Off-label azathioprine - Atopic dermatitis
Uitgangsvraag
What is the safety and efficacy of off-label treatment with azathioprine in patients with dermatological diseases?
- Atopic dermatitis
Aanbeveling
Strong |
There is a strong recommendation for treatment with azathioprine in atopic dermatitis (very certain estimate for a very certain moderate effect). Azathioprine can therefore be used for the treatment of atopic dermatitis if registered treatment options fail or are contra-indicated. Attention should be given to safety aspects when prescribing azathioprine (uncertain safety in off-label use). |
Overwegingen
Remarks on clinical recommendation for atopic dermatitis
Important subjects to consider |
Remarks |
Uncertainty in the estimates of likely benefit, and likely risk, inconvenience, and costs *
* estimates for benefit (efficacy/effectiveness) and safety are ranked by the working group as very certain, certain, uncertain or very uncertain. |
-Two randomized trials (high quality of evidence) and case series have demonstrated the benefit of AZA in AD patients (high quality of evidence) . Very certain estimate. -Frequent side-effects: gastro-intestinal complaints, abnormal laboratory results . Uncertainty about the off-label safety of azathioprine. -Costs may vary with the number of follow-up visits and dosage of azathioprine, but are generally low. |
Importance of the outcome that treatment prevents |
-Diminishing the symptoms of atopic dermatitis (itch, erythema, exudation, excoriation, dryness, cracking and lichenification). -Preventing a negative effect on the health relate quality of life. - Less infections. - Reducing length of stay in hospital. - Reducing the long term side-effect of treatments. |
Magnitude of treatment effect * * the magnitude of treatment effect is ranked by the working group as good, moderate, low, no effect or worsening. |
-SASSAD score improvement ranges from 26 to 37% after 3 months of treatment with 0,5 to 2,5 mg/kg/day AZA. Moderate effect. - SASSAD score improvement in cyclosporin treatmenr ranged from 39% to 57% (ref J Schmitt (2007)) |
Precision of estimate of treatment effect
* estimates are ranked by the working group as very certain, certain, uncertain or very uncertain. |
-Significant effect AZA compared with placebo (p < 0,01). Very certain precision. -Patient reported itch was significantly decreased in 1 RCT and non-significantly in the other RCT. |
Risks associated with therapy |
-See section “general treatment considerations” and “safety”. |
Burdens of Therapy |
-During the first weeks of therapy laboratory monitoring at weekly intervals is necessary, after wards every one to three months. See also section “general treatment considerations”. There seems to be no difference compared with other systemic treatment options. |
Risk of target event |
- |
- Costs of AZA are between € 10,14 and 10,17 for 15 days 3dd 50 mg, not included are the costs for delivery, laboratory monitoring and visits to the clinic. (*www.medicijnkosten.nl). |
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Costs |
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Varying Values between patients |
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Other |
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Onderbouwing
Achtergrond
In total, 10 studies published between 1996 and 2008 were found in which AD patients were treated with azathioprine (AZA); 2 RCT’s and 8 case series, 3 of which prospective.
The severity outcome assessments employed were the six area six sign atopic dermatitis score (SASSAD), scoring atopic dermatitis (SCORAD), quality of life (QoL) measurement (Dermatology Life Quality Index, etc). Also symptom based outcome measurements on visual analogue scale (VAS), such as pruritus, sleep disturbance and disruption of work and daytime activity were used. Laboratory markers like serum IgE levels, serum CD30 levels and eosinophil blood counts were also used to monitor disease severity. As these laboratory markers do not clearly reflect disease severity, the clinical importance of those measurements can be questioned. The amounts of topical steroids, oral anti-histamines and antibiotics used during a study and the frequency of S. aureus carriage of the skin are also being used to reflect the therapeutical effect of AZA. However, in most cases disease severity was only documented by descriptive means.
Besides the severity outcome measurements also onset of action, loss of initial response and duration of remission were reported.
Conclusies
High |
The two available RCT’s are of high quality without any serious limitations or flaws (also see table 4). The effect of azathioprine in atopic dermatitis is a SASSAD score improvement ranging from 26 to 37% after 3 months of treatment with dosages ranging from 0.5 to 2.5 mg/kg/day. The other evidence, consisting mostly of case series, shows no inconsistency with the RCT’s. |
Samenvatting literatuur
RCT
Methodological quality
Both RCT’s were double-blind placebo controlled trials. The methodological quality of the studies was assessed by using the risk of bias table used by the Cochrane library. Results are shown in Table 4. Overall, there was a low risk of bias. Especially, the study by Meggitt et al. was very specific about the procedures before, during and after the clinical study. Berth-Jones et al. failed to report if any incomplete data were present and how they dealt with that. (table 4.)
Demography
The study by Berth-Jones et al. used a cross-over design in which there were two groups of subjects (ratio 1:1). The first group started with AZA treatment and crossed over to placebo after 3 months. The second group started on placebo and crossed over to AZA treatment after 3 months. In total, 37 subjects (25 male, 12 female) were enrolled, with a mean age of 38 years. Dose of AZA was 2.5 mg/kg/day.
Meggitt et al. randomized the 61 subjects (35 male, 26 female) with a mean age of 30 years to either AZA or placebo treatment in a 2:1 ratio. The dosage of AZA depended on both weight and TMPT activity of the subjects and ranged from 0.5-2.5 mg/kg/day. All patients were allowed to use concomitant topical steroids.
No follow-up was reported in both RCT’s. Previous treatments were not reported. (Table 1.)
Efficacy
Both RCT’s performed intention to treat (ITT) analysis to compare AZA treatment with placebo. Berth-Jones et al. found a mean SASSAD improvement of 10.1 points (26%) on ITT analysis on AZA treatment and a mean SASSAD improvement of 1.0 points (3%) on placebo (p>0.01). Analysis of changes in symptom scores (pruritus, sleep disturbance and disruption of work and daytime activity) on VAS scales all showed an improvement in the AZA group over the placebo group. Only the improvement on the disruption of work and daytime activity was significant. It is noteworthy that 12 of the 37 subjects withdrew during AZA treatment compared to 4 of the 37 subjects during placebo treatment. Reasons for withdrawal when treated with AZA were multiple: non compliance (n=6), adverse events (n=4), clearing of eczema (n=1) and lack of response (n=1). Withdrawals during placebo treatment were all due to non-compliance.
Meggitt et al. found a mean SASSAD improvement of 37% in the AZA group versus 20.6% in the placebo group on ITT analysis. This difference was significant. There was also a significant reduction in body area involvement, patient reported itch, investigator and patient global assessment and Dermatology Life Quality Index. Improvement of sleep loss, reduction of soluble serum CD30 and reduction in the use of topical steroids were non-significant between the two groups. There was no difference in efficacy of AZA between the patients on low dosage and high dosage according to their TMPT activity. In total, 7 patients withdrew from the study; 6 patients in the AZA group withdrew from the study, (2 due to hypersensitivity, 4 due to severe nausea) and one in the placebo group due to headache and malaise. Time to effect was not reported in both RCT’s (Table 2.).
Meta-analysis could not be performed due to insufficient data to calculate the required standard deviations.
Case series
Demography
Eight studies with case series concerning 221 AD patients, 3 of which were prospective were included . The 4 studies with the largest patient populations were all retrospective. Patients included in the trials had moderate to severe atopic dermatitis and were often refractory to conventional therapy. A clear definition of eczema was almost never given. Previous treatments were emollients, topical and oral steroids, cyclosporin, UVB, PUVA and in-hospital treatment. Not all patients received systemic treatment before starting AZA. One study was performed solely with children, in 3 studies the population consisted of both children and adults and in 4 adults only.
The dose employed ranged from 0.5 mg/kg/day to 3.5 mg/kg/day. Two studies adjusted their dose regimen to TMPT activity. Duration of treatment varied from 1 week to 94 months and the follow-up period ranged from 0 to 216 months. (Table 1)
Effectiveness
Two of the 3 prospective studies used clinical parameters to define disease severity. In the study of Hon et al., a mean SCORAD improvement of 36.6 units in females and 21.4 units in males was seen over a 6 months period. Meggitt et al. found a mean SASSAD improvement of 12.3 units which was statistically significant. In all the other studies descriptive means were used to report changes in disease severity. In those studies, at least 60% of the patients had a ‘good’ response to AZA, although there was no clear definition given of what a ‘good response’ actually means. There was no clear difference in outcomes of retrospective and prospective studies.
Besides the clinical severity measures also other parameters were explored. Two studies found a significant decrease of serum IgE levels. Hon et al. also found significant decrease in S. aureus carriage of the skin and use of anti-histamines, but not in a decreased use of topical corticosteroids. Murphey et al. found that the eosinophil counts decreased significantly over time.
Complete remissions were reported in 40.5% to 58.3%. The duration of the remission ranged from 1- 35 months and often lasted until the follow-up period was ended. Lear et al. found that in the year after treatment with AZA fewer antibiotic treatments were used and fewer hospital admissions, outpatient attendances and changes to potent topical steroids occurred compared with the year before AZA treatment.
In some cases loss of initial response is reported. For example, in the study of Buckley et al. 30% of the patients became refractory to AZA treatment. Time to treatment response ranged from 1 week to 7 months (Table 2).
Referenties
- 1 - Berth-Jones J, Takwale A, Tan E et al. Azathioprine in severe adult atopic dermatitis: a double-blind, placebo-controlled, crossover trial. Br J Dermatol 2002; 147: 324-30.
- 2 - Buckley DA, Baldwin P, Rogers S. The use of azathioprine in severe adult atopic eczema. J Eur Acad Dermatol Venereol 1998; 11: 137-40.
- 3 - Hon KL, Ching GK, Leung TF et al. Efficacy and tolerability at 3 and 6 months following use of azathioprine for recalcitrant atopic dermatitis in children and young adults. J Dermatolog Treat 2008; 1-5.
- 4 - Hughes R, Collins P, Rogers S. Further experience of using azathioprine in the treatment of severe atopic dermatitis. Clin Exp Dermatol 2008; 33: 710-1.
- 5 - Kuanprasert N, Herbert O, Barnetson RS. Clinical improvement and significant reduction of total serum IgE in patients suffering from severe atopic dermatitis treated with oral azathioprine. Australas J Dermatol 2002; 43: 125-7.
- 6 - Lear JT, English JS, Jones P et al. Retrospective review of the use of azathioprine in severe atopic dermatitis. J Am Acad Dermatol 1996; 35: 642-3.
- 7 - Malthieu F, Guillet G, Larregue M. [Azatropin in severe atopic dermatitis: 24 cases]. Ann Dermatol Venereol 2005; 132: 168-70.
- 8 - Meggitt SJ, Reynolds NJ. Azathioprine for atopic dermatitis. Clin Exp Dermatol 2001; 26: 369-75.
- 9 - Meggitt SJ, Gray JC, Reynolds NJ. Azathioprine dosed by thiopurine methyltransferase activity for moderate-to-severe atopic eczema: a double-blind, randomised controlled trial. Lancet 2006; 367: 839-46.
- 10 - Murphy LA, Atherton D. A retrospective evaluation of azathioprine in severe childhood atopic eczema, using thiopurine methyltransferase levels to exclude patients at high risk of myelosuppression. Br J Dermatol 2002; 147: 308-15.
Evidence tabellen
Verantwoording
Autorisatiedatum en geldigheid
Laatst beoordeeld : 22-06-2010
Laatst geautoriseerd : 22-06-2010
Geplande herbeoordeling :
A guideline can only be leading, if it is maintained on a continuous base, with systematic monitoring of medical scientific literature as well as regular contributions from clinical practice. In case of important developments, it can be decided that the complete working group shall meet to propose amendments, which will be distributed among the various professional groups. A revision will be planned at least every five years.
Doel en doelgroep
Objective
A guideline is a document with recommendations to support patient care in daily practice. The guideline is based on results of scientific research and subsequent formation of opinion, aimed at deciding on the appropriate medical intervention. A guideline and the documents derived from it, give recommendations for the treatment of patients, including psychosocial care and patient information.
Intended users
The guideline is intended for members of the medical and paramedical professional group, including: dermatologists, general practitioners, pharmacists and dermatology nurses, nurse practitioners and physician assistants. A text derived from the guideline is available for patients.
Samenstelling werkgroep
A working group was appointed for the development of the guideline. This group consisted of dermatologists, pharmacists and a general practitioner from Lareb (the Dutch pharmacovigilance centre). During the formation of the group, the geographical distribution of its members was taken into account as well as a balanced representation of academic and non-academic employment . The members of the working group have acted independently and not a single member received any favour aimed at influencing the guidelines.
J.G. (Jan Gerrit) van der Schroeff, MD, PhD |
Dermatologist, Chairman working group |
J.J.E. (Jannes) van Everdingen, MD, PhD |
Director NVDV |
M. E. (Mandy) Schram, MD |
PhD candidate and resident Dermatology |
P. (Pieter) van der Valk, MD,PhD |
Dermatologist |
W.R. (William) Faber MD. PhD, FRCP |
Dermatologist |
A.Y. (Amber) Goedkoop, MD, PhD |
Dermatologist |
R.J. (Rinke) Borgonjen, MD |
PhD candidate |
A. (Annemieke) Horikx, PharmD |
Pharmacist KNMP |
E.P. (Eugène) van Puijenbroek, MD |
General practitioner Lareb |
R.I.F. (Rutger) van der Waal, MD, PhD |
Dermatologist |
A. (Annemieke) Floor, PharmD |
Pharmacist-researcher |
W. (Wouter) Goldtschmidt, MD, PhD |
Dermatologist |
E.L. (Noortje) Swart PhD |
Clinical pharmacist |
Ph. I. (Phyllis) Spuls, MD, PhD |
Dermatologist |
Belangenverklaringen
List of conflicts of interest
None reported
Methode ontwikkeling
Evidence based
Implementatie
During the various phases of developing the draft guideline, the implementation of the guideline and the actual workability of the recommendations are taken into account as much as is possible. The guideline is distributed to all relevant professional groups and hospitals through the internet and in various medical journals attention will be given to the guideline.
Werkwijze
During a period of year ( meetings) the working group worked on a draft guideline. An expert group made a bottleneck analysis during the preparatory phase. The expert group compiled a list of drugs which are frequently subscribed for off-label use in dermatology. The listed drugs were prioritized according to frequency of use and occurrence of potential serious adverse events. The members of the working group had the opportunity to propose alterations in the list of selected drugs The members of the working group agreed on composing a guideline about the off-label use of the following six selected drugs:
- Azathioprine
- Cyclosporine
- Methotrexate
- sulfasalazine dapsone
- Hydroxychloroquine
The working group agreed that the outcomes efficacy/effectiveness and safety are crucial for decision making. . The working group started by making a draft guideline for azathioprine and decided that the applied methods would serve as a blueprint for the other five drugs. Useful literature was found by systematic searches and by checking of references (see “Methodology of literature search”). The members of the working group assessed the relevant literature with regard to content and quality. Subsequently, conclusions were drawn and recommendations were made for off-label use of the selected drugs by the members of the working group. The final version of the guideline was approved by all scientific societies involved on.
Methodology of literature search
Research question
For each selected drug a research question according to PICO was made.
PICO stands for:
- Participants/population: population of patients with a dermatological disease who are treated with a drug that is not registered for the use in this particular disease.
- Intervention: the selected drug.
- Comparison: any other treatment (e.g. other systemic therapy, placebo, quality of life intervention), in case of lack of a control group; no other treatment.
- Outcome: safety and/or efficacy.
Search strategy
For each selected drug a standardized search was performed in the Medline (by PubMed) (1950-2009), EMBASE (1980-2009) and CENTRAL databases. This search strategy was designed by a literature specialist of the department ‘Professionele Kwaliteit van de Orde van Medisch Specialisten’. Also references of included articles were screened for eligibility.
Pre-selection with keywords
After the searches were uploaded in Reference Manager, articles labeled with possible keywords for exclusion were selected. A sample was taken of these selected articles to check if there were any relevant articles in that selection. The sample size was either 20 or 50 articles, depending on the number of articles labeled with a specific keyword. If the sample didn’t contain any relevant articles, all the articles labeled with a specific keyword were excluded.
In the searches of cyclosporine, methotrexate, dapsone, hydroxychloroquine and sulfasalazine articles with the keywords ‘case report’ were excluded after a sample of 50 articles didn’t reveal any relevant articles for inclusion.
In addition, articles with the following keywords were excluded after a sample of 20 articles didn’t show any relevant articles:
Cyclosporine |
Dapsone |
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Transplantation |
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Leprosy |
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Transplantation immunology |
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Mycobarterium leprae |
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Transplantation immunology [Physiology] |
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Pneumocystis carinii |
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Acute graft rejection [Complication] |
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Toxoplasmosis |
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Acute graft rejection [Diagnosis] |
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Spider |
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Acute graft rejection [Drug therapie] |
Methotrexate* |
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- Acute graft versus host disease |
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Psoriasis |
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Bone Marrow Transplantation |
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Reumathoid arthritis |
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Breast cancer |
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Leukemia |
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Graft Survival |
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Osteosarcoom |
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Graft Recipient |
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Lymphoma |
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Kidney Graft |
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Bladder |
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Kidney Transplantation |
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Breast Cancer |
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Liver Transplantation |
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Mycosis |
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Proteinuria |
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Multiple sclerosis |
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Nephritis |
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Colitis |
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Irradiation |
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Asthma |
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Heart transplantation |
- Cancer + skin + cutaneous |
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Vitamin |
Sulfasalazine |
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Psoriasis |
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Rheumatoid arthritis |
Hydroxychloroquine: |
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Arthritis |
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Rheumatic disease |
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Crohn |
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Systemic lupus erythematodes |
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Ulcerative colitis |
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Discoid lupus erythematodes |
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Lupus erythematosus |
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* In the methotrexate search articles with the note ‘review’ were excluded after a sample of 20 articles didn’tcontain any relevant articles.
An overall validation of this method was provided by the double search strategy on azathioprine. An initial/broad search (thus without using keywords) was compared with the search that used specific keywords for exclusion. Articles with the keywords ‘case report’, ‘polymyositis’ and ‘idiopatic thrombocytopenic purpera’ were excluded after a sample showed no relevant articles.
We found that all studies that were included in initial/broad search were present in the search using keywords for exclusion. This validates the method of excluding articles by using keywords.
Selection of articles
All articles with title and abstract referring to off-label treatment with the predefined drug in patients with dermatological diseases were selected. To determine eligibility, the full text of the selected articles was screened according to the predefined in-and exclusion criteria. Data on methodological quality, study characteristics, efficacy and safety were extracted by using a data extraction form. All stages of literature selection and data extraction were performed by two independent reviewers. Disagreements about study selection and data extraction were solved by discussion.
In- and exclusion criteria
Selection of the articles was performed by using the following pre-defined in- and exclusion criteria. Inclusion criteria:
- The article concerns the selected drug and
- The selected drug is used in the treatment of a dermatological disease for which that particular drug is not registered.
Exclusion criteria:
- Case reports with less than 5 subjects*
- Lack of data on safety and efficacy
- Articles concerning treatment other than systemic treatment with the selected drug
- Animal studies
- In vitro studies
- Double publications
- Articles concerning diseases that are primarily treated by other specialists
- Language other than English, French, German and Dutch
No restrictions were imposed regarding age, gender, skin type and number of subjects in a study and date of publication.
* A random sample of the excluded articles was taken to check if any relevant adverse effects were missed.
Data-extraction
Of all the included articles, data were extracted by two independent reviewers. This was done by using a standardized data extraction form. Disagreements on data extraction were solved by discussion.
Data- extraction was performed on:
- Methodological quality
- Demographics
- Efficacy
- Safety
Methodological quality
Randomized controlled trials (RCT’s) were assessed following the criterion grading system described in the Cochrane Handbook for systematic reviews of interventions 5.0.0 (updated February 2008). To assess the risk of bias withinincluded RCT’s, the following parameters for methodological quality were used; sequence generation, concealment of allocation, blinding (of participants, researchers and outcome assessment), reporting of incomplete data, presence of selective outcome reporting and other potential threats to validity.
The methodological quality of cohort studies was assessed by using the checklists for cohort studies described by the Dutch Cochrane Centre.
Demographics
Data of demographics were extracted concerning:
- Study design: randomized? controlled? prospective, retrospective?
- Treatment arms
- Disease of the subjects: severity, stage, subtype, duration
- Previous medications
- Diagnostics: what was the method of diagnosis? Clinical, histopathological, other diagnostic criteria?
- Subjects: number, male/female, age, subgroups
- Duration of treatment
- Duration of follow up
- Concomitant medication
- Dosing schedule of the selected drug
Efficacy/effectiveness
- Used outcome parameters: clinical assessment, global assessment, quality of life measurement, laboratory markers, onset of effect, duration of remission, relapse rate, etc)
- Severity outcomes: the result of the used outcome parameters. Differences between baseline and end of the study and between treatment groups.
Safety
Safety is an important issue in off-label use of medication. The working group scored all adverse events, including a special focus on serious adverse effects. Within the included studies, every study that reported (serious) adverse events was taken into account. Adverse events reported in RCT’s or cohorts will be compared with the adverse events that occurred in the control group. If possible a relative risk will be calculated.
Extracted safety data:
- Adverse events: which? how many? at what time during treatment or after treatment?
- Serious adverse events: which? how many? at what time during treatment or after treatment?
- Withdrawals due to adverse events?
An Adverse Event (AE) was defined as an unfavorable and unintended sign, including an abnormal laboratory finding, symptom or disease associated with the use of a medical treatment or procedure, regardless whether it is considered related to the medical treatment or procedure, that occurs during the course of the study.
A Serious Adverse Events (SAE) was defined as any untoward medical occurrence that results in death, is life threatening, requires inpatient hospitalization or prolongation of existing hospitalization, results in persistent or significant disability/incapacity, is a congenital anomaly/birth defect or is reported in the study as such.
Handling of the data
Extracted data will be presented in tables and with accompanying text per disease following standardized means.
Level of evidence
The description and assessment of the articles according to the data extraction (see above) are listed in separate sections under the headers “Safety data off -label azathioprine” or “Efficacy/effectiveness data off-label azathioprine” and in tables (see section Tables).
Not all data extracted from articles are equally valuable. Therefore every set of articles is summarised in a conclusion, in which the level of the evidence is indicated according to the GRADE system (see boxes below). Consequently the recommendations in this guideline are based on evidence generated by scientific research, with emphasis on the outcomes safety and effectiveness/efficacy. The search results that were used are up to date until at least 01-10-2009, unless stated otherwise.
GRADE system
Type of evidence |
Randomized trial = high Observational study = low Any other evidence = very low |
Decrease* grade if |
Important inconsistency • Some or major uncertainty about directness • Imprecise or sparse data • High probability of reporting bias • Serious or very serious limitation to study quality |
Increase grade if |
• Strong evidence of association—significant relative risk of > 2 ( < 0.5) based on consistent evidence from two or more observational studies, with no plausible confounders (+1) • Very strong evidence of association—significant relative risk of > 5 ( < 0.2) based on direct evidence with no major threats to validity (+2) • Evidence of a dose response gradient (+1) • All plausible confounders would have reduced the effect (+1) |
*Each quality criterion can reduce the quality by one or, if very serious, by two levels. |
Conclusion
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Development of the recommendations
For the development of a recommendation, other aspects than scientific evidence are also of importance, such as: patient preferences, availability of special techniques or expertise, organisational aspects, social consequences or costs. Known adverse events are also taken into account, as far as they were not already distilled from scientific literature. These aspects are discussed after the conclusion(s). On the basis of literature, the conclusion is here placed in the context of daily practice, and the pros and cons of the various treatments are balanced against each other. The final formulated recommendation is the result of the available evidence in combination with these considerations and can be formulated as a weak or strong recommendation in favour of a certain therapy or as a weak or strong recommendation against a certain therapy (see box below). The aim of this procedure and the formulation of the guideline using this ‘format’ is to enhance the transparency of the guideline. It leaves room for an efficient discussion during the meetings of the working group and moreover, it improves clarity for the user of the guideline.
Recommendation
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