Abstract
Background
Allergic rhinitis (AR) and allergic asthma (AA) are chronic respiratory diseases that represent a global health problem. One aim of this study was to analyze the Health-related Quality of Life (HRQoL) of the patients in order to identify statistically significant influencing factors that determine HRQoL. Another aim was to assess and analyze data on cost-of-illness from a statutory health insurance perspective.
Methods
The EQ-5D-5L was used to evaluate the patients’ HRQoL. To identify the factors influencing the HRQoL, a multinomial logistic regression analysis was conducted using groups based on the EQ-5D-5L index value as dependent variable. Routine data were analyzed to determine total healthcare costs.
Results
The average EQ-5D-5L index was 0.85 (SD 0.20). A high age, the amount of disease costs, low internal health-related control beliefs and high ozone exposure in the residential area were found to be statistically significant influencing factors for a low HRQoL, whereas low age, male sex and a good possibility to avoid the allergens were found to be statistically significant factors influencing a high HRQoL. On average, the study participants incurred annual costs of €3072 (SD: 3485), of which €699 (SD: 743) could be assigned to allergic respiratory diseases.
Conclusions
Overall, the patients in the VerSITA study showed a high level of HRQoL. The identified influencing factors can be used as starting points for improving the HRQoL of patients with allergic respiratory diseases. From the perspective of a statutory health insurance, per person expenditures for allergic respiratory diseases are rather low.
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Background
Allergic rhinitis (AR) and allergic asthma (AA) are chronic respiratory diseases that represent a global health problem [1, 2]. In Germany, 15% of the adult population suffer from AR as well as 10% of the children [3]. For AA 5% of the adults and 10% of the children are affected [4]. Both of these chronic respiratory diseases are known to have a negative effect on a person’s Health-related Quality of Life (HRQoL) [5,6,7,8,9]. Apart from the classic physical symptoms like sneezing attacks, rhinorrhoe, nose itching and difficult nasal breathing AR can also cause fatigue, irritability, anxiety, attention difficulties, learning disabilities, sexual dysfunction and depression [10,11,12]. Consecutively, AR can impair social functioning by restricting everyday activities [12]. AA is characterized by sudden attacks of dyspnoea associated with other respiratory symptoms such as cough, chest tightness and sputum production [4, 13]. Although an HRQoL reduction appears to be low in well-controlled asthma, the disease has the potential to place an enormous burden on the daily lives of minors and adults [5, 12, 14]. The fact that AA is often associated with comorbidities—including mental disorders such as depression – can have an additional negative impact on HRQoL as well as on the success of controlling symptoms therapeutically [15, 16]. Since AR and AA often occur together respectively 25% of AR patients develop AA within the first ten years of the disease [1], the impairment of HRQoL supposably increases.
In addition to the clinical implication and the affection of HRQoL, both diseases have a significant social economic impact [2]. Several cost of illness studies detected major expenses due to use of healthcare resources as well as loss of productivity which manifests itself as both absenteeism and presenteeism [2]. Moreover, the costs of illness are important due to the high prevalence. Nevertheless, current health economic data for the German healthcare system regarding AR and AA are rare [17, 18].
The aim of this study was to assess the HRQoL of the population as well as to examine for certain influencing factors that determine if the HRQoL is on a high, intermediate or low level, which could provide information on how the HRQoL of patients with AR or AA could be improved. In addition, data on cost-of-illness of German patients with AR and AA was analyzed from a statutory health insurance perspective to obtain information about the economic impact of both diseases to the statutory health insurance.
Methods
Study design and questionnaire
A retrospective cross-sectional study called “Analysis of the care situation with regard to the specific immunotherapy in cases of allergic respiratory diseases” (VerSITA) was performed in collaboration with the Institute for Healthcare Management and Research of the University Duisburg-Essen, the statutory health insurance DAK-Gesundheit (DAK) and representatives of the German Allergy League (“Deutsche AllergieLiga”). It included patients insured by the DAK who suffered from AR and/or AA.
Patients were asked to fill in a self-administered questionnaire which included information on socio-demographic, psycho-social and clinical patient characteristics as well as the Euroqol—5 Dimensions–5 Levels (EQ-5D-5L) questionnaire, which is a generic standardized instrument to measure HRQoL.
In addition, routine data of the DAK were submitted with the permission of the study participants. For the analyses routine data and survey data were merged. Further information on how the study was conducted, how participants were selected and a description of the VerSITA questionnaire can be found elsewhere [19].
For the analysis, a classification into disease groups (“only allergic rhinitis” (oAR), “only allergic asthma” (oAA) and “patients with both diseases” (AR & AA)) and a description of patient characteristics was performed. In the cost-of-illness analysis, the entire study population (adults as well as minors) was included; in the analysis of HRQoL, only patients who had validly completed the EQ-5D-5L and were older than 18 years were included since the German version of the EQ-5D-5L used here has been assessed for adults only.
Statistical analysis was performed using IBM SPSS Statistics (version 25) and Microsoft Excel (version 2016).
Methods of the cost-of-illness analysis
The cost-of-illness analysis from a statutory health insurance perspective was performed using primary and routine data from the study participants in the VerSITA trial. Routine data covered the period 01/01/2014–30/06/2018. The total costs include outpatient physician contacts, hospitalization, rehabilitation, medication, sick leave benefits, remedies and therapeutic appliances.
The costs of statutory health insurance are predominantly calculated on the basis of actual expenditure. To avoid the economic relevance of diseases being determined by the income of the persons concerned, the real costs of sick leave benefits are not reported here. Instead, every day sick leave that causes costs for the statutory health insurance is priced with the quotient of the expenditures for sick leave benefits of all German statutory health insurances and a total number of sick leave benefit days of the respective year [20,21,22,23,24,25,26,27,28,29]. In addition, the average lost revenues were added to this due to the fact that the insured do not pay contributions to health insurance while on sick leave [30].
To determine annual costs, the costs of the 4.5 years were divided by the respective number of days under observation (days insured by DAK) and then multiplied by 365.25 (taking leap years into account).
If an outpatient physician contact was coded with a confirmed International Statistical Classification of Diseases and Related Health Problems (ICD) diagnosis of J30.1 or J30.2 or J30.3 or J30.4, it was interpreted as a contact due to only AR. A confirmed diagnosis of J45.0 or J45.8 led to the assignment to only AA. If confirmed ICD codes for both conditions appear within a single outpatient treatment case, it was not classified as described above but categorized as due to AR as well as AA. The same approach was used for cost assignments regarding sick leave benefits. For hospitalization and rehabilitation, only diagnoses coded as "main diagnosis" were considered. The identification of medication costs due to allergen immunotherapy (AIT) (V01AA02, V01AA03, V01AA04, V01AA05, V01AA10, V01AA11, and V01AA20) or asthma medication was done via Anatomical Therapeutic Chemical codes.
Variables in the analysis of HRQoL
The EQ-5D-5L self-administered questionnaire was used to collect the patients’ present HRQoL. This instrument consists of a descriptive system containing five questions, which inquire if there are no, slight, moderate, severe or extreme problems (depicted by the numbers 1 to 5) in the five dimensions mobility, self-care, usual activities, pain/physical discomfort and anxiety/depression. From the resulting individual health state (consisting of five numbers depicting the strength of problems in each dimension, also called descriptive system) the EQ-5D-5L index value representing the individual HRQoL in a range from –0.661 (worst possible health, worse than death respectively) to 1.000 (best possible health) is generated. The value set used to generate the EQ-5D-5L index value with preferences of the German population was developed by Ludwig et al. [31].
Moreover, an additional part of the EQ-5D-5L is the Euroqol-Visual Analogue Scale (EQ-VAS), a 15 cm long scale labelled from 0 to 100 in which participants are supposed to subjectively judge their present health state. Both the EQ-5D-5L index value as well as the EQ-VAS value was used in the analysis.
The socio-demographic variables collected were sex, age (years as well as different age groups), highest school degree and highest completed professional training, smoking status, migration background and native speaker as well as the living situation (living alone vs. living in community). In addition, data derived from the provided first three digits of the postcode of each patient were linked with publicly available data from the German Federal Statistical Office on population density [32], the number of households in need of social welfare [33] and the amount of building land prices [34]. Connecting these information was possible by using the respective official municipality codes to differentiate between dependent and district cities. This resulted in the following variables: settlement structure depending on the population density (rural area for < 200/urban area for 200–999/agglomeration area for 1,000 or more inhabitants per km2, definition taken from Heineberg et al. 2017 [35]), the quote of social welfare (percentage of persons in need to claim social welfare of the total German population) and the attractiveness of the residential area (indicated by the average costs of building land in € per m2). Also, data from the German Environment Agency on the level of environmental pollution was used and the most recent annual mean values of the airway-relevant pollutants fine dust (PM10), nitrogen dioxide (NO2) and ozone (O3) were applied [36,37,38,39]. The geographic coordinates of the respective measuring stations as well as of the postal code areas were used to assign the air pollutant values (in µg/m3) of the three closest measuring stations to the respective postal code area of the patient [40, 41]. A weighting was then applied, incorporating the data from these three measuring stations with a weight reciprocal to the distance in kilometers. This approach takes into account that there can be no hard geographical lines in the dispersion of air pollutants, which means that air quality in a given area is influenced from several directions—essentially depending on the distance.
As clinical parameters, the amount of allergens was surveyed as well as the possibility of allergen avoidance. Also, the severity of symptoms was ascertained using two disease-specific questionnaires: The Asthma Control Test (ACT) for patients with AA and the Rhinitis Total Symptom Score (RTSS) for patients with AR. The value of the RTSS increases with the severity of symptoms (0–12 points) [42]; a higher ACT corresponds to a better asthma control (5–25 points) [43]. In addition, to evaluate the patients’ conviction of control over their personal health (health-related control conviction) the test FEGK (Fragebogen zur Erfassung gesundheitsbezogener Kontrollüberzeugungen) by D. Ferring (2003) was applied [44]. It consists of a total of ten questions, from which a score indicating the strength of the internality (conviction to be able to control and influence his or her personal health) or externality (conviction of the contrary) is derived. The respective score was converted into a categorical variable using the median of the respective score as the cut-off value for high or low internality/externality (48 for internality and 64 for externality).
Furthermore, routine data on costs from a statutory health insurance perspective were used as an indicator of allergy severity and severity of comorbidities. Since allergic respiratory diseases are almost exclusively treated on an outpatient basis, the costs due to outpatient physician contacts, that could be associated with the allergic respiratory diseases, were considered as a further indicator of allergy severity (specific outpatient disease costs). The sum of the remaining healthcare costs was used as a simplified indicator for comorbidities (remaining healthcare costs) including costs for hospitalization, rehabilitation, medication, sick leave benefits, remedies, therapeutic appliances as well as the remaining proportion of outpatient disease costs that are not related to allergic respiratory diseases.
Statistical analysis of HRQoL
Sociodemographic and clinical data of the total study population as well as of each disease group (oAR, oAA and AR & AA) where described using relative and absolute frequencies. To verify significant differences between the groups, the Chi2-test or the Mann–Whitney U test was used depending on the scale level. In all statistical analyses values of p < 0.05 were considered as statistically significant.
The HRQoL of the patients was described by using all parts of the EQ-5D-5L, including the descriptive system, the EQ-5D-5L index value as well as the EQ-VAS value.
To discover factors that determine the HRQoL of the VerSITA participants a multinomial logistic regression was performed using the EQ-5D-5L index value as the dependent variable by dividing the study population into groups with high, intermediate and low HRQoL. To achieve preferably equal-sized groups, the 33th percentile was used. The group with intermediate HRQoL was taken as a reference category. This way, four logistic analyses were conducted using each HRQoL group with regard to the different disease groups as well as the overall study population as a dependent variable.
All variables mentioned above were included in the analysis, except for the variable number of allergens due to problems of interpretability as well as lots of missing values. To achieve a sufficiently great number of cases in each category the independent variable highest school degree was transformed into the three groups high, medium and low level of education. For the same reason, the categories very good and good possibility to avoid allergens were merged.
To rule out multi-collinearity a bivariate collinearity analysis was performed and variables with a significant Pearson-collinearity value of > 7.0 were excluded.
Microsoft Excel (version 2008) was used to process raw data and create the independent variables. All further analyses were conducted with the Software IBM SPSS Statistics (version 27).
Results
Results regarding healthcare costs
A sample of 21,901 insured patients was drawn and 2,505 responded with analyzable data and a valid consent form (another 358 responded without valid informed consent or generally non-analyzable questionnaires) which corresponds to a response rate of 11.4% (concerning only valid responses). Due to the inclusion of underaged persons and study participants with invalid EQ-5D-5L forms, healthcare cost data were available on all 2505 study participants with analyzable data and valid informed consent (while 2128 study participants remained for the HRQoL analysis).
The mean age in the whole study population was 48.3 years (SD: 20.6), 46.6 years (SD: 21.2) in the oAR group, 49.7 years (SD: 21.7) in the oAA group, and 48 years (SD: 19.3) in the AR & AA group. 67.1% of the total study participants were female (63.6% in the oAR group, 63.2% in the oAA group, and 72.3% in the AR & AA group). The allergens to which most study participants were allergic were tree pollen (75.8%), grass pollen (72.8%) and dust mites (57.7%). Most study participants reacted to three or more allergens (63.1%). A more detailed descriptive of the study population has already been published elsewhere [45].
Table 1 shows a description of the annual healthcare costs in € from statutory health insurance perspective. There are a few implausible values observable (for example, costs due to AA in the oAR group). A possible explanation for this can be found in the discussion section. On average, the study participants incurred annual costs of €3,072 (SD: 3,485), of which €699 (SD: 743) could be assigned to allergic respiratory diseases.
A relatively high proportion of expenditures for outpatient physician contacts (€273 of €894, 31%) and for medication (€407 of €976, 42%) was triggered by allergic respiratory diseases. In both cases, the highest proportion of expenditures due to allergic respiratory diseases can be found in the study group AR & AA (23% and 47%, respectively). In the other categories, allergic respiratory diseases as a cost trigger played only a minor role. Here, costs due to, presumably severe, comorbidities are predominant. Overall, 9% of the expenditures for rehabilitation (€5 of 50€), 8% of the expenditures for sick leave benefits (€9 of €114), and 1% of the expenditures for hospitalization (€6 of €784) could be assigned to allergic respiratory diseases. Again, differences can be seen between the study groups; for example, only in group AR & AA costs were incurred because of sick leave benefits. The evaluated routine data did not allow an assignment of costs to allergic respiratory diseases in the categories of remedies and therapeutic appliances.
Overall, 23% of the average statutory health insurance expenditure in the study population could be attributed to allergic respiratory diseases.
In addition, there were costs that are usually not reimbursed or only partially reimbursed by the statutory health insurance (for example for over-the-counter medication or alternative medicine). They were consequently not included in the perspective of statutory health insurance. Nevertheless, it should be noted that 62% of the study participants reported expenditures on over-the-counter medications 12 months prior to the survey and 41% reported the use of alternative medicine due to their allergic respiratory diseases.
It should also be noted that the relative proportion of costs due to allergic respiratory diseases as a percentage of total costs is clearly higher among minors (41.5%). On the one hand, this is related to their typically lower total costs. On the other hand, there are increased costs attributable to allergic respiratory diseases, since 80.5% of minors received AIT during the routine data period (vs. 50.6% of adults).
Patient characteristics within the HRQoL-analysis
After the reduction of invalid questionnaires due to an incomplete EQ-5D-5L as well as questionnaires of minors for evaluating the HRQoL, a study population of a total of 2128 adult patients with allergic respiratory diseases resulted in the HRQoL-analysis, of which 477 patients were assigned to the group oAR, 743 patients to the group oAA, and 908 patients to the group AR & AA. Table 2 lists the sociodemographic as well as clinical characteristics. It also shows for each variable whether the patients in the respective disease group differ statistically significant from the rest.
The average age was 53 years. The group of 18–29 year-old patients represented the smallest proportion of just over 12%.
In terms of the educational and professional background of all 2128 patients, it is noticeable that 42% had a higher education entrance qualification (“allgemeine Hochschulreife/Fachhochschulreife”) and most patients, again 42%, had completed an apprenticeship (“Lehre”). A total of 77 patients (3.6%) stated that they had not completed any professional training with 12 patients (0.6%) not having a graduation.
Nearly 60% of all patients were non-smokers. The proportion of active smokers was 9.4% overall.
8.7% of all patients had a migration background, meaning either they, themselves or their parents were not born in Germany. Around 95% of all patients were native speakers.
Almost two-thirds (63%) reacted to at least three different allergens. The proportion of monoallergic patients was highest in the oAR group with 24.3%.
Only 2.5% stated that they were able to avoid the allergens causing the disease very well. The ability to avoid allergens was most often moderate (29.4%), but patients having oAR mostly stated that they could avoid allergens very poorly (28.8%).
Patients suffering from oAR reported an average RTSS of 7.2, which corresponds to a moderate symptom severity. They most frequently documented an average RTTS of 8, which was 2 points higher compared to patients suffering from AR & AA.
The ACT averaged 19 points. However, excellent asthma control, calculated as 25 points, was most frequently among patients with oAA as well as patients with AR & AA.
Regarding the health-related control conviction measured by the FEGK, it is noticeable that only 91 patients (4.4%) had a low internal control conviction. In contrast, more than 95% were rather convinced that they could actively influence their own health. In terms of externality, 62% showed a low external control conviction, while 38% were rather convinced that they could not control their own health.
Specific outpatient disease costs averaged 270.25€ per patient (SD 184.47€, minimum 0€ to maximum 1,638.26€) in this specific analysis subpopulation. With an average of 2,908.80€ (SD 3,499.57, minimum 39.21€ to maximum 35,347.77€), the remaining healthcare costs respectively the costs for comorbidities were substantially higher.
One-fifth of all patients stated that they lived alone and not in a community with a partner, family or friends. In terms of settlement structure, in the entire study population most patients (40.5%) lived in an urbanized area; around 30% of each disease group lived in either rural or agglomeration areas. The quote of social welfare averaged 7.1% overall (SD 3.38%); the average cost of building land was € 369.55 per m2 (SD 492.76). The most recent annual mean values of air pollutants were 16.99 µg/m3 for PM10 (year limit 40 µg/m3 [46]), NO2 26.97 µg/m3 (year limit 40 µg/m3 [47]) and O3 50.13 µg/m3 (year limit 120 µg/m3 [48]).
Results regarding HRQoL
The HRQoL of the entire study population averaged 0.85 using the EQ-5D-5L index value; the EQ-VAS value averaged 73 (see Table 3). Patients with oAR had the highest average HRQoL (0.887 respectively 77.56). Compared to this, patients with oAA and patients with AR & AA had lower scores (0.842 and 70.72, respectively, 0.836 and 71.92).
Looking more closely at the individual dimensions of the EQ-5D-5L it is noticable that in four of five dimensions most patients did not declare any problems (see Table 4). Only in the category pain or physical discomfort most patients had at least slight problems in all disease groups. The dimension anxiety was the second most frequent issue in all groups—the highest proportion of having at least slight problems was in patients with AR & AA (45.7%). This was followed by problems with usual activities and mobility with similarly high proportions (32.7% and 32.29%, respectively). Extreme problems in at least one dimension were rarely seen with an average of around 0.5%, where problems in the category pain were the most likely.
The results of the multinomial logistic regression based on the EQ-5D-5L index value for the total study population are presented in detail in Table 5; the allocation of HRQoL groups for the dependent variable of each regression is shown in Table 6.
When the variable was significant with a positive regression coefficient, there was an increased likelihood that the patient was classified in the group with higher HRQoL compared to the reference group having intermediate HRQoL; when the sign of the regression coefficient was negative, there was a corresponding decreased likelihood. This model explained 23.9% of the variance in HRQoL differences.
Comparing patients with low HRQoL and patients with intermediate HRQoL (reference group) the level of remaining healthcare costs (B = 0.120) as well as the level of allergy-specific outpatient disease costs (B = 0.810) were statistically significant factors influencing low HRQoL. In addition, high ambient ozone exposure (B = 0.038), being aged 45 to 64 years (B = 0.365) as well as having a low level of internality (B = 1.281) were statistically significant factors contributing to a low HRQoL. Having a university degree (B = −0.705), living in a community (B = −0.378), and a low level of externality (B = −0.337) were statistically significant protective factors against low HRQoL.
When comparing the group with high HRQoL and the reference group, the age of 18–29 years (B = 0.944) and 30–44 years (B = 0.784) as well as male sex (B = 0.289) were statistically significant factors influencing high HRQoL. Statistically significant factors against a high HRQoL were a high level of remaining healthcare costs (B = −0.114) as well as poor and very poor possibilities to avoid the allergens (B = −0.681 and −0.477, respectively).
Looking at the individual disease groups, there are minor differences in terms of the influencing factors (the detailed regression results can be found in the appendix).
In patients suffering from oAR (see Table 7), the level of comorbidities was a statistically significant factor associated with low HRQoL, whereas living in a community proved to be a statistically significant protective factor against low HRQoL. Similar to the overall study population, having a low level of internality was found to be a statistically significant factor influencing a low HRQoL in patients suffering from oAR. Patients suffering from oAR with high HRQoL were statistically significant characterized by at least good possibilities to avoid allergens, low PM10 exposure and a young age of 18–29 years.
With respect to the patients with oAA (see Table 8), a high ACT, meaning a good symptom control, was a statistically significant protective factor against a low HRQoL as well as a positive influencing factor for a high HRQoL. The remaining healthcare costs contributed statistically significant to a low HRQoL; the allergy-specific outpatient disease costs were shown to be a statistically significant factor against a high HRQoL. Male sex, the two younger age groups (18–29 years and 30–45 years) as well as a low level of externality were found to be statistically significant factors for a high HRQoL.
For patients in the group AR & AA high remaining healthcare costs, high ozone exposure and a low ACT turned out to be statistically significant factors indicating a low HRQoL (see Table 9). Living in a community proved to be a statistically significant protective factor against low HRQoL. Young age of 18–29 years was found to be a statistically significant factor influencing a high HRQoL.
Discussion
The aim of this study was to evaluate the HRQoL of the patients and to identify influencing factors for a high and low HRQoL as well as to analyze the financial impact of patients with AR and AA in Germany to the statutory health insurance.
The results of the present analysis and their interpretation are affected by some limitations.
Discussion regarding general limitations of the study
A potential bias results from the low rate of valid responses (11.4%), which was probably on the one hand due to the length of the questionnaire and the postal effort required to return it. On the other hand, it has to be mentioned that routine data is prone for miscoding. It is, therefore, possible that some of the non-responders did not react because they do not suffer from an allergic respiratory disease, even if it is coded that way. This is in line with the remarkable observation that (in a minor extent) in the group oAR costs were caused due to AA and vice versa in the group oAA due to AR. Here, the information from the patient survey on which the group allocation is based on obviously differs from the documented ICD codes in the routine data. This might be due to individual miscoding in the routine data (for example because diagnoses may be routinely coded even if they are not applicable in the individual case). This concern is in line with the general discussion on the quality of routine data [49,50,51,52]. Nonetheless, the effect of this bias on overall costs can be considered as minor and it has to be mentioned that, despite possible limitations in data quality, routine data analysis is a common method in science [53, 54]. However, the resulting study population of more than 2000 subjects is large enough to allow valid statistical conclusions to be drawn in principle.
Discussion regarding healthcare costs
With regard to the healthcare costs used in both analyses, a period of 4.5 years was documented, so that previous costs were not recorded. However, the period is long enough to allow conclusions about the state of the patient’s illness, the existence of chronic comorbidities or to calculate average annual costs.
A small group of persons had gaps in the insurance period. Due to the approach of calculating the costs depending on the number of insured days, the impact is estimated to be very minor.
The extent of information in the routine data implies the risk that not all costs incurred due to allergic respiratory diseases could be assigned to them. For example, only a very general categorization was available for remedies, which did not allow the identification of therapies that may have been linked to an allergic respiratory disease. Since the total costs were considered, this has no effect on the sum of the costs, but the costs which can be assigned to the allergic respiratory diseases might be slightly underestimated. On the other hand, the fact that contacts with the healthcare system related to allergic respiratory diseases were attributed 100% to them may lead to an overestimation of the costs which can be assigned to the allergic respiratory diseases in the analyses of healthcare costs.
A large proportion of individuals with AIT within the routine data period were intentionally recruited for questions regarding the care situation (published elsewhere) [19, 45]. The resulting AIT rate in the VerSITA study of 54% within the routine data period is far above the amount that is estimated for Germany and leads to an overestimation of the average costs for AIT medication. This may also have increased the costs for outpatient physician care. On the other hand, AIT is considered as cost-effective [55, 56]. Thus, it can be assumed that the high AIT rate in the studies also contributes to savings.
A further overestimation of the costs could be due to the fact that the selection of study participants was based on routine data. As a result, people with allergic respiratory diseases who do not get in touch with the healthcare system for this purpose are not included.
Overall, due to the limitations mentioned above, an overestimation of the total costs for the statutory health insurance system which can be assigned to allergic respiratory diseases is to be expected within this study.
Even though the economic burden of allergic respiratory diseases on statutory health insurance is shown to be rather low, it should be considered that many drugs against AR are paid for by the insured as over-the-counter medication. Furthermore, it could be shown that almost half of the study participants used alternative medicine. Other studies have also shown that a relevant proportion of the costs of allergic respiratory diseases are indirect macroeconomic costs, for example, due to absenteeism and presentism [57, 58]. Because of the health insurance perspective in this study, these costs were not obtained here.
Since the study participants in the three disease groups differ from each other in numerous characteristics (see a more detailed description of the study population in [45]), cost differences between the groups cannot be explained here by the variable that led to the allocation into the groups (oAR, oAA and AR & AA).
A comparison of the results based on already published evidence is not very reliable. Thus, a large part of the previously published cost data on allergic respiratory diseases in Germany is at least 20 years old [18]. A study frequently cited in this context (Schramm et al. 2003, data collection March 1999 to February 2000) indicates that the costs of "moderate-to-severe atopic asthma and/or seasonal allergic rhinitis" tend to be higher [57]. This is probably explainable by a very different study design in Schramm et al. In addition, it is conceivable that healthcare reforms or expiring patents had a cost-reducing effect as well within this rather large period of time. A more recent national analysis can be found in the publication by Tesch et al. 2020 [17]. Due to the different sampling, the costs in the VerSITA study and from the publication by Tesch et al. are not reliably comparable. In VerSITA, as explained above, a selective study population was needed for analyses regarding AIT. In Tesch et al., however, AIT was not a selection criterion and was determined retrospectively [17]. Since the performance of AIT depends on characteristics such as certain comorbidities, the different selection has a strong effect on the composition of the study population. It is likely that the results of Tesch et al. are more generalizable. In addition, the procedure of operationalizing AIT in Tesch et al. differs from the procedure in the VerSITA study, which makes it difficult to compare subgroups (for example, only persons with AIT) [17]. A comparison with international literature is not appropriate here since different health care systems have potentially a high impact on the calculated costs from the perspective of healthcare insurance. Due to the differences in health care systems and the specifics of this analysis mentioned above, the comparability of the reported costs with international evidence is hardly possible.
The consideration of total costs allows an interesting comparison: statutory health insurers spent an average of €3,287 per insured person in 2018 [20]. Taking into account that this sum also includes a small amount of non-medical costs, such as administrative costs, it becomes clear that the average of the study population is very similar to the average for all statutory health insured in terms of average total costs. Overall, the calculation and descriptive analysis of costs should not be seen as the main focus of the publication, but as complementary to the analyses concerning HRQoL.
Discussion regarding HRQoL
In the HRQoL assessment, the overall average EQ-5D-5L index value was 0.85 (SD 0.20) and the average EQ-VAS was 72.76 (SD 16.86). Compared to surveys in the German general population using the EQ-5D-5L from Grochtdreis et al. (2019), Ludwig et al. (2018) and Huber et al. (2017) the EQ-VAS value of the VerSITA population is about 3.3 EQ-VAS points lower than the population-weighted average EQ-VAS value in the general population of 76.1 [31, 59, 60]. When looking at the disease groups, it is noticeable that the patients with oAR revealed an even slightly higher HRQoL compared to the general German population in the last five years (EQ-VAS in the oAR group: 77.6). This may be related to the fact that the oAR group most frequently included patients with young age and high level of education. Also, it seems remarkable that patients with AR & AA had – compared to those with oAA—equally high (average EQ-5D-5L Index of 0.836 respectively 0.842) or even higher (average EQ-VAS of 71.92 respectively 70.73) HRQoL values. On the one hand, this result could be due to a higher proportion of patients aged 65 years or older (33.6% in the AA group compared to 21.9% in the AR & AA group) as well as more patients with low educational level (28.8% in the AA group compared to 16.3% in the AR & AA group). Another possible explanation could be that symptoms due to AA are perceived comparatively less important than symptoms due to AR. Also, this result might be related to the fact that patients with AR often develop AA in the course of life [1]. It could be plausible that, in these cases, the symptoms of the patient are predominated by AA although the diagnosis of AR is still coded in the routine data so that he or she was thereby assigned to the group with AR & AA. As one of the few studies that collected HRQoL from both patients with AR and AA similar to the VerSITA study, Chen et al. found a comparable result in 545 patients from California resulting in mean EQ-5D(-3L) index values of 0.76 for both patients with oAA and AR & AA. Patients with oAR also had a significantly higher mean score of 0.92 in Chen et al. [61].
In a national comparison, there are only a few studies of comparable size and method that have assessed the HRQoL of patients with allergic respiratory diseases using the EQ-5D-5L. Szentes et al. evaluated the HRQoL of 371 German patients with AA in a longitudinal survey using the EQ-5D-5L. Similar high mean values as in the VerSITA study of 0.84 (EQ-5D-5L index) and 67.1 (EQ-VAS) were obtained [62]. With regard to AR, there are, to our knowledge, currently no comparable German studies existing. In an international context, the results can be compared to the survey of Bousquet et al., who assessed the HRQoL of 843 patients with AR in France and evaluated an average EQ-VAS value of 75.47, which is similar to the VerSITA study [63].
In terms of the dimensions of the EQ-5D it can be seen that the frequency of a perfect health state (no problems in all five dimensions) is lower in the VerSITA population (20.6%) compared to the studies in the general population (on average 43.9% in the German general population) [31, 59, 60]. This suggests a greater limitation of HRQoL in patients with AA and/or AR. It is known that the so-called ceiling effect is prevalent in the descriptive system of EQ-5D-5L, especially in studies in the normal population [64]. However, Konnopka et al. showed in their analysis that a considerable part of the frequently observed ceiling effect in population surveys is actually due to the correct measurement of health status because the level of the EQ-5D-5L index score is strongly dependent on the amount of comorbidities or morbidity [65]. Taking these findings into account, the lower proportion of patients at VerSITA with no problems in any of the dimensions of the EQ-5D-5L compared with the general population—despite the only slightly lower mean values of EQ-VAS and EQ-5D-5L index score—does suggest greater HRQoL limitations in patients with AA and/or AR.
High healthcare costs (allergy-specific outpatient disease costs as well as remaining healthcare costs), a strong external respectively low internal health-related control conviction, high age and high ozone exposure are plausible factors influencing a low HRQoL. It seems obvious that relevant comorbidities can strongly influence the HRQoL of patients. When considering the whole study population, the amount of the specific outpatient disease costs may be an even more reliable indicator for the burden of disease of the patients than the AR and AA specific symptom scores, since the disease groups are mixed here.
In other studies, higher age has been shown to be a relevant factor limiting the HRQoL [5, 66, 67]. Ozone may increase both lung function limitation as well as the inflammatory response to an inhaled allergen in individuals with preexisting allergic airway disease [68], which could explain the effect on HRQoL observed in this analysis.
Young age and male sex were found to be statistically significant factors influencing a higher HRQoL. Both of these factors have been shown in studies before, especially on HRQoL in the general population [5, 66, 67, 69, 70]. University education was shown to be a protective factor against low HRQoL, which fits with the findings of Burr et al. who observed in the general population significantly lower levels of poor health for persons working in simple manual occupations or agricultural laborers than for professions such as engineers, teachers and physicians that require a university degree [66]. Indirectly, these results also support the finding of a study by Blozik et al., who determined that patients with AA and low educational or occupational status had greater impairment of HRQoL [5].
In people with AA, symptom control was shown to influence HRQoL statistically significant, whereas symptom severity in AR patients assessed by RTSS did not show a statistically significant result in any regression. This could be due to the fact that only a few, and only classical clinical symptoms were captured by RTSS, meaning that effects like fatigue, impairment of cognitive function and depression in particular were not directly surveyed. Another reason could be that the HRQoL of AR patients is not significantly shaped by the classic rhinitis symptoms, but more by the identified factors (especially severe or many comorbidities and low internal control beliefs).
It should be noted that there is an increased proportion of patients in the VerSITA population who performed AIT, so the HRQoL might be increased by the fact that more patients than normally received a causally effective treatment. In addition, due to the use of self-administered questionnaires, there was a high number of missing values due to invalid or missing crosses of certain questions for lots of independent variables. Depending on the regression analysis this led to the exclusion of 13,2% to 20,4% of the cases, which is likely to result in an overall reduction of the quality measure.
All variables derived from the abbreviated postal code of patients are inherently subject to the limitation that they are less precise than they would be if all digits of the postal code would have been available.
In principle, the conclusions drawn regarding the factors influencing the HRQoL of the patients are limited by the fact that a cross-sectional study is only a momentary image, which may be influenced by the individual's mood depending on a particular day.
At the time the VerSITA study was conducted, the multinomial logistic regression method used to evaluate the EQ-5D-5L had not yet been utilized. The most comparable type of analysis is a cross-sectional study by Barth et al. who dichotomized the EQ-5D-3L Index score as the dependent variable using the 10th percentile to investigate factors influencing HRQoL in patients with juvenile arthritis and hence conducted a binary logistic regression [71]. With regard to the applied method in this paper, one has to point out that the EQ-5D-5L index instrument results from a broad condensation of a few weighted health-related components. This summarization is necessary to use the EQ-5D-5L efficiently for cost–benefit analyses and allocation decisions in the healthcare system. However, there is a risk that the complexity of the HRQoL is not sufficiently captured by only five dimensions and that important aspects of the HRQoL are missed. In addition, the EQ-5D-5L is a generic instrument that allows a broad application but does not specifically address disease-typical symptoms. This results in a reduced sensitivity regarding the HRQoL in patients with AA and/or AR. However, the EQ-5D-5L including the EQ-VAS is an established instrument and, therefore, has the advantage that corresponding results can be compared with pre-existing surveys in the normal population, especially since there are no predata regarding the HRQoL of allergic patients using the EQ-5D-5L in a comparable German population, yet.
Conclusions
The VerSITA study provides a current and detailed report on the costs of patients with allergic respiratory diseases from the perspective of statutory health insurance. It was shown that from the perspective of statutory health insurance costs per person due to allergic respiratory diseases are rather low. However, expenditures outside the statutory health insurance system are very common for these diseases.
Overall, it can be concluded that the adult patients in the VerSITA study basically showed a high level of HRQoL with patients having oAR reaching slightly higher levels than patients with oAA or patients with both diagnoses. Possible startings points for improving the HRQoL of patients with allergic respiratory diseases should be derived from the identified influencing factors. If the HRQoL of patients with allergic respiratory diseases should be improved or optimized, one can, according to the results of the present study, on the one hand start with the health-related control beliefs and, for example, as a physician or therapist try to encourage a more internal control conviction. On the other hand, the improvement of or attention to the air quality in the patient's environment can be beneficial (especially ozone and fine dust emissions). Equally important, especially in patients with AA, is the optimal control of symptoms with medication and, in general, the best possible treatment of comorbidities in all patients.
Data availability
For reasons of privacy and contractual obligations, the data analyzed here cannot be made publicly available.
Code availibilty
Not applicable.
Abbreviations
- AA:
-
Allergic asthma
- ACT:
-
Asthma Control Test
- AIT:
-
Allergen immunotherapy
- AR:
-
Allergic rhinitis
- AR&AA:
-
Group: patients with allergic rhinitis and allergic asthma
- oAA:
-
Group: patients with only allergic asthma
- oAR:
-
Group: patients with only allergic rhinitis
- B:
-
Regression coefficient
- DAK:
-
DAK-Gesundheit
- DRKS:
-
German Clinical Trials Register
- EQ-5D-3L:
-
EuroQol-5 Dimension-3 Level
- EQ-5D-5L:
-
EuroQol-5 Dimensionen-5 Level
- EQ-VAS:
-
EuroQol Visual Analogue Scale
- FEGK:
-
Fragebogen zur Erfassung gesundheitsbezogener Kontrollüberzeugungen
- HRQoL:
-
Health-related Quality of Life
- ICD:
-
International Statistical Classification of Diseases and Related Health Problems
- MV:
-
Mean value
- n:
-
Number of cases
- NO2:
-
Nitrogen dioxide
- O3:
-
Ozone
- PM10:
-
Fine dust
- RTSS:
-
Rhinoconjunctivitis Total Symptom Score
- SD:
-
Standard deviation
- VerSITA:
-
Analysis of the care situation with regard to the specific immunotherapy in cases of allergic respiratory diseases
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We acknowledge support by the Open Access Publication Fund of the University of Duisburg-Essen.
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Open Access funding enabled and organized by Projekt DEAL. VerSITA was funded exclusively by the Innovation Fund (Fund of the Federal Joint Committee, “Gemeinsamer Bundesausschuss”, funding code: 01VSF17042).
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Substantial contributions to the conception or design of the work; or the acquisition, analysis, or interpretation of data for the work: VH, FV, SN, OP, LK, AS, TW, EH, CR, SW, AN, JW, JBS. Drafting the work or revising it critically for important intellectual content: VH, FV, SN, OP, LK, AS, TW, EH, CR, SW, AN, JW, JBS. Final approval of the version to be published: VH, FV, SN, OP, LK, AS, TW, EH, CR, SW, AN, JW, JBS. Agreement to be accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved: VH, FV, SN, OP, LK, AS, TW, EH, CR, SW, AN, JW, JBS.
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Dr. Klimek reports grants and personal fees from Allergopharma, grants and personal fees from MEDA/Mylan, personal fees from HAL Allergie, grants from ALK Abelló, grants and personal fees from LETI Pharma, grants from Stallergenes, grants from Quintiles, grants and personal fees from Sanofi, grants from ASIT biotech, grants from Lofarma, personal fees from Allergy Therapeut., grants from AstraZeneca, grants from GSK, grants from Inmunotk, personal fees from Cassella med, outside the submitted work; and Membership: AeDA, DGHNO, Deutsche Akademie für Allergologie und klinische Immunologie, HNO-BV, GPA, EAACI. Dr. Pfaar reports grants and personal fees from ALK-Abelló, grants and personal fees from Allergopharma, grants and personal fees from Stallergenes Greer, grants and personal fees from HAL Allergy Holding B.V./HAL Allergie GmbH, grants and personal fees from Bencard Allergie GmbH/Allergy Therapeutics, grants and personal fees from Lofarma, grants from Biomay, grants from Circassia, grants and personal fees from ASIT Biotech Tools S.A., grants and personal fees from Laboratorios LETI/LETI Pharma, personal fees from MEDA Pharma/MYLAN, grants and personal fees from Anergis S.A., personal fees from Mobile Chamber Experts (a GA2LEN Partner), personal fees from Indoor Biotechnologies, grants and personal fees from GlaxoSmithKline, personal fees from Astellas Pharma Global, personal fees from EUFOREA, personal fees from ROXALL Medizin, personal fees from Novartis, personal fees from Sanofi-Aventis and Sanofi-Genzyme, personal fees from Med Update Europe GmbH, personal fees from streamedup! GmbH, grants from Pohl-Boskamp, grants from Inmunotek S.L., personal fees from John Wiley and Sons, AS, personal fees from Paul-Martini-Stiftung (PMS), personal fees from Ingress-Health HWM, personal fees from Regeneron Pharmaceuticals Inc., outside the submitted work. The remaining authors have no conflicts of interest to declare.
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The study was registered in the German Clinical Trials Register (DRKS) (DRKS00017316) and an ethic approval has been obtained from the Ethics Committee of the Medical Faculty of the University of Duisburg-Essen (19–8598-BO).
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Hillerich, V., Valbert, F., Neusser, S. et al. Quality of life and healthcare costs of patients with allergic respiratory diseases: a cross-sectional study. Eur J Health Econ 25, 579–600 (2024). https://doi.org/10.1007/s10198-023-01598-3
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DOI: https://doi.org/10.1007/s10198-023-01598-3