Background
There is convincing evidence that foot problems and inappropriate footwear affect balance [
1] and increase the risk of falls in the older population [
2‐
4]. In older people, shoes have been recognised as a modifiable risk factor in falls prevention [
5]. Evidence from the general population suggests that appropriate footwear can enhance well being, allow maintenance of independence, mobility and freedom from pain [
5‐
9]. Although the influence of footwear on balance is complex, some characteristics have been linked to positive health benefits and others to foot pathology [
6,
7]. For example, appropriate footwear can enhance foot health including protection, support and facilitate propulsion [
8]. Appropriate footwear can be defined as well fitting, fit for purporse supportive shoes that allow normal foot function [
10]. Features associated with healthy footwear include a stable heel approximately 25 mm high, that have means of fastening, adequate width and depth, outsole grip that meets industry standard, soft flexible uppers and an inshoe climate that promotes a healthy environment within the shoe [
10].
In contrast, specific styles of shoes such as slippers, high heeled court shoes and shoes with limited or absent fixation are notably associated with sub-optimal characteristics [
9]. Factors such as excessive heel height, reduced friction on the soles of footwear, walking barefoot, wearing socks or footwear with a flimsy sole have all been linked to instability and increased fall risk in older people [
11,
12]. Other characteristics such as heel collar height, heel and midsole geometry, type of fastening and sole hardness have also been shown to negatively influence balance performance [
13,
14]. Indeed, walking barefoot and wearing stockings or socks without shoes was associated with a ten-fold increased risk of falling [
15]. Wearing slippers or medium to high heeled shoes and shoes with a narrow heel significantly increased the likelihood of a fracture [
16]. Much of the work on footwear and falls prevention has concentrated on therapeutic or off the shelf footwear intended for outside usage with little attention on indoor footwear [
4,
12]. As falls frequently occur within the home setting [
3] investigating individual’s choice of indoor footwear and safe mobility in the home may lead to a greater awareness of modifiable factors.
People with Parkinsons (PwP) and people with stroke (PwS) are at higher risk of falls than people among the general population. In a 12-month period two thirds of PwP [
17] and three-quarters of PwS [
18] living in the community will have fallen at least once. Most falls among these groups of people take place in the home where they spend most of their time [
19]. The consequences of falls include injuries, loss of independence and social isolation often resulting in poor quality of life for the individual and high health service costs [
20‐
22].
Little is known about footwear and foot problems for PwS or PwP. Rehabilitation for PwS and PwP currently focuses mainly on gait characteristics and gross motor performance of the lower limb but feet are often not included in routine assessment and treatment [
20‐
22]. Post stroke, foot and toe deformities, altered sensation and proprioception have been observed [
23‐
27] but their impact on balance is still unclear and no information exists as to whether these problems can be minimised with appropriate footwear. There is a lack of specific information about what PwS and PwP wear indoors and outdoors and no condition specific information about footwear characteristics that may enhance balance performance or which factors might be linked with instability and increased risk of falls in these conditions.
Evidence from a qualitative study among community dwelling people with stroke highlighted the contribution of pain, weakness and altered sensation to problems with community ambulation, self-esteem and perceptions of physical appearance [
20]. In the current study we set out to explore what PwP and PwS wear on their feet in different settings (home indoors and outdoors) and to gather information about self-reported foot problems, fall status and factors that influence choice of footwear and buying decisions.
Method
Study design
A quantitative postal survey design was used involving open and closed questions.
Study sample
Participants were identified from hospital clinics and consultant lists, out-patient services and clinics, and local support groups (Parkinson’s UK and Stroke Clubs) in the wider Southampton area.
Procedure
Two anonymous questionnaires, one for each condition group (PwP, PwS), were formulated by the research team with PPI involvement. Each questionnaire comprised 22 questions. They included closed (yes/no and multiple choice) questions, ranking questions and open questions for free text responses. Information was requested on demographic data, time since diagnosis, ability to walk inside and outside, walking aid use, fall history relating to falls experienced in the previous 12 months (and for PwP a question about freezing of gait). Questions related to preferred footwear in the home and outdoors used pictorial selection and were adapted from previous investigators' work [
28]. Participants were asked whether they had experienced foot problems and given free space to describe them. They were also asked if they had received foot care support from health care professionals and if their footwear habits had changed since the onset of their condition. In relation to purchasing new shoes, participants were asked to rank the factors that most influence their shoe purchasing decisions. The questionnaires were piloted with 10 participants before 1000 questionnaires (500 for PwP and 500 for PwS) were distributed to health professionals, leads of Parkinson’s UK groups and stroke clubs within the wider Southampton area (May 2014-May 2015). These collaborators were asked to distribute the survey packs to people with a confirmed diagnosis of either stroke or Parkinson’s.
Governance
Each survey pack contained an information sheet, the anonymous survey and a Freepost envelope. As this survey is part of the larger, multi-study SHOES research project (NIHR RfPB: PB-PG-0212-27001) the information sheet clearly described each phase of the study. In the survey stage consent was implied from participating in the survey by returning the completed questionnaire. Full ethical approval was granted through the UK IRAS (Integrated Research Application System) (LREC: 14/SW/0078); Research Governance was approved by University Hospitals Southampton NHS Foundation Trust (R&D: RHM MED 1169).
Statistical analysis
Demographic and clinical characteristics were described using summary statistics. The footwear specific characteristics and foot problems in each condition group were presented as frequencies of occurrence and graphically as bar charts. Free text responses were analysed quantitatively by counting the number of similar responses and then representing the textual content numerically. The percentage of participants with foot problems was reported. Pearson chi-squared analyses and independent sample t-tests (Mann-Whitney U tests were performed when assumptions of normality or homogeneity were not met) were used to explore differences between PwP and PwS, between those with and without foot problems, and between fallers and non-fallers. Analyses were conducted using Statistical Package for the Social Sciences version 22.0 software (IBM SPSS, Chicago IL) and 95 % confidence intervals from programme CIA. P values less than 0.05 were deemed to indicate statistical significance.
Discussion
To our knowledge this is the first study that has explored choice of indoor and outdoor footwear in relation to self-reported foot problems and fall status in people with stroke (PwS) and Parkinson’s (PwP). Since diagnosis/onset of their condition nearly half of the survey respondents reported that their footwear habits had changed. Given the manifestations of Parkinson’s and stroke and their effect on balance and mobility [
29,
30] these changes are not surprising but as footwear habits have not been previously explored in these populations we cannot compare our findings to other published studies.
Over half of our participants reported foot problems. This is similar to evidence for ‘older adults’ in which many report some form of foot problem [
31,
32] and this is potentially associated with mobility loss [
33] and falls [
32,
34]. Our results suggest that those who reported foot problems have lived with their condition for a long time and potentially their problems may have developed through long term use of inappropriate footwear and lack of foot care support. A link between foot problems and falls in the general population is well reported in the literature [
2,
3,
30,
33]. It is well known that PwS and PwP are at higher risk of falls than people among older adults [
17‐
19]. Findings from this study add new information highlighting that foot problems are also common in this patient group, possibly increasing the risk of falls. When all participants combined over both condition groups were compared according to fall status, a higher proportion of fallers reported that foot problems impacted on their balance and choice of footwear, and a greater proportion had changed their footwear habits since diagnosis.
Foot problems reported by PwS and PwP in the present study largely correspond with previous observations [
23‐
27,
35]. The impact of stroke related foot problems such as weakness, lack of sensation and pain are likely to be increased when wearing inappropriate shoes. This suggests that it may be possible to decrease the impact of these problems through the use of more supportive and appropriate footwear. To date, few studies have explored impact on different types of shoes on balance and walking ability in PwP but initial findings suggest improved balance performance in supportive and outdoor shoes [
36,
37]. We could not find any literature relating to specific foot problems in PwP.
With respect to footwear, the most important factors in decisions for purchasing indoor and outdoor shoes were based on comfort and fit. Fallers placed a particular emphasis on ease and security of the fastening. Most respondents reported that they wear lace up walking shoes outdoors. In contrast, in their systematic review, Menant et al. [
13] highlighted that many older adults wore inappropriately fitting shoes both inside and outside the home. Although ‘lace up walking shoes’ are deemed a ‘good’ footwear choice [
10], our postal survey design did not permit a review of the condition or fit of the actual shoes worn by participants who reported this choice of footwear.
Footwear is known to influence falls in older adults [
13,
14]. Wearing slippers and/or walking barefoot indoors, puts individuals at greater risk of falls [
11,
12,
15]. In spite of the substantial advances in the fields of footwear design and falls research since the turn of the century [
13,
14] our study showed that slippers were still the type of shoes most respondents wear indoors and that many believed that these were right for them. This finding might be explained at least partially on the fact that purchasing and wearing of potentially unsafe household shoes is based on long ingrained habits. Household shoes are often received as presents or purchased when they are readily available if they are easy to put on, comfortable, fashionable and inexpensive [
38]. It is also possible that the lack of footcare support reported by many respondents is linked to limited access to information about healthy footwear options. Worryingly, a large number of fallers wore slippers or walked barefoot indoors. Forty-seven percent of fallers and 36 % of fallers with foot problems reported that they had not received any foot care support or advice. We do not know why this is the case for our study participants especially as multifaceted podiatry interventions can enhance falls prevention strategies in older people [
12]. In addition, the NICE guidelines for older people recommend that older people who have reported a fall or are at risk of falling should be offered a multifactorial falls risk assessment and monitored for balance and gait deficits [
39]. It is not known whether all fallers in our survey had received such an assessment but based on the lack of input many reported, the question arises whether the possible influence of feet and footwear on balance are currently being overlooked. The need for more specific advice was supported by our findings that a third of PwP, over 40 % of PwS and nearly 50 % of fallers reported a need for more advice and support in their decision making when purchasing shoes.
Our findings are similar to reports of podiatry intervention / foot care services for other long term conditions [
40‐
43]. What was surprising is that there was no observable difference in footwear choices for those who did and did not receive foot care support in our study and that our findings suggest that the uptake of healthy footwear particularly in relation to indoor shoes choices is still low. What is not known is whether podiatrists and foot health clinicians take into account what the individual wears in different situations when giving footwear advice. For example, in relation to the underlying variations in foot manifestations due to the effects of Parkinsons or stroke and/or how PwP and PwS assimilate that advice. The healthcare professionals that PwP and PwS see most frequently in the UK are likely to be physiotherapists and nurses. There is evidence that whilst some physiotherapists are knowledgeable concerning fall risk assessment and prevention strategies, they are less likely to refer to other healthcare professionals to address fall risk [
44]. In a recent review, Borland et al. [
45] could not identify any UK or international standardised guidelines that advise nurses about appropriate and safe footwear for older people. They concluded that structured guidelines to direct nurse educators about what to teach student nurses concerning appropriate footwear for older people may work towards reducing falls [
45].
Future research may also investigate optimal shoe design requirements and explore whether it is possible to improve foot health status in PwS and PwP. For example, Williams and Nester found differences in design requirements between patients with diabetes and patients with rheumatoid arthritis [
46].
We acknowledge limitations of this study with regards to participant recruitment, the survey design and its reliance on self-report. Firstly, the response rate appears low (36 %). Although 1000 survey packs were distributed to health professionals and leads of Parkinson’s and stroke clubs we do not know how many survey packs actually reached individual patients. It is possible that amongst potential participants who received a survey pack the response rate was higher than our figures suggest. Secondly, participants were recruited from the wider Southampton area which is predominantly white and middle-class. The study findings may therefore be subject to selection bias with regards to geographical location, ethnicity and culture.
Acknowledgements
The authors would like to thank all the participants of the study and the health professionals and leaders of Parkinson’s UK groups and stroke clubs who handed out our survey packs.