, liposarcoma,

alveolar or pleomorphic rhabdomyosarcoma, vascular

sarcoma, synovial sarcoma not otherwise specified, and

malignant peripheral nerve sheath tumors., -Adequate

organ functions, -ECOG PS 0 to 2, and -availability of archived tumor tissue were additional criteria, -brain metastases

were allowed if they were adequately treated, -previous

anthracycline-based chemotherapy with curative intent

was permitted if it had been completed more than 6 months

before recurrence.

 

Exclusion criteria:

 

N total at baseline: 120

Intervention: 39

Control: 81

 

Important prognostic factors2:

For example

Age (Median age, years (range)):

I: 70 (60-81)

C: 72 (60-88)

 

Sex:

I: 17 (43.6%) M

C: 44 (54.3%) M

 

Groups comparable at baseline?

Yes

Describe intervention (treatment/procedure/test):

 

Elderly patients with STS. Doxorubicin was given at

75 mg/m2 once every 3 weeks intravenously for up to  6 cycles. Dose modifications consisted of decrements of doxorubicin to 60 mg/m. Concomitant medications were

used according to local standards, and granulocyte

colony-stimulating factor (G-CSF) was permitted as a  prophylactic.

Describe  control (treatment/procedure/test):

 

Elderly patients with STS

Pazopanib was given at 800 mg once per day until

progression or intolerance. Dose modifications consisted of 200 mg

decrements for pazopanib.  Concomitant medications were used according to local standards, and granulocyte

colony-stimulating factor (G-CSF) was permitted as a  prophylactic.

Length of follow-up:

Imaging was performed at baseline, at

weeks 6, 12, 19, and 26, and every 12 weeks thereafter.

 

Loss-to-follow-up:

Missing measures at baseline were

replaced by assessment on day 1 before therapy was initiated. No other imputations of data were performed.

 

Intervention:

N (%)

Reasons (describe)

 

Control:

N (%)

Reasons (describe)

 

Incomplete outcome

Outcome measures and effect size (include 95%CI and p-value if available):

 

Overall survival (12 weeks)

I: 14.3 months (95% CI 8.3 to 25.9)

C: 12.3 (95% CI 8.7 to 19.8)

 

Progression-free survival a

12 weeks

I: 44% (95% CI 28% to 59%)

C: 53% (95% CI, 42% to 64%)

(P=.298)

26 weeks

I: 23% (95% CI 10% to 36%)

C: 26% (95% CI 16% to 35%)

(P=.738).

 

(objective) response rated

I: 6 (15.4%)

C: 10 (12.3%)

 

Quality of life b

Global health status

I: 53.6 (45.8 to 61.4)

C: 57.1 (51.7 to 62.4)

 

Safety (adverse eventsc and toxicity)

Treatment-related severe adverse events

I: 10 (27.0%)

C: 27 (33.3%)

(p=.4933)

 

Any event (Grade 3-4)

I: 35 (94.6%)

C: 66 (81.5%)

 

Comments:

 

-conclusion:  Pazopanib was noninferior to doxorubicin, rendering pazopanib a putative therapeutic option in the

first-line treatment of STS in patients age 60 years or older.

 

-clinical trial number registered

 

-a=  PFS defined as the time from random assignment to objective tumor progression or death as a result of any cause

 

- b= using the EORTC QLQ-C30, European Organisation for Research and Treatment of Cancer (30-item) Quality of Life Questionnaire; the  (EORTC

QLQ-C30) was used to assess global HR-QoL in patients

with cancer (not specified scale scoring).

 

c= the proportion of patients with at least one severe AE.   AEs were classified according to Common Terminology Criteria for Adverse Events (CTCAE 4.0).

 

d= partial plus complete response rates

 

Martin-Broto (2016)

Type of study:

RCT (phase 2 study)

 

Setting and country: The study was performed within 24 Spanish centers and one Portuguese

Center. Between November 2009 and October 2012, 115 patients were enrolled in the trial.

 

Funding and conflicts of interests:

 

Authors’ disclosures of potential conflicts

of interest are found in the article online at

www.jco.org.

 

The study was sponsored by the Spanish Group for Research on Sarcoma. Partially supported by Grant TRA-050,

awarded by the Spanish Ministry of

Health. PharmaMar Company supported

shipping and expenses for clinical

research organization management of the trial.

 

 

Inclusion criteria:

-Patients with locally advanced nonresectable or metastatic

STS; -measurable disease according to RECIST 1.0 criteria; and histologic

subtypes including undifferentiated pleomorphic sarcoma, liposarcoma,

leiomyosarcoma, synovial sarcoma, myxofibrosarcoma, malignant peripheral nerve sheath tumor, fibrosarcoma, angiosarcoma, epithelioid

hemangioendothelioma, solitary fibrous tumors, epithelioid sarcoma, and

unclassified sarcoma, -Additional criteria were Eastern Cooperative Oncologic Group performance status (ECOG PS) of 0 to 2 (category 2 was

ruled out after an early amendment), -age older than 18 years, -and adequate

bone marrow, renal, and liver function, -Normal cardiac function with left

ventricular ejection fraction had to be >= 50% by echocardiogram or

multigated acquisition scan (using the same method at baseline and after six cycles).

 

Exclusion criteria:

-previous chemotherapy administration, -previous radiation therapy involving the target lesions, central

nervous system metastases, and- women with a positive pregnancy test.

 

N total at baseline: 113

Intervention: 59

Control: 54

 

Important prognostic factors2:

For example

median age, years (range):

I: 52 (20-68)

C: 53 (18-73)

 

Sex:

I: 30 (51% M)

C: 32 (59% M)

 

Groups comparable at baseline? Yes, except for some imbalances in the distribution of locally advanced tumors and leiomyosarcomas or liposarcomas which were more frequently allocated in the intervention arm.

 

Describe intervention (treatment/procedure/test):

 

Doxorubicin

was administered at 75 mg/m2. Both schemes were administered for six cycles in the absence of progression or unacceptable toxicity.

Describe  control (treatment/procedure/test):

 

Trabectedin was

administered first, because this was considered to be the most cytotoxic

sequence observed in preclinical studies. Patients received trabectedin

as a 3-hour infusion through a central port at 1.1 mg/m2

, followed by

doxorubicin 60 mg/m2

, administered as a 20-minute infusion. In addition to routine antiemetic, patients received intravenous dexamethasone

30 minutes before the trabectedin; 4 mg of dexamethasone was administered orally 24 and 12 hours before the trabectedin. Filgrastim was administered

to all patients.

Length of follow-up:

Median follow-up lengths 13 months, further not specified.

 

Loss-to-follow-up: not reported

Intervention: 3

N (%)

Reasons (describe)

 

Control:

N (%) 1

Reasons (describe)

 

Incomplete outcome

Outcome measures and effect size (include 95%CI and p-value if available):

 

Overall survival

Median OS:

I: 13.7 months

C: 13.3 months

(HR, 1.21, 95% CI, 0.77 to 1.92).

 

Progression-free survival

At 1 year

I: 20% (95% CI, 9 to 30)

C: 15% (95% CI, 5 to 25)

 

Median PFS

I: 5.5 months

C: 5.7 months

(HR 1.16, 95 % CI, 0.79 to 1.71)

 

Partial response rate b

Partial response:

I: 10 (17%)

C: 9 (17%)

Stable disease:

I: 27 (47%)

C: 28 (53%)

Progressive disease:

I: 21 (36%)

C: 16 (30%)

 

Quality of life

Not reported

 

Safety (adverse events and toxicity)a

Grade 3 or 4 thrombocytopenia

I: 1 (2%)

C: 10 (18%)

Neutropenia

I: 36 (61%)

C:54 (100%)

Nausea

I: 2 (3%)

C: 8 (15%)

Stomatitis;

I: 0 (0%)

C: 8 (15%)

Febrile neutropenia

I: 24 (41%)

C: 32 (59%)

Conclusion: trabectedin plus doxorubicin did not show superiority over doxorubicin alone as first-line treatment

of advanced STS.

 

a= measured in accordance with the National Cancer Institute’s common Terminology Criteria for Adverse Events version 3.0.

 

  b= tumor response according to RECIST

Judson (2014)

Type of study:

RCT

 

Setting and country:

Between April 30, 2003, and May 25, 2010, at 38 hospitals in ten countries (Belgium, Canada,

Denmark, France, Germany, Netherlands, Slovakia, Spain,

Switzerland, UK).

 

Funding and conflicts of interests:

 

Funding: Cancer Research UK, EORTC Charitable Trust, UK NHS, Canadian Cancer Society Research Institute, Amgen.

 

Declaration of interests:  We have no competing interests.

 

 

Inclusion criteria:

-Patients had to have

histological evidence of high-grade soft-tissue sarcoma

(grades 2–3) according to the Federation Nationale des Centres de Lutte Contre le Cancer grading system when

applicable and radiological evidence of measurable

unresectable or metastatic disease progression within 6

weeks before treatment according to RECIST (version

1.0), -patients with the following tumor

types: undifferentiated pleomorphic sarcoma, myxoid or

round cell liposarcoma, pleomorphic liposarcoma and dedifferentiated liposarcoma, pleomorphic rhabdomyosarcoma, synovial sarcoma, myxofi bro sarcoma,

fibrosarcoma, leiomyo sarcoma, angiosarcoma, malignant

peripheral nerve sheath tumor, epithelioid sarcoma,

unclassified high-grade sarcoma (not otherwise specified) were included, -patients had to be age 18–60 years, -patients had to have a WHO performance status of 0 or 1, -absolute

neutrophil count more than 2 × 10⁹ cells per L, -more than 100 × 10⁹ platelets per L, serum creatinine of 120 μmol/L or less or calculated creatinine clearance (Cockroft and Gault

method) more than 65 mL/min, - patients had to have two functioning kidneys, bilirubin 30 μmol/L or less, and albumin more than

25 g/L, -patients also had to have a normal (according to

local assessments) left ventricular ejection fraction by

multiple gated acquisition scan or echocardiogram, -women of child-bearing potential had to take adequate contraceptive measures and have a negative pregnancy test

within 7 days of study entry.

 

Exclusion criteria:

Patients with -gastrointestinal stromal tumor, mixed mesodermal

tumor, chondrosarcoma, malignant mesothelioma,

neuroblastoma, osteosarcoma, Ewing’s sarcoma, desmoplastic small round cell tumor, embryonal rhabdomyosarcoma, and alveolar soft part sarcoma were excluded, also having other severe illness (eg, psychosis

or previous history of cardiovascular disease), symptomatic

or known CNS metastases, previous or concurrent second

primary malignant tumors (except adequately treated insitu carcinoma of cervix or basal cell carcinoma) was an exclusion criteria, - patients who had had radiotherapy to the sole

available index lesion or those who had received

chemotherapy for advanced disease, although previous

adjuvant chemotherapy (preoperative or postoperative)

was allowed if disease progression had not occurred within

6 months of completion.

 

N total at baseline: 455

Intervention: 228

Control: 227

 

Important prognostic factors2:

For example

Age (Median (IQR; years);

I: 48 (41-55)

C: 47 (39-54)

 

Sex:

I: 103 (45%M)

C: 114 (505M)

 

Groups comparable at baseline? yes

 

Describe intervention (treatment/procedure/test):

 

Patients with locally advanced, unresectable, or metastatic high-grade soft-tissue sarcoma. Patients assigned to receive doxorubicin alone were given doxorubicin 75 mg/m² by intravenous bolus on day 1 or 72 h continuous intravenous infusion. Treatment was repeated every 3 weeks until

disease progression or unacceptable toxic effects, up to a  maximum of six cycles.

 

 

 

 

Describe  control (treatment/procedure/test):

 

Patients with locally advanced, unresectable, or metastatic high-grade soft-tissue sarcoma.

Those assigned to

receive intensified doxorubicin and ifosfamide received doxorubicin 25 mg/m² per day on days 1–3 and ifosfamide (2·5 g/m² per day, days 1–4) plus mesna (0·5 g/m² by intravenous bolus before ifosfamide, 1·5 g/m² concurrent with ifosfamide, and 1 g/m² orally

2 h and 6 h after completion of ifosfamide infusion),

followed by pegfilgrastim (6 mg subcutaneously, day 5;

appendix). Treatment was repeated every 3 weeks until disease progression or unacceptable toxic eff ects, up to a maximum of six cycles.

Length of follow-up:

After treatment progression, patients were followed up

every 12 weeks for survival.

 

Loss-to-follow-up:

Intervention:

N (%)

Reasons (describe)

 

Control:

N (%)

Reasons (describe)

 

Incomplete outcome

Outcome measures and effect size (include 95%CI and p-value if available):

 

Overall survivalb

Median overall survival

I: 12.8 months (95% CI 10.5–14.3)

C: 14.3 months (95% CI, 12.5-16.5 months)

(HR: 0.83, 95% CI 0.67-1.03).

 

Progression-free survivalc

Median PFS

I: 4.6 months [95% CI 2.9–5.6]

C:7.4 months [95% CI 6·6–8·3])

(HR 0.74, 95% CI 0.60–0.90).

 

(objective) response rated

I: 31 (14%)

C: 60 (26%)

 

Quality of life

Not reported

 

Safety (adverse events and toxicitya)

Grade 3 and 4 toxic effects

Leucopenia

I: 40 (18%)

C: 97 (43%)

Neutropenia

I: 83 (37%)

C: 93 (42%)

Febrile neutropenia

I: 30 (13%)

C: 103 (46%)

Anaemia

I: 10 (4%)

C: 78 (35%)

Thrombocytopenia

I: 1 (<1%)

C: 75 (33%)

 

 

Conclusion:

We found no improvement in overall survival from the

administration of intensifi ed combination chemotherapy

with doxorubicin plus ifosfamide compared with

doxorubicin alone.

 

a=side-effects of treatment were graded according to International Common Toxicity Criteria.

 

b=Overall survival was computed from the date of

randomization to the date of death from any cause. Patients alive at the time of the analysis were censored at their last follow-up date.

 

c= Progression-free survival was computed from the date of randomization to the first

recorded date of progression or death. Patients alive and

progression-free at the time of analysis were censored at

the date of last follow-up.

 

d= complete plus partial responses

 


 

Risk of bias table

Study reference

 

(first author, publication year)

Was the allocation sequence adequately generated?

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Definitely yes

Probably yes

Probably no

Definitely no

Was the allocation adequately concealed?

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Definitely yes

Probably yes

Probably no

Definitely no

Blinding: Was knowledge of the allocated

interventions adequately prevented?

 

Were patients blinded?

 

Were healthcare providers blinded?

 

Were data collectors blinded?

 

Were outcome assessors blinded?

 

Were data analysts blinded?

 

Definitely yes

Probably yes

Probably no

Definitely no

Was loss to follow-up (missing outcome data) infrequent?

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Definitely yes

Probably yes

Probably no

Definitely no

Are reports of the study free of selective outcome reporting?

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Definitely yes

Probably yes

Probably no

Definitely no

Was the study apparently free of other problems that could put it at a risk of bias?

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Definitely yes

Probably yes

Probably no

Definitely no

Overall risk of bias

If applicable/necessary, per outcome measure

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

LOW

Some concerns

HIGH

Pautier (2022)

Definitely yes;

 

Reason:

Investigators identified and enrolled the patients into the

trial. Patients were randomly assigned (1:1) into the

doxorubicin alone group or the doxorubicin plus

trabectedin group by means of an interactive web response

system. Random assignment

was stratified by tumor location (uterus vs soft tissue)

and disease (locally advanced vs metastatic). Permuted

blocks of different sizes (from two to six) were used to allocate the patients to each treatment group.

Probably yes;

 

Reason:

The random

assignment request was signed by the investigator and

sent by fax to the data center. The data manager randomly assigned each patient using the online TENALEA randomization software version 2.2.

A report with each randomization

number and a group

assignment was then provided to the investigator. Because

of the open-label trial design, the patients, investigators,

and the study sponsor were not masked to the study treatment.

Probably yes;

 

Reason:

Randomization and analysis of data blinded: the tumor response was assessed by the investigator

using RECIST version 1.1 (using thoracic and abdominalpelvic

CT scans or MRI). For the primary endpoint

analysis (progression-free survival), a blinded radiographic central review, based on imaging only (using

thoracic and abdominal-pelvic CT scans or MRI), was

performed at the Gustave-Roussy hospital (before the

database was locked, ie, no further data were added) to

confirm progression.

The primary endpoint  was progression-free survival assessed by blinded independent

central review and according to Response Evaluation Criteria in Solid Tumors 1.1 criteria.

 

Patients, health care providers; blinding not reported

Probably yes;

 

Reason:

Efficacy analyses were

performed on all randomly assigned patients, based on the intention-to-treat principle.

Definitely yes;

 

Reason:

All relevant outcomes were reported;

Probably yes;

 

Reason:

Funding: PharmaMar.

overall survival

Low concerns of bias

 

progression free survival

Low concerns of bias

 

response rate

Low concerns of bias

 

quality of life

not reported

 

safety

adverse events

Low concerns of bias

toxicity

Low concerns of bias

Bui-Nguyen  (2015)

 

Probably yes;

 

Reason:

Parallel assignment to the treatment groups.

Eligible patients were randomized in a 1:1:1 ratio: (two intervention groups and one control).

The randomization was stratified by institution, age at registration (</>=60 years) and presence of liver

metastases (no/yes).

 

Definitely no;

 

Reason:

Allocation sequence not specified/reported. 

Probably no;

 

Reason:

Open label study;  thus no masking/blinding.

 

Perhaps data analysts were blinded; ‘’The results of the planned interim analysis at the end of the first step were reviewed by an independent data

monitoring committee on 4th July 2013’’.

 

May be assumed that patients were not aware about the type of chemotherapy they received, however unsure (not reported). ‘’All infusions were

administered with a central venous catheter’’, and ‘’The use of growth factors

was left to the discretion of the investigator’’.

Definitely no;

 

Reason:

Not reported.

Probably yes;

 

Reason:

Quality of life assessment was reported in study protocol, however findings regarding QOL not reported in this study (Bui-Nguyen, 2015).

Probably no;

 

Reason:

Results of step 1: none of the experimental arms fulfils expectations and the study will not continue as a phase III.

Overall survival

High concerns of risk

 

PFS

High concerns of risk

 

Response rate

High concerns of risk

 

QOL

Not reported

 

Adverse events

High concerns of risk

Seddon (2017)

Probably yes;

 

Reason:

Patients were randomly allocated in a 1:1 ratio to receive

either gemcitabine and docetaxel or doxorubicin.

Patients were stratified by age (≤18 years vs

>18 years) and histological subtype (uterine

leiomyosarcoma vs synovial sarcoma vs pleomorphic

sarcoma vs other eligible sarcomas). We chose these

specific histological strata on the basis of available

evidence at the time of trial design suggesting potential

differential disease response to chemotherapy in the

different strata.

Probably yes;

 

Reason:

Treatment was assigned centrally by computer at the

Cancer Research UK and University College London

Cancer Trials Centre (UCL CTC; London, UK) using a

minimisation algorithm incorporating a random

element. Treatment allocation was

communicated electronically to the site randomizing the

patient. Treatment allocation was not masked

Probably no;

 

Reason:

Not reported. Solely stated that all  pathology samples were reviewed by a single

histopathologist (RT) (before randomization). During trial, not reported whom was blinded.

 

Probably yes;

 

Reason:

ITT performed, solely for outcome measure adverse events – solely those patients  who received at least one dose of their randomly

assigned treatment (n=254) were analysed. Three were excluded due to not receiving the intervention/control.

 

Probably no;

 

Reason:

Regarding outcome measure quality of life ‘’Insufficient questionnaires

were returned to be able to assess quality of life at 18 weeks and 24 weeks (83 [32%] of 257 questionnaires were returned at both 18 weeks and 24 weeks, compared with

132 [51%] of 257 at 12 weeks.’’

Probably yes;

 

/

Overall survival

Some concerns of risk

 

PFS

Some concerns of risk

 

Response rate

Some concerns of risk

 

QOL

Not reported

 

Adverse events

Some concerns of risk

Grunwald (2020)

Probably yes;

 

Reason:

A randomization list was prepared before the study

for permuted blocks of variable sizes and a  2:1 randomization ratio for comparing pazopanib and doxorubicin. Randomization was stratified by ECOG PS of 0 to 1 versus 2

and liposarcoma histology.

Definitely no;

 

Reason:

Concealment of allocation not reported.

Probably no;

 

Reason:

Blinding not reported.

Probably no;

 

Reason:

Loss to follow-up not reported. 

Definitely yes;

 

Reason:

All relevant outcomes were reported

Probably no;

 

Reason:

 

Overall survival

High concerns of risk

 

PFS:

High concerns of risk

 

Response rate

High concerns of risk

 

QOL

High concerns of risk

 

Adverse events

High concerns of risk

Martin-Broto (2016)

Probably yes;

 

Reason:

Patients were stratified according to metastatic disease-free interval

(=< 12 months or > 12 months). Patients were randomly assigned to each arm, and central pathologic review was planned for all patients.

Definitely no;

 

Reason:

Concealment of allocation not reported.

Probably no;

 

Reason:

Not reported, solely stated that ‘’The participants were blindly assessed by an expert pathologist in the field of sarcoma (R.R.) for both diagnostic confirmation and translational

purposes.’’

Probably no;

 

Reason:

Loss to follow-up small (n=3 and n=1 in respectively the intervention and control group).

Definitely yes;

 

Reason:

All relevant outcomes were reported;

Probably yes;

 

Reason:

PharmaMar Company supported shipping and expenses for clinical research organization management of the trial.

Overall survival

High concerns of risk

 

PFS:

High concerns of risk

 

Response rate

High concerns of risk

 

QOL

Not reported

 

Adverse events

High concerns of risk

Judson (2014)

Definitely yes;

 

Reason:

The randomization sequence was generated

by an online randomized trial access system based on the

minimisation method. Randomization was stratified by center, performance status (0 vs 1), age (<50 years vs ≥50 years), liver metastases (present vs absent), and

histological grade (2 vs 3).

 

 

Probably no;

 

Reason:

Allocation sequence not reported, solely stated that ‘’A panel of specialist sarcoma pathologists did a mandatory

central pathology review but patients were enrolled on the

basis of local diagnosis.’’ And ‘’ Neither patients nor

investigators were masked to treatment allocation.’’.

Probably no;

 

Reason:

Not reported

 

Probably no;

 

Reason:

Eight patients did not start treatment and three did not receive the allocated

treatment (figure 1). As a result, the safety population

consisted of 447 patients and the per-protocol population

of 432 patients.

Definitely yes;

 

Reason:

All relevant outcomes were reported;

Probably no;

Overall survival

Some concerns of risk

 

PFS:

Some concerns of risk

 

Response rate

Some concerns of risk

 

QOL

Not reported

 

Adverse events

Some concerns of risk

 

 

 

Table of excluded studies

Reference

Reason for exclusion

Ben-Ami, E. and Hornick, J. L. and Wagner, A. J. The potential of emerging new therapeutics for the treatment of perivascular epithelioid cell tumors (PEComa). Expert Opinion on Orphan Drugs. 2018; 6 (9) :537-543

The only prospective clinical trial for advanced PEComa is the phase 2 study of ABI-009, a nanoparticle albumin-bound mTOR inhibitor. Yet this has wrong study design since it is a single-arm study (NCT0249457)

Blay, J. Y. and Schoffski, P. and Bauer, S. and Krarup-Hansen, A. and Benson, C. and D'Adamo, D. R. and Guo, M. and Maki, R. Subgroup analysis of leiomyosarcoma (LMS) patients (pts) from a phase 3, open-label, randomized study of eribulin (ERI) versus dacarbazine (DTIC) in pts with advanced liposarcoma (LPS) and LMS. Annals of Oncology. 2016; 27 :vi485

Not first line

Chawla SP, Papai Z, Mukhametshina G, Sankhala K, Vasylyev L, Fedenko A, Khamly K, Ganjoo K, Nagarkar R, Wieland S, Levitt DJ. First-Line Aldoxorubicin vs Doxorubicin in Metastatic or Locally Advanced Unresectable Soft-Tissue Sarcoma: A Phase 2b Randomized Clinical Trial. JAMA Oncol. 2015 Dec;1(9):1272-80. doi: 10.1001/jamaoncol.2015.3101. PMID: 26378637.

Wrong intervention: drug not available in NL

D'Angelo, S. P. and Mahoney, M. R. and Van Tine, B. A. and Atkins, J. and Milhem, M. M. and Jahagirdar, B. N. and Antonescu, C. R. and Horvath, E. and Tap, W. D. and Schwartz, G. K. and Streicher, H. Nivolumab with or without ipilimumab treatment for metastatic sarcoma (Alliance A091401): two open-label, non-comparative, randomised, phase 2 trials. The Lancet Oncology. 2018; 19 (3) :416-426

Not first line

Desar IME, Ottevanger PB, Benson C, van der Graaf WTA. Systemic treatment in adult uterine sarcomas. Crit Rev Oncol Hematol. 2018 Feb;122:10-20. doi: 10.1016/j.critrevonc.2017.12.009. Epub 2017 Dec 14. PMID: 29458779.

The relevant RCTs (>2015) in this SR are already included in this literature search (Seddon et al., 2017; Tap et al., 2016; Martin-Broto et al., 2016; Hensley et al., 2015; Judson et al., 2014)       

Dickson MA, D'Adamo DR, Keohan ML, D'Angelo SP, Carvajal RD, Gounder MM, Maki RG, Qin LX, Lefkowitz RA, McKennon OR, Hirst CM, Schwartz GK, Tap WD. Phase II Trial of Gemcitabine and Docetaxel with Bevacizumab in Soft Tissue Sarcoma. Sarcoma. 2015;2015:532478. doi: 10.1155/2015/532478. Epub 2015 May 14. PMID: 26074722; PMCID: PMC4446476.

Single arm,wrong study design

Duffaud F, Maki RG, Jones RL. Treatment of advanced soft tissue sarcoma: efficacy and safety of trabectedin, a multitarget agent, and update on other systemic therapeutic options. Expert Rev Clin Pharmacol. 2016 Apr;9(4):501-512. doi: 10.1586/17512433.2016.1152179. PMID: 26873304.

No comparison of two intervention(s)

Garcia del Muro X, de Alava E, Artigas V, Bague S, Braña A, Cubedo R, Cruz J, Mulet-Margalef N, Narvaez JA, Martinez Tirado O, Valverde C, Verges R, Viñals J, Martin-Broto J; Spanish Group for Research on Sarcoma. Clinical practice guidelines for the diagnosis and treatment of patients with soft tissue sarcoma by the Spanish group for research in sarcomas (GEIS). Cancer Chemother Pharmacol. 2016 Jan;77(1):133-46. doi: 10.1007/s00280-015-2809-5. Epub 2015 Nov 12. PMID: 26563256; PMCID: PMC4706580.

Wrong study design: no SR or RCT

Gounder, Mrinal and Schoffski, Patrick and Jones, Robin L. and Agulnik, Mark and Cote, Gregory M. and Villalobos, Victor M. and Attia, Steven and Chugh, Rashmi and Chen, Tom Wei-Wu and Jahan, Thierry and Loggers, Elizabeth T. and Gupta, Abha and Italiano, Antoine and Demetri, George D. and Ratan, Ravin and Davis, Lara E. and Mir, Olivier and Dileo, Palma and Van Tine, Brian A. and Pressey, Joseph G. and Lingaraj, Trupti and Rajarethinam, Anand and Sierra, Laura and Agarwal, Shefali and Stacchiotti, Silvia Tazemetostat in advanced epithelioid sarcoma with loss of INI1/SMARCB1: an international, open-label, phase 2 basket study. The Lancet. Oncology. 2020; 21 (11) :1423-1432

No comparison of intervention(s), solely the clinical activity and safety of tazemetostat was studied

Hartmann JT, Kopp HG, Gruenwald V, Piperno-Neumann S, Kunitz A, Hofheinz R, Mueller L, Geissler M, Horger M, Fix P, Chemnitz JM, Neise M, Wehler T, Zander I, Eckert R, Hann von Weyhern C, Bauer S, Mayer F; German Sarcoma Group within the Working Group Medical Oncology (AIO) of the German Cancer Society/AIO-STS-002, Arbeitsgemeinschaft Internistische Onkologie der Deutschen Krebsgesellschaft e.V. Randomised phase II trial of trofosfamide vs. doxorubicin in elderly patients with untreated metastatic soft-tissue sarcoma. Eur J Cancer. 2020 Jan;124:152-160. doi: 10.1016/j.ejca.2019.10.016. Epub 2019 Nov 28. PMID: 31785463.

trofosfamide not available

Hensley ML, Miller A, O'Malley DM, Mannel RS, Behbakht K, Bakkum-Gamez JN, Michael H. Randomized phase III trial of gemcitabine plus docetaxel plus bevacizumab or placebo as first-line treatment for metastatic uterine leiomyosarcoma: an NRG Oncology/Gynecologic Oncology Group study. J Clin Oncol. 2015 Apr 1;33(10):1180-5. doi: 10.1200/JCO.2014.58.3781. Epub 2015 Feb 23. PMID: 25713428; PMCID: PMC4372854.

Wrong comparison (no comparison with doxocubicin)

Hentschel, L. and Richter, S. and Kopp, H. G. and Kasper, B. and Kunitz, A. and Grünwald, V. and Kessler, T. and Chemnitz, J. M. and Pelzer, U. and Schuler, U. and Freitag, J. and Schilling, A. and Hornemann, B. and Arndt, K. and Bornhäuser, M. and Schuler, M. K. Quality of life and added value of a tailored palliative care intervention in patients with soft tissue sarcoma undergoing treatment with trabectedin: a multicentre, cluster-randomised trial within the German Interdisciplinary Sarcoma Group (GISG). BMJ open. 2020; 10 (8) :e035546

No comparison between interventions, solely studied outcomes related to treatment with ''trabectedin''. Patients could be included in a control arm (CA)

Jones, R. L. and Chawla, S. P. and Attia, S. and Schöffski, P. and Gelderblom, H. and Chmielowski, B. and Le Cesne, A. and Van Tine, B. A. and Trent, J. C. and Patel, S. and Wagner, A. J. and Chugh, R. and Heyburn, J. W. and Weil, S. C. and Wang, W. and Viele, K. and Maki, R. G. A phase 1 and randomized controlled phase 2 trial of the safety and efficacy of the combination of gemcitabine and docetaxel with ontuxizumab (MORAb-004) in metastatic soft-tissue sarcomas. Cancer. 2019; 125 (14) :2445-2454

no interventions compared: comparison is ontuxizumab vs placebo

Judson, I. and Morden, J. P. and Kilburn, L. and Leahy, M. and Benson, C. and Bhadri, V. and Campbell-Hewson, Q. and Cubedo, R. and Dangoor, A. and Fox, L. and Hennig, I. and Jarman, K. and Joubert, W. and Kernaghan, S. and López Pousa, A. and McNeil, C. and Seddon, B. and Snowdon, C. and Tattersall, M. and Toms, C. and Martinez Trufero, J. and Bliss, J. M. Cediranib in patients with alveolar soft-part sarcoma (CASPS): a double-blind, placebo-controlled, randomised, phase 2 trial. The Lancet Oncology. 2019; 20 (7) :1023-1034

Not first line

Karch A, Koch A, Grünwald V. A phase II trial comparing pazopanib with doxorubicin as first-line treatment in elderly patients with metastatic or advanced soft tissue sarcoma (EPAZ): study protocol for a randomized controlled trial. Trials. 2016 Jul 7;17(1):312. doi: 10.1186/s13063-016-1434-x. PMID: 27387325; PMCID: PMC4936293.

Wrong study design: no SR or RCT

Kotecki N, Le Cesne A, Tresch-Bruneel E, Ray-Coquard I, Chevreau C, Bertucci F, Bogart E, Mir O, Pautier P, Decoupigny E, Clisant S, Blay JY, Penel N. Impact of Trabectedin Interruption and Subsequent Rechallenge on Progression in Patients With Advanced Soft Tissue Sarcoma: Long-term Follow-up of the T-DIS trial. Am J Clin Oncol. 2018 Nov;41(11):1094-1100. doi: 10.1097/COC.0000000000000430. PMID: 29509592.

No comparison between interventions:  the impact of trabectedin discontinuation after subsequent rechallenge was studied (number of cycles trabectedin provided).

Krown, S. E. and Moser, C. B. and MacPhail, P. and Matining, R. M. and Godfrey, C. and Caruso, S. R. and Hosseinipour, M. C. and Samaneka, W. and Nyirenda, M. and Busakhala, N. W. and Okuku, F. M. and Kosgei, J. and Hoagland, B. and Mwelase, N. and Oliver, V. O. and Burger, H. and Mngqibisa, R. and Nokta, M. and Campbell, T. B. and Borok, M. Z. and Moses, A. and Kanyama, C. and Mukwekwerere, P. and Gudza, I. and Chauwa, F. and Ulaya, G. and Kutto, I. and Cheruiyot, P. and Okello, C. and Nakaganda, A. and Koskei, G. and Keter, W. and Netto, J. and Baião, T. and Govender, I. and O'Connell-Maritz, J. and Cain, K. and Okanda, J. and Cornelissen, L. and Van Schalkwyk, M. and Sikhosana, R. and Ngcobo, M. and Lee, J. Y. and Harrison, T. and Wachsman, W. and Shin, K. and Evans, S. and Rothenberg, J. and Hosey, L. and McCarthy, S. and Martinez-Maza, O. and Rinaldo, C. and Dittmer, D. and Fletcher, C. and Rudek, M. and Asmelash, A. and Hughes, V. and Schouten, J. and Shugarts, D. and Kujinga, T. and Zadzilka, A. and Kerui, F. and Robertson, D. and Rooney, J. and Sewal, K. and Gottshall, B. Treatment of advanced AIDS-associated Kaposi sarcoma in resource-limited settings: a three-arm, open-label, randomised, non-inferiority trial. The Lancet. 2020; 395 (10231) :1195-1207

Does not meet the P in PICO: patients with AIDS-associated Kaposi sarcomanon were studied 

Liu, J. and Fan, Z. and Li, S. and Xue, R. and Gao, T. and Bai, C. and Zhang, L. and Tan, Z. and Fang, Z. Anlotinib hydrochloride capsules for advanced soft tissue sarcoma: Single-center data analysis of a stage II multicenter clinical trial. Chinese Journal of Clinical Oncology. 2018; 45 (20) :1066-1070

No comparison between interventions, solely intervention (anlotinib capsules) was compared to placebo

Martin E, Lamba N, Flucke UE, Verhoef C, Coert JH, Versleijen-Jonkers YMH, Desar IME. Non-cytotoxic systemic treatment in malignant peripheral nerve sheath tumors (MPNST): A systematic review from bench to bedside. Crit Rev Oncol Hematol. 2019 Jun;138:223-232. doi: 10.1016/j.critrevonc.2019.04.007. Epub 2019 Apr 19. PMID: 31092379.

Interventions are immune therapies (e.g. oncolytic viruses)

Navarrete-Dechent C, Mori S, Barker CA, Dickson MA, Nehal KS. Imatinib Treatment for Locally Advanced or Metastatic Dermatofibrosarcoma Protuberans: A Systematic Review. JAMA Dermatol. 2019 Mar 1;155(3):361-369. doi: 10.1001/jamadermatol.2018.4940. PMID: 30601909; PMCID: PMC8909640.

The few studies that refered to metastatic cases did not compare two interventions and solely studied a.o. one intervention: imatinib mesylate), or the therapeutic activity and safety of imatinib.

Nguyen J, Takebe N, Kummar S, Razak A, Chawla SP, George S, Patel SR, Keohan ML, Movva S, O'Sullivan Coyne G, Do K, Juwara L, Augustine B, Steinberg SM, Kuhlmann L, Ivy SP, Doroshow JH, Chen AP. Randomized Phase II Trial of Sunitinib or Cediranib in Alveolar Soft Part Sarcoma. Clin Cancer Res. 2023 Apr 3;29(7):1200-1208. doi: 10.1158/1078-0432.CCR-22-2145. PMID: 36302173; PMCID: PMC10068440.

Not first line

Otake A, Matsuzaki S, Ueda Y, Yoshino K. Chapter: Chemotherapy for uterine sarcomas: A review. Front. Drug Des. and Discov. 2016; 7 :139-151

Book chapter, wrong study design

Paoluzzi L, Maki RG. Diagnosis, Prognosis, and Treatment of Alveolar Soft-Part Sarcoma: A Review. JAMA Oncol. 2019 Feb 1;5(2):254-260. doi: 10.1001/jamaoncol.2018.4490. PMID: 30347044.

No chemotherapy intervention(s) compared

Pautier P, Floquet A, Chevreau C, Penel N, Guillemet C, Delcambre C, Cupissol D, Selle F, Isambert N, Piperno-Neumann S, Saada-Bouzid E, Bertucci F, Bompas E, Alexandre J, Collard O, Lebrun-Ly V, Soulier P, Toulmonde M, Le Cesne A, Lacas B, Duffaud F; French Sarcoma Group. A single-arm multicentre phase II trial of doxorubicin in combination with trabectedin in the first-line treatment for leiomyosarcoma with long-term follow-up and impact of cytoreductive surgery. ESMO Open. 2021 Aug;6(4):100209. doi: 10.1016/j.esmoop.2021.100209. Epub 2021 Jul 26. PMID: 34325109; PMCID: PMC8446791.

Single arm, wrong study design

Pink D, Andreou D, Bauer S, Brodowicz T, Kasper B, Reichardt P, Richter S, Lindner LH, Szkandera J, Grünwald V, Kebenko M, Kirchner M, Hohenberger P. Treatment of Angiosarcoma with Pazopanib and Paclitaxel: Results of the EVA (Evaluation of Votrient® in Angiosarcoma) Phase II Trial of the German Interdisciplinary Sarcoma Group (GISG-06). Cancers (Basel). 2021 Mar 11;13(6):1223. doi: 10.3390/cancers13061223. PMID: 33799576; PMCID: PMC8000466.

No comparison between interventions, study is an evaluation study of efficacy and toxicity of paclitaxel + pazopanib

Ray-Coquard I, Rizzo E, Blay JY, Casali P, Judson I, Hansen AK, Lindner LH, Dei Tos AP, Gelderblom H, Marreaud S, Litière S, Rutkowski P, Hohenberger P, Gronchi A, van der Graaf WT. Impact of chemotherapy in uterine sarcoma (UtS): review of 13 clinical trials from the EORTC Soft Tissue and Bone Sarcoma Group (STBSG) involving advanced/metastatic UtS compared to other soft tissue sarcoma (STS) patients treated with first line chemotherapy. Gynecol Oncol. 2016 Jul;142(1):95-101. doi: 10.1016/j.ygyno.2016.05.016. Epub 2016 May 24. PMID: 27208537.

<2015. Review used pooled data of patients registered in EORTC-STBSG sarcoma trials from 1977 to 2010

Riedel RF, Jones RL, Italiano A, Bohac C, Thompson JC, Mueller K, Khan Z, Pollack SM, Van Tine BA. Systemic Anti-Cancer Therapy in Synovial Sarcoma: A Systematic Review. Cancers (Basel). 2018 Nov 1;10(11):417. doi: 10.3390/cancers10110417. PMID: 30388821; PMCID: PMC6267101.

No first line intervention(s) compared

Ryan CW, Merimsky O, Agulnik M, Blay JY, Schuetze SM, Van Tine BA, Jones RL, Elias AD, Choy E, Alcindor T, Keedy VL, Reed DR, Taub RN, Italiano A, Garcia Del Muro X, Judson IR, Buck JY, Lebel F, Lewis JJ, Maki RG, Schöffski P. PICASSO III: A Phase III, Placebo-Controlled Study of Doxorubicin With or Without Palifosfamide in Patients With Metastatic Soft Tissue Sarcoma. J Clin Oncol. 2016 Nov 10;34(32):3898-3905. doi: 10.1200/JCO.2016.67.6684. Epub 2016 Sep 30. PMID: 27621408.

Intervention not available

Saerens M, Brusselaers N, Rottey S, Decruyenaere A, Creytens D, Lapeire L. Immune checkpoint inhibitors in treatment of soft-tissue sarcoma: A systematic review and meta-analysis. Eur J Cancer. 2021 Jul;152:165-182. doi: 10.1016/j.ejca.2021.04.034. Epub 2021 Jun 6. PMID: 34107450.

Not first line: review assessed immune checkpoint inhibitors which can be considered Immunotherapy drugs

Saiag P, Grob JJ, Lebbe C, Malvehy J, del Marmol V, Pehamberger H, Peris K, Stratigos A, Middelton M, Basholt L, Testori A, Garbe C. Diagnosis and treatment of dermatofibrosarcoma protuberans. European consensus-based interdisciplinary guideline. Eur J Cancer. 2015 Nov;51(17):2604-8. doi: 10.1016/j.ejca.2015.06.108. Epub 2015 Jul 16. PMID: 26189684.

Wrong study design: no SR or RCT

Schoot RA, Chisholm JC, Casanova M, Minard-Colin V, Geoerger B, Cameron AL, Coppadoro B, Zanetti I, Orbach D, Kelsey A, Rogers T, Guizani C, Elze M, Ben-Arush M, McHugh K, van Rijn RR, Ferman S, Gallego S, Ferrari A, Jenney M, Bisogno G, Merks JHM. Metastatic Rhabdomyosarcoma: Results of the European Paediatric Soft Tissue Sarcoma Study Group MTS 2008 Study and Pooled Analysis With the Concurrent BERNIE Study. J Clin Oncol. 2022 Nov 10;40(32):3730-3740. doi: 10.1200/JCO.21.02981. Epub 2022 Jun 16. PMID: 35709412; PMCID: PMC9649279.

<2015. MTS conducted before 2008, and Bernie conducted from 2008 to 2013

Tanaka K, Kawano M, Iwasaki T, Itonaga I, Tsumura H. A meta-analysis of randomized controlled trials that compare standard doxorubicin with other first-line chemotherapies for advanced/metastatic soft tissue sarcomas. PLoS One. 2019 Jan 10;14(1):e0210671. doi: 10.1371/journal.pone.0210671. PMID: 30629708; PMCID: PMC6328231.

<2015: meta-analysis included RCTs which were published between january 1974 and september 2018. The RCTs >2015 were already listed in this literature review: Chawla, 2015; Bui-Nguyen 2015; Martin-Broto 2016; Seddon 2017; Tap, 2016; and Tap 2017

Tap W, Papai Z, Van Tine B, Attia S, Ganjoo K, Jones RL, Schoffski P. Randomized phase 3, multicenter, open-label study comparing evofosfamide (Evo) in combination with doxorubicin (D) vs. D alone in patients (pts) with advanced soft tissue sarcoma (STS): Study TH-CR-406/SARC021. Annals of Oncology, 27, vi483. 2016. doi: 10.1093/annonc/mdw388.01.

Drugs not available

Tap WD, Papai Z, Van Tine BA, Attia S, Ganjoo KN, Jones RL, Schuetze S, Reed D, Chawla SP, Riedel RF, Krarup-Hansen A, Toulmonde M, Ray-Coquard I, Hohenberger P, Grignani G, Cranmer LD, Okuno S, Agulnik M, Read W, Ryan CW, Alcindor T, Del Muro XFG, Budd GT, Tawbi H, Pearce T, Kroll S, Reinke DK, Schöffski P. Doxorubicin plus evofosfamide versus doxorubicin alone in locally advanced, unresectable or metastatic soft-tissue sarcoma (TH CR-406/SARC021): an international, multicentre, open-label, randomised phase 3 trial. Lancet Oncol. 2017 Aug;18(8):1089-1103. doi: 10.1016/S1470-2045(17)30381-9. Epub 2017 Jun 23. Erratum in: Lancet Oncol. 2018 Feb;19(2):e78. PMID: 28651927; PMCID: PMC7771354.

An updated version of this article is already included in our literature search (''Correction to Doxorubicin plus evofosfamide versus doxorubicin alone in locally advanced, unresectable or metastatic soft-tissue sarcoma (TH CR-406/SARC021): an international, multicentre, open-label, randomised phase 3 trial (Lancet Oncol (2017) 18 (1089–103)(S1470204517303819), (10.1016/S1470-2045(17)30381-9))''

Tap WD, Jones RL, Van Tine BA, Chmielowski B, Elias AD, Adkins D, Agulnik M, Cooney MM, Livingston MB, Pennock G, Hameed MR, Shah GD, Qin A, Shahir A, Cronier DM, Ilaria R Jr, Conti I, Cosaert J, Schwartz GK. Olaratumab and doxorubicin versus doxorubicin alone for treatment of soft-tissue sarcoma: an open-label phase 1b and randomised phase 2 trial. Lancet. 2016 Jul 30;388(10043):488-97. doi: 10.1016/S0140-6736(16)30587-6. Epub 2016 Jun 9. Erratum in: Lancet. 2016 Jul 30;388(10043):464. PMID: 27291997; PMCID: PMC5647653.

Wrong intervention: drug not available in NL

Tap WD, Papai Z, Van Tine BA, Attia S, Ganjoo KN, Jones RL, Schuetze S, Reed D, Chawla SP, Riedel RF, Krarup-Hansen A, Toulmonde M, Ray-Coquard I, Hohenberger P, Grignani G, Cranmer LD, Okuno S, Agulnik M, Read W, Ryan CW, Alcindor T, Del Muro XFG, Budd GT, Tawbi H, Pearce T, Kroll S, Reinke DK, Schöffski P. Doxorubicin plus evofosfamide versus doxorubicin alone in locally advanced, unresectable or metastatic soft-tissue sarcoma (TH CR-406/SARC021): an international, multicentre, open-label, randomised phase 3 trial. Lancet Oncol. 2017 Aug;18(8):1089-1103. doi: 10.1016/S1470-2045(17)30381-9. Epub 2017 Jun 23. Erratum in: Lancet Oncol. 2018 Feb;19(2):e78. PMID: 28651927; PMCID: PMC7771354.

Wrong intervention: drug not available in NL

Tap WD, Wagner AJ, Schöffski P, Martin-Broto J, Krarup-Hansen A, Ganjoo KN, Yen CC, Abdul Razak AR, Spira A, Kawai A, Le Cesne A, Van Tine BA, Naito Y, Park SH, Fedenko A, Pápai Z, Soldatenkova V, Shahir A, Mo G, Wright J, Jones RL; ANNOUNCE Investigators. Effect of Doxorubicin Plus Olaratumab vs Doxorubicin Plus Placebo on Survival in Patients With Advanced Soft Tissue Sarcomas: The ANNOUNCE Randomized Clinical Trial. JAMA. 2020 Apr 7;323(13):1266-1276. doi: 10.1001/jama.2020.1707. PMID: 32259228; PMCID: PMC7139275.

Wrong intervention: drug not available in NL

Trans-Atlantic Retroperitoneal Sarcoma Working Group (TARPSWG). Electronic address: andrea.macneill@bccancer.bc.ca. Management of metastatic retroperitoneal sarcoma: a consensus approach from the Trans-Atlantic Retroperitoneal Sarcoma Working Group (TARPSWG). Ann Oncol. 2018 Apr 1;29(4):857-871. doi: 10.1093/annonc/mdy052. PMID: 29432564; PMCID: PMC6354678.

Wrong study design: no SR or RCT

Tsakatikas S, Papageorgiou G, Fioretzaki R, Kosmas C. An overview of current results with the vincristine-irinotecan-temozolomide combination with or without bevacizumab in pediatric, adolescence and adult solid tumors. Crit Rev Oncol Hematol. 2021 Oct;166:103457. doi: 10.1016/j.critrevonc.2021.103457. Epub 2021 Aug 21. PMID: 34428555.

Not referred to rhabdomyosarcoom

Van Tine BA, Hirbe AC, Oppelt P, Frith AE, Rathore R, Mitchell JD, Wan F, Berry S, Landeau M, Heberton GA, Gorcsan J 3rd, Huntjens PR, Soyama Y, Vader JM, Alvarez-Cardona JA, Zhang KW, Lenihan DJ, Krone RJ. Interim Analysis of the Phase II Study: Noninferiority Study of Doxorubicin with Upfront Dexrazoxane plus Olaratumab for Advanced or Metastatic Soft-Tissue Sarcoma. Clin Cancer Res. 2021 Jul 15;27(14):3854-3860. doi: 10.1158/1078-0432.CCR-20-4621. Epub 2021 Mar 25. PMID: 33766818; PMCID: PMC8282681.

Wrong study design.

Verma S, Kalra K, Rastogi S, Dhamija E, Upadhyay A, Mittal A, Aggarwal A, Shamim SA. Trabectedin in Advanced Sarcomas-Experience at a Tertiary Care Center and Review of Literature. South Asian J Cancer. 2021 Apr;10(2):53-57. doi: 10.1055/s-0041-1734336. Epub 2021 Sep 23. PMID: 34568214; PMCID: PMC8460345.

Study solely assessed the dosage of one intervention (trabectedin)

Verschoor AJ, Litière S, Marréaud S, Judson I, Toulmonde M, Wardelmann E, LeCesne A, Gelderblom H. Survival of soft tissue sarcoma patients after completing six cycles of first-line anthracycline containing treatment: an EORTC-STBSG database study. Clin Sarcoma Res. 2020 Sep 9;10:18. doi: 10.1186/s13569-020-00137-5. PMID: 32944214; PMCID: PMC7488114.

Wrong study design: no SR or RCT

Vlenterie M, Litière S, Rizzo E, Marréaud S, Judson I, Gelderblom H, Le Cesne A, Wardelmann E, Messiou C, Gronchi A, van der Graaf WT. Outcome of chemotherapy in advanced synovial sarcoma patients: Review of 15 clinical trials from the European Organisation for Research and Treatment of Cancer Soft Tissue and Bone Sarcoma Group; setting a new landmark for studies in this entity. Eur J Cancer. 2016 May;58:62-72. doi: 10.1016/j.ejca.2016.02.002. Epub 2016 Mar 8. PMID: 26968015.

No intervention(s) compared. 

Wang BC, Kuang BH, Xiao BY, Lin GH. Doxorubicin/Adriamycin Monotherapy or Plus Ifosfamide in First-Line Treatment for Advanced Soft Tissue Sarcoma: A Pooled Analysis of Randomized Trials. Front Oncol. 2021 Nov 22;11:762288. doi: 10.3389/fonc.2021.762288. PMID: 34881180; PMCID: PMC8648074.

No  description relevant studies and no risk of bias tables studies presented.

Wilky, B. A. and Trucco, M. M. and Subhawong, T. K. and Florou, V. and Park, W. and Kwon, D. and Wieder, E. D. and Kolonias, D. and Rosenberg, A. E. and Kerr, D. A. and Sfakianaki, E. and Foley, M. and Merchan, J. R. and Komanduri, K. V. and Trent, J. C. Axitinib plus pembrolizumab in patients with advanced sarcomas including alveolar soft-part sarcoma: a single-centre, single-arm, phase 2 trial. The Lancet Oncology. 2019; 20 (6) :837-848

Not first line

Young RJ, Litière S, Lia M, Hogendoorn PCW, Fisher C, Mechtersheimer G, Daugaard S, Sciot R, Collin F, Messiou C, Grünwald V, Gronchi A, van der Graaf W, Wardelmann E, Judson I. Predictive and prognostic factors associated with soft tissue sarcoma response to chemotherapy: a subgroup analysis of the European Organisation for Research and Treatment of Cancer 62012 study. Acta Oncol. 2017 Jul;56(7):1013-1020. doi: 10.1080/0284186X.2017.1315173. Epub 2017 Apr 21. PMID: 28431480.

Orignal article (which is suggested to include in literature search) is:   ''Judson I, Verweij J, Gelderblom H, et al. Doxorubicin alone versus intensified doxorubicin plus ifosfamide for first-line treatment of advanced or metastatic soft-tissue sarcoma: a randomised controlled phase 3 trial. Lancet Oncol. 2014;15:415–423.''

Younger, E. and Ballman, K. and Lu, Y. and Pápai, Z. and Van Tine, B. A. and Attia, S. and Schöffski, P. and Reinke, D. and Tap, W. D. and Jones, R. L. Subgroup analysis of older patients treated within the randomized phase 3 doxorubicin versus doxorubicin plus evofosfamide (SARC021) trial. Journal of Geriatric Oncology. 2020; 11 (3) :463-469

Subgroup analyses; original study is included in literature search (Doxorubicin plus evofosfamide versus doxorubicin alone in locally advanced, unresectable or metastatic soft-tissue sarcoma (TH CR-406/SARC021): an international, multicentre, open-label, randomised phase 3 trial)

Younger, E. and Litière, S. and Le Cesne, A. and Mir, O. and Gelderblom, H. and Italiano, A. and Marreaud, S. and Jones, R. L. and Gronchi, A. and van der Graaf, W. T. A. Outcomes of Elderly Patients with Advanced Soft Tissue Sarcoma Treated with First-Line Chemotherapy: A Pooled Analysis of 12 EORTC Soft Tissue and Bone Sarcoma Group Trials. Oncologist. 2018; 23 (10) :1250-1259

<2015. Studied patients with advanced soft tissue sarcoma who entered EORTC first-line chemotherapy clinical trials between 1980 and 2012: ''The clincial trials in this EORTC-STBSG database contains historical data from patients recruited in clinical trials from the 1980s. Therefore results may be influenced by differences in concomitant standards of care.''

 

Autorisatiedatum en geldigheid

Laatst beoordeeld  : 15-10-2024

Laatst geautoriseerd  : 15-10-2024

Geplande herbeoordeling  : 15-10-2029

Initiatief en autorisatie

Initiatief:
  • Nederlandse Vereniging voor Heelkunde
Geautoriseerd door:
  • Nederlandse Internisten Vereniging
  • Nederlandse Orthopaedische Vereniging
  • Nederlandse Vereniging voor Dermatologie en Venereologie
  • Nederlandse Vereniging voor Heelkunde
  • Nederlandse Vereniging voor Medische Oncologie
  • Nederlandse Vereniging voor Nucleaire geneeskunde
  • Nederlandse Vereniging voor Pathologie
  • Nederlandse Vereniging voor Radiologie
  • Nederlandse Vereniging voor Radiotherapie en Oncologie
  • Patiëntenfederatie Nederland
  • Stichting Patiëntenplatform Sarcomen

Algemene gegevens

De ontwikkeling/herziening van deze richtlijnmodule werd ondersteund door het Kennisinstituut van de Federatie Medisch Specialisten (www.demedischspecialist.nl/kennisinstituut) en werd gefinancierd uit de Kwaliteitsgelden Medisch Specialisten (SKMS).

De financier heeft geen enkele invloed gehad op de inhoud van de richtlijnmodule.

Samenstelling werkgroep

Voor het ontwikkelen van de richtlijnmodule is in 2022 een multidisciplinaire werkgroep ingesteld, bestaande uit vertegenwoordigers van alle relevante specialismen (zie hiervoor de Samenstelling van de werkgroep) die betrokken zijn bij de zorg voor patiënten met wekedelentumoren.

 

Werkgroep

Dr. D.J. (Dirk) Grünhagen (voorzitter), oncologisch chirurg, NVvH

Drs. A. (Ana) Navas Cañete, radioloog, NVvR

Drs. E. (Evelyne) Roets, patiëntvertegenwoordiger, Stichting Patiëntenplatform Sarcomen

Dr. F.G.M. (Floortje) Verspoor, oncologisch orthopedisch chirurg, NOV

Prof. dr. J.V.M.G (Judith) Bovee, patholoog, NVVP

Prof. dr. M.A.J. (Michiel) van de Sande, oncologisch (kinder)orthopedisch chirurg, NOV

Dr. R.M.L. (Rick) Haas, radiotherapeut-oncoloog, NVRO

Dr. R.R. (Renate) van den Bos, dermatoloog, NVDV

Dr. W.J. (Winan) van Houdt, chirurg-oncoloog, NVvH

Prof. dr. W.T.A. (Winette) van der Graaf, internist-oncoloog, NIV

 

Met ondersteuning van

Dr. S.N. (Stefanie) Hofstede, senior adviseur, Kennisinstituut van de Federatie Medisch Specialisten

Dr. L.M.P. (Linda) Wesselman, adviseur, Kennisinstituut van de Federatie Medisch Specialisten

Drs. A.E. (Amber) van der Meij, adviseur, Kennisinstituut van de Federatie Medisch Specialisten

Belangenverklaringen

De Code ter voorkoming van oneigenlijke beïnvloeding door belangenverstrengeling is gevolgd. Alle werkgroepleden hebben schriftelijk verklaard of zij in de laatste drie jaar directe financiële belangen (betrekking bij een commercieel bedrijf, persoonlijke financiële belangen, onderzoeksfinanciering) of indirecte belangen (persoonlijke relaties, reputatiemanagement) hebben gehad. Gedurende de ontwikkeling of herziening van een module worden wijzigingen in belangen aan de voorzitter doorgegeven. De belangenverklaring wordt opnieuw bevestigd tijdens de commentaarfase.

Een overzicht van de belangen van werkgroepleden en het oordeel over het omgaan met eventuele belangen vindt u in onderstaande tabel. De ondertekende belangenverklaringen zijn op te vragen bij het secretariaat van het Kennisinstituut van de Federatie Medisch Specialisten.

 

Werkgroeplid

Functie

Nevenfuncties

Gemelde belangen

Ondernomen actie

Dirk Grünhagen (voorzitter)

Erasmus MC

lid DB DSG

Extern gefinancierd onderzoek: Hanarth fonds (hoofdaanvragen radiologie Erasmus MC)

Geen restricties

Ana Navas Canete

Radioloog

LUMC

Geen

Geen

Geen restricties

Evelyne Roets

Antoni van Leeuwenhoek zielenhuis

Functie: Arts-onderzoeker

Vrijwilliger bij patiëntenplatform sarcomen

Geen

Geen restricties

Floortje Verspoor

Oncologisch orthopedisch chirurg, Amsterdam UMC, betaald

Voorzitter Werkgroep Bot Tumoren (WeBoT), Nederlandse Orthopedische Vereniging, onbetaald

Reviewen van artikelen voor wetenschappelijke tijdschriften, onbetaald

Geen

Geen restricties

Judith Bovee

hoogleraar pathologie: patholoog en klinisch moleculair bioloog in de pathologie

Leids Universitair Medisch Centrum

Geen direct persoonlijke financiele belangen.

Wel betaald (aan LUMC) voor recent eenmalige adviseurschappen voor Bayer, Boehringer Ingelheim, InHbrx (betaald aan LUMC) en voor royalties van UptoDate en van boekbijdragen (Sternberg histopathology en de ARP atlas voor bone and soft tissue tumors)

Extern gefinancierd onderzoek: Tracon Pharmaceuticals: exploring the immune microenvironment in soft tissue sarcoma. Rol als

projectleider: ja

Geen deelname aan adviesraden gedurende ontwikkeling van de richtlijn. Geen restricties t.a.v. door de industrie gefinancierd onderzoek, middel wordt niet behandeld in de richtlijn.

Michiel van de Sande

Orthopedisch chirurg LUMC

Ja advisory board Synox Tangent trial paid

* Vice president European Musculoskeletal Oncology Society, onbetaald

* Penningmeester bestuur Dutch sarcoma Group, onbetaald

Extern gefinancierd onderzoek: Ja

KWF PI Restricted GRANT PERSARC en PERSARC IMP STS predictie

St EVA PI Unrestricted grant EWING onderzoek Fluoricentie geleide chirurgie bij Ewing

Carbofix PI Restricted Grant Carbofiximplant  registry

Implantcast PI Unrestricted grant voor MORE implant registry

Geen restricties t.a.v. door de industrie gefinancierd onderzoek, valt buiten bestek van de richtlijn. Geen financieel voordeel bij gebruik van PERSARC predictiemodel, deze is gratis te gebruiken.

Renate van den Bos

(onco-) dermatoloog

Erasmus MC Rotterdam

lid werkgroep Mohs chirurgie NVDV, lid Dutch Rare Cancer Platform (onbetaald)

Geen

Geen restricties

Rick Haas

NKI-AvL

radiotherapeut LUMC

Geen

Geen restricties

Winan van Houdt

Chirurg Oncoloog in Antoni van leeuwenhoek Ziekenhuis

Geen

Extern gefinancierd onderzoek:

KWF project translationeel onderzoek sarcomen

KWF

translationeel onderzoek sarcomen

Geen restricties

Winette van der Graaf

internist oncoloog, NKI-AVl Amsterdam 80%, betaald

hoogleraar interne oncologie ErasmusMC Rotterdam 20%, betaald

Voorzitter bestuur AYA 'Jong en Kanker' Zorgnetwerk, onbetaald

President European Organisation for Research and Treatment of Cancer (EORTC) onbetaald

Voorzitter bestuur Dutch sarcoma Group, onbetaald, tot juni 2024

Geen patenten

Advisory board Agenus vergoeding naar AVL

Advisory board SpringworksTx, vergoeding naar AVL

Advisory Board PTC Therapeutics, vergoeding naar AVL

research project (IIS) vergoeding naar instituut waar ik werkte (Royal Marsden Hospital London sarcoma research group en naar NKI sarcomen research)

 

Extern gefinancierd onderzoek: Ja, zie onder

KWF GENAYA, co PI, vergoeding WGS bij AYA kanker ptn

Boehringer Ingelheim

Deelname aan studie met nieuw geneesmiddel bij liposarcoom

AYALA

klinische studie bij desmoid

EORTC

Tolerance studie bij oudere ptn met STS, geen farma betrokkenhied

SpringworksTx

Deelname klinische studie met nieuw geneesmiddel bij desmoid

Geen deelname aan adviesraden gedurende ontwikkeling van de richtlijn. Geen restricties t.a.v. door de industrie gefinancierd onderzoek, middel wordt niet behandeld in de richtlijn.

Inbreng patiëntenperspectief

Er werd aandacht besteed aan het patiëntenperspectief via een afgevaardigde patiëntenvereniging (Patiëntenplatform Sarcomen) in de werkgroep en de patiëntenverenigingen zijn gevraagd input te leveren voor de knelpuntenanalyse. De verkregen input is meegenomen bij het opstellen van de uitgangsvragen, de keuze voor de uitkomstmaten en bij het opstellen van de overwegingen. De conceptrichtlijn is tevens voor commentaar voorgelegd aan de Nederlandse Federatie van Kankerpatiëntenorganisaties en de Patiëntenfederatie Nederland en de eventueel aangeleverde commentaren zijn bekeken en verwerkt.

 

Kwalitatieve raming van mogelijke financiële gevolgen in het kader van de Wkkgz

Bij de richtlijnmodule is conform de Wet kwaliteit, klachten en geschillen zorg (Wkkgz) een kwalitatieve raming uitgevoerd om te beoordelen of de aanbevelingen mogelijk leiden tot substantiële financiële gevolgen. Bij het uitvoeren van deze beoordeling is de richtlijnmodule op verschillende domeinen getoetst (zie het stroomschema op de Richtlijnendatabase).

 

Module

Uitkomst raming

Toelichting

Module eerstelijns-chemotherapie

geen financiële gevolgen

<5.000 patiënten

Werkwijze

AGREE

Deze richtlijnmodule is opgesteld conform de eisen vermeld in het rapport Medisch Specialistische Richtlijnen 2.0 van de adviescommissie Richtlijnen van de Raad Kwaliteit. Dit rapport is gebaseerd op het AGREE II instrument (Appraisal of Guidelines for Research & Evaluation II; Brouwers, 2010).

 

Knelpuntenanalyse en uitgangsvragen

Tijdens de voorbereidende fase inventariseerde de werkgroep de knelpunten in de zorg voor patiënten met wekedelentumoren. Tevens zijn er knelpunten aangedragen door verschillende partijen via een schriftelijke knelpuntenanalyse. Een verslag hiervan is opgenomen onder aanverwante producten.  

 

Op basis van de uitkomsten van de knelpuntenanalyse zijn door de werkgroep concept-uitgangsvragen opgesteld en definitief vastgesteld.

 

Uitkomstmaten

Na het opstellen van de zoekvraag behorende bij de uitgangsvraag inventariseerde de werkgroep welke uitkomstmaten voor de patiënt relevant zijn, waarbij zowel naar gewenste als ongewenste effecten werd gekeken. Hierbij werd een maximum van acht uitkomstmaten gehanteerd. De werkgroep waardeerde deze uitkomstmaten volgens hun relatieve belang bij de besluitvorming rondom aanbevelingen, als cruciaal (kritiek voor de besluitvorming), belangrijk (maar niet cruciaal) en onbelangrijk. Tevens definieerde de werkgroep ten minste voor de cruciale uitkomstmaten welke verschillen zij klinisch (patiënt) relevant vonden.

 

Methode literatuursamenvatting

Een uitgebreide beschrijving van de strategie voor zoeken en selecteren van literatuur is te vinden onder ‘Zoeken en selecteren’ onder Onderbouwing. Indien mogelijk werd de data uit verschillende studies gepoold in een random-effects model. Review Manager 5.4 werd gebruikt voor de statistische analyses. De beoordeling van de kracht van het wetenschappelijke bewijs wordt hieronder toegelicht.

 

Beoordelen van de kracht van het wetenschappelijke bewijs

De kracht van het wetenschappelijke bewijs werd bepaald volgens de GRADE-methode. GRADE staat voor ‘Grading Recommendations Assessment, Development and Evaluation’ (zie http://www.gradeworkinggroup.org/). De basisprincipes van de GRADE-methodiek zijn: het benoemen en prioriteren van de klinisch (patiënt) relevante uitkomstmaten, een systematische review per uitkomstmaat, en een beoordeling van de bewijskracht per uitkomstmaat op basis van de acht GRADE-domeinen (domeinen voor downgraden: risk of bias, inconsistentie, indirectheid, imprecisie, en publicatiebias; domeinen voor upgraden: dosis-effect relatie, groot effect, en residuele plausibele confounding).

GRADE onderscheidt vier gradaties voor de kwaliteit van het wetenschappelijk bewijs: hoog, redelijk, laag en zeer laag. Deze gradaties verwijzen naar de mate van zekerheid die er bestaat over de literatuurconclusie, in het bijzonder de mate van zekerheid dat de literatuurconclusie de aanbeveling adequaat ondersteunt (Schünemann, 2013; Hultcrantz, 2017).

 

GRADE

Definitie

Hoog

  • er is hoge zekerheid dat het ware effect van behandeling dichtbij het geschatte effect van behandeling ligt;
  • het is zeer onwaarschijnlijk dat de literatuurconclusie klinisch relevant verandert wanneer er resultaten van nieuw grootschalig onderzoek aan de literatuuranalyse worden toegevoegd.

Redelijk

  • er is redelijke zekerheid dat het ware effect van behandeling dichtbij het geschatte effect van behandeling ligt;
  • het is mogelijk dat de conclusie klinisch relevant verandert wanneer er resultaten van nieuw grootschalig onderzoek aan de literatuuranalyse worden toegevoegd.

Laag

  • er is lage zekerheid dat het ware effect van behandeling dichtbij het geschatte effect van behandeling ligt;
  • er is een reële kans dat de conclusie klinisch relevant verandert wanneer er resultaten van nieuw grootschalig onderzoek aan de literatuuranalyse worden toegevoegd.

Zeer laag

  • er is zeer lage zekerheid dat het ware effect van behandeling dichtbij het geschatte effect van behandeling ligt;
  • de literatuurconclusie is zeer onzeker.

 

Bij het beoordelen (graderen) van de kracht van het wetenschappelijk bewijs in richtlijnen volgens de GRADE-methodiek spelen grenzen voor klinische besluitvorming een belangrijke rol (Hultcrantz, 2017). Dit zijn de grenzen die bij overschrijding aanleiding zouden geven tot een aanpassing van de aanbeveling. Om de grenzen voor klinische besluitvorming te bepalen moeten alle relevante uitkomstmaten en overwegingen worden meegewogen. De grenzen voor klinische besluitvorming zijn daarmee niet één op één vergelijkbaar met het minimaal klinisch relevant verschil (Minimal Clinically Important Difference, MCID). Met name in situaties waarin een interventie geen belangrijke nadelen heeft en de kosten relatief laag zijn, kan de grens voor klinische besluitvorming met betrekking tot de effectiviteit van de interventie bij een lagere waarde (dichter bij het nuleffect) liggen dan de MCID (Hultcrantz, 2017).

 

Overwegingen (van bewijs naar aanbeveling)

Om te komen tot een aanbeveling zijn naast (de kwaliteit van) het wetenschappelijke bewijs ook andere aspecten belangrijk en worden meegewogen, zoals aanvullende argumenten uit bijvoorbeeld de biomechanica of fysiologie, waarden en voorkeuren van patiënten, kosten (middelenbeslag), aanvaardbaarheid, haalbaarheid en implementatie. Deze aspecten zijn systematisch vermeld en beoordeeld (gewogen) onder het kopje ‘Overwegingen’ en kunnen (mede) gebaseerd zijn op expert opinion. Hierbij is gebruik gemaakt van een gestructureerd format gebaseerd op het evidence-to-decision framework van de internationale GRADE Working Group (Alonso-Coello, 2016a; Alonso-Coello 2016b). Dit evidence-to-decision framework is een integraal onderdeel van de GRADE methodiek.

 

Formuleren van aanbevelingen

De aanbevelingen geven antwoord op de uitgangsvraag en zijn gebaseerd op het beschikbare wetenschappelijke bewijs en de belangrijkste overwegingen, en een weging van de gunstige en ongunstige effecten van de relevante interventies. De kracht van het wetenschappelijk bewijs en het gewicht dat door de werkgroep wordt toegekend aan de overwegingen, bepalen samen de sterkte van de aanbeveling. Conform de GRADE-methodiek sluit een lage bewijskracht van conclusies in de systematische literatuuranalyse een sterke aanbeveling niet a priori uit, en zijn bij een hoge bewijskracht ook zwakke aanbevelingen mogelijk (Agoritsas, 2017; Neumann, 2016). De sterkte van de aanbeveling wordt altijd bepaald door weging van alle relevante argumenten tezamen. De werkgroep heeft bij elke aanbeveling opgenomen hoe zij tot de richting en sterkte van de aanbeveling zijn gekomen.

In de GRADE-methodiek wordt onderscheid gemaakt tussen sterke en zwakke (of conditionele) aanbevelingen. De sterkte van een aanbeveling verwijst naar de mate van zekerheid dat de voordelen van de interventie opwegen tegen de nadelen (of vice versa), gezien over het hele spectrum van patiënten waarvoor de aanbeveling is bedoeld. De sterkte van een aanbeveling heeft duidelijke implicaties voor patiënten, behandelaars en beleidsmakers (zie onderstaande tabel). Een aanbeveling is geen dictaat, zelfs een sterke aanbeveling gebaseerd op bewijs van hoge kwaliteit (GRADE gradering HOOG) zal niet altijd van toepassing zijn, onder alle mogelijke omstandigheden en voor elke individuele patiënt.

 

Implicaties van sterke en zwakke aanbevelingen voor verschillende richtlijngebruikers

 

 

Sterke aanbeveling

Zwakke (conditionele) aanbeveling

Voor patiënten

De meeste patiënten zouden de aanbevolen interventie of aanpak kiezen en slechts een klein aantal niet.

Een aanzienlijk deel van de patiënten zouden de aanbevolen interventie of aanpak kiezen, maar veel patiënten ook niet. 

Voor behandelaars

De meeste patiënten zouden de aanbevolen interventie of aanpak moeten ontvangen.

Er zijn meerdere geschikte interventies of aanpakken. De patiënt moet worden ondersteund bij de keuze voor de interventie of aanpak die het beste aansluit bij zijn of haar waarden en voorkeuren.

Voor beleidsmakers

De aanbevolen interventie of aanpak kan worden gezien als standaardbeleid.

Beleidsbepaling vereist uitvoerige discussie met betrokkenheid van veel stakeholders. Er is een grotere kans op lokale beleidsverschillen. 

 

Organisatie van zorg

In de knelpuntenanalyse en bij de ontwikkeling van de richtlijnmodule is expliciet aandacht geweest voor de organisatie van zorg: alle aspecten die randvoorwaardelijk zijn voor het verlenen van zorg (zoals coördinatie, communicatie, (financiële) middelen, mankracht en infrastructuur). Randvoorwaarden die relevant zijn voor het beantwoorden van deze specifieke uitgangsvraag zijn genoemd bij de overwegingen. Meer algemene, overkoepelende, of bijkomende aspecten van de organisatie van zorg worden behandeld in de module Organisatie van zorg.

 

Commentaar- en autorisatiefase

De conceptrichtlijnmodule werd aan de betrokken (wetenschappelijke) verenigingen en (patiënt) organisaties voorgelegd ter commentaar. De commentaren werden verzameld en besproken met de werkgroep. Naar aanleiding van de commentaren werd de conceptrichtlijnmodule aangepast en definitief vastgesteld door de werkgroep. De definitieve richtlijnmodule werd aan de deelnemende (wetenschappelijke) verenigingen en (patiënt) organisaties voorgelegd voor autorisatie en door hen geautoriseerd dan wel geaccordeerd.

 

Literatuur

Agoritsas T, Merglen A, Heen AF, Kristiansen A, Neumann I, Brito JP, Brignardello-Petersen R, Alexander PE, Rind DM, Vandvik PO, Guyatt GH. UpToDate adherence to GRADE criteria for strong recommendations: an analytical survey. BMJ Open. 2017 Nov 16;7(11):e018593. doi: 10.1136/bmjopen-2017-018593. PubMed PMID: 29150475; PubMed Central PMCID: PMC5701989.

 

Alonso-Coello P, Schünemann HJ, Moberg J, Brignardello-Petersen R, Akl EA, Davoli M, Treweek S, Mustafa RA, Rada G, Rosenbaum S, Morelli A, Guyatt GH, Oxman AD; GRADE Working Group. GRADE Evidence to Decision (EtD) frameworks: a systematic and transparent approach to making well informed healthcare choices. 1: Introduction. BMJ. 2016 Jun 28;353:i2016. doi: 10.1136/bmj.i2016. PubMed PMID: 27353417.

Alonso-Coello P, Oxman AD, Moberg J, Brignardello-Petersen R, Akl EA, Davoli M, Treweek S, Mustafa RA, Vandvik PO, Meerpohl J, Guyatt GH, Schünemann HJ; GRADE Working Group. GRADE Evidence to Decision (EtD) frameworks: a systematic and transparent approach to making well informed healthcare choices. 2: Clinical practice guidelines. BMJ. 2016 Jun 30;353:i2089. doi: 10.1136/bmj.i2089. PubMed PMID: 27365494.

 

Brouwers MC, Kho ME, Browman GP, Burgers JS, Cluzeau F, Feder G, Fervers B, Graham ID, Grimshaw J, Hanna SE, Littlejohns P, Makarski J, Zitzelsberger L; AGREE Next Steps Consortium. AGREE II: advancing guideline development, reporting and evaluation in health care. CMAJ. 2010 Dec 14;182(18):E839-42. doi: 10.1503/cmaj.090449. Epub 2010 Jul 5. Review. PubMed PMID: 20603348; PubMed Central PMCID: PMC3001530.

 

Hultcrantz M, Rind D, Akl EA, Treweek S, Mustafa RA, Iorio A, Alper BS, Meerpohl JJ, Murad MH, Ansari MT, Katikireddi SV, Östlund P, Tranæus S, Christensen R, Gartlehner G, Brozek J, Izcovich A, Schünemann H, Guyatt G. The GRADE Working Group clarifies the construct of certainty of evidence. J Clin Epidemiol. 2017 Jul;87:4-13. doi: 10.1016/j.jclinepi.2017.05.006. Epub 2017 May 18. PubMed PMID: 28529184; PubMed Central PMCID: PMC6542664.

 

Medisch Specialistische Richtlijnen 2.0 (2012). Adviescommissie Richtlijnen van de Raad Kwalitieit. http://richtlijnendatabase.nl/over_deze_site/over_richtlijnontwikkeling.html

 

Neumann I, Santesso N, Akl EA, Rind DM, Vandvik PO, Alonso-Coello P, Agoritsas T, Mustafa RA, Alexander PE, Schünemann H, Guyatt GH. A guide for health professionals to interpret and use recommendations in guidelines developed with the GRADE approach. J Clin Epidemiol. 2016 Apr;72:45-55. doi: 10.1016/j.jclinepi.2015.11.017. Epub 2016 Jan 6. Review. PubMed PMID: 26772609.

 

Schünemann H, Brożek J, Guyatt G, et al. GRADE handbook for grading quality of evidence and strength of recommendations. Updated October 2013. The GRADE Working Group, 2013. Available from http://gdt.guidelinedevelopment.org/central_prod/_design/client/handbook/handbook.html.

Zoekverantwoording

Zoekacties zijn opvraagbaar. Neem hiervoor contact op met de Richtlijnendatabase.

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Follow-up: frequentie en duur, beeldvorming