Parental stress is defined as a stress reaction arising from a perceived imbalance between the demands of being a parent and the (internal or external) resources available to meet these demands (1). Although this description is consistent with established conceptualizations of general and work-related stress (2,3,4,5), it has been argued that the role-specific construct of parental stress adds additional value when it comes to studying and understanding both family and treatment outcomes (1).
Most parents experience some stress associated with the accumulation of day-to-day stressors and parenting hassles (6, 7). The likelihood of experiencing elevated parental stress is greater in families of children with neurodevelopmental conditions (NDCs; (8, 9)) and even more so in multiplex families where both child and parent(s) have NDC symptoms (10). Robust, accessible, and easily administered measures of parental stress are essential for the further development of knowledge and interventions.
Numerous studies have documented elevated stress in parents of children with NDCs such as Attention-Deficit/Hyperactivity Disorder (ADHD; (9, 11)), autism (8, 12) and intellectual disability (ID; (13)). Children’s ADHD and autism symptomatology have been associated with increased parental stress even at subclinical symptom levels (14, 15). However, in many families, it is not only the core NDC symptoms that may impose additional caregiving tasks and concerns, but the accumulation of needs related to both functional impairment and concurrent psychiatric conditions (16, 17). Herein, co-existing externalizing behaviors appear to be one of the most prominent risk factors for parental stress (9, 18, 19). Accordingly, researchers have underlined the importance of being attuned to the needs of parents – and to consider their levels of stress – when assessing and intervening with children’s NDCs and co-occurring difficulties (9, 17).
Given the familial aggregation of NDCs such as ADHD and autism (20,21,22), it is important to consider the additional challenges that many multiplex families face. Indeed, studies suggest that 20–40% of children with ADHD have at least one parent with ADHD symptoms (23, 24). The associations and potential interactions between family factors such as parental stress, child ADHD, and parental ADHD are not well understood. However, adult ADHD symptomatology has been linked not only to more life stressors and general perceived stress (25, 26), but also to higher
Psychometrically sound measures of parental stress are needed to increase knowledge of its typology, its levels before and after support services and interventions (36), and its potential to influence treatment participation or outcomes (37).
One of the most widely used scales is the Parenting Stress Index (PSI), for parents of children under the age of 13 (38, 39). However, while some have raised concerns regarding the validity of certain PSI subscales (18, 19, 36), others have emphasized the need for a scale that is suitable for parents of children of all ages, with as well as without clinical needs. Acknowledging the need for a brief measure pertaining to the perception of stress among most parents, Berry and Jones (40) introduced the Parental Stress Scale (PSS).
The PSS (40) is a self-report scale designed to measure individual differences in parental stress. Based on a conceptualization of parenthood as a potential source of both satisfaction (e.g., emotional benefits and affection) and strain (e.g., demands on resources such as time, energy, and finances), the authors developed a set of items to capture not only the demands, but also the presence, absence or loss of resources and rewards commonly associated with the parenting role. The scale’s psychometric properties have been confirmed across a variety of languages and samples, including parents of children of varying ages, with and without clinical needs (41,42,43,44,45,46,47,48,49,50,51,52,53). To the best of our knowledge, there is no comparable instrument that is both brief and freely available in Swedish.
Internationally, the PSS has been used across a variety of parental populations, to study parental stress in relation to various family factors and to measure clinical trial outcomes (54). Psychometrically, however, only a few evaluations have involved parents of children with NDCs – and none have related parental stress measured with the PSS to parental ADHD symptomatology.
The objective of the current study was to evaluate the psychometric properties of the Swedish version of the PSS, completed by parents of children with and without NDCs. It was hypothesized that the PSS would have good psychometric properties also in Swedish. Among other things, this was expected to be reflected in that treatment-seeking parents of children with disabilities who themselves had a positive interview-based screening for parental stress, anxiety, or depression would score higher on the PSS than community parents. Moreover, we sought to examine the levels of parental stress, as measured by the PSS, in multiplex families where both child and parent have ADHD symptoms. Here, the hypothesis was that parents who themselves reported high ADHD symptom severity would report higher stress levels than parents with low ADHD symptom severity.
The main analyses were conducted on data collected from a community sample and two clinical convenience samples, recruited for two clinical intervention studies (55,56). One of the clinical samples included treatment-seeking parents of children with various disabilities who themselves had a positive screening for parental stress, anxiety, or depression (hereafter referred to as the “distressed parent sample”). The other clinical sample included parents of children with ADHD who themselves reported varying levels of parental ADHD symptom severity (referred to as the “ADHD sample”). These main samples included a total of
Characteristics of the Study Participants in the Main Samples
min-max | min-max | min-max | ||||||||
Age | 40.96 | 8.34 | 19–63 | 43.43 | 6.54 | 24–68 | 43.24 | 6.66 | 26–73 | |
Number of children < 18 years of age | 1.78 | 0.80 | 1–6 | 2.05 | 0.80 | 1–6 | ||||
% | % | % | ||||||||
Female gender | 554 | 54.42 | 555 | 84.99 | 339 | 60.32 | ||||
Working | 825 | 81.04 | 509 | 77.95 | 483 | 85.94 | ||||
Highest education | ||||||||||
Elementary | 42 | 4.13 | 21 | 3.22 | 13 | 2.31 | ||||
Upper secondary | 491 | 48.23 | 177 | 21.77 | 231 | 41.10 | ||||
University | 485 | 47.64 | 344 | 52.68 | 274 | 48.75 | ||||
Other | 110 | 16.85 | 25 | 4.45 | ||||||
ADHD | 29 | 2.85 | 29 | 4.44 | 20 | 3.56 | ||||
Autism w/wo ADHD | 18 | 1.77 | 24 | 3.68 | n/a a | n/a a | ||||
HADS-Anx | ||||||||||
normal (≤ 7) | 587 | 57.66 | 77 | 11.79 | ||||||
mild (8–10) | 197 | 19.35 | 141 | 21.59 | ||||||
≥ moderate (≥ 11) | 234 | 22.99 | 431 | 66.00 | ||||||
HADS-Dep | ||||||||||
normal (≤ 7) | 775 | 76.13 | 258 | 39.51 | ||||||
mild (8–10) | 170 | 16.7 | 191 | 29.25 | ||||||
≥ moderate (≥ 11) | 73 | 7.17 | 199 | 30.47 |
Not reported for the sake of participant integrity (
Characteristics of the Study Participants’ Childrena
min-max | min-max | min-max | |||||||
Age | 10.59 | 4.55 | 3–17 | 10.12 | 3.88 | 3–17 | 10.42 | 2.86 | 3–17 |
% | % | % | |||||||
Female gender | 496 | 48.72 | 211 | 32.31 | 164 | 29.18 | |||
NDC | |||||||||
ADHD | 35 | 3.44 | 76 | 11.64 | 547 | 97.33 | |||
Autism | 21 | 2.06 | 218 | 33.38 | 0 | 0.00 | |||
ADHD and autism | 14 | 1.38 | 173 | 26.49 | 12 | 2.14 | |||
ID w/wo autism or ADHD | n/ab | n/ab | 138 | 21.13 | n/ab | n/ab | |||
Other disabilityc | 15 | 1.47 | 48 | 7.35 | |||||
Any disability | 87 | 8.55 | 653 | 100 | 562 | 100 |
For the community sample, figures are shown for the participants’ first-born child. For the two clinical samples, figures apply to the child for whom the parents had enrolled in the intervention study they participated in.
Not reported for the sake of participant integrity (
Including for example motor impairment and other disabilities that may give children access to habilitation services
The community sample was recruited for an anonymously completed online survey examining the experience of being a parent. In 2018, invitation e-mails were sent to adults who had volunteered for participation in web surveys via a survey company (PFM Research i Sverige AB). Stratifications were undertaken to ensure representation of mothers and fathers, with children of various ages, living in urban and rural areas of Sweden. Of the
The distressed parent sample was recruited for a clinical trial of a group intervention targeting stress and distress in parents of children with NDCs and other disabilities (55). Recruitment took place between 2016 and 2020 at publicly-funded outpatient habilitation/disability service clinics in 15 (out of 20) Swedish regions. Formal inclusion was preceded by a structured screening interview. Only parents who reported symptoms of stress, anxiety, or depression associated with their parenting were considered eligible. Of the
The ADHD sample was recruited for a trial evaluating psychoeducation for parents of children with ADHD (56). Recruitment took place between 2017 and 2019 at a publicly-funded outpatient habilitation ADHD center in Stockholm, Sweden. Of the
Complementary analyses were conducted on data from an additional sample of parents with at least one child aged 3 to 17 years, allowing for test-retest analyses (referred to as “the test-retest-sample”). This test-retest sample was recruited from the community via social media to anonymously complete two parenting-related measures on two occasions, approximately two weeks apart. Here, we included data from the
The PSS is a self-report scale designed to measure parental stress (40). It consists of 18 items (e.g.,
In the original study, Berry and Jones (40) assessed the scale’s psychometric properties in several steps, using data from six samples (total
In applying Youngstrom et al.’s (57) scale evaluation criteria on subsequent evaluations of the PSS in other languages and populations (41,42,43,44,45,46, 48,49,50,51,52,53), we found further evidence in support of the reliability and validity of the scale (Supplementary Table 1). Previous studies have, for example, reported good internal consistency (with
Before use, the PSS was translated into Swedish using a standard translation-backtranslation procedure. Item wordings were evaluated and, when needed, modified by a group of researchers and psychologists with extensive knowledge within the field.
The Perceived Stress Scale is a global measure of general perceived stress (58). The brief four-item version (PSS-4) used in the current study consists of four items (e.g., “
The Hospital Anxiety and Depression Scale contains two seven-item subscales, one that measures anxiety (HADS-Anx; e.g., “
The Adult ADHD Self-Report Scale (ASRS) is a self-report measure of adult ADHD (60). The six-item ASRS Screener used in the current study has been found to outperform the full ASRS when it comes to distinguishing between clinical and non-clinical ADHD cases (60). Respondents are asked to state how often a particular ADHD symptom has occurred during the past six months (e.g., “
An item analysis was performed by calculating item variances, difficulties, validities, and part-in-whole corrected item-total correlations. The reliability of the PSS was assessed in terms of its internal consistency as estimated by Cronbach’s alpha (
The scale’s construct validity was evaluated based on evidence regarding its internal structure, its ability to reflect differences between groups expected to report different levels of parental stress, and its associations with theoretically related constructs (62). First, the internal structure of the PSS was assessed in an exploratory factor analysis (EFA) of data from the community sample, using the Maximum Likelihood method of factor extraction and Promax (oblique) rotation (63, 64). In addition, we conducted a Confirmatory Factor Analysis (CFA) to test whether the factor structure identified in the EFA was consistent with responses in another sample, using Time 1 data from the test-retest sample. Second, we conducted a discriminant analysis, a receiver operating characteristics (ROC) analysis and a one-way ANOVA with Welch’s procedure and Tukey’s post hoc tests. In all these analyses, the 909 community parents (89.3%) that did not have a child with a disability (hereafter referred to as “reference parents”) were contrasted with parents from one or both clinical samples. Third, we examined if scores on the PSS correlated in the expected direction (positively) with measures of general perceived stress (PSS-4), anxiety, or depression (HADS-Anx or HADS-Dep).
Finally, we examined whether parents in the ADHD sample who scored in the high ADHD stratum (i.e., reported high ADHD symptom severity) would score higher on the PSS than parents in the low ADHD stratum. After dummy-coding the ADHD variable, we performed linear regressions using the low ADHD stratum as reference.
The amount of missing data was small overall (< 5%). Pairwise exclusion was used for missing demographic data and multiple item scales missing > 10% of items. Results in terms of Cronbach’s alpha, ICC, CFA fit indices (including Comparative Fit Index [CFI], Root Mean Square Error of Approximation [RMSEA], and Standardized Root Mean Square Residual [SRMR]), area under the ROC curve (AUC) values, and Cohen’s
PSS sum scores for the main samples are reported in Table 3. Details on item means, item variances, corrected item-total correlations, item difficulties and item validities are presented in Table 4. The item difficulties (used to indicate the proportion of parents endorsing a given item at a high level) were higher in the distressed parent sample than in the community sample, with two exceptions (items 2 and 11). Similarly, calculations of item validities (indicative of the discriminant power of each item) revealed that the distressed parent sample scored higher than the community sample on all but two items (items 2 and 11; all
PSS Sum Scores and Internal Consistency Estimates
PSS sum scores | ||||||||||||
Community sample ( |
Distressed parent sample ( |
ADHD sample ( |
||||||||||
min-max | min-max | min-max | ||||||||||
Total sample | 1018 | 37.57 | 10.61 | 18–73 | 653 | 48.81 | 9.73 | 27–78 | 562 | 41.00 | 9.60 | 21–76 |
Mother ratings | 554 | 36.85 | 10.41 | 18–73 | 555 | 48.79 | 9.53 | 27–78 | 339 | 41.62 | 9.95 | 22–76 |
Father ratings | 464 | 38.43 | 10.79 | 18–72 | 97 | 49.01 | 10.86 | 29–73 | 206 | 39.80 | 8.94 | 21–66 |
Parent w/o NDCa | 971 | 37.25 | 10.53 | 18–73 | 596 | 48.66 | 9.71 | 27–78 | 521 | 40.83 | 9.61 | 21–76 |
Parent w/NDCa | 47 | 44.13 | 10.36 | 26–61 | 53 | 50.51 | 9.91 | 31–71 | 22 | 42.50 | 9.23 | 27–64 |
Child: daughter | 496 | 37.19 | 10.90 | 18–69 | 211 | 48.38 | 10.06 | 27–76 | 164 | 41.23 | 9.38 | 21–66 |
Child: son | 521 | 37.91 | 10.33 | 18–73 | 435 | 49.00 | 9.56 | 28–78 | 381 | 40.90 | 9.71 | 22–76 |
PSS internal consistency | ||||||||||||
Community sample ( |
Distressed parent sample ( |
ADHD sample ( |
||||||||||
Cronbach’s alpha | .87 | .82 | .83 | |||||||||
Average inter-item correlation (min, max) | .28 (−.21, .71) | .20 (−.13, .63) | .22 (−.16, .62) |
Refers to reports of a parental Attention-Deficit/Hyperactivity Disorder diagnosis and/or an autism spectrum disorder diagnosis
PSS Item Characteristics, Including Item Means, Variances (s2), Difficulties (diffic.), Corrected Item-Total Correlations (
Items | diffic. | s2 | diffic. | diffic. | Test statistic |
Dunn’s post hoc tests | ||||||||
1 (r) | 1.59 | 0.84 | 0.32 | .55 | 2.34 | 1.37 | 0.47 | .64 | 1.85 | 0.92 | 0.37 | .65 | 221.01 (2) ** | distressed > adhd > community ** |
2 (r) | 1.30 | 0.52 | 0.26 | .42 | 1.18 | 0.22 | 0.24 | .20 | 1.14 | 0.17 | 0.23 | .15 | 15.51 (2) ** | community > distressed = adhd * |
3 | 3.50 | 1.56 | 0.70 | .34 | 4.74 | 0.33 | 0.95 | .22 | 4.17 | 1.06 | 0.83 | .39 | 580.82 (2) ** | distressed > adhd > community ** |
4 | 3.66 | 1.43 | 0.73 | .22 | 4.45 | 1.01 | 0.89 | .07 | 4.28 | 0.87 | 0.86 | .22 | 303.70(2)** | distressed > adhd > community ** |
5 (r) | 1.39 | 0.64 | 0.28 | .46 | 1.49 | 0.65 | 0.30 | .31 | 1.48 | 0.54 | 0.30 | .40 | 20.42 (2) ** | adhd = distressed > community ** |
6 (r) | 1.41 | 0.63 | 0.28 | .53 | 1.81 | 0.84 | 0.36 | .59 | 1.49 | 0.54 | 0.30 | .57 | 133.51 (2) ** | distressed > adhd > community ** |
7 (r) | 1.49 | 0.68 | 0.30 | .39 | 1.76 | 1.09 | 0.35 | .37 | 1.69 | 0.89 | 0.34 | .30 | 33.31(2) ** | distressed = adhd > community ** |
8 (r) | 2.00 | 1.09 | 0.40 | .32 | 2.76 | 1.41 | 0.55 | .44 | 2.21 | 1.19 | 0.44 | .33 | 177.57 (2) ** | distressed > adhd > community ** |
9 | 2.42 | 1.53 | 0.48 | .58 | 3.75 | 1.25 | 0.75 | .35 | 2.98 | 1.72 | 0.60 | .52 | 394.87 (2) ** | distressed > adhd > community ** |
10 | 2.77 | 1.59 | 0.55 | .56 | 3.45 | 1.61 | 0.69 | .47 | 2.64 | 1.61 | 0.53 | .51 | 142.57 (2) ** | distressed > adhd = community ** |
11 | 2.42 | 1.64 | 0.48 | .47 | 2.08 | 1.60 | 0.42 | .28 | 2.20 | 1.53 | 0.44 | .31 | 32.10 (2) ** | community > distressed = adhd * |
12 | 2.57 | 1.53 | 0.51 | .60 | 3.53 | 1.39 | 0.71 | .44 | 2.83 | 1.46 | 0.57 | .51 | 227.03 (2) ** | distressed > adhd > community ** |
13 | 1.85 | 1.31 | 0.37 | .61 | 3.13 | 1.74 | 0.63 | .39 | 2.62 | 1.52 | 0.52 | .45 | 405.68 (2) ** | distressed > adhd > community ** |
14 | 1.50 | 1.11 | 0.30 | .60 | 1.70 | 1.23 | 0.34 | .44 | 1.31 | 0.63 | 0.26 | .45 | 52.18 (2) ** | distressed > community > adhd * |
15 | 2.50 | 1.74 | 0.50 | .39 | 3.02 | 1.73 | 0.60 | .39 | 2.35 | 1.75 | 0.47 | .37 | 90.14 (2) ** | distressed > community = adhd ** |
16 | 2.14 | 1.41 | 0.43 | .67 | 2.73 | 1.69 | 0.55 | .58 | 1.95 | 1.13 | 0.39 | .54 | 129.09 (2) ** | distressed > community > adhd * |
17 (r) | 1.68 | 0.72 | 0.34 | .56 | 2.98 | 1.30 | 0.60 | .57 | 2.19 | 1.21 | 0.44 | .60 | 516.61 (2) ** | distressed > adhd > community ** |
18 (r) | 1.38 | 0.50 | 0.28 | .55 | 1.91 | 1.09 | 0.38 | .46 | 1.61 | 0.77 | 0.32 | .49 | 147.35 (2) ** | distressed > adhd > community ** |
Min | 1.30 | 0.50 | 0.26 | 0.22 | 1.18 | 0.22 | 0.24 | 0.07 | 1.14 | 0.17 | 0.23 | 0.15 | ||
Max | 3.56 | 1.74 | 0.73 | 0.67 | 4.74 | 1.74 | 0.95 | 0.64 | 4.28 | 1.75 | 0.86 | 0.65 | ||
Median | 1.92 | 1.21 | 0.38 | 0.54 | 2.75 | 1.28 | 0.55 | 0.41 | 2.19 | 1.10 | 0.44 | 0.45 |
= Statistically significant at the
= Statistically significant at the
In the community sample, the Cronbach’s alpha of the PSS was
In an EFA of community sample data, we found the internal structure of the PSS to encompass two interpretable factors (Table 5). The factorability of R was good. The final model was identified based on the use of the Kaiser criterion as well as inspections of scree plots and post-rotation item loading tables from multiple test runs (60, 61). It covered 17 of the 18 PSS items and explained 48.8% of the total variance pre-rotation. The only complex (cross-loading) item, number 14, did not load sufficiently on any factor to be included in the model (> .32 but < .45; (70)). The eight-item Factor 1 Lack of Parental Rewards and Role Satisfaction included all reverse-scored (positively phrased) items. It had an Eigenvalue of 5.7 and a Cronbach’s alpha of
Factor Loadings (Item-Factor Associations), Communalities and Eigenvalues for the Two Factors Identified in an Exploratory Factor Analysis of Community Sample data (n = 1018)
F1 | F2 | h2 | |
---|---|---|---|
5. I feel close to my child(ren) (r) | 0.86* | −0.09 | 0.71 |
6. I enjoy spending time with my child(ren) (r) | 0.86* | −0.01 | 0.73 |
2. There is little or nothing I wouldn’t do for my child(ren) if it was necessary (r) | 0.81* | −0.11 | 0.62 |
18. I find my child(ren) enjoyable (r) | 0.80* | 0.04 | 0.66 |
7. My child(ren) is an important source of affection for me (r) | 0.77* | −0.12 | 0.55 |
1. I am happy in my role as a parent (r) | 0.69* | 0.13 | 0.53 |
17. I am satisfied as a parent (r) | 0.60* | 0.20 | 0.46 |
8. Having child(ren) gives me a more certain and optimistic view for the future (r) | 0.50* | −0.01 | 0.25 |
10. Having child(ren) leaves little time and flexibility in my life | −0.03 | 0.75* | 0.55 |
12. It is difficult to balance different responsibilities because of my child(ren) | 0.01 | 0.74* | 0.56 |
16. Having child(ren) has meant having too few choices and too little control over my life | 0.16 | 0.70* | 0.57 |
9. The major source of stress in my life is my child(ren) | 0.06 | 0.68* | 0.48 |
3. Caring for my child(ren) sometimes takes more time and energy than I have to give | −0.22 | 0.63* | 0.38 |
11. Having child(ren) has been a financial burden | 0.05 | 0.55* | 0.32 |
4. I sometimes worry whether I am doing enough for my child(ren) | −0.29 | 0.53* | 0.29 |
13. The behavior of my child(ren) is often embarrassing or stressful to me. | 0.28 | 0.51* | 0.41 |
15. I feel overwhelmed by the responsibility of being a parent | 0.03 | 0.48* | 0.23 |
14. If I had it to do over again, I might decide not to have child(ren) | |||
30.65 | 18.17 | ||
.25 |
Coefficients ≥ 0.45.
h2 = extraction communalities; F1 = Factor 1; F2 = Factor 2.
Next, the ability of the PSS to differentiate between parents expected to report different levels of parental stress was examined. A discriminant analysis using the PSS as predictor yielded an overall classification accuracy of 71.4%, with 62.6% of the distressed parent sample correctly classified as ‘cases’ and 77.8% of reference parents (i.e., community parents that did not have a child with a disability) correctly classified as ‘controls’ (Wilks’ Λ = 0.75, Chi-Square = 447.8,
Then, the association between scores on the PSS and related constructs was examined. In the community sample, the PSS and its two factors were positively correlated with concurrent ratings of general perceived stress (PSS-4), anxiety (HADS-Anx), and depression (HADS-Dep; Table 6). The PSS was also positively associated with ratings of anxiety and depression in the distressed parent sample, although these correlations were consistently less strong (Table 6).
Correlationsa Between Scores on the PSS and Related Constructs (General perceived stress, Anxiety, and Depression)
Community sample (n = 1018) | ||||||||
PSS | PSS Factor 1 | PSS Factor 2 | HADS-Anx | HADS-Dep | PSS-4 | |||
PSS | 37.57 | 10.61 | 1.00 | .69 ** | .86 ** | .55 ** | .56 ** | .50 ** |
PSS Factor 1 | 12.23 | 5.10 | 1.00 | .23 ** | .32 ** | .43 ** | .29 ** | |
PSS Factor 2 | 23.83 | 7.44 | 1.00 | .52 ** | .45 ** | .47 ** | ||
HADS-Anx | 7.08 | 4.38 | 1.00 | .71 ** | .71 ** | |||
HADS-Dep | 4.84 | 3.63 | 1.00 | .67 ** | ||||
PSS-4 | 5.59 | 2.94 | 1.00 | |||||
Distressed parent sample (n = 653) | ||||||||
PSS | PSS Factor 1 | PSS Factor 2 | HADS-Anx | HADS-Dep | ||||
PSS | 48.81 | 9.73 | 1.00 | .82 ** | .84 ** | .22 ** | .30 ** | |
PSS Factor 1 | 16.23 | 5.23 | 1.00 | .39 ** | .09* | .24 ** | ||
PSS Factor 2 | 30.88 | 5.79 | 1.00 | .30 ** | .26 ** | |||
HADS-Anx | 12.29 | 3.87 | . | 1.00 | 49 ** | |||
HADS-Dep | 8.75 | 3.61 | 1.00 |
statistically significant at the
statistically significant at the
For the sake of consequence, we report Pearson’s correlation coefficients for all measures. For parents in the community sample, Spearman rank correlation was run on the positively skewed HADS-D, with similar results.
Finally, we examined whether (higher) parental ADHD symptom severity was associated with (higher) stress levels, as measured by the PSS. Of the 543 (96.6%) parents in the ADHD sample who had a complete ASRS screener (
In the current study, we evaluated the psychometric properties of the PSS in Swedish, completed by parents of children with and without NDCs. Overall, we found evidence in support of the reliability and the construct validity of the PSS, based on data collected from both community and clinical samples, representing mothers and fathers of children of different ages. Treatment-seeking parents of children with NDCs and other disabilities did, as expected, report higher parental stress than community parents, as measured with the PSS. Moreover, we found that parents who themselves reported high ADHD symptom severity scored higher on the PSS than parents with low ADHD symptom severity. The observed differences were small, but nevertheless provide further support for calls to take parent-level factors such as parental stress and parental ADHD symptomatology into account when assessing the needs of families of children with ADHD/NDCs and related difficulties (9, 17).
In line with expectations based on previous evaluations of the PSS (e.g., 40, 41, 48, 49), we found that it may indeed serve to reflect variations in parental stress also in a Swedish context. The internal consistency of the PSS was judged to be good, its test-retest reliability was assessed as moderate, and we found plenty of support for its construct validity. Specifically, we observed a pattern of associations where scores on the PSS varied in the expected direction not only with measures of related constructs, but also between groups presumed to experience different levels of parental stress (62). For example, like previous studies, we found significant correlations between the levels of parental stress measured with the PSS and concurrent ratings of general stress, anxiety, and depression (43,44,45,46, 49,50,51, 53). In addition, we found that parents who had a child with a disability and a positive screening for parental stress, anxiety, or depression (i.e., the distressed parent sample) reported higher parental stress than community reference parents who did not have a child with a disability (large effect size). A similar pattern was found at the item-level, where the distressed parent sample endorsed all but two of the 18 PSS items on a higher level than the community sample. These latter results are consistent with findings within the broader area of parental stress research (8, 9, 13) and thus add to the support for the scale’s ability to differentiate between groups of parents with different levels of parental stress. Relatedly, we observed a slightly better classification accuracy than the original study (40) and judged the scale’s overall discriminative ability to be adequate. Nevertheless, in observing a risk of missing every fifth parent who had reported parental distress, the results do not warrant the use of the PSS as a screening tool to be used on its own. Rather, our view is that the PSS can serve as a valuable complement in clinical and research assessments.
Using an exploratory approach, we found the internal structure of the PSS to encompass two distinct factors, reflecting two different aspects of parental stress: the perception of Parental Stressors and Distress (Factor 2) and (the presence or) Lack of Parental Rewards and Role Satisfaction (Factor 1). When the two-factor model was tested in an additional sample, the results were mixed but overall judged to indicate a moderate to good fit (with one fit index indicating poor fit, one indicating close fit, one indicating approximate fit by failing both good and poor fit; (65)). Indeed, the model largely resembles the two-factor structures identified in most previous studies (e.g., (45, 48, 49)), reflecting the rewarding as well as the demanding or resource-taxing aspects of being a parent. In doing so, it fits well with the original scale developers’ conceptualization of parenthood as a complex experience including sources of both pleasure and strain (40), while also aligning with well-established models linking stress to an imbalance between demands and resources or rewards (2,3,4,5).
Since few researchers have defined the PSS as unidimensional, it has been suggested that the scale should be regarded as consisting of two, albeit correlated, subscales (45, 48, 49). However, in our study, the total scale was more strongly correlated with related constructs and had a better classification/discriminative ability than the two factors used separately. Thus, for the time being, we believe that it can be informative to use the total scale together with its two factors; using the total scale to reflect the overall perception of stress and its subscales to provide a more detailed picture of clinically important variations in different aspects of parental stress.
Moreover, we found that parents who screened positively for ADHD did, on average, report higher parental stress than parents with no or few ADHD symptoms. The observed differences were small both in terms of effect size and actual PSS scores. However, the association was found even though the sample’s average ADHD symptom severity was well below the clinical range, and although no more than 4% of the parents had an ADHD diagnosis of their own. In addition, the association was observed despite the fact that
Of the main samples, only one (the community sample) was recruited specifically for psychometric evaluation purposes. Our view is, however, that the use of baseline data from clinical samples, representing groups of parents for which the measurement of stress is of direct clinical relevance, has increased the quality of the validation process. In addition, this is an approach that has been successfully used by others (e.g., (48)).
Of note, there are psychometric properties which we did not assess, including the scale’s correlation with other measures of the same construct (i.e., parental stress) and responsivity to change. Regarding the first aspect, reference can be made to the original study (40) which reported satisfactory correlations with the PSI. Regarding the second aspect, further evaluations are needed.
In addition, as is often the case in clinical studies on child- and family-related topics (73), the proportion of fathers was considerably smaller in the distressed parent sample (15%) than in the community sample (46%), for which the recruitment was stratified to reach an even gender distribution. This underrepresentation of fathers was even greater in the complementary test-retest sample (3%), whose representativeness is also challenged by the high proportion of parents with university education (85%).
First, the Swedish version of the PSS was found to have satisfactory psychometric properties and can be useful for assessing parental stress in both clinical and research contexts including families of children with and without NDCs. Recognizing the impact that high stress can have on both individual and family functioning, we hope that free access to a scale such as the PSS can facilitate efforts to increase knowledge about the complexity of parental stress in NDC families and help identify needs for support to reduce parental stress or mitigate its potential consequences. A better understanding of stress-related needs could, in turn, support interventions to both manage external stressors and strengthen the resources needed to address them - whether through access to additional services or social support (external resource), development of knowledge, coping strategies, or skills (internal resource) or otherwise (1, 4, 18). Future studies will show how the Swedish PSS performs when used as an outcome measure to assess treatment effects - and may help shed more light on the potential of parental stress to influence treatment outcomes (37).
Second, the results support calls to take parent-level factors such as parental stress, ADHD symptomatology, and related needs into account in assessments, intervention planning processes, and research involving families of children with NDCs (9, 12, 17, 18). This is important not least because many NDC interventions are parent-mediated, assuming that parents will succeed in mobilizing the time, energy and effort required to implement recommended training, while simultaneously dealing with their child’s needs and possible own challenges.
The PSS is a short, freely accessible, and easily administered self-rating scale that has proven useful for measuring the perception of parental stress in a Swedish context, involving parents of children with as well as without NDCs. By covering both the rewarding and the demanding aspects of being a parent (40), it reflects the common perception of parenthood as presenting both joys and challenges (1). When administering the scale in a sample of parents of children with ADHD, we also found an association between parental ADHD symptom severity and parental stress. To achieve a better understanding of parental stress in multiplex families, future studies should strive to include a larger proportion of parents with clinically significant NDCs than that of the current study.