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Evidence-Based Dermatology: Study |

Balancing the Benefits and Risks of Drug Treatment A Stated-Preference, Discrete Choice Experiment With Patients With Psoriasis FREE

Elizabeth M. Seston, PhD; Darren M. Ashcroft, PhD; Christopher E. M. Griffiths, MD, FRCP
[+] Author Affiliations

Section Editor: Michael Bigby, MD
Assistant Section Editor: Damiano Abeni, MD, MPH
Assistant Section Editor: Rosamaria Corona, DSc, MD
Assistant Section Editor: UrbÀ GonzÁlez, MD, PhD
Assistant Section Editor: Hywel Williams, MSc, PhD, FRCP

More Author Information
Arch Dermatol. 2007;143(9):1175-1179. doi:10.1001/archderm.143.9.1175.
Text Size: A A A
Published online

Objective  To examine the extent to which the attributes of a treatment affect patients' choice of treatment for psoriasis and the magnitude and nature of trade-offs between risks and benefits of treatment.

Design  A questionnaire, including a stated-preference, discrete choice experiment, was used to elicit patients' preferences for the treatment of psoriasis.

Setting  Dermatology clinics in England.

Patients  A total of 126 patients with psoriasis.

Main Outcome Measures  Preferences of patients for, and trade-offs between, the 6 attributes of time to moderate (50%) improvement, relapse, and risks of experiencing skin irritation, high blood pressure, liver damage, and skin cancer.

Results  The mean age of respondents was 47.6 years, and the mean duration of psoriasis was 23 years. All 6 attributes were important factors affecting choice of treatment. The results indicated that patients with psoriasis prioritized low risk of skin cancer (β = −0.054; P < .01) and liver damage (β = −0.054; P < .01) and preferred treatment that resulted in a shorter time to achieve a moderate improvement (β = −0.034; P < .01) over a longer time to relapse (β = 0.028; P < .01). Patients were most willing to wait longer for a treatment to work if the likelihood of skin cancer or liver damage was reduced.

Conclusions  This study shows that treatment attributes influence patients with psoriasis in their choice of treatment. The results of the discrete choice experiment presented herein indicate that most respondents would be willing to trade between different aspects of treatment to achieve improvements in their psoriasis and minimize the risks of adverse events.

Psoriasis is a chronic inflammatory, hyperproliferative skin disease that affects approximately 1% to 2% of the general population in the United Kingdom.1 The morbidity associated with psoriasis is well documented in terms of its impact on patients' quality of life.24 Many patients experience problems with body image, self-esteem and self-concept, poor psychological adaptation, and feelings of stigmatization, shame, and embarrassment concerning their appearance.2,5,6 The disease also places an economic burden on patients, particularly those with severe psoriasis, because they incur out-of-pocket expenses.7

There is currently no cure for psoriasis, although a wide range of therapies are available, varying considerably in terms of efficacy and toxic effects.8 Levels of adherence to treatment among patients with psoriasis are low, with nonadherence rates reported in 40% of patients.9,10 Factors such as efficacy9,11 and duration of treatment10 can influence the decision whether to continue with treatment. Previous studies12,13 have shown that many patients with psoriasis often feel frustrated with the ineffectiveness of current therapies and want treatment to be more aggressive. It has also been suggested that dermatologists (and other physicians) may not appreciate fully the impact that skin diseases have on individual patients.14,15

Little is known about how patients with psoriasis evaluate the risks and benefits of the treatments they are offered. Given the low levels of adherence among these patients, information about the decision-making process could be useful for physicians considering which treatment to offer. This study used a stated-preference, discrete choice experiment (DCE)16 to explore the attitudes of patients toward the risks and benefits of drug treatment for psoriasis. The objectives were to (1) identify the extent to which the attributes of a treatment (eg, degree of improvement, duration of remission, and adverse effects) affected patients' choice of treatment for their psoriasis, (2) determine the hierarchical importance of these attributes, and (3) explore the extent to which patients make trade-offs between risks and benefits of drug treatment for psoriasis.

TREATMENT ATTRIBUTES

Using a DCE, we explored patients' preferences.16 In a DCE, key attributes of a good or service are identified. Realistic and tradable levels are assigned to these attributes, and scenarios containing the attributes are created. Scenarios are paired together, and respondents are asked to choose between the scenarios on the basis of the levels presented. The exercise is then repeated with the values of the attributes within the scenarios being altered systematically.

The treatment attributes used in the DCE were derived from a review of the published literature, and their relevance was confirmed through discussions with 3 consultant dermatologists (one of whom was C.E.M.G.).1721 In all, 6 attributes were included, namely: (1) time to achieve a moderate (50%) improvement, (2) time to relapse, (3) risk of skin irritation, (4) risk of high blood pressure, (5) 20-year risk of liver damage, and (6) 20-year risk of skin cancer. Our survey was administered to patients currently being treated for psoriasis in routine practice and not in a trial setting. We therefore chose a 50% improvement as one of the attributes because this has previously been acknowledged to be a clinically important end point in the assessment of psoriasis.22,23 The levels used for each of these attributes are shown in Table 1.

Table Graphic Jump LocationTable 1. Treatment Attributes, Definitions, and Levels Used in the Discrete Choice Experiment

The levels were organized into treatment scenarios using a fractional factorial design. This type of design was used because a full factorial design would have produced 512 (4 × 4 × 4 × 2 × 2 × 2) treatment scenarios, which was felt to be too burdensome for respondents. Using experimental design theory, we were able to identify 16 pair-wise treatment choices in which the levels were varied independently, thus avoiding multicollinearity24 (a situation in which 2 variables within the model are highly correlated).

These 16 choice sets were split randomly into 2 separate versions of the questionnaire, each containing 8 choice sets, which were distributed to patients. For each choice set, the respondents were asked to select which treatment scenario they would prefer for the management of their psoriasis. Each version of the questionnaire also included a single choice set in which 1 of the treatment options would always be expected to be chosen as a test for consistency. Each patient, therefore, completed 8 pair-wise choices and 1 test of consistency. Table 2 shows an example of a choice set presented to respondents.

Table Graphic Jump LocationTable 2. Example of Choice Set Used in the Discrete Choice Experiment

Demographic data were also collected from each patient relating to age, sex, duration of psoriasis, and age at onset. The Self-Assessment Psoriasis Area and Severity Index, which has a 0 to 72-point scale, was used to determine clinical severity of a patient's psoriasis, with a higher score indicating greater severity.25 In addition, respondents were asked to rank the 6 treatment attributes in order of importance ranging from 1 (most important) to 6 (least important). The study was approved by the local National Health Service research ethics committees in the 3 areas where the study was conducted and also by the University of Manchester Ethics Committee.

STUDY SAMPLE AND DATA ANALYSIS

Patients were recruited from the dermatology departments of 3 Acute National Health Service Hospital Trusts located in northwest England. Questionnaires were distributed to patients who were attending a dermatology outpatient clinic, and postage-paid envelopes were provided for the returns.

Because each respondent provided up to 8 responses (having completed 8 choice sets), a random effects probit model was considered appropriate, as this accounts for correlations between responses given by the same individual. A probit model is a popular specification of a generalized linear model, using the probit link function. Because the response is a series of binomial results, the likelihood is often assumed to follow the binomial distribution. Let Y be a binary outcome variable, and let X be a vector of regressors. The probit model assumes that

Pr (Y = 1|X = x) = Φ(x′β),

where Φ is the cumulative distribution function of the standard normal distribution. Parameters for β are typically estimated by maximum likelihood.26

All calculations were conducted using Intercooled Stata statistical software (version 8.0; StataCorp LP, College Station, Texas). In the model, the choice of treatment option was the binary-dependent variable, and the differences in levels for each of the 6 attributes were the independent variables. Differences were calculated by subtracting the levels. A main-effects linear additive model was estimated in which Δβ is the dependent variable; βo is the constant, representing unobserved influences on choices, βj is the coefficient of the attributes included in the design, e represents the error term due to differences among observations, and u represents the error terms due to differences among respondents26:

Δβ = βo + β1IMPROVE + β2RELAPSE + β3SKIN + β4BLOOD + β5LIVER + β6CANCER + e + u.

The theoretical validity of the model was tested by examining the signs and significance of coefficient estimates in relation to a priori hypotheses. The longer the time to improvement and increased risks of adverse effects of treatment were all expected to have negative coefficients, whereas the longer the time to relapse was expected to have a positive coefficient.

The trade-offs that patients were willing to make were determined by calculating the marginal rate of substitution, that is, the ratio of any 2 attributes.27 Trade-offs were calculated by dividing the coefficients of the attributes by the coefficient for time to improvement (β1), giving the estimated trade-offs in time to improvement for a 1-unit change in each of the other attributes. Confidence intervals for coefficients and the marginal rate of substitution were derived using nonparametric bootstrapping with Stata software (StataCorp LP).28 Bootstrapping allows the confidence intervals to be determined through repeated sampling with replacement, using parameter point estimates and their estimated variance-covariance matrix.

The respondents' treatment choices were explored to see if they showed evidence of nontrading behavior among the different treatment attributes. Respondents were classified as having a dominant preference if they always chose the “best” level of a particular attribute and if they also ranked that attribute as the most important in the ranking exercise.29 To determine whether including respondents with dominant preferences affected the results of the random effects probit model, the data were analyzed in 2 separate models by including and excluding these respondents.

INFLUENCE OF ATTRIBUTES ON TREATMENT CHOICES

In all, 126 patients with psoriasis completed the questionnaire. A total of 64 respondents (51%) were female, and 62 (49%) were male. Their mean age was 47.6 years (range, 21-82 years), the mean duration of their psoriasis was 22.8 years (range, 1-63 years), their mean age at onset of psoriasis was 24.9 years (range, birth to 67 years), and the mean Self-Assessment Psoriasis Area and Severity Index score was 11.1 (range, 0.4-55.2). All 126 respondents passed the consistency test, suggesting that they had understood the DCE. Twenty-nine respondents (23%) showed evidence of dominant preferences for specific treatment attributes. Most of these (19/29) always chose the option for which there was no risk of experiencing skin cancer. A few respondents also showed evidence of dominant preferences for time to relapse (5 subjects), no risk of liver damage (3 subjects), and no risk of high blood pressure (2 subjects).

Two random effects probit models were estimated; 1 with all respondents and 1 with “dominant” respondents excluded. A comparison of the models indicated no significant differences in coefficient estimates, relative size of the coefficients, or the significance of the fit of the models. Therefore, only the model that included all respondents is presented in Table 3. The coefficients for all 6 treatment attributes were statistically significantly different from zero (P < .01), indicating that all the attributes were important factors affecting patients' choice of treatment. The constant term was also significant (P < .05), indicating that other unobserved attributes were also likely to influence treatment preferences.

Table Graphic Jump LocationTable 3. Regression Results From Random Effects Probit Model and Marginal Rates of Substitution in 126 Patients With Psoriasis

The size and direction of the coefficients were in accordance with our a priori hypotheses. The negative signs on the coefficient for the adverse effects indicated that the higher the risk of experiencing these events, the less likely patients were to choose this scenario. Similarly, the negative sign for the time to improvement attribute indicated that the longer the time to achieve a moderate improvement, the less likely the patients were to choose that scenario. Positive values for the time to relapse indicated that the greater the duration of time to relapse, the more likely the patients were to choose that scenario.

RELATIVE IMPORTANCE OF THE TREATMENT ATTRIBUTES

Comparison of the magnitude of the coefficients indicated that respondents considered both the long-term risks of experiencing skin cancer and liver damage to be the most important adverse events influencing their choice of treatment, followed by the risk of experiencing high blood pressure. The risk of skin irritation was considered to be least important. The patients also prioritized time to moderate improvement over time to relapse. This corresponds with the results of the ranking exercise in which 30 of 103 respondents ranked the time to achieving a moderate improvement in psoriasis as the most important attribute (29.1%), whereas 17 of 103 (16.5%) ranked time to relapse as the most important, as shown in Table 4. (It should be noted that 23 respondents [18.3%] did not complete the ranking exercise.)

Table Graphic Jump LocationTable 4. Ranking of Attributes by 103 Respondentsa
TRADE-OFFS BETWEEN THE BENEFITS AND RISKS OF TREATMENT

Table 3 also shows the marginal rates of substitution between time to achieve a moderate improvement in the severity of psoriasis and the other attributes; that is, how much more time to improvement the respondents were willing to trade off to achieve an improvement in 1 level of the other treatment attributes. For example, the results show that respondents were willing to wait 0.8 weeks longer to achieve a moderate improvement if the treatment prolonged the time to relapse following such improvement by 1 week. The least important marginal rates of substitution were for the risk of skin irritation during treatment, and the most important were for the 20-year risks of liver damage and skin cancer.

This study has shown that treatment attributes, such as adverse effects, time to improvement, and time to relapse, influence the treatment preferences of patients with psoriasis. Most respondents would be willing to trade among different aspects of treatment to achieve an improvement in their psoriasis with minimal adverse effects. In other words, patients indicated that they would wait longer for a treatment to work if the chance of a severe adverse effect, such as skin cancer or liver damage, was considerably reduced. Respondents considered the long-term risks of skin cancer and liver damage to be the most important adverse effects and were prioritized above short-term risks of drug-induced hypertension or skin irritation.

Almost a quarter of the sample were unwilling to trade among the attributes and always chose the treatment option with a particular level of their chosen attribute, most often no risk of skin cancer. The level of nontrading in this study was low compared with other DCE studies16,29 in which nontrading respondents have accounted for 30% to 71% of all respondents. It is important to take these into account because they reveal strong preferences on the part of some respondents. These studies suggest that some patients may not accept a treatment offered to them, no matter how efficacious, if they have serious concerns about adverse effects. These findings may provide some insight into why patients demonstrate intentional nonadherence to treatments for psoriasis and provide a useful starting point for meaningful dialogue between patients and physicians about choice of treatment.

Previous studies have explored attitudes to risks and benefits of treatments in patients with rheumatoid arthritis and other musculoskeletal conditions. Fraenkel et al30 found that as many as 60% of respondents would not accept an arthritis treatment if there was a risk, however small, of developing cancer. Another study31 showed that patients would be willing to accept the risk of treatment if the benefits were seen to be high. More recently, it was reported that patients with arthritis prioritized eliminating the risk of adverse effects, whether short- or long-term, much more highly than the chance of the treatment providing benefit.32

To our knowledge, this is the first study to examine the nature and extent of some of the specific trade-offs that patients routinely face when choosing among the risks and benefits of drug treatments for psoriasis. However, there are several limitations that should be taken into account in interpreting the findings. First, the patients were presented with scenarios in which we systematically manipulated specific treatment attributes. Respondents were making decisions based on the state of their psoriasis at the time of the study; however, their attitudes may have varied according to the severity of their psoriasis. In the words of one patient, who provided written comments to support her answers, “If my psoriasis was severe, which indeed it has been at various times of my life, if I look back . . . I would probably, in desperation, have agreed to any treatment that would improve my skin condition.” The results were averaged across the sample, and as a result there is inevitable variation between patients.

It is likely that our sample does not represent fully the general population of patients with psoriasis; rather, it is more representative of those being treated in dermatology clinics in the hospital setting. Future work should explore whether these findings are mirrored by those derived from patients who are being cared for in ambulatory care alone. Likewise, it would also be of interest to explore patients' preferences toward other treatment attributes, such as the route or mode of administration and the associated treatment costs.

Nonetheless, this study has provided novel insight into the attitudes of patients with psoriasis toward the risks and benefits of the treatments they receive. Given the heavy psychological burden associated with psoriasis, the high levels of dissatisfaction with the effectiveness of current treatment, and poor levels of adherence, a greater understanding of how these patients perceive their treatment may enhance the dialogue between them and their physicians.

Section Editor's Note

Does determining patients' preferences have to be so complicated? Probably. Ryan et al1 reviewed the state of the art of eliciting public preferences for health care. Quantitative techniques include ranking exercises, rating scales, and choice-based techniques (as used in this article by Seston et al). Qualitative techniques include interviews, case study analyses, the Delphi technique, complaints procedures, focus groups, concept mapping, citizens' juries, consensus panels, public meetings, and nominal group techniques. All techniques have strengths and limitations that were well reviewed by Ryan et al.1 A thorough description of discrete choice experiments and an example of their use in rheumatology can be found in a second article by Ryan et al.2

Michael Bigby, MD

1. Ryan M, Scott DA, Reeves C, et al. Eliciting public preferences for healthcare: a systematic review of techniques. Health Technol Assess. 2001;5(5):1-186.

2. Ryan M, Bate A, Eastmond CJ, Ludbrook A. Use of discrete choice experiments to elicit preferences. Qual Health Care. 2001;(10 suppl 1):i55-i60.

Correspondence: Elizabeth M. Seston, PhD, School of Pharmacy and Pharmaceutical Sciences, Stopford Building, Oxford Road, University of Manchester, Manchester M13 9PT, England (liz.seston@gmail.com).

Financial Disclosure: None reported.

Accepted for Publication: March 16, 2007.

Author Contributions: Dr Ashcroft had full access to all the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis. Study concept and design: Seston, Ashcroft, and Griffiths. Acquisition of data: Seston and Ashcroft. Analysis and interpretation of data: Seston, Ashcroft, and Griffiths. Drafting of the manuscript: Seston and Ashcroft. Critical revision of the manuscript for important intellectual content: Seston, Ashcroft, and Griffiths. Statistical analysis: Seston and Ashcroft. Obtained funding: Ashcroft and Griffiths. Administrative, technical, and material support: Ashcroft. Study supervision: Ashcroft and Griffiths.

Funding/Support: Galderma International Ltd provided financial support for the study via an unrestricted educational grant.

Disclaimer: The views expressed in this article are those of the authors alone.

Additional Contributions: The staff at the hospitals assisted with the distribution of questionnaires. We thank all of the patients who took part in the study.

Nevitt  GJHutchinson  PE Psoriasis in the community: prevalence, severity and patients' beliefs and attitudes towards the disease. Br J Dermatol 1996;135 (4) 533- 537
PubMed Link to Article
Ramsay  BO'Reagan  M A survey of the social and psychological effects of psoriasis. Br J Dermatol 1988;118 (2) 195- 201
PubMed Link to Article
Fried  RGFriedman  SParadis  C  et al.  Trivial or terrible? the psychosocial impact of psoriasis. Int J Dermatol 1995;34 (2) 101- 105
PubMed Link to Article
Rapp  SRFeldman  SRExum  MLFleischer  AB  JrReboussin  DM Psoriasis causes as much disability as other major medical diseases. J Am Acad Dermatol 1999;41 (3, pt 1) 401- 407
Link to Article
Jowett  SRyan  T Skin disease and handicap: an analysis of the impact of skin conditions. Soc Sci Med 1985;20 (4) 425- 429
PubMed Link to Article
Ginsburg  IHLink  BG Feelings of stigmatization in patients with psoriasis. J Am Acad Dermatol 1989;20 (1) 53- 63
PubMed Link to Article
Feldman  SRFleischer  ABReboussin  DMRapp  SRBradhaam  DDExum  ML The economic impact of psoriasis increases with psoriasis severity. J Am Acad Dermatol 1997;37 (4) 564- 569
PubMed Link to Article
Fairhurst  DAAshcroft  DMGriffiths  CEM Optimal management of severe plaque form of psoriasis. Am J Clin Dermatol 2005;6 (5) 283- 294
PubMed Link to Article
Richards  HLFortune  DGGriffiths  CEM Adherence to treatment in patients with psoriasis. J Eur Acad Dermatol Venereol 2006;20 (4) 370- 379
PubMed Link to Article
van de Kerkhof  PCDe Hoop  Dde Korte  JCobolens  SAKuipers  MV Patient compliance and disease management in the treatment of psoriasis in the Netherlands. Dermatology 2000;200 (4) 292- 298
PubMed Link to Article
Zaghoul  SSGoodfield  MJ Objective assessment of compliance with psoriasis treatment. Arch Dermatol 2004;140 (4) 408- 414
PubMed
Krueger  GKoo  JLebwohl  MMenter  AStern  RSRolstad  T The impact of psoriasis on quality of life. Arch Dermatol 2001;137 (3) 280- 284
PubMed
Nijsten  TRolstad  TFeldman  SRStern  RS Members of the National Psoriasis Foundation: more extensive disease and better informed about treatment options. Arch Dermatol 2005;141 (1) 19- 26
PubMed
Jemec  GBWulf  HC Patient-physician consensus on quality of life in dermatology. Clin Exp Dermatol 1996;21 (3) 177- 179
PubMed Link to Article
Hermansen  SEHelland  CAFinlay  AY Patients' and doctors' assessment of skin disease handicap. Clin Exp Dermatol 2002;27 (3) 249- 250
PubMed Link to Article
Ryan  MGerard  K Using discrete choice experiments to value health care programmes. Appl Health Econ Health Policy 2003;2 (1) 55- 64
PubMed
Griffiths  CEMClark  CMChalmers  RJLi Wan Po  AWilliams  HC A systematic review of treatments for severe psoriasis. Health Technol Assess 2000;4 (40) 1- 125
PubMed
Ashcroft  DMLi Wan Po  ALWilliams  HCGriffiths  CEM Systematic review of comparative efficacy and tolerability of calcipotriol in treating chronic plaque psoriasis. BMJ 2000;320 (7240) 963- 970
PubMed Link to Article
Ho  VCGriffiths  CEMAlbrecht  G  et al. PISCES Study Group, Intermittent short courses of cyclosporin (Neoral®) for psoriasis unresponsive to topical therapy: a 1-year multicentre, randomized study. Br J Dermatol 1999;141 (2) 283- 291
PubMed Link to Article
Van Dooren-Greebe  RJKuijpers  AlMulder  JDe Boo  TVan de Kerkhof  PC Methotrexate revisited. Br J Dermatol 1994;130 (2) 204- 210
PubMed Link to Article
Marcil  IStern  RS Squamous-cell cancer of the skin in patients given PUVA and ciclosporin: nested cohort crossover study. Lancet 2001;358 (9287) 1042- 1045
PubMed Link to Article
Gordon  KBFeldman  SRKoo  JMenter  ARolstad  TKrueger  G Definitions of measures of effect duration for psoriasis treatments. Arch Dermatol 2005;141 (1) 82- 84
PubMed
Carlin  CSFeldman  SRKrueger  JGMenter  AKrueger  G A 50% reduction in the Psoriasis Area and Severity Index (PASI 50) is a clinically significant endpoint in the assessment of psoriasis. J Am Acad Dermatol 2004;50 (6) 859- 866
PubMed Link to Article
Street  DJBurgess  LLouviere  JJ Quick and easy choice sets: constructing optimal and nearly optimal stated choice experiments. Int J Res Mark 2005;22459- 470
Link to Article
Feldman  SRFleischer  ABReboussin  DM  et al.  The Self-Administered Psoriasis Area and Severity Index is valid and reliable. J Invest Dermatol 1996;106 (1) 183- 186
PubMed Link to Article
Greene  WH Models with discrete dependent variables. Greene  WHed.Econometric Analysis. 4th ed. Upper Saddle River, NJ Prentice Hall2000;811- 896
Small  KARosen  HS Applied welfare economics with discrete choice models. Econometrica 1981;49105- 130
Link to Article
Efron  BTibshirani  RJ An Introduction to the Bootstrap.  New York, NY Chapman & Hall1994;168- 176
Scott  A Identifying and analysing dominant preferences in discrete choice experiments: an application in health care. J Econ Psychol 2002;23383- 398
Link to Article
Fraenkel  LBogardus  STConcato  JFelson  DT Unwillingness of rheumatoid arthritis patients to risk adverse effects. Rheumatology (Oxford) 2002;41 (3) 253- 261
PubMed Link to Article
Berry  DCBradlow  ABersellini  E Perceptions of the risks and benefits of medicines in patients with rheumatoid arthritis and other painful musculoskeletal conditions. Rheumatology (Oxford) 2004;43 (7) 901- 905
PubMed Link to Article
Fraenkel  LBogardus  STConcato  JFelson  DTWittink  DR Patient preferences for the treatment of rheumatoid arthritis. Ann Rheum Dis 2004;63 (11) 1372- 1378
PubMed Link to Article

Figures

Tables

Table Graphic Jump LocationTable 1. Treatment Attributes, Definitions, and Levels Used in the Discrete Choice Experiment
Table Graphic Jump LocationTable 2. Example of Choice Set Used in the Discrete Choice Experiment
Table Graphic Jump LocationTable 3. Regression Results From Random Effects Probit Model and Marginal Rates of Substitution in 126 Patients With Psoriasis
Table Graphic Jump LocationTable 4. Ranking of Attributes by 103 Respondentsa

References

Nevitt  GJHutchinson  PE Psoriasis in the community: prevalence, severity and patients' beliefs and attitudes towards the disease. Br J Dermatol 1996;135 (4) 533- 537
PubMed Link to Article
Ramsay  BO'Reagan  M A survey of the social and psychological effects of psoriasis. Br J Dermatol 1988;118 (2) 195- 201
PubMed Link to Article
Fried  RGFriedman  SParadis  C  et al.  Trivial or terrible? the psychosocial impact of psoriasis. Int J Dermatol 1995;34 (2) 101- 105
PubMed Link to Article
Rapp  SRFeldman  SRExum  MLFleischer  AB  JrReboussin  DM Psoriasis causes as much disability as other major medical diseases. J Am Acad Dermatol 1999;41 (3, pt 1) 401- 407
Link to Article
Jowett  SRyan  T Skin disease and handicap: an analysis of the impact of skin conditions. Soc Sci Med 1985;20 (4) 425- 429
PubMed Link to Article
Ginsburg  IHLink  BG Feelings of stigmatization in patients with psoriasis. J Am Acad Dermatol 1989;20 (1) 53- 63
PubMed Link to Article
Feldman  SRFleischer  ABReboussin  DMRapp  SRBradhaam  DDExum  ML The economic impact of psoriasis increases with psoriasis severity. J Am Acad Dermatol 1997;37 (4) 564- 569
PubMed Link to Article
Fairhurst  DAAshcroft  DMGriffiths  CEM Optimal management of severe plaque form of psoriasis. Am J Clin Dermatol 2005;6 (5) 283- 294
PubMed Link to Article
Richards  HLFortune  DGGriffiths  CEM Adherence to treatment in patients with psoriasis. J Eur Acad Dermatol Venereol 2006;20 (4) 370- 379
PubMed Link to Article
van de Kerkhof  PCDe Hoop  Dde Korte  JCobolens  SAKuipers  MV Patient compliance and disease management in the treatment of psoriasis in the Netherlands. Dermatology 2000;200 (4) 292- 298
PubMed Link to Article
Zaghoul  SSGoodfield  MJ Objective assessment of compliance with psoriasis treatment. Arch Dermatol 2004;140 (4) 408- 414
PubMed
Krueger  GKoo  JLebwohl  MMenter  AStern  RSRolstad  T The impact of psoriasis on quality of life. Arch Dermatol 2001;137 (3) 280- 284
PubMed
Nijsten  TRolstad  TFeldman  SRStern  RS Members of the National Psoriasis Foundation: more extensive disease and better informed about treatment options. Arch Dermatol 2005;141 (1) 19- 26
PubMed
Jemec  GBWulf  HC Patient-physician consensus on quality of life in dermatology. Clin Exp Dermatol 1996;21 (3) 177- 179
PubMed Link to Article
Hermansen  SEHelland  CAFinlay  AY Patients' and doctors' assessment of skin disease handicap. Clin Exp Dermatol 2002;27 (3) 249- 250
PubMed Link to Article
Ryan  MGerard  K Using discrete choice experiments to value health care programmes. Appl Health Econ Health Policy 2003;2 (1) 55- 64
PubMed
Griffiths  CEMClark  CMChalmers  RJLi Wan Po  AWilliams  HC A systematic review of treatments for severe psoriasis. Health Technol Assess 2000;4 (40) 1- 125
PubMed
Ashcroft  DMLi Wan Po  ALWilliams  HCGriffiths  CEM Systematic review of comparative efficacy and tolerability of calcipotriol in treating chronic plaque psoriasis. BMJ 2000;320 (7240) 963- 970
PubMed Link to Article
Ho  VCGriffiths  CEMAlbrecht  G  et al. PISCES Study Group, Intermittent short courses of cyclosporin (Neoral®) for psoriasis unresponsive to topical therapy: a 1-year multicentre, randomized study. Br J Dermatol 1999;141 (2) 283- 291
PubMed Link to Article
Van Dooren-Greebe  RJKuijpers  AlMulder  JDe Boo  TVan de Kerkhof  PC Methotrexate revisited. Br J Dermatol 1994;130 (2) 204- 210
PubMed Link to Article
Marcil  IStern  RS Squamous-cell cancer of the skin in patients given PUVA and ciclosporin: nested cohort crossover study. Lancet 2001;358 (9287) 1042- 1045
PubMed Link to Article
Gordon  KBFeldman  SRKoo  JMenter  ARolstad  TKrueger  G Definitions of measures of effect duration for psoriasis treatments. Arch Dermatol 2005;141 (1) 82- 84
PubMed
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