Incremental Costs for Psoriasis and Psoriatic Arthritis in a Population-based Cohort in Southern Sweden: Is It All Psoriasis-attributable Morbidity?

DISCUSSION

Our results show that patients with PsO/PsA incurred higher societal costs compared to referents; and that being diagnosed with PsA doubled the societal cost compared with being diagnosed with PsO alone. Irrespective of sex and age, patients with PsA incurred greater societal costs than those in patients with PsO; the cost difference was most pronounced for women and individuals under the age of 20. Cost-driving components in the PsO/PsA group compared to referents and in patients with PsA vs patients with PsO were primarily drug use, especially biological DMARD, and productivity losses.

Only a minor part of the healthcare costs was attributable to PsO/PsA using primary and secondary diagnoses. In addition, our estimated incremental healthcare costs exceeded those with the more narrow diagnosis-based definition. There are a number of studies on the prevalence of different comorbidities and associated costs in patients with PsO/PsA^19,24,25, and because we did not want to ignore costs due to comorbidity on the causal pathway, often defined by the secondary diagnoses, we also included these diagnoses. The greater proportion of costs due to work loss (80%) attributable to PsO/PsA problems may be overestimated as a consequence of the infrequent updating of the ICD-10 diagnostic codes for new work loss episodes in the SSIA register³⁰. Mustonen, et al³¹ used an alternative strategy for attributing costs — patient assessed attribution. Their results, based on questionnaires from 262 patients with PsO/PsA, attributed 35% out of the total work loss to PsO or other medical reasons. Another study by the same group and same data reported that PsO was the reason for the exit from working life for 17% of retired patients with PsO/PsA³².

Because of differences in cost perspective, methodologies, and healthcare systems, comparisons between cost studies can be done only cautiously³³. There are 3 recent Swedish studies estimating the mean annual cost for PsO/PsA using data from 2008–2011. Two register-based studies, our own and Norlin, et al¹⁷, found lower annual direct costs of PsO/PsA compared to direct costs reported in 2 dermatology clinic–based questionnaire studies (by Ghatnekar, et al and Ekelund, et al^12,34). These differences may be explained by case-mix differences in which register-based studies included milder cases and thus a larger proportion of the target population. Other factors are different cost components and different data collection periods (the latter study was conducted during fall/winter, when PsO tends to flare). Our study reported lower indirect cost compared to Norlin, et al and Ghatnekar, et al. These cost differences may be explained by use of different data sources for collection of data on productivity losses. Our study and Norlin, et al did not have information on short-term sick leave and this limitation of the SSIA register is further elaborated below.

In contrast to the comparison to other Swedish studies, our results are in the upper range of mean annual total cost for patients with PsO/PsA compared with studies outside Sweden^11,20. In accordance with the Swedish study by Norlin, et al¹⁷ but contrary to studies from the United States¹⁴, Canada¹⁵, and Italy¹⁶, indirect costs exceeded direct costs. In our study the difference was marginal for patients with PsO alone while the difference was clearly pronounced for patients with PsA. Studies, including this, do consistently report higher costs of PsA compared to PsO^18,19 and reported cost drivers are primarily biological drugs and productivity losses ^21,22.

One strength of our study is the use of individual-based data for a large population over 4 years, which means that we identified rare health consumers²³, which facilitates robust cost estimates. Another strength is that we provided data on resource use and associated costs over different types of healthcare providers and care levels. This is the first Swedish study estimating costs of primary care in a larger setting, to our knowledge. We found that primary care accounts for a limited but non-negligible proportion of societal costs — 5% and 3% for PsO and PSA, respectively. A previous validation study from our group showed limited misclassification of patients with PsO and PsA in SHR (i.e., high positive predicted value for the diagnostic codes), which suggests that problems associated with misclassification are small in this register-based study¹. Although our data are from 1 healthcare region, it covers 13% of the Swedish population, and the Skåne region resembles Sweden as a whole on key socioeconomic and demographic variables³⁵. This facilitates national generalization, and for comparisons beyond the national level we provide detailed and transparent results on resource use and costs in supplementary information (available at jrheum.org). Further results are available on request from the authors.

Our study design may have underestimated costs. First, only individuals consulting a healthcare provider (physician) for their PsO/PsA problems were included. However, the long inclusion period of 10 years is likely to reduce this problem. Second, our register-based approach did not include direct costs such as the patients’ out-of-pocket payment for over-the-counter drugs and transportation. In 2 studies on costs from the patient’s perspective, the mean annual cost per person associated with patient and family ranged from about €500 to €2100, indicating that such costs may be non-negligible^36,37. Also, time spent on skin care at home and on performing household chores are important factors to take into account when studying the overall burden of PsO/PsA³⁸. Third, we did not record short-term sick leave because the SSIA register does not include sick leave periods shorter than 14 days. In a report of doctors who prescribed sick leave in the Skåne region during 2009–2010, the short-term sick leave (8–14 days) within all musculoskeletal disorders and skin disorders accounted for 15% and 13% of the total number of sick leave periods, respectively³⁹. In a Finnish questionnaire study, patients with PsO reported an average sick leave period of 4.5 h per month³². These studies show that short-term sick leave is present among patients with PsO/PsA, but the magnitude of the occurrence is still uncertain. There is a strong need for more research on short-term sick leave using a population-based perspective. In the absence of population-based register data, the Finnish questionnaire study³² is a good example of another method for collection of sick leave data. However, the caveats of survey studies are often small sample sizes with less representativeness. Costs due to reduced productivity while at work were also not included. Haglund, et al reported a mean productivity reduction of 20% while at work because of disease-related problems for patients with PsA⁴⁰. Reduced productivity at work has also been reported for patients with PsO/PsA; Mustonen, et al³¹ reported a mean productivity reduction of 45%. Fourth, we did not measure costs due to premature death. However, studies on the risk of mortality in patients with PsO/PsA compared with the general population show inconsistent results; there is a tendency of an increased mortality in patients with severe PsO (DMARD users) but not in patients with mild PsO or PsA^41,42.

There are also some other limitations. Private healthcare providers (about 30% of all physician consultations were within private care during 2008–2011) are registered in SHR but without diagnostic codes. This means that there may be referents misclassified as free from PsO/PsA if they received a PsO/PsA diagnosis only at private healthcare providers during the inclusion period. There may also be an underestimation of the costs attributable to specific PsO/PsA problems if the studied patients are more likely to seek private healthcare providers for their PsO/PsA problems compared to other morbidity. The magnitude of this shortcoming is difficult to estimate, but there is reason to believe that the problem is less severe as physician healthcare contacts are not the main cost driver for total costs. An underestimation of the cost attributable to specific PsO/PsA problems may also result from the less complete coverage of ICD-10 diagnostic codes for non-physician consultations (e.g., nurse, physiotherapist, occupational therapist, and others) in the SHR. Concerning drug cost, we could have overestimated the proportion of cost attributable to PsO/PsA, because the included drugs could have been prescribed for indications other than PsO/PsA.

The present results indicate an incremental cost of nearly 55% for patients with PsO/PsA compared to population-based referent subjects. Patients with PsA incurred twice as much cost as patients with PsO. However, only a small fraction of the costs were identified as attributable to PsO/PsA, indicating an increased morbidity in these patients that needs to be further investigated.