Validation Study of the Parkinson’s Disease Stigma Questionnaire (PDStigmaQuest)
Abstract
Background:
Stigma is a relevant aspect of Parkinson’s disease (PD). Specific stigma tools are needed to address the complex construct of stigma in PD comprehensively.
Objective:
To test the dimensionality and psychometric properties of the newly developed Parkinson’s Disease Stigma Questionnaire (PDStigmaQuest).
Methods:
In this multi-center, cross-sectional study including PD patients and healthy controls, the dimensionality of the PDStigmaQuest was examined through exploratory factor analysis. Acceptability and psychometric properties were investigated. PDStigmaQuest scores of patients and healthy controls were compared.
Results:
In total, 201 PD patients and 101 healthy controls were included in the final analysis. Results suggested high data quality of the PDStigmaQuest (0.0001% missing data for patients). The exploratory factor analysis produced four factors: felt stigma, hiding, enacted stigma: rejection, and enacted stigma: patronization, explaining 47.9% of variance. An optional work domain for employed patients was included. Moderate floor effects and skewness, but no ceiling effects were found. Cronbach’s alpha of 0.85 indicated high internal consistency. Calculated item-total correlations met standard criteria. Test-retest reliability was high (rs = 0.83). PDStigmaQuest scores correlated significantly with other stigma measures (rs = 0.56–0.69) and were significantly higher in patients than in healthy controls and higher in patients with depressive symptoms than in those without.
Conclusions:
The patient-reported 18-item PDStigmaQuest showed strong psychometric properties of validity and reliability. Our results suggest that the PDStigmaQuest can be used to assess and evaluate stigma comprehensively in PD, which will improve our understanding of the construct of PD stigma.
INTRODUCTION
Stigma is a determinant factor for Parkinson’s disease (PD) patients’ quality of life (QoL).1–3 For the term “stigma”, numerous definitions have been proposed in the last decades.4–7 In the field of chronic illnesses, stigma is often studied as health-related stigma, a “social process, experienced or anticipated, characterized by exclusion, rejection, blame, or devaluation that results from experience or reasonable anticipation of an adverse social judgment”.8 Scambler and Hopkins initially introduced the distinction between felt stigma, including fear of being stigmatized and feelings of shame associated with the disease, and enacted stigma, referring to actual experiences of discrimination.9,10 Fox et al. established a more complex stigma framework, including anticipated stigma (expectations of stigmatization), experienced stigma (actual stigmatization), and internalized stigma (adopting others’ negative beliefs).11
Stigma plays a significant role in PD: For example, patients report experiences of being mislabeled as drunk, being stared at, feeling like being a burden to others, and feeling ashamed.12–15 Especially in the early disease stages, patients try to hide PD-related symptoms from others.13,16 Importantly, stigma can cause social isolation, obstruct seeking medical care, and is associated with non-motor symptoms (NMS) like depression and anxiety.17–22
However, our current knowledge of stigma in PD is sparse and mainly based on qualitative studies. There is currently no specific tool available for addressing the highly complex construct of stigma in PD comprehensively. To our knowledge, to date, mainly generic stigma measures for chronic illnesses or the PD Questionnaire 39 (PDQ-39) stigma subscale consisting of four items have been applied in PD.23–27 Therefore, our objective was to develop and validate a stigma questionnaire specific to PD patients to help to address and evaluate PD stigma. The development process and data of the pilot study presenting the preliminary version of the patient-reported Parkinson’s Disease Stigma Questionnaire (PDStigmaQuest) have been reported previously.28 Here, we report validation data from the new PDStigmaQuest.
METHODS
Study design and participants
This multi-center (Cologne University Hospital, Germany; Movement Disorders Hospital in Beelitz, Germany) and cross-sectional validation study included patients with a diagnosis of PD according to the MDS criteria29 and non-spousal and non-caregiver healthy controls. In- and outpatients were approached for participation in the study. For recruitment of both patients and controls, posters and flyers were used. Exclusion criteria were: age <18 or >90 years, moderate to severe medical conditions other than PD that could have interfered with the ability to complete the study, impaired hearing or sight interfering with study participation, significant cognitive impairment or insufficient knowledge of the German language based on the judgment of the examining health professional, and inability to consent. Additional exclusion criteria for patients were: PD of non-idiopathic form or other clinically relevant neurological diseases besides PD. Additional exclusion criteria for healthy controls were: PD diagnosis or other neurological or psychiatric disorders.
All participants were included between August 2022 and January 2024.
Ethical aspects
All participants provided written informed consent. The study was performed under the principles of the Declaration of Helsinki. The local ethics committee approved the study protocols (Cologne vote: 21-1385; Beelitz vote: 2023-85-BO). The study was registered at the German Clinical Trials Register: DRKS00025513.
Procedures and materials
Patients were tested under regular medication (MedON). Firstly, participants were asked about sociodemographic data, PD patients additionally about their disease history and current treatment. After that, different tools were assessed in German:
The German-language PDStigmaQuest is a patient-reported questionnaire developed based on literature, clinical experience, focus groups, and PD patients’ and caregivers’ feedback.28 The version resulting from the pilot study consisted of 25 items based on the stigma concept by Fox et al. adapted for PD including two optional items for employed PD patients.11,28 To test for uncomfortableness related to PD symptoms, the first item included sub-items to evaluate specific motor symptoms and NMS separately. Five items were reverse-scored items to control for response bias and avoid negative wording.30 Each item was rated on a five-point Likert scale from “never” (0) to “always” (4) regarding the past four weeks. Only item 1 (uncomfortableness related to PD symptoms) included the option “symptom not applicable” for sub-items. The PDStigmaQuest total score was calculated as the sum of all item scores. Since some items directly referred to the disease (e.g., “I try to hide my Parkinson’s symptoms from others”), these could not be answered by healthy controls without PD. The controls were asked to fill in the following generally formulated items: item 1 (uncomfortableness with symptoms), 4 (feeling worth as much as others), 5 (feeling like a burden to others), 7 (feeling useless), 8 (self-respect), 11 (being seen as mentally impaired), 15 (decisions taken by others), 19 (being interrupted), 21 (being taken seriously), and 23 (others acting as feeling uncomfortable in the presence of the patient/control).
For retest evaluation, all patients were asked to complete only the PDStigmaQuest a second time 7–14 days after initial completion.
Beyond the PDStigmaQuest, the following self-rated scales and questionnaires were administered:
• The Stigma Scale for Chronic Illness (SSCI) contains 24 items measuring the stigma of chronic illnesses such as PD, Alzheimer’s dementia, or epilepsy.26 It consists of two subscales: self-stigma and enacted stigma. These are rated on a 5-point scale from “never” (1) to “always” (5), resulting in a maximum total score of 120. Higher values indicate higher stigma levels.
• The PDQ-39 is the most frequently used questionnaire for QoL in PD.27,31 It contains 39 items in eight different domains. The items are rated on a 5-point scale from “never” (0) to “always” (4). As the domains contain different numbers of items, the domain scores are standardized on a summary index (SI) score from 0 (no impairment) to 100 (maximum impairment). In this study, only the stigma subdomain was used. Due to the domains’ high internal consistency (stigma: Cronbach’s α= 0.80), they are often used independently of other domains.32,33
• The Beck Depression Inventory II (BDI-II) is an instrument measuring depression severity.34 It consists of 21 items assessed on a 4-point scale (0–3), resulting in a maximum total score of 63. Higher scores indicate higher depression levels.
• The Hospital Anxiety Depression Rating Scale (HADS) is a scale for anxiety and depressive states.35 It consists of 14 items divided into two subscales for anxiety and depression, each including 7 items. These are rated on a 4-point scale (0–3), resulting in a maximum score of 21 points for each subscale.
The following clinician-rated tools were administered:
• The Montreal Cognitive Assessment (MoCA) is a short screening test for mild cognitive impairment with various tasks testing the following cognitive domains: Short-term memory, visual-spatial abilities, executive functions, language, attention, concentration, working memory, and orientation.36 A maximum total score of 30 (maximum performance) can be achieved.
• The Movement Disorders Society Unified Parkinson’s Disease Rating Scale III (MDS-UPDRS III) is a clinician-based rating scale for motor function in PD.37 It includes 18 items rated on a scale from “normal” (0) to “severe” (4) for different motor aspects (e.g., rigidity, tremor), most of them rated separately for the left and right side of the body, resulting in a maximum total score of 132 (maximum impairment). The MDS-UPDRS III additionally contains a Hoehn and Yahr (HY) classification for motor staging of PD, ranging from stage 0 (no signs of disease) to 5 (wheelchair bound or bedridden unless aided).
The SSCI, PDQ-39 stigma domain, and MDS-UPDRS III were only applied in patients.
Sample size
For conducting exploratory factor analyses (EFA), a minimum of 200 participants is proposed for questionnaires with up to 40 items.38 A ratio of patients to controls of 2:1 was used based on other validation studies.39,40
Data analysis
Descriptive statistics for demographic and clinical characteristics were calculated. The Shapiro-Wilk test was applied to test for normal distribution of data. Levodopa equivalent daily dose (LEDD) was calculated according to the formula of Tomlinson et al.41 The score of PDStigmaQuest item 1 (uncomfortableness with symptoms) was calculated by summing up the scores of all applicable symptoms and dividing the sum by the number of applicable symptoms. Data quality was explored by the proportion of missing data points.
Only for patients, the following analyses were conducted:
(1) Dimensionality: For this analysis, the optional stigma domain for employed patients was left out as many patients were retired (n = 137). Further, based on participant feedback, patients had problems answering the reverse-scored items. We found that 15.4% of patients initially answered at least one reverse-scored item in the direction of the other non-reversed items, which was subsequently crossed out and changed. In 11.9% of patients, at least one answer to the reversed items did not match the other answers. Since we aimed to develop an easy-to-use and reliable tool, we decided to remove these five items prior to analysis, avoiding potentially biased item characteristics. Inter-item correlations between all other stigma items were calculated, and items mostly showing correlations <0.3 or >0.9 with other items were removed due to potential lack of fit with other items or collinearity.42 A principal axis EFA with oblique rotation (promax, kappa = 4) was applied as many PDStigmaQuest items were right-skewed, and principal axis EFA does not make distributional assumptions. Oblique rotation was chosen as we assumed that the questionnaire’s stigma factors would correlate and oblique rotation permits correlation between factors.43 The Kaiser-Meyer-Olkin (KMO) measure was applied for testing sampling adequacy. Values >0.7 are considered middling, values >0.8 meritorious, and values >0.9 marvelous.44 KMO values for individual variables should be >0.5. Bartlett’s test of sphericity was used for testing the adequacy of the correlation matrix.
(2) Acceptability was tested through floor and ceiling effects (percentage of extreme values≤15%) and skewness.45 For the latter, limits were –1 and +1.46
(3) Internal consistency: Cronbach’s alpha was calculated for PDStigmaQuest as a whole as some domains only consisted of 2 items (standard value≥0.7).30,40,47 The work domain not applying to many patients resulted in systematic data loss for internal consistency analysis. Therefore, only for calculating Cronbach’s alpha, items referring to work left out by unemployed/retired patients were coded as zero.48 This approach was considered acceptable because the work domain not applying to a patient also means that the patient cannot be confronted with stigma at work. Further, for every item, corrected item-total correlation (standard value≥0.3) and inter-item correlations (standard value > 0.20 and < 0.75) in every domain were calculated.30,49
(4) Test-retest reliability was investigated through Spearman correlation between the initial assessment and the retest (7–14 days later) PDStigmaQuest total score.
(5) Convergent validity was tested through correlations with other stigma measures (SSCI, the stigma domain of the PDQ-39; rs > 0.50).50
(6) Known-groups validity: Based on the well-established relationship between stigma and depression, known-groups validity was tested by comparing PDStigmaQuest scores in patients with and without depressive symptoms using a Mann-Whitney U test.21 We hypothesized that stigma scores should be higher in PD patients with than without depressive symptoms. To identify patients with depressive symptoms, the cut-off BDI-II≥14 was used as originally suggested by Beck et al. for detecting mild depression.34,51
The following analyses were conducted with data from patients and controls:
(1) Group confirmation: To ensure that relevant PD symptoms were not similarly present in healthy controls, Mann-Whitney U tests were conducted between PD patients and healthy controls for the following scales: MoCA total, BDI-II total, HADS-A, and HADS-D. Tests were corrected for multiple comparisons according to the Benjamini-Hochberg procedure.
(2) Comparison of PDStigmaQuest scores: To compare PD patients’ and healthy controls’ stigma scores, a Mann-Whitney U test was conducted with new stigma scores summing up only items answered by both groups. We hypothesized that stigma scores should be higher in PD patients than in healthy controls.
All analyses were conducted using Statistical Package for Social Sciences (SPSS; version 28.0). P-values < 0.05 were considered statistically significant.
RESULTS
Demographic characteristics
In total, 201 PD patients and 101 healthy controls matched by age and sex were included in the final analysis. Demographics and clinical characteristics are presented in Table 1.
Table 1
Patients | Healthy controls | p | |
Sex (female) | 34.3% | 45.5% | 0.058 |
Age (y)a | 64.4±9.7: 32–86 | 62.5±10.1: 42–87 | 0.110 |
Education (y)a | 15.3±3.1: 7.5–23 | 16.2±3.3: 9–27 | 0.036 |
Family status | 0.908 | ||
Married | 74.1% | 70.3% | |
Single | 9.0% | 10.9% | |
Divorced | 10.9% | 11.9% | |
Widowed | 6.0% | 6.9% | |
Occupation | <0.001 | ||
(Self-)employed | 30.3% | 58.4% | |
Retired | 67.2% | 37.6% | |
Other | 2.5% | 4.0% | |
Disease duration (y)a | 7.9±5.0: 0.4–26.8 | N/A | N/A |
LEDD (mg)b | 667.6±464.9 | N/A | N/A |
MDS-UPDRS III (score)b | 26.0±12.3 | N/A | N/A |
HY (stage)c | 2.0 (2.0–3.0) | N/A | N/A |
Treated with DBS | 22.9% | N/A | N/A |
DBS, Deep brain stimulation; HY, Hoehn and Yahr; LEDD, Levodopa equivalent daily dose; MDS-UPDRS III, Movement Disorders Society Unified Parkinson’s Disease Rating Scale III; N/A, not applicable. Note: Significant differences are highlighted in bold. aMean±SD: range bMean±SD cMedian (Interquartilerange).
Data quality and dimensionality
In patients, there was one missing data point in the PDStigmaQuest (0.0001% missing). In healthy controls, no data were missing.
Correlations of item 6 (feeling responsible for PD) were ≥ 0.3 with only two other items, thus item 6 was removed. KMO was 0.84 for the remaining items, showing that our sampling was adequate. Further, KMO values for individual variables were all > 0.5. Bartlett’s test of sphericity was statistically significant (p < 0.001), indicating that our correlation matrix was appropriate for conducting a factor analysis. Kaiser-Guttman criterion extracting factors with eigenvalues > 1 suggested a four-factor solution explaining 46.0 % of the variance. In the pattern matrix, loadings of item 16 on the factors were all < 0.30, so this item was dropped.42 Subsequently, the EFA was completed again showing a four-factor solution explaining 47.9% of the variance (Table 2): 8 items loaded onto a factor interpreted as “felt stigma”, 3 items loaded onto a factor measuring “hiding”, 3 items loaded onto a factor measuring “enacted stigma: rejection”, and 2 items loaded onto a factor measuring “enacted stigma: patronization”. The factor felt stigma was correlated with the other factors hiding (r = 0.50), enacted stigma: rejection (r = 0.39), and enacted stigma: patronization (r = 0.36). Factors enacted stigma: rejection and enacted stigma: patronization were also moderately correlated (r = 0.42).
Table 2
Item | Factor | ||||
1 | 2 | 3 | 4 | ||
Felt stigma | |||||
1 | In the presence of others, I feel uncomfortable ... [list of symptoms] | 0.629 | |||
3 | I am unhappy about how my Parkinson’s symptoms affect my appearance. | 0.563 | |||
5 | I see myself as a burden to others. | 0.647 | |||
7 | I feel useless. | 0.613 | |||
9 | I worry about how others may react to my Parkinson’s disease. | 0.539 | 0.364 | ||
10 | I worry about how others will perceive me when my Parkinson’s disease progresses. | 0.648 | |||
11 | I am afraid that others could consider me mentally impaired. | 0.467 | |||
20 | Because of my Parkinson’s symptoms, others have looked at me. | 0.403 | |||
Hiding | |||||
2 | I feel uncomfortable when others address me regarding the treatment of my Parkinson’s disease (e.g., pills, patches, pump, or deep brain stimulation). | 0.413 | |||
12 | I try to hide my Parkinson’s symptoms from others. | 0.758 | |||
13 | I have kept my Parkinson’s disease secret from someone. | 0.900 | |||
Enacted stigma: rejection | |||||
17 | Friends or family members have turned away from me because of my Parkinson’s disease. | 0.632 | |||
22 | I have got invited by others less often than prior to my Parkinson’s disease. | 0.701 | |||
23 | Others have behaved as if my presence made them feel uncomfortable. | 0.676 | |||
Enacted stigma: patronization | |||||
15 | I have experienced others making decisions for me before I can make them for myself. | 0.770 | |||
19 | I have experienced others not letting me talk. | 0.320 | 0.422 |
PD, Parkinson’s disease. Note: Loadings < 0.3 omitted.42 Items assigned to the respective factor in bold.
PDStigmaQuest scores and acceptability
Descriptive statistics of PD patients’ PDStigmaQuest scores and acceptability parameters are shown in Table 3. The maximum total score for (self-)employed patients summing up the final 18 items is 72, while unemployed/retired patients can achieve a total score of 64 (without the two items referring to work). In PD patients, floor effects were found for the domains hiding, enacted stigma: rejection, enacted stigma: patronization, and optional domain of work, but not for the domain felt stigma and total score. No ceiling effects were found. A moderate skewness was found for domains hiding and enacted stigma: rejection.
Table 3
Mean | SD | Minimum | Maximum | Maximum achievable | Floor effect (%) | Ceiling effect (%) | Skewness | |
Felt stigma | 9.2 | 5.4 | 0 | 27.9 | 32 | 3.0 | 0 | 0.6 |
Hiding | 2.4 | 2.7 | 0 | 12.0 | 12 | 35.8 | 0.5 | 1.2 |
Enacted stigma: rejection | 0.8 | 1.5 | 0 | 7.0 | 12 | 67.2 | 0 | 2.2 |
Enacted stigma: patronization | 1.8 | 1.7 | 0 | 6.0 | 8 | 31.3 | 0 | 0.7 |
Optional: work domain (n = 64) | 1.7 | 1.5 | 0 | 5.0 | 8 | 31.3 | 0 | 0.4 |
Total Score | 14.7 | 8.9 | 0 | 43.91 | 72 | 2.0 | 0 | 0.6 |
PDStigmaQuest, Parkinson’s Disease Stigma Questionnaire.
Internal consistency
Cronbach’s alpha was 0.85 for the whole scale. Inter-item correlations and corrected item-total correlations are presented in Table 4.
Table 4
Item | n | Inter-item correlation | Item-total correlation | |
Domain 1: Felt stigma | ||||
1 | Uncomfortableness related to PD symptoms | 200 | 0.34 – 0.52 | 0.63 |
2 | Uncomfortableness related to PD appearance | 200 | 0.29 – 0.52 | 0.51 |
3 | Feeling like a burden to others | 200 | 0.27 – 0.51 | 0.51 |
4 | Feeling useless | 200 | 0.27 – 0.51 | 0.53 |
5 | Worries about reactions to PD | 200 | 0.28 – 0.70 | 0.62 |
6 | Worries about reactions to disease progression | 200 | 0.27 – 0.70 | 0.64 |
7 | Fear of being seen as mentally impaired | 200 | 0.29 – 0.48 | 0.56 |
8 | Being observed | 200 | 0.27 – 0.36 | 0.45 |
Domain 2: Hiding | ||||
9 | Feeling uncomfortable being asked about PD treatment | 201 | 0.40 – 0.43 | 0.46 |
10 | Hiding of PD symptoms | 201 | 0.43 – 0.66 | 0.67 |
11 | Concealing PD | 201 | 0.40 – 0.66 | 0.65 |
Domain 3: Enacted stigma: rejection | ||||
12 | Rejection by friends and family members | 201 | 0.42 – 0.45 | 0.51 |
13 | Being invited less often | 201 | 0.45 – 0.49 | 0.56 |
14 | Others acting as feeling uncomfortable in the presence of the patient | 201 | 0.42 – 0.49 | 0.54 |
Domain 4: Enacted stigma: patronization | ||||
15 | Decisions taken on behalf of patient by others | 201 | 0.44 | – |
16 | Being interrupted | 201 | 0.44 | – |
Optional domain: Work | ||||
17 | Fear of devaluation at work | 64 | 0.18 | – |
18 | Unfair treatment at work | 64 | 0.18 | – |
PD, Parkinson’s disease. Note: In bold are inter-item correlations > 0.2 and item-total correlations≥0.3, representing preferable item characteristics.30,49 New numeration of items refers to the final questionnaire.
Test-retest reliability
Spearman correlation between initial and retest PDStigmaQuest total score was 0.83 (n = 147, p < 0.001).
Convergent validity
The final PDStigmaQuest correlated moderately with the PDQ-39 stigma domain (rs = 0.56, p < 0.001) and strongly with the SSCI total score (rs = 0.69, p < 0.001).
Known groups validity
Final PDStigmaQuest scores were higher in patients with depressive symptoms (mean = 20.8, SD = 9.6) than in patients without depressive symptoms (mean = 13.1, SD = 8.1, p < 0.001).
Comparison of patients and controls
Descriptive characteristics of MoCA total, BDI-II total, HADS-A, and HADS-D score for PD patients and controls are presented in Table 5. All examined clinical characteristics were significantly higher in PD patients than in controls.
Table 5
Patients | Healthy controls | p | |||||
n | Mean | SD | n | Mean | SD | ||
MoCA total | 197 | 26.1 | 2.6 | 98 | 27.7 | 1.9 | <0.001 |
BDI-II total | 197 | 8.8 | 6.2 | 100 | 5.0 | 5.0 | <0.001 |
HADS-A | 194 | 4.5 | 3.2 | 101 | 3.6 | 2.9 | 0.016 |
HADS-D | 194 | 4.1 | 3.2 | 101 | 2.3 | 2.3 | <0.001 |
BDI-II, Beck Depression Inventory II; HADS, Hospital Anxiety and Depression Scale; MoCA, Montreal Cognitive Assessment. Note: Mann-Whitney U tests between patients with Parkinson’s disease and healthy controls to analyze differences in relevant clinical characteristics. Bold font highlights significant results, p < 0.05; All p-values are corrected for multiple comparisons using Benjamini-Hochberg procedure.
New stigma scores summing up only items in the final PDStigmaQuest answered by PD patients and controls were higher in PD patients (mean = 5.5, SD = 3.9) than in healthy controls (mean = 3.3, SD = 2.5, p < 0.001).
DISCUSSION
In this study, we report validation data from the PDStigmaQuest, the first questionnaire specifically and comprehensively addressing stigma in PD. Our results illustrate that the new PDStigmaQuest, consisting of 18 items, is a valid and reliable self-reported questionnaire to comprehensively assess and evaluate stigma in a real-life PD population. Face validity can be assumed as experts, PD patients, and caregivers developed and reviewed the scale.28
Data quality and dimensionality
The assessment of the PDStigmaQuest revealed high data quality with only 0.0001 % missing data in patients and no missing data in controls. Results from EFA indicated sufficient construct validity. EFA identified 4 factors: felt stigma, hiding, enacted stigma: rejection, and enacted stigma: patronization. We additionally included an optional work domain for employed patients. The identified factors only partially overlap with our initially assumed domains based on one of the latest stigma conceptualizations: uncomfortableness, internalized stigma, anticipated stigma, hiding, and experienced stigma.11 Instead, the factors identified in the EFA align with the earlier stigma model by Scambler and Hopkins, consisting of felt and enacted stigma, extended by the domain of hiding.9 Our proposed domains of uncomfortableness, internalized stigma, and anticipated stigma were grouped as only one factor: felt stigma. Our initially assumed domain experienced stigma was divided into two aspects: rejection and patronizing by others. These also represent two components of the enacted stigma concept by Scambler and Hopkins.9 Our additional hiding domain specific to PD patients due to their partly concealable condition was preserved, with one additional item previously assigned to uncomfortableness (feeling uncomfortable being asked about PD treatment), which could have resulted from the high correlation between the factors felt stigma and hiding (r = 0.50). Fox et al. based their stigma concept on stigma insights concerning mental illness, which may explain the differences observed to the findings of our study in PD.11 In contrast, Scambler and Hopkins investigated stigma for persons with another neurological disease, epilepsy, in which stigma is conceptually closer to PDstigma.9
Acceptability
Moderate floor effects were found for domains of hiding, enacted stigma: rejection, enacted stigma: patronization, and work. In the context of other health conditions, it is often reported that felt stigma, including fear of being stigmatized, is significantly more prevalent than experiences of enacted stigma, e.g., rejection and patronization.52,53 Especially enacted stigma: rejection items refer to extreme forms of stigma, including breaking off contact to the PD patient.54 Therefore, this domain was expected to show floor effects. We nevertheless included these items since they are essential to portraying stigma in PD. Furthermore, it was shown that hiding efforts are more prevalent in the early stages of the disease, potentially leading to moderate floor effects of the domain hiding in our PD cohort representing the general PD population.13 Floor effects of the domain work could be explained by the fact that some PD patients stated to be self-employed and, therefore, the stigma items might not be fully applicable. Future studies should differentiate between employed and self-employed patients when investigating work-related stigma. To date, little is known about PD patients’ work-related stigma, which has to be investigated more intensively in the future, representing an important stigma aspect in PD.55,56 Notably, there were no floor effects for the total score and ceiling effects were absent. In summary, the results indicated an appropriate acceptability of the final PDStigmaQuest.
Internal consistency and test-retest reliability
For the final PDStigmaQuest, Cronbach’s alpha was 0.85, indicating high internal consistency. Inter-item correlations in the different stigma domains were all satisfactory except for work items. In this domain, one item represents felt stigma and the other enacted stigma experiences according to Scambler and Hopkins.9 The differential prevalence of the two stigma aspects could have led to low inter-item correlations with higher values on the felt stigma than on the enacted stigma item. However, given the importance of employment for PD patients, we consider including both stigma types within an optional domain for employed patients necessary. All calculated item-total correlations for domains met standard criteria. Test-retest correlation of the final PDStigmaQuest was 0.83, indicating high test-retest reliability.
Convergent and known-groups validity
The final PDStigmaQuest showed satisfactory correlations with other stigma measures, suggesting high convergent validity. Furthermore, data provided evidence for adequate known-groups validity due to the difference in PDStigmaQuest scores between patients with and without depressive symptoms. This finding is consistent with previous stigma literature, showing higher stigma levels in patients with higher depression levels.19,21,22,57,58
Comparison of PD patients and healthy controls
Comparing PD patients and healthy controls regarding relevant PD symptoms, we observed higher scores in patients than in healthy controls, providing evidence for a representative control group. New stigma scores summing up only items in the final PDStigmaQuest answered by PD patients and controls were significantly higher in PD patients, suggesting that the stigma experiences in the PDStigmaQuest are not equally made by elderly people without PD and rather represent PD-specific experiences.
Limitations
This validation study also has some limitations. Firstly, the two items referring to work-related stigma (n = 64) could not be explored with regard to dimensionality as for EFA, a minimum of 200 cases is required.38 However, we decided to retain these items due to their high importance for employed PD patients. Furthermore, since these items represent a dimension of stigma that can only be experienced by a subgroup of patients, treating this domain separately and not as a part of other stigma aspects affecting the general PD population was considered appropriate. Secondly, only seven items of the final PDStigmaQuest were applicable also to healthy controls and therefore, could be compared to PD patients. All other items were not completed by healthy controls as they included PD-related wording like “because of my Parkinson’s disease” and already implied that healthy controls cannot have these experiences at all. Thirdly, there was a difference between PD patients and healthy controls in years of education as well as employment status. Although to our knowledge, education has not been associated with stigma in PD, it has been identified as an influencing factor in other conditions such as epilepsy so that it would be reasonable controlling years of education in further studies.59 The difference in employment status is somehow expected as PD patients retire 4–7 years earlier than the general population.60 Lastly, the field’s current understanding of stigma in PD remains limited, highlighting the need for cross-validation of our findings in different PD cohorts, with a special need for investigating stigma in different countries and socio-cultural backgrounds as well as providing longitudinal data.
Conclusions
In conclusion, our results indicate that the patient-reported PDStigmaQuest has strong psychometric properties of validity and reliability and is helpful in assessing and evaluating PD-specific stigma. In future, the PDStigmaQuest can be applied to understand the different aspects of PD stigma and their potential influencing factors, e.g., demographics, and its relationship to clinical characteristics in more detail. This might contribute to improve the management of stigma in clinical practice and, as a consequence, patients’ QoL.
Future studies validating the PDStigmaQuest in different languages and independent multi-cultural PD cohorts are warranted.
ACKNOWLEDGMENTS
We want to thank all subjects for participating in the study.
FUNDING
V.S. and A.S. were supported by the Else Kröner-Fresenius-Stiftung and the Advanced Cologne Clinician Scientist Program (AdCCSP) / Faculty of Medicine / University of Cologne. G.R.F. gratefully acknowledges funding by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) – Project-ID 431549029 – SFB 1451.
CONFLICT OF INTEREST
V.S. was supported by the Else Kröner-Fresenius-Stiftung, the Advanced Cologne Clinician Scientist program of the Medical Faculty of the University of Cologne, and will receive funding from the Prof. Klaus Thiemann Foundation.
S.T.J. was funded by the Prof. Klaus Thiemann Foundation.
J.H. was supported by the Studienstiftung des deutschen Volkes (German Academic Scholarship Foundation), unrelated to this project.
G.A.B. has no conflicts of interest to report.
C.v.d.L. has been supported by the German Research Foundation (project number 502436811), unrelated to this project.
J.N.P.S. was funded by the Cologne Clinician Scientist Program (CCSP)/Faculty of Medicine/ University of Cologne and by the German Research Foundation (DFG, FI 773/15-464 1).
T.A.D. received speaker honoraria and travel grants from Boston Scientific and Medtronic, outside of the submitted work.
G.R.F. serves as an editorial board member of Cortex, Neurological Research and Practice, NeuroImage: Clinical, and Zeitschrift fur Neuropsychologie; receives royalties from the publication of the books Funktionelle MRT in Psychiatrie und Neurologie, Neurologische Differentialdiagnose, SOP Neurologie, and Therapie-Handbuch Neurologie; received honoraria for speaking engagements from Forum für medizinische Fortbildung FomF, GmbH, and the Deutsche Neurologische Gesellschaft (DGN).
L.B. received speaker’s honoraria for lectures from AbbVie.
A.R. received salary support from Movement Disorder Society, National Institute for Health Research Clinical Research Network, and the Parkinson’s Foundation outside the submitted work.
K.R.C. received grants (IIT) from Britannia Pharmaceuticals, AbbVie, UCB, GKC, EU Horizon 2020, Parkinson’s UK, NIHR, Parkinson’s Foundation, Wellcome Trust, Kirby Laing Foundation, MRC; royalties or licenses from Oxford (book), Cambridge publishers (book), MAPI institute (KPPS, PDSS 2); consulting fees, support for attending meetings or travel, and participated on data safety monitoring board or advisory board for AbbVie, UCB, GKC, Bial, Cynapsus, Lobsor, Stada, Zambon, Profile Pharma, Synovion, Roche, Therevance, Scion, Britannia, Acadia, 4D Pharma, and Medtronic; and served as a committee chair for MDS (unpaid) and EAN (unpaid).
H.S.D. was funded by the EU Joint Programme – Neurodegenerative Disease Research (JPND), the Prof. Klaus Thiemann Foundation in the German Society of Neurology, the Felgenhauer Foundation, the KoelnFortune program of the Medical Faculty of the University of Cologne, and has received honoraria by Boston Scientific, Medtronic, Bial, Kyowa Kirin, Abbvie, Everpharma, andStadapharm.
D.G. has received honoraria for speaking from Abbvie and Ever Pharma, outside the submitted work.
G.E. reports honoraria for Advisory Boards from AbbVie Pharma, BIAL Pharma, Desitin Pharma, STADA Pharma, and Neuroderm Inc.; honoraria from AbbVie Pharma, BIAL Pharma, Britannia Pharma, Desitin Pharma, Licher GmbH, UCB Pharma, and Zambon Pharma; royalties from Kohlhammer Verlag and Thieme Verlag.
J.K. has no conflicts of interest to report.
M.T.B. received speaker’s honoraria from Medtronic, Boston Scientific, Abbott (formerly St. Jude), FomF, derCampus, GE Medical, UCB, Bial, Apothekerverband Köln e.V., BDN, Ever Pharma, Esteve as well as advisory honoraria for the IQWIG, Medtronic, Esteve, Boston Scientific and Abbvie. Research funding was provided from the Felgenhauer-Stiftung, Forschungspool Klinische Studien and Köln Fortune (University of Cologne), Horizon 2020 (Gondola), Medtronic (ODIS, OPEL, BeAble), and Boston Scientific.
A.S. was supported by the Else Kröner-Fresenius-Stiftung, the Gusyk program, the Advanced Cologne Clinician Scientist program of the Medical Faculty of the University of Cologne, and has received funding from the Prof. Klaus Thiemann Foundation.
DATA AVAILABILITY
The data used to support the findings of this study are available from the corresponding author upon reasonable request.
REFERENCES
1. | Ma H-I , Saint-Hilaire M , Thomas CA , et al. Stigma as a key determinant of health-related quality of life in Parkinson’s disease. Qual Life Res. (2016) ; 25: : 3037–3045. |
2. | Moreira RC , Zonta MB , Araújo APSd , et al. Quality of life in Parkinson’s disease patients: progression markers of mild to moderate stages. Arq Neuropsiquiatr. (2017) ; 75: : 497–502. |
3. | Ma H-I , Gunnery SD , Stevenson MT , et al. Experienced facial masking indirectly compromises quality of life through stigmatization of women and men with Parkinson’s disease. Stigma Health. (2019) ; 4: : 462. |
4. | Goffman E . Stigma: Notes on the management of spoiled identity. New York: Simon & Shuster, (1963) . |
5. | Corrigan PW and Watson AC. Understanding the impact of stigma on people with mental illness. World Psychiatry. (2002) ; 1: : 16. |
6. | Link BG and Phelan JC. Conceptualizing stigma. Annu Rev Sociol. (2001) ; 27: : 363–385. |
7. | Rüsch N , Angermeyer MC and Corrigan PW. Mental illness stigma: Concepts, consequences, and initiatives to reduce stigma. Eur Psychiatry. (2005) ; 20: : 529–539. |
8. | Weiss MG , Ramakrishna J and Somma D. Health-related stigma: rethinking concepts and interventions. Psychol Health Med. (2006) ; 11: : 277–287. |
9. | Scambler G and Hopkins A. Being epileptic: coming to terms with stigma. Sociol Health Illn. (1986) ; 8: : 26–43. |
10. | Jacoby A . Felt versus enacted stigma: A concept revisited: Evidence from a study of people with epilepsy in remission. Soc Sci Med. (1994) ; 38: : 269–274. |
11. | Fox AB , Earnshaw VA , Taverna EC , et al. Conceptualizing and measuring mental illness stigma: The mental illness stigma framework and critical review of measures. Stigma Health. (2018) ; 3: : 348. |
12. | Hermanns M . The invisible and visible stigmatization of Parkinson’s disease. J Nurse Pract. (2013) ; 25: : 563–566. |
13. | Vann-Ward T , Morse JM and Charmaz K. Preserving self: Theorizing the social and psychological processes of living with Parkinson disease. Qual Health Res. (2017) ; 27: : 964–982. |
14. | Maffoni M , Giardini A , Pierobon A , et al. Stigma experienced by Parkinson’s disease patients: a descriptive review of qualitative studies. Parkinsons Dis. (2017) ; 2017: : 7203259. |
15. | Angulo J , Fleury V , Péron JA , et al. Shame in Parkinson’s disease: a review. J Parkinsons Dis. (2019) ; 9: : 489–499. |
16. | Quinn DM and Chaudoir SR. Living with a concealable stigmatized identity: the impact of anticipated stigma, centrality, salience, and cultural stigma on psychological distress and health. J Pers Soc Psychol (2009) ; 97: : 634–651. |
17. | Soleimani MA , Negarandeh R , Bastani F , et al. Disrupted social connectedness in people with Parkinson’s disease. Br J Community Nurs. (2014) ; 19: : 136–141. |
18. | McDaniels B , Pontone GM , Mathur S , et al. Staying hidden: The burden of stigma in PD. Parkinsonism Relat Disord. (2023) ; 116: : 105838. |
19. | Eccles FJ , Sowter N , Spokes T , et al. Stigma, self-compassion, and psychological distress among people with Parkinson’s. Disabil Rehabil. (2022) ; 16: : 1–9. |
20. | Schrag A , Jahanshahi M and Quinn NP. What contributes to depression in Parkinson’s disease? Psychol Med (2001) ; 31: : 65–73. |
21. | Salazar RD , Weizenbaum E , Ellis TD , et al. Predictors of self-perceived stigma in Parkinson’s disease. Parkinsonism Relat Disord. (2019) ; 60: : 76–80. |
22. | Lin J , Ou R , Wei Q , et al. Self-stigma in Parkinson’s disease: a 3-year prospective cohort study. Front Aging Neurosci. (2022) ; 14: : 790897. |
23. | Fife BL and Wright ER. The dimensionality of stigma: A comparison of its impact on the self of persons with HIV/AIDS and cancer. J Health Soc Behav. (2000) ; 41: : 50–67. |
24. | Earnshaw VA , Quinn DM , Kalichman SC , et al. Development and psychometric evaluation of the chronic illness anticipated stigma scale. J Behav Med. (2013) ; 36: : 270–282. |
25. | Gershon RC , Lai JS , Bode R , et al. Neuro-QOL: quality of life item banks for adults with neurological disorders: item development and calibrations based upon clinical and general population testing. Qual Life Res. (2012) ; 21: : 475–486. |
26. | Rao D , Choi SW , Victorson D , et al. Measuring stigma across neurological conditions: the development of the stigma scale for chronic illness (SSCI). Qual Life Res. (2009) ; 18: : 585–595. |
27. | Peto V , Jenkinson C , Fitzpatrick R , et al. The development and validation of a short measure of functioning and well being for individuals with Parkinson’s disease. Qual Life Res. (1995) ; 4: : 241–248. |
28. | Stopic V , Jost ST , Baldermann JC , et al. Parkinson’s Disease Stigma Questionnaire (PDStigmaQuest): development and pilot study of a questionnaire for stigma in patients with idiopathic Parkinson’s disease. J Parkinsons Dis. (2023) ; 13: : 829–839. |
29. | Postuma RB , Berg D , Stern M , et al. MDS clinical diagnostic criteria for Parkinson’s disease. Mov Disord. (2015) ; 30: : 1591–1601. |
30. | Nunnally JC . Psychometric theory 3E. Tata McGraw-Hill education, (1994) . |
31. | Berger K , Broll S , Winkelmann J , et al. Untersuchung zur Reliabilität der deutschen Version des PDQ-39: Ein krankheitsspezifischer Fragebogen zur Erfassung der Lebensqualität von Parkinson-Patienten. Akt Neurol. (1999) ; 26: : 180–184. |
32. | Jenkinson C , Fitzpatrick R , Peto V , et al. The Parkinson’s Disease Questionnaire (PDQ-39): development and validation of a Parkinson’s disease summary index score. Age Ageing. (1997) ; 26: : 353–357. |
33. | da Silva AG , Leal VP , da Silva PR , et al. Difficulties in activities of daily living are associated with stigma in patients with Parkinson’s disease who are candidates for deep brain stimulation. J Bras Psiquiatr. (2020) ; 42: : 190–194. |
34. | Beck AT , Steer RA and Brown GK. Manual for the Beck depression inventory-II. San Antonio, TX: Psychological Corporation, (1996) . |
35. | Zigmond AS and Snaith RP. The hospital anxiety and depression scale. Acta Psychiatr Scand. (1983) ; 67: : 361–370. |
36. | Nasreddine ZS , Phillips NA , Bédirian V , et al. The Montreal Cognitive Assessment, MoCA: a brief screening tool for mild cognitive impairment. J Am Geriatr Soc. (2005) ; 53: : 695–699. |
37. | Goetz CG , Tilley BC , Shaftman SR , et al. Movement Disorder Society-sponsored revision of the Unified Parkinson’s Disease Rating Scale (MDS-UPDRS): scale presentation and clinimetric testing results. Mov Disord. (2008) ; 23: : 2129–2170. |
38. | Comrey AL . Factor-analytic methods of scale development in personality and clinical psychology. J Consult Clin Psychol. (1988) ; 56: : 754. |
39. | Fereshtehnejad S-M , Shafieesabet M , Rahmani A , et al. A novel 6-item screening questionnaire for parkinsonism: validation and comparison between different instruments. Neuroepidemiology. (2015) ; 43: : 178–193. |
40. | Chaudhuri KR , Rizos A , Trenkwalder C , et al. King’s Parkinson’s disease pain scale, the first scale for pain in PD: an international validation. Mov Disord. (2015) ; 30: : 1623–1631. |
41. | Tomlinson CL , Stowe R , Patel S , et al. Systematic review of levodopa dose equivalency reporting in Parkinson’s disease. Mov Disord. (2010) ; 25: : 2649–2653. |
42. | Stevens JP . Applied multivariate statistics for the social sciences. Routledge, (2012) . |
43. | Fabrigar LR , Wegener DT , MacCallum RC , et al. Evaluating the use of exploratory factor analysis in psychological research. Psychol Methods. (1999) ; 4: : 272. |
44. | Kaiser HF . An index of factorial simplicity. Psychometrika. (1974) ; 39: : 31–36. |
45. | Martinez-Martin P , Falup Pecurariu C , Odin P , et al. Gender-related differences in the burden of non-motor symptoms in Parkinson’s disease. J Neurol. (2012) ; 259: : 1639–1647. |
46. | Hays R , Anderson R and Revicki D. Psychometric considerations in evaluating health-related quality of life measures. Qual Life Res. (1993) ; 2: : 441–449. |
47. | Moosbrugger H and Kelava A. Testtheorie und Fragebogenkonstruktion. Springer, (2012) . |
48. | Bradley C , Todd C , Gorton T , et al. The development of an individualized questionnaire measure of perceived impact of diabetes on quality of life: the ADDQoL. Qual Life Res. (1999) ; 8: : 79–91. |
49. | Piedmont RL . Inter-item correlations. In Michalos AC (ed) Encyclopedia of Quality of Life and Well-Being Research, Dordrecht: Springer, (2014) , pp. 3303–3304. |
50. | Juniper EF , Guyatt GH and Jaeschke R. How to develop and validate a new health-related quality of life instrument. In: Spilker B (ed) Quality of Life and Pharmacoeconomics in Clinical Trials, 2nd edition. Philadelphia: Lippincott-Raven Publishers. (1996) , pp. 49–56. |
51. | Inoue T , Kitagawa M , Tanaka T , et al. Depression and major depressive disorder in patients with Parkinson’s disease. Mov Disord. (2010) ; 25: : 44–49. |
52. | Sleeth C , Drake K , Labiner DM , et al. Felt and enacted stigma in elderly persons with epilepsy: A qualitative approach. Epilepsy Behav. (2016) ; 55: : 108–112. |
53. | Deribe K , Tomczyk S , Mousley E , et al. Stigma towards a neglected tropical disease: felt and enacted stigma scores among podoconiosis patients in northern Ethiopia. BMC Public Health. (2013) ; 13: : 1–8. |
54. | Whetten-Goldstein K , Sloan F , Kulas E , et al. The burden of Parkinson’s disease on society, family, and the individual. J Am Geriatr Soc. (1997) ; 45: : 844–849. |
55. | Koerts J , König M , Tucha L , et al. Working capacity of patients with Parkinson’s disease–A systematic review. Parkinsonism Relat Disord. (2016) ; 27: : 9–24. |
56. | Chiong-Rivero H , Ryan GW , Flippen C , et al. Patients’ and caregivers’ experiences of the impact of Parkinson’s disease on health status. Patient Relat Outcome Meas. (2011) : 57–70. |
57. | Hou M , Mao X , Hou X , et al. Stigma and associated correlates of elderly patients with Parkinson’s disease. Front Psychiatry. (2021) ; 12: : 1139. |
58. | Islam SS , Neargarder S , Kinger SB , et al. Perceived stigma and quality of life in Parkinson’s disease with additional health conditions. Gen Psychiatry. (2022) ; 35: : e100653. |
59. | Mao L , Wang K , Zhang Q , et al. Felt stigma and its underlying contributors in epilepsy patients. Front Public Health. (2022) ; 10: : 879895. |
60. | Johnson S , Davis M , Kaltenboeck A , et al. Early retirement and income loss in patients with early and advanced Parkinson’s disease. Appl Health Econ Health Policy. (2011) ; 9: : 367–376. |