http://orcid.org/0000-0002-7127-213X
Figures
Abstract
Objective
Stroke is the second most common cause of disability in the world. The purpose of this study was to evaluate the participation and autonomy of persons with stroke, five years after a stroke, and to explore potential associations between factors and perceived restrictions in participation and autonomy.
Methods
This five-year follow-up survey study included individuals diagnosed with a first-time stroke during 2009–2010, in Gothenburg. The survey included the Impact of Participation and Autonomy-questionnaire (IPA-E), which comprised five domains: Autonomy Indoor, Family Role, Autonomy Outdoor, Work & Education, and Social Life & Relationships. Logistic regression analyses were used to analyze factors associated with participation restrictions.
Results
At 5 years after a stroke, 457 patients were alive; of these, 281 responded to the follow-up survey. Participation restrictions were most pronounced in the IPA-E domains of Autonomy Outdoors, Work/Education, and Social Life and Relationships. In contrast, restrictions were less pronounced in the IPA-E domains of Autonomy Indoors and Family Role. Severe stroke, older age, and female sex predicted participation restrictions at five years after a stroke. Participation restrictions were partly explained by feelings of depression at five years after stroke. Problems associated with participation restrictions were most frequently observed in the areas of mobility, leisure, and help/support from other people.
Citation: Palstam A, Sjödin A, Sunnerhagen KS (2019) Participation and autonomy five years after stroke: A longitudinal observational study. PLoS ONE 14(7): e0219513. https://doi.org/10.1371/journal.pone.0219513
Editor: Aristeidis H. Katsanos, University of Ioannina School of Medicine, GREECE
Received: April 24, 2019; Accepted: June 25, 2019; Published: July 8, 2019
Copyright: © 2019 Palstam et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Data Availability: The minimal data underlying the results of this study are available upon request due to ethical and legal restrictions under the Swedish Secrecy Act 24:8. Data originates from research register data (SALGOT extended). Interested researchers may contact the authors at ks.sunnerhagen@neuro.gu.se or Dr. Margit Alt Murphy at margit.alt.murphy@gu.se for data access requests. According to Swedish regulation, interested researchers may only obtain data after applying and receiving approval from the Swedish Ethical board.
Funding: The study was supported by grants from the Swedish Research Council (VR 2012-70X-22122-01-3, VR2017-00946), The Swedish Heart-Lung Foundation, The Swedish Brain Foundation, Promobilia, Norrbacka-Eugenia foundation, The Swedish Stroke Association as well as by grants from the Swedish state under the agreement between the Swedish government and the county councils, the ALF agreement (ALFGBG-718711) to KSS.
Competing interests: The authors have declared that no competing interests exist.
Introduction
Stroke is a global health issue of major proportions; it is the second most common cause of death and disability in the world [1, 2]. Indeed, increasing numbers of people are affected by stroke, and the number that remains disabled from stroke is growing [1]. Stroke is a chronic condition that can cause long-term disability [3]. An important part of rehabilitating people with disabilities is participation. Involvement in different areas of life, such as work, family, and community is vital to an individual’s well-being and self-identity [4, 5]. Participation is influenced by different aspects of health. Complex interactions between those aspects can explain the consequences of the individual’s health condition, whether it is a disease or a disorder. Another important aspect of rehabilitation is autonomy. Autonomy includes the right to take part in the decision-making that concerns one’s health. Autonomy is considered necessary to achieve full participation in life [6].
To date, several studies have reported restricted levels of participation at 6 months to 4 years after a stroke [7–9]. Limitations were experienced mostly in the areas of physical independence, mobility, and occupation/hobbies. The factors that contributed to participation restrictions were older age, physical impairment due to stroke [9–11], anxiety, depression [8–13], female sex [10, 13], and severe stroke [13].
Participation and autonomy in life after a stroke have been related to the degree of physical ability, emotional health, cognitive health, and access to health care services [9, 14–17]. Patients experienced a high degree of participation in the activities of daily living, getting around the house, and activities regarding social relations [15, 17, 18]. In contrast, patients experienced restrictions in participating in activities outdoors and, in some cases, in activities regarding family life [15, 17]. Furthermore, some studies have reported that restrictions in participation were considered a major problem in areas regarding financial dealings, family roles, and the ability to help other people [15, 19].
Thus, different levels of participation after a stroke have been reported in a number of studies, and several explanatory factors have been suggested. However, to our knowledge, few studies have investigated how participation and autonomy were affected in the long term after a stroke.
Methods
Study design
This longitudinal observational study included patients recruited for the Stroke Arm Longitudinal study at the University of Gothenburg–extended study (the SALGOT-extended study) [20–22]. The study was approved by the Regional Ethics Committee in Gothenburg, Sweden, on June 5th 2013 (Reference number 225–08, T801-10, and 400–13).
Participants and setting
This study included patients with first ever strokes, diagnosed according to the International Classification of Diseases, according to the following codes, I61: intracerebral hemorrhage, I63: ischemic stroke, or I60: subarachnoidal hemorrhage. All patients were treated at Sahlgrenska University Hospital, Sahlgrenska, Gothenburg, Sweden. Eligible patients were ≥18 years of age and resided in the Gothenburg urban area. Patients were included consecutively between February 4th, 2009 and December 2nd, 2010 into the SALGOT-extended at the University of Gothenburg [20, 22]. A total of 725 patients were included in the cohort. Five years later, a survey was mailed to the survivors (n = 457) to explore the long-term consequences of stroke with a set of questionnaires. After two reminders, questionnaires that had not been returned were considered missing. A total of 281 individuals completed and returned the postal survey, and thus, these patients were included in the present study.
Data collection
Baseline patient characteristics, including age, sex, and stroke type, were collected from medical charts. Stroke severity was assessed at admittance to the hospital, based on the National Institute of Health Stroke Scale (NIHSS, 0–42, lower scores indicated lower severity). For patients with subarachnoid hemorrhages, stroke severity was assessed with the Hunt and Hess scale (H&H, 1–5, lower scores indicated lower severity) [23].
The five-year follow-up survey included questions on living circumstances, the Impact on Participation and Autonomy-English version (IPA-E) questionnaire, and the Stroke Impact Scale. The IPA-E was a generic questionnaire developed to assess the perceived impact on participation and autonomy in everyday life for people with chronic diseases [14, 24, 25]. A Swedish version was used in this study. The IPA-E included 41 items, each rated 0–4, where a lower score indicated a better state. The 41 items were categorized into five domains, including autonomy indoors, family role, autonomy outdoors, social life/relationships, and work/education. In addition, the IPA-E included nine questions on whether the impact on participation was perceived as problematic (rated 0–2, where a lower score indicated less problems).
The Stroke Impact Scale (SIS; range: 0–100, a higher score indicated a better state), was used to assess self-perceived recovery [26]. For statistical analyses, the scale was divided into 4 categories: scores 0–24, 25–49, 50–74, and 75 to 100.
Statistics
The statistical analyses were performed with the IBM Statistical Package for Social Sciences (SPSS) version 22, for Windows. All tests were two-sided, and p-values <0.05 were considered significant.
Dropout analyses were conducted to control for differences in baseline characteristics between participants that responded and those that did not respond to the questionnaires. Dropout analyses were also conducted to control for IPA-domains with more than 25% missing data. The Chi-2 test was performed to compare categorical variables between groups. The Mann-Whitney-U test was performed to compare continuous variables between groups. When any domain of the IPA-E showed a response rate less than 75%, it was eliminated from further analysis.
For further statistical analyses, NIHSS and H&H data were merged into dichotomous variables: very mild stroke (NIHSS = 0–2 and H&H = I) and mild- severe stroke (NIHSS = 3–46 and H&H = II-V).
Logistic regression analyses were performed to estimate the potential value of baseline variables for predicting restricted participation and autonomy at five years after a stroke. We also used logistic regression to analyze problems related to the perceived restrictions in participation and autonomy, for each IPA domain separately. Furthermore, logistic regression was used to analyze factors potentially associated with perceptions of restricted participation and autonomy at five years after stroke. To perform the logistic regression analyses, the IPA-E domain scores were dichotomized into “restricted participation and autonomy” (scores = 1–4) and “unrestricted participation and autonomy” (score = 0). The score that described the problems experienced was dichotomized into “no problems experienced” (score = 0) and “problems experienced” (scores = 1–2). Univariate logistic regression was conducted to analyze potential predictors for each of the IPA-domains and for the ‘Problems experienced’ categories. Variables with p-values ≤0.25 in the univariate analysis were accepted for inclusion into the multivariable logistic regression analyses. Independent variables were tested for collinearity. The multivariable logistic regression analyses were executed in backward conditional mode. P-values <0.05 were considered significant. Lastly, the variables rejected from the univariate logistic regression analyses were reinserted, one by one, into the final model to disclose any significance. Again, p-values <0.05 were considered significant. In each model, independent variables were evaluated with odds ratios (OR) and 95% confidence intervals (CI). A receiver operating characteristics (ROC) curve was calculated for each IPA-domain. An area under the ROC curve ≥0.7 was considered acceptable.
Results
Clinical characteristics:
A total of 281 individuals were included in this five-year follow-up survey. The mean age at the time of stroke was 65.4 years (SD 13.5). The majority (61%) of the population was male. Ischemic stroke was the most common type of stroke (78%). Thrombolysis was performed in 26 individuals, and 9 individuals received thrombectomy. More than half of the respondents had experienced a very mild stroke (63%) and only 7% had experienced a severe stroke. The group with subarachnoid hemorrhages had the same characteristics: the majority had low scores on the H&H (Table 1). Data on stroke severity was missing for 29 individuals.
The dropout analysis showed no significant differences in age or stroke severity between those that dropped out and those that completed the questionnaire. However, significantly more women than men failed to return the follow-up questionnaire (p<0.001).
Five-year follow-up
Nearly everyone in the study population lived at home. The majority shared households with at least one individual (spouse/children/sibling or other, Table 1). Out of the participants that were of working age at follow-up (n = 93), about 80% returned to work, either full-time or part-time, within the five-year period after the stroke. A large proportion of the study participants reported feeling socially supported. However, feelings of depression were reported in more than half of the study population. Most study participants (88.3%) reported that they could move independently indoors and outdoors, without assistance. About 61% of participants considered themselves to have recovered to the 75% level, or higher (scale 0 to 100; Table 1).
Participation and autonomy at five years after a stroke
Restricted participation (i.e., poor or very poor participation/autonomy) was perceived most frequently in the domains of Autonomy Outdoors and Work and Education (Table 2). Conversely, restricted participation was perceived least in the domains of Autonomy Indoors, Family Role, and Social Life and Relationships (Table 2). The highest standardized mean scores, which indicated more severely restricted participation and autonomy, were found in the domains of Autonomy Outdoors, Work and Education, and Social Life and Relationships.
The problems experienced due to participation restrictions in different areas of life are shown in Fig 1. The highest frequencies of problems experienced were found in the life areas of mobility, leisure, and helping/supporting other people.
Missing data: mobility n = 21, self-care n = 23, activities at home n = 28, economics n = 27, leisure n = 21, Social life n = 24, work n = 182, education = 234, help n = 30.
Predictors of participation restrictions at five years after a stroke
The multivariate regression models for each IPA domain are presented in detail in Table 3. We found that older age, severe stroke, and female sex were independent predictors of perceived participation restrictions at five years after a stroke, in at least one IPA domain.
Explanatory factors for participation restrictions at five years after a stroke
The multivariate regression models for each IPA domain are presented in detail in Table 4. We found that, at five years after a stroke, older age, severe stroke, female sex, and feeling depressed contributed to participation restrictions in at least one IPA domain.
Predictors of problems experienced at five years after a stroke
The life areas where most problems were experienced due to participation restrictions were mobility, leisure, and helping/supporting other people. We found that older age, severe stroke, and female sex could predict that problems would be experienced in at least one of the affected life areas (Table 5).
Discussion
At five years after a stroke, participation restrictions were most pronounced in the IPA domains of Autonomy Outdoors, Work/Education, and Social Life and Relationships. Conversely, restrictions were less pronounced in the IPA domains of Autonomy Indoors and Family Role. We found that severe stroke, older age, and female sex were predictors of participation restrictions. Feelings of depression at five years after a stroke contributed to the perceived participation restrictions. Problems related to restrictions in participation were most pronounced in the areas of mobility, leisure, and helping/supporting other people; these problems could be predicted by severe stroke, older age, and female sex.
The majority of respondents perceived that their participation and autonomy in life was very good (53%- 72%) at five years after stroke. A minority (5%- 19%) reported poor or very poor participation and autonomy. Accordingly, the standardized mean scores in all of the IPA-domains were low, indicating a very good sense of participation and autonomy. These results differed from other studies that applied the IPA to populations that had experienced stroke [15, 17]; in those studies, the absolute majority of respondents indicated that they perceived good/fair or poor/very poor participation, which reflected higher standardized mean scores for participation restrictions [14, 15, 17]. However, those studies were conducted in different sociocultural environments and healthcare systems, and they collected data at shorter follow-up times after the stroke (3 months to 3 years); thus, the different study conditions might explain the differences in outcomes [15, 17]. Additionally, individuals that have experienced a stroke might acquire a greater acceptance of their situation with time; thus, at five years after the stroke incidence, acceptance could have influenced the perceived participation [27, 28]. It has been suggested that individuals undergo an adjustment process, during the first-year post stroke. In the later stages of this process, the focus is mostly on developing new ways of living with the illness [29, 30]. The majority of persons with stroke in this study had experienced a mild stroke, which also could have influenced their perception of participation restrictions at a later stage [31].
The Autonomy Outdoor domain focused on one’s ability to plan and pursue recreational activities and engage in social events. In previous studies, this domain had been one of the most affected, in terms of restricted participation and autonomy [15, 17, 32], and it had been associated with impaired physical functioning [17]. Physical barriers in the external environment will most likely influence a person’s mobility, and thus, influence the overall sense of participation and autonomy. The domain of Work and Education focused on paid/voluntary work and education; individuals reported on their abilities to engage in work in the way they wanted, take part in a work force, and remain competitive for different job opportunities. The domain of Social Life/Relationships focused on the quality of social life and the individual’s capabilities of establishing and maintaining relationships with friends and acquaintances. Taken together, these three domains comprised aspects of life that required a certain level of physical, social, and cognitive ability. After a stroke, it is common to experience less involvement in physically demanding activities and less satisfaction in recreational, social, and work activities [33]. In turn, these experiences are likely to have consequences on the abilities to engage and participate in activities. For example, restrictions in participation that are commonly experienced by people with stroke in the area of work/occupation [11, 14, 34, 35] could be explained partly by functional disability and partly by emotional status (e.g., depressive symptoms) [11].
In all the IPA domains, except Work and Education, severe stroke and older age at stroke onset were predictors of participation restrictions at five years after the stroke. Previous research has shown conflicting results regarding stroke severity and participation. Stroke severity was found to be negatively associated with participation at one month post stroke [36] and at one year post stroke [37]. However, other studies could not confirm that relationship [38, 39]. Future research is warranted to explore the relationship between stroke severity and participation.
Our finding that older age was associated with more restricted participation was consistent with findings from previous studies [12, 35, 37, 40, 41]. However, restricted participation in daily life and social roles are expected consequences of normal aging [42]; therefore, perhaps part of the perceived participation restrictions could be due to the effects of aging, rather than the effects of stroke, for this population.
In contrast to other studies that assessed participation with the IPA [14, 15, 17], we found that the female sex could predict perceived participation restrictions in the domain of Family Role. Previous studies [43] have shown that traditional gender roles in families are changing slowly. Consequently, women that experience a stroke are less likely to assume that their spouse would provide domestic assistance and act as a potential caregiver; thus, this population was likely to have unmet needs, which might have contributed to the perceived participation restrictions.
At five years after a stroke, in addition to the other predictors, depression contributed to perceived participation restrictions. Post stroke depression is a common condition. It has negative effects on cognition, emotional regulation, social functioning, and it increases the risk of suicide [44–46]. However, the relationship between post stroke depression and functional outcome after stroke is not well understood [45]. Previous studies on self-perceived participation and depression after stroke have shown that depression/depressive moods were associated with restricted participation in various life areas [10, 14, 17, 37, 47]. In terms of the IPA, depressive mood [17] was an explanatory factor associated with restrictions in all the domains. It is possible that the existence of cognitive, functional, and social impairments due to depression could potentially undermine the ability to be active and participate in life situations after a stroke, and thus, impact negatively on the quality of life.
The areas in life that were considered problematic, due to perceived participation restrictions, were Mobility, Leisure, and Helping/supporting other people. The areas of Mobility and Leisure were similar in content, because they involved the perceived ability to move about indoors, visit friends, go on excursions, and maintain leisure activities. We found that perceived problems in these areas could be predicted by a severe stroke, older age at stroke onset, and female sex. This finding was consistent with previous studies that found that restrictions in mobility/physical independence were perceived as problematic, even at several years after a stroke [9, 31]. It was also shown that the perception of a strong ability to perform in the areas of mobility, strength, and self-care was associated with less restrictions in participation at one year post stroke [16].
Social activities and leisure are associated with improved health, satisfaction in life, functional recovery, and survival after stroke [48, 49]. It is believed that leisure encourages people with stroke to feel engaged, with a sense of belonging in a social context [28, 50, 51]. In summary, in the long-term perspective of people with stroke, social activities and leisure are important because they can decrease the risk of social isolation and contribute to a strong sense of engagement and participation in life. Conceivably, mobility and leisure activities could be areas of interest in rehabilitation strategies.
An important goal of rehabilitation treatment is to restore the individual’s participation in society, despite persistent and/or chronic impairments [14, 52]. This study showed that restrictions in participation and autonomy existed among people with stroke at five years after stroke. Domains that required a certain level of physical, social, and cognitive ability were perceived as more restricted after the stroke.
Limitations
One limitation of this study was that patients were recruited from a stroke unit or a neurosurgical unit at Sahlgrenska University Hospital of Gothenburg, which was the only hospital in Gothenburg that performed neurosurgical treatments, thrombectomies, and thrombolytic procedures. For this reason, younger patients were more often transported to this hospital, which could have resulted in a younger study sample, compared to the general stroke population.
A dropout analysis showed that a significantly larger proportion of women than men did not respond to the questionnaires. In previous studies, female sex was shown to be associated with perceived restrictions in participation [10, 13]. Thus, the large proportion of women dropouts could possibly have influenced the overall results of the IPA-domains.
The respondents in this study, as previously mentioned, had a lower average mean age and a higher percentage of males compared to a general stroke population. Furthermore, the majority of participants had relatively mild strokes. These factors might have reduced the generalizability of our results to a larger stroke population.
Conclusions
This study showed that, at five years after a stroke, people with stroke experienced restrictions in participation and autonomy. Domains that required certain levels of physical, social, and cognitive abilities were perceived as more restricted. A severe stroke and older age were identified as predictors of perceived participation restrictions in most of the IPA domains. Feelings of depression at five years after stroke also contributed to perceived restrictions. Problems were experienced due to participation restrictions mostly in mobility, leisure, and supporting others. Female sex, severe stroke, and older age increased the risk of experiencing problems in these areas.
Acknowledgments
We would like to thank Hanna C Persson and Karin Törnbom for the design, administration and data management of the five year follow-up survey.
References
- 1. Feigin VL, Krishnamurthi RV, Parmar P, Norrving B, Mensah GA, Bennett DA, et al. Update on the Global Burden of Ischemic and Hemorrhagic Stroke in 1990–2013: The GBD 2013 Study. Neuroepidemiology. 2015;45(3):161–76. pmid:26505981
- 2.
London ESeaaKsC. The Burden of Stroke in Europe. Report2015.
- 3. Hankey GJ, Jamrozik K, Broadhurst RJ, Forbes S, Anderson CS. Long-term disability after first-ever stroke and related prognostic factors in the Perth Community Stroke Study, 1989–1990. Stroke. 2002 Apr;33(4):1034–40. pmid:11935057
- 4. Bergstrom AL, von Koch L, Andersson M, Tham K, Eriksson G. Participation in everyday life and life satisfaction in persons with stroke and their caregivers 3–6 months after onset. Journal of rehabilitation medicine. 2015 Jun;47(6):508–15. pmid:25882897
- 5. Reinhardt JD, Stucki G. Rheumatoid arthritis and participation—the social animal revisited. The Journal of rheumatology. 2007 Jun;34(6):1214–6. pmid:17552052
- 6. Cardol M, De Jong BA, Ward CD. On autonomy and participation in rehabilitation. Disability and rehabilitation. 2002 Dec 15;24(18):975–1004.
- 7. Gadidi V, Katz-Leurer M, Carmeli E, Bornstein NM. Long-term outcome poststroke: predictors of activity limitation and participation restriction. Archives of physical medicine and rehabilitation. 2011 Nov;92(11):1802–8. pmid:22032214
- 8. Sturm JW, Dewey HM, Donnan GA, Macdonell RA, McNeil JJ, Thrift AG. Handicap after stroke: how does it relate to disability, perception of recovery, and stroke subtype?: the north North East Melbourne Stroke Incidence Study (NEMESIS). Stroke. 2002 Mar;33(3):762–8. pmid:11872901
- 9. Sturm JW, Donnan GA, Dewey HM, Macdonell RA, Gilligan AK, Thrift AG. Determinants of handicap after stroke: the North East Melbourne Stroke Incidence Study (NEMESIS). Stroke. 2004 Mar;35(3):715–20. pmid:14963272
- 10. Chau JP, Thompson DR, Twinn S, Chang AM, Woo J. Determinants of participation restriction among community dwelling stroke survivors: a path analysis. BMC neurology. 2009 Sep 07;9:49. pmid:19735548
- 11. D'Alisa S, Baudo S, Mauro A, Miscio G. How does stroke restrict participation in long-term post-stroke survivors? Acta neurologica Scandinavica. 2005 Sep;112(3):157–62. pmid:16097957
- 12. Andrenelli E, Ippoliti E, Coccia M, Millevolte M, Cicconi B, Latini L, et al. Features and predictors of activity limitations and participation restriction 2 years after intensive rehabilitation following first-ever stroke. European journal of physical and rehabilitation medicine. 2015 Oct;51(5):575–85. pmid:25616152
- 13. Harwood RH, Gompertz P, Pound P, Ebrahim S. Determinants of handicap 1 and 3 years after a stroke. Disability and rehabilitation. 1997 1997/01/01;19(5):205–11. pmid:9184786
- 14. Cardol M, de Jong BA, van den Bos GA, Beelem A, de Groot IJ, de Haan RJ. Beyond disability: perceived participation in people with a chronic disabling condition. Clinical rehabilitation. 2002 Feb;16(1):27–35. pmid:11841066
- 15. Chen X, He Y, Meng X, Zhou L. Factors associated with perceived participation three months after being discharged from a tertiary hospital. Clinical rehabilitation. 2017 Sep;31(9):1257–66. pmid:28786334
- 16. Tornbom K, Persson HC, Lundalv J, Sunnerhagen KS. The impact of physical function on participation in the first year post-stroke. Acta neurologica Scandinavica. 2017 Jun;135(6):649–55. pmid:27510288
- 17. Fallahpour M, Tham K, Joghataei MT, Jonsson H. Perceived participation and autonomy: aspects of functioning and contextual factors predicting participation after stroke. Journal of rehabilitation medicine. 2011 Apr;43(5):388–97. pmid:21448554
- 18. Persson HC, Carlsson L, Sunnerhagen KS. Life situation 5 years after subarachnoid haemorrhage. Acta neurologica Scandinavica. 2018 Jan;137(1):99–104. pmid:28869279
- 19. Amosun SL, Nyante GG, Wiredu EK. Perceived and experienced restrictions in participation and autonomy among adult survivors of stroke in Ghana. African health sciences. 2013 Mar;13(1):24–31. pmid:23658564
- 20. Persson HC, Parziali M, Danielsson A, Sunnerhagen KS. Outcome and upper extremity function within 72 hours after first occasion of stroke in an unselected population at a stroke unit. A part of the SALGOT study. BMC neurology. 2012 Dec 29;12:162. pmid:23273107
- 21. Wesali S, Persson HC, Cederin B, Sunnerhagen KS. Improved survival after non-traumatic subarachnoid haemorrhage with structured care pathways and modern intensive care. Clinical neurology and neurosurgery. 2015 Nov;138:52–8. pmid:26276728
- 22. Vikholmen K, Persson HC, Sunnerhagen KS. Stroke treated at a neurosurgical ward: a cohort study. Acta neurologica Scandinavica. 2015 Nov;132(5):329–36. pmid:25819421
- 23. Hunt WE, Hess RM. Surgical risk as related to time of intervention in the repair of intracranial aneurysms. Journal of neurosurgery. 1968 Jan;28(1):14–20. pmid:5635959
- 24. Cardol M, de Haan RJ, de Jong BA, van den Bos GA, de Groot IJ. Psychometric properties of the Impact on Participation and Autonomy Questionnaire. Archives of physical medicine and rehabilitation. 2001 Feb;82(2):210–6. pmid:11239312
- 25. Lund ML, Fisher AG, Lexell J, Bernspang B. Impact on participation and autonomy questionnaire: internal scale validity of the Swedish version for use in people with spinal cord injury. Journal of rehabilitation medicine. 2007 Mar;39(2):156–62. pmid:17351699
- 26. Duncan PW, Bode RK, Min Lai S, Perera S. Rasch analysis of a new stroke-specific outcome scale: the Stroke Impact Scale. Archives of physical medicine and rehabilitation. 2003 Jul;84(7):950–63. pmid:12881816
- 27. Pallesen H. Body, coping and self-identity. A qualitative 5-year follow-up study of stroke. Disability and rehabilitation. 2014;36(3):232–41. pmid:23631656
- 28. Woodman P, Riazi A, Pereira C, Jones F. Social participation post stroke: a meta-ethnographic review of the experiences and views of community-dwelling stroke survivors. Disability and rehabilitation. 2014;36(24):2031–43. pmid:24597937
- 29. Kirkevold M. The unfolding illness trajectory of stroke. Disability and rehabilitation. 2002 Nov 20;24(17):887–98. pmid:12519484
- 30. Burton CR. Living with stroke: a phenomenological study. Journal of advanced nursing. 2000 Aug;32(2):301–9. pmid:10964176
- 31. Ytterberg C, Dyback M, Bergstrom A, Guidetti S, Eriksson G. Perceived impact of stroke six years after onset, and changes in impact between one and six years. J Rehabil Med. 2017 Aug 31;49(8):637–43. pmid:28792583
- 32. Larsson J, Bjorkdahl A, Esbjornsson E, Sunnerhagen KS. Factors affecting participation after traumatic brain injury. Journal of rehabilitation medicine. 2013 Sep;45(8):765–70. pmid:24002312
- 33. Tellier M, Rochette A. Falling through the cracks: a literature review to understand the reality of mild stroke survivors. Topics in stroke rehabilitation. 2009 Nov-Dec;16(6):454–62. pmid:20139048
- 34. Blomgren C, Jood K, Jern C, Holmegaard L, Redfors P, Blomstrand C, et al. Long-term performance of instrumental activities of daily living (IADL) in young and middle-aged stroke survivors: Results from SAHLSIS outcome. Scandinavian journal of occupational therapy. 2017 May 19:1–8.
- 35. Singam A, Ytterberg C, Tham K, von Koch L. Participation in Complex and Social Everyday Activities Six Years after Stroke: Predictors for Return to Pre-Stroke Level. PloS one. 2015;10(12):e0144344. pmid:26658735
- 36. Tornbom K, Persson HC, Lundalv J, Sunnerhagen KS. Self-Assessed Physical, Cognitive, and Emotional Impact of Stroke at 1 Month: The Importance of Stroke Severity and Participation. Journal of stroke and cerebrovascular diseases: the official journal of National Stroke Association. 2017 Jan;26(1):57–63.
- 37. de Graaf JA, van Mierlo ML, Post MWM, Achterberg WP, Kappelle LJ, Visser-Meily JMA. Long-term restrictions in participation in stroke survivors under and over 70 years of age. Disability and rehabilitation. 2017 Jan 05:1–9.
- 38. Eriksson G, Carolyn Baum M, Wolf TJ, Connor LT. Perceived participation after stroke: the influence of activity retention, reintegration, and perceived recovery. The American journal of occupational therapy: official publication of the American Occupational Therapy Association. 2013 Nov-Dec;67(6):e131–8.
- 39. Edwards DF, Hahn M, Baum C, Dromerick AW. The impact of mild stroke on meaningful activity and life satisfaction. Journal of stroke and cerebrovascular diseases: the official journal of National Stroke Association. 2006 Jul-Aug;15(4):151–7.
- 40. Desrosiers J, Noreau L, Rochette A, Bourbonnais D, Bravo G, Bourget A. Predictors of long-term participation after stroke. Disability and rehabilitation. 2006 Feb 28;28(4):221–30. pmid:16467057
- 41. Schepers VP, Visser-Meily AM, Ketelaar M, Lindeman E. Prediction of social activity 1 year poststroke. Archives of physical medicine and rehabilitation. 2005;86(7):1472–6. pmid:16003683
- 42. Desrosiers J, Noreau L, Rochette A. Social participation of older adults in Quebec. Aging clinical and experimental research. 2004 Oct;16(5):406–12. pmid:15636468
- 43. Allen SM, Mor V, Raveis V, Houts P. Measurement of need for assistance with daily activities: quantifying the influence of gender roles. Journal of gerontology. 1993 Jul;48(4):S204–11. pmid:8315244
- 44. Shi Y, Yang D, Zeng Y, Wu W. Risk Factors for Post-stroke Depression: A Meta-analysis. Frontiers in aging neuroscience. 2017;9:218. pmid:28744213
- 45. Hadidi N, Treat-Jacobson DJ, Lindquist R. Poststroke depression and functional outcome: A critical review of literature. Heart & Lung: The Journal of Acute and Critical Care. 2009 2009/03/01/;38(2):151–62.
- 46. Turner-Stokes L, Hassan N. Depression after stroke: a review of the evidence base to inform the development of an integrated care pathway. Part 1: Diagnosis, frequency and impact. Clinical rehabilitation. 2002 May;16(3):231–47. pmid:12017511
- 47. Micaela Silva S, Carlos Ferrari Correa J, da Silva Mello T, Rodrigues Ferreira R, Fernanda da Costa Silva P, Ishida Correa F. Impact of depression following a stroke on the participation component of the International Classification of Functioning, Disability and Health. Disability and rehabilitation. 2016 Sep;38(18):1830–5. pmid:26728302
- 48. Venna VR, McCullough LD. Role of social factors on cell death, cerebral plasticity and recovery after stroke. Metab Brain Dis. 2015 2015/04//;30(2):497–506. pmid:24748365
- 49. Boosman H, Schepers VP, Post MW, Visser-Meily JM. Social activity contributes independently to life satisfaction three years post stroke. Clinical rehabilitation. 2011 May;25(5):460–7. pmid:21059668
- 50. Erikson A, Park M, Tham K. Belonging: a qualitative, longitudinal study of what matters for persons after stroke during the one year of rehabilitation. Journal of rehabilitation medicine. 2010 Oct;42(9):831–8. pmid:20878043
- 51. Parker CJ, Gladman JR, Drummond AE. The role of leisure in stroke rehabilitation. Disability and rehabilitation. 1997 Jan;19(1):1–5. pmid:9021278
- 52. Dijkers MP. Issues in the conceptualization and measurement of participation: an overview. Archives of physical medicine and rehabilitation. 2010 Sep;91(9 Suppl):S5–16. pmid:20801280