Next Article in Journal
Using Metrics of a Mixture Effect and Nutrition from an Observational Study for Consideration towards Causal Inference
Next Article in Special Issue
Caregiving of Older Persons during the COVID-19 Pandemic in the Russian Arctic Province: Challenges and Practice
Previous Article in Journal
Clinical Presentation and Mortality of Severe Fever with Thrombocytopenia Syndrome in Japan: A Systematic Review of Case Reports
Previous Article in Special Issue
“I Am the Home Care Agency”: The Dementia Family Caregiver Experience Managing Paid Care in the Home
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
IJERPH
Volume 19
Issue 4
10.3390/ijerph19042272
ijerph-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

Reducing the Physical Burden of Older Persons’ Household Caregivers: The Effect of Household Handrail Provision

by
Ruttana Phetsitong
1 and
Patama Vapattanawong
2,*
1
Faculty of Physical Therapy, Mahidol University, Nakhon Pathom 73170, Thailand
2
Institute for Population and Social Research, Mahidol University, Nakhon Pathom 73170, Thailand
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2022, 19(4), 2272; https://doi.org/10.3390/ijerph19042272
Submission received: 4 December 2021 / Revised: 9 February 2022 / Accepted: 15 February 2022 / Published: 17 February 2022
(This article belongs to the Special Issue Caregivers Supporting the Health and Quality of Life of Aging Adults: Needs and Opportunities at the Personal, Community, and Societal Levels)
Browse Figures
Review Reports Versions Notes

Abstract

:
The household handrail is necessary for dependent older people to perform their daily living activities, improve caregiving competency, and reduce caregiver burden. This study aimed to explore physical burden levels and examine their association with handrail provision among caregivers in older people’s households in Phuttamonthon District, Thailand, in 2017. This study used the physical dimension of the Caregiver Burden Inventory to quantify the levels of physical burden among 254 caregivers in households with a dependent older person. It classified the studied households into three categories: no handrail, one handrail, and more than one handrail. The analysis employed the ordinal logistic model approach. The findings showed that the mean physical burden score was 5 ± 3.85, indicating a high burden. After adjusting for potential factors, the caregivers in older people’s households with one handrail were less likely to experience a high physical burden than those without a handrail (OR = 0.30, 95% CI = 0.14–0.67). Nonetheless, the analysis found no significant differences in physical burden between caregivers of households with more than one handrail and those of households with no handrails. Having handrails in housing might enhance older people’s ability to adjust to disability and illness, ultimately reducing the physical care burden of caregivers. However, having the appropriate number of handrails in older people’s households should be considered.

1. Introduction

The world’s population is getting older, accompanied by an increase in age-related disability [1]. For disabled older people, user-friendly housing is a basic need for them and their caregivers. According to the International Classification of Functioning, Disability, and Health, known as the ICF framework, facilitating environments, including home modifications and assistive devices (i.e., handrails and grab bars), helps to maintain older people’s independence and makes caregiving for older people with impairments easier and safer [2,3]. Therefore, the provision of household handrails may be a possible determinant that influences the quality of life of older people and appears to reduce the burden of caregivers in providing support for the activities of daily living (ADLs) of older people [4,5].
A caregiver is a key to the successful care of older people. Caregiver characteristics and caregiving environments can contribute to older persons’ health outcomes. Care provision at home by persons who lack care training or resources and supportive environments can generate high physical health problems, significant fatigue, and caregivers’ sleep impairment [6,7,8,9]. The potential of the physical burden as a result of caregiving is a factor that can affect the termination of a caregiver’s role or, in the worst cases, elder abuse [10].
In Thailand, like other Asian societies, the provision of healthcare services for older citizens is still dependent on home-based care [11,12,13,14]. With their sense of connectedness with home and concern for security, most of the Thai elderly prefer to live at home. The important issue of concern is that the caregiver burden tends to be an increasing problem and presents a growing challenge for Thailand’s aging society as a falling potential support ratio has been identified [15]. Furthermore, Thai caregivers are growing older. These trends will increase the physical burden among caregivers due to their age, which is related to physical stress and morbidity [1]. Accordingly, the bulk of the burden of long-term care of older Thai persons falls upon the caregiver. Thus, it is important to focus on the physical caregiver burden.
The concept of home modification has evolved over time. It was initially defined as “changes to the structure of the dwelling (e.g., widening doors, adding ramps, providing better accessibility) and the installation of assistive devices inside or outside the dwelling (e.g., handrails, grab bar, lifts, etc.), to help people to be more independent and safer in their own home and reduce any risk of injury to their carers and care workers” [16].
Effects of home modifications and caregiving appear to be broad and still inconsistent [17,18]. Positive effects have been reported. Home modifications reduce the amount of care provided [18]. Household handrails are considered a necessity for dependent older persons in performing their ADLs and can also improve the competency of caregiving, as well as reduce caregiver burden [19,20,21]. However, existing theoretical models described assistive devices are unable to replace caregivers for most older people living with disabilities in the community. Instead, assistive devices appear to supplement personal care and seem to be associated with a higher probability of taking more care hours and more caregivers in assistance with more ADL tasks [22]. Although adaptation in the home can better support older people to remain independent for longer, the number of modifications has received attention [23].
Based primarily on the stress theory [24,25,26], there are a number of factors that could affect physical caregiver burden. The physical condition of older caregivers is likely to be inferior to that of younger caregivers (e.g., because of chronic diseases) [26]. The heavy care tasks and the necessity of frequently assisting the person they care for in their activities of daily living, alongside their accumulated stress, might have various negative effects on caregivers [24]. Based on older person characteristics, handrails may be beneficial for an older person with an expanded fall chance due to physical disability, however they may be possibly ineffectual for someone with cognitive impairment [27].
Long-term care and caregiver burden studies have devoted attention to individual characteristics of caregivers and older people in their analysis and lack evidence of how household factors such as handrail provision affects physical caregiver burden. Therefore, the purpose of this study was to explore the level of the physical burden of caregivers in older persons’ households and to examine the association between household handrail provision and the physical burden of the caregiver in older persons’ households. Specifically, this study aimed to test the following hypotheses: First, mean physical caregiver burden will be as high as that presented of the falling potential support ratio of Thailand, and second, there will be significant differences in physical burden between caregivers of households without a handrail and households with one handrail or those with more than one handrail. Given the rapidly aging population, understanding the household factors that play an important role in mitigating physical caregiver burden could inform the development and monitoring of long-term care policies.

2. Materials and Methods

2.1. Study Design, Population, and Data Collection

A cross-sectional study was employed. The data were drawn from our earlier research project conducted in 2017 in Phutthamonthon District, Nakhon Pathom Province, Thailand, where the western suburbs of Bangkok are located (Figure 1). It was carried out in 254 private households of older people who were aged 60 years and over and had a caregiver providing care in the home.
Phutthamonthon has a strong Buddhist-based ideological system. It has long been known for its kin-based agriculture and animal farming economy, but it has now been industrialized and is a more urban environment, resulting in a change in demographic trends toward smaller family size and more female employment outside the home [28]. The Phutthamonthon recorded the largest percentage increase in the number of households for the province [29]. In addition, chronic disease risk factors and health problems of populations in such settings of social upheaval are high [30].
The inclusion criteria for being a primary caregiver eligible for the study were as follows: Having a primary role in providing day-to-day care with ADLs for the target older person at home. In Thailand, home-based care is delivered by both informal carers and formal caregivers. However, the informal caregiver is the first preference for older people. From a practical standpoint, different care forms can mix together. It is critical to understand how household handrails can minimize the physical care burden of older people’s caregivers, regardless of whether a caregiver is informal or not. Therefore, this included both informal caregivers (any family member, partner, relatives, friends, or neighbors who had a significant personal relationship with the older household members), and formal caregivers (a provider associated with a formal service, whether a paid worker or a volunteer); being at least 15 years of age (to gain information based on the caregiving context and caregiver’s perspective); and willing to participate in the study.
Before the actual data collection, a list of households with older persons was compiled. A total of 4056 households with older people in three sub-districts (Salaya, Mahasawasdi, and Klong Yong) were identified by the medical records officers of the Phutthamonthon District Hospital and the Sub-district Health Promoting Hospitals. Among the 4056 households, 363 were identified as having an older person(s) who needed care, and this information was verified by home visiting teams and the village volunteers from each local hospital. However, after screening with a household questionnaire, it was evident that a total of 319 households actually had an older person(s) who needed a caregiver. Of the 319 households approached, 30 households were allocated for pre-test measurement of questionnaire reliability, 19 households were excluded based on the lack of consent to participate, and 16 households were excluded due to an incomplete questionnaire. Ultimately, 254 households were included for the data analysis (Figure 2).
Data were collected from the eligible private households of 18 villages of three sub-districts (Salaya, Mahasawasdi, and Klong Yong) of Phuthamonton District in August 2017. The interviewer teams were trained for data collection. Two interviewers were assigned to each eligible household. One interviewer interviewed the responsible adult using the household questionnaire, and the primary caregiver of the household using the caregiver questionnaire. Another interviewer interviewed the target older person with the older-person questionnaire. The data collection took about 40 min. In cases where an interview was not completed in one visit, follow-up visits were arranged up to a maximum of three.
The older household members were asked to identify their primary caregivers in order to recruit them into the study. As a primary caregiver of the target older person, the caregiver’s status was ascertained by the question “Are you the person who most regularly provides care to the target older person?” In cases where more than one caregiver met the criteria, the primary caregiver was selected hierarchically based on the following criteria (in order): (i) they were involved in the older person’s treatment, and (ii) they were contacted in case of emergency.

2.2. Physical Caregiver Burden

Caregiving for an older person with ADL difficulties presents burdens across physical, psychological, social, and financial dimensions [7]. For this study, physical caregiver burden was defined as a primary caregiver having physical reactions to the imbalance of demands and resources placed on them by various factors, including the socio-demographic characteristics of both the caregiver and the older person and the health conditions of the older person as well as their environment. This was assessed by the physical dimension of the Caregiver Burden Inventory (CBI). The original CBI has been validated in many languages (e.g., Chinese, Italian, Brazilian, Spanish) and it has favorable reliability (0.77–0.94) [31,32,33,34,35]. There are four items for the physical dimension as follows: “I am not getting enough sleep”, “My health has suffered”, “Caregiving has made me physically sick”, and “I am physically tired”. For each item, the scale’s response options consisted of 0 (never), 1 (rarely), 2 (sometimes), 3 (quite frequently), and 4 (nearly always), where the respondents were asked to indicate which score best represented how often the statement described the caregiver’s feelings while taking care of the older person. Thus, the score for the domain of physical burden ranged from 0 to 16. The cut-off scores of the physical burden subscale in this study were determined relative to the original cut-off value. Summed scores higher than a quarter of the total score indicated a high caregiver burden [31]. Therefore, the interpretation of the total score was 0 = “no physical burden”, 1–4 = “lower physical burden”, and 5–16 = “higher physical burden”. The CBI was originally written in English. It was translated into Thai for this study. The initial translation (or forward translation from the original English to Thai) was done by two independent translators. Then, a translation back from the Thai language into English was made to verify the accuracy of the Thai version. In the last step, native users of English compared the original English version and the back-translated English versions to confirm equivalence or detect discrepancies. These were resolved to produce a pre-final version of the translated CBI, and the internal consistency of the physical dimension in this study was found to be reasonable (Cronbach’s alpha = 0.80).

2.3. Household Handrail Provision

Research literature has used the term ‘handrail’ to define a narrow rail for grasping with the hand as support both inside and outside the home. They can be installed on the stairs, in the bathroom or toilet, and so on [36,37,38,39]. This study defined household handrail provision as having a stair handrail, a handrail in the bedroom, or a handrail in the bathroom/toilet of the older person’s household. The sample households were classified into three types: 1 = households with no handrails, 2 = households with a handrail in one place, and 3 = households with handrails in more than one place.

2.4. Covariates

Potentially important factors were included in an analysis to control variables that could affect the primary outcome of this study and to increase the efficiency of the analysis, thus producing more precise and stronger statistical values for an effect. There are two main classical theoretical frameworks that are widely used in the empirical literature of caregiver burden to guide the identification of related factors affecting burden [40,41,42,43,44]. Most of the burden studies related to caregivers were primarily driven from the original conceptualization of the Pearlin stress process [24] that was developed from the transactional stress theory and coping by Lazarus and Folkman in 1984 [45], while the stress appraisal model of Yates [25] focused on the appraisal of stressors and available resources for caregivers. Following these two stress models [24,25], four domains play important roles in explaining variables of a physical caregiver burden: (i) background characteristics, (ii) older people’s health status, (iii) caregiving hours, and (iv) social support.
According to household background variables, living arrangements and economic household factors have been cited as a predictor of a stressor or strain [24]. Living arrangement refers to the co-residence of the target older person with their caregiver and other household members. Four different living arrangements of the older person(s) were defined: (i) living alone or living together, (ii) living with only a caregiver, (iii) living with a caregiver and others, and (iv) living with others but not with a caregiver. The living arrangement was constructed based on the information about household members living in the household combined with a question asked of the primary caregiver: “Do you live in the same household with the older person?” Relative household wealth is a proxy of the socio-economic status of the household. The wealth index was measured based on a set of household characteristics and ownership of assets. These attributes were converted into a wealth index by the principal component analysis [46] and converted into relative household wealth quintiles (1 = poorest, 2 = poor, 3 = medium, 4 = rich, and 5 = richest). The index combined data on 14 indicator variables including possessing a CD/DVD/VCD player, a microwave oven, a washing machine, an air conditioner, an electric water heater in the bathroom, a mobile phone, a computer, a tablet computer, a car/small truck/pick-up truck/van/farm tractor, a motorcycle, a two-wheel tractor, own household land, access to safe drinking water (treated tap water, bottled water, or water from a vending machine), and access to a safe water supply (tap water, treated tap water, bottled water, or water from a vending machine). It is important to note that wealth quintiles from the primary data collection only represent the distribution of wealth among the 254 eligible households of Phutthamonthon District, Nakhon Pathom Province.
Caregiver background variables were used to capture possible determinants of physical caregiver burden, including age, sex, marital status, educational attainment, working status, the relationship of the caregiver to the older person, and duration of care for the older person. When a caregiver is a primary carer for dependent children in addition to an older or disabled household member, they are referred to as a “sandwich carer”.
Regarding the stressors relating to caregiving, older people’s health status, including functional dependency, behavioral problems, and cognitive impairment, have been repeatedly mentioned in the literature. For this study, functional dependency was defined as the inability to perform ADLs independently. The level of functional dependency was based on assessing ten ADLs using the Barthel’s Index Scale (Thai version). These ADLs included feeding, grooming, transferring, toilet use, mobility, dressing, stairs, bathing, bowels, and bladder. The score was determined by guidelines of the Thai Institute of Geriatric Medicine (≥12 = independent; 5–11 = partial dependency; and ≤4 = dependent, out of 20 possible points). Cognitive impairment was that of decreased intellectual ability leading to the incapacity of an individual to manage their social or occupational activities. For this study, the Mini-Mental State Examination (Thai version; MMSE-Thai 2002) was used. If the summed score was less than the cut-off score, the older person was determined to have cognitive impairment. The score categories were based on guidelines from the Thai Institute of Geriatric Medicine (14 out of 23 points for illiterate; 17 out of 30 points for primary school level; and 22 out of 30 points for higher than primary school level). Behavioral problems were the presence of behavioral challenge(s) based on the NeuroPsychiatric Inventory-Questionnaire (NPI-Q Thai) self-administered questionnaire, which was completed by caregivers about the older person in their care. There are 12 questions that include the presence of delusions, hallucinations, agitation/aggression, depression, anxiety, irrational euphoria, apathy, disinhibition, irritability, motor disturbance, disruptive nighttime behavior, and adverse eating and appetite changes. The response to each question is “yes” (present) or “no” (absent or not applicable). Having at least one of these symptoms indicates the presence of the behavioral problem(s).
The appraisal of caregiving is affected by the older person’s health status, and it can be measured by the number of hours of caregiving [25]. In this study, caregiving hours were the time spent on assisting the older person with routine daily activities including feeding, grooming, bathing, dressing, toileting, mobility, and/or transfers by the primary caregiver. This study categorized the number of caregiving hours a day into three levels: low = 0–1 h, medium = 1.1–3 h, and high ≥3 h [47].
Social support is a significant and direct mediator of caregiver burden and well-being [25,48]. It refers to help or support for the primary caregiver when they are having difficulty in providing care for the older person. This variable was measured as the perception of the primary caregiver of available assistance. Support may come from household members, family outside the household, friends, neighbors, community leaders, groups, organizations, and foundations. The measurement scale included “0 = not received” versus “1 = received”.

2.5. Statistical Methods

All statistical analyses were carried out using STATA/SE 14.0 [49]. The value for alpha was set at 0.05 for statistical significance; all tests were two-tailed. Descriptive analysis was performed to summarize the distribution of the background variables and to explore the quantitative level of physical caregiver burden. Ordinal logistic regression models were applied to predict the relationship between household handrail provision and physical caregiver burden. The models not only account for the ranked response inherent in ordinal scales, but can also adjust for confounding and determine effect modification from a modest sample size [50,51]. The model analysis of this study is based on combining theoretical frameworks on the caregiving stress process of Pearlin [24] and Yates [25], as shown in Figure 3.
Therefore, six model analyses were performed: Model 1 was an unadjusted model fitting dependent and independent variables only; Model 2 was a caregiver background adjusted model; Model 3 was a caregiver and household backgrounds adjusted model; Model 4 was a caregiver and household backgrounds plus older person’s health status adjusted model; Model 5 was a caregiver and household backgrounds plus older person’s health status and caregiving hours adjusted model. Model 6 was a fully adjusted model, which included all five important covariates: caregiver backgrounds, household backgrounds, older person’s health status, caregiving hours, and social support.

3. Results

A total of 254 older-person households were included in the study. The average household size of the households was 4.0 persons (SD = 1.6; range = 1–9). The majority of the older person(s) lived in the same household with their primary caregivers. The most common living arrangement was a household where the older person(s) lived with the caregiver and other household members (n = 192; 75.6%). The wealth index score was divided into five quintiles. Of 254 households, households in the first quintile (20.1%) were considered the poorest, whereas households in the fifth quintile (19.3%) were considered the richest. Again, it is important to note that the relative household wealth quintiles of this study only represent the distribution of wealth among the 254 households of the sample eligible for this study.
The 270 older individuals and 254 primary caregivers of the older-person households were identified. The mean age of the older people was 78.6 ± 9.1 with a range of 60–100 years old. Nearly half were in the oldest old group (47.8%). In total, 58.9% of the older people were female. The majority were widowed, with primary education. At the household level, more than half of older person’s households were households with at least one dependent older member. About half were households with an older person with dementia. In the lower half were households where at least one older person exhibited problematic behavior.
Regarding caregiver characteristics, 254 caregivers were non-older (aged <60 years old). The mean age of the caregivers was 54.6 ± 12.6 years with a range of 21 to 90 years. The vast majority (95.3%) were informal caregivers, and only 4.7% were formal caregivers. They were mostly females (n = 170; 83.5%), and most of the caregivers were kin, either the daughters or spouses of the older person they cared for. More than half (65.4%) of the caregivers were married or cohabiting. About half of the caregivers had only completed primary school. Around two-thirds of the caregivers had worked in another job while providing care to an older person(s). Nearly a quarter of the primary caregivers in this sample of households were sandwich carers. Most caregivers (57.8%) had provided caregiving for the older person(s) for more than four years, with an average duration of 6.5 years (±5.8).
Regarding caregiving hours or time spent assisting with ADLs, overall, the mean amount of time spent assisting with basic ADLs was 3.3 (±3.8) hours a day. The majority of caregivers spent more than four hours caregiving daily.
Nearly all (85.4%) received support from people and/or the home community (household members, family members, friends, neighbors, community leaders), whereas 14.6% of caregivers did not receive social support from either people or organizations when they had difficulty in caring for the older person. The caregivers in households with handrails were more likely not to receive social support from both people and organizations. However, the pattern of social support received was not significantly different between handrail and non-handrail households.
Overall, the findings showed that the majority of the households had no handrail (n = 110; 43.3%). There were 91 (35.8%) and 53 (20.9%) households with handrails in one place and with handrails in more than one place, respectively. Among 91 households with one handrail, there were 89 households where handrails were installed at the stair. Only one was in the bathroom or in the bathroom/toilet. The analysis indicated that the higher the socio-economic status, the more handrails there were in the households. Table 1 breaks down the socio-demographic backgrounds of the households, the living arrangements of older persons in the household, the caregivers’ socio-demographic characteristics, the health status of the older people, the caregiving hours, and the social support of the primary caregivers by household handrail provision.

3.1. Levels of Physical Caregiver Burden

Overall, the findings showed that the mean physical burden score was 5 (SD = 3.85) and ranged from 0 to 16. The interpretation of the Caregiver Burden Inventory score indicates a high level of physical burden among the caregivers of dependent older persons in Phutthamonthon. The proportion of the caregivers perceiving a high physical burden was about half (46.1%) of the total caregivers, whereas 37.0% and 16.9% of the caregivers perceived having a low level and no burden, respectively (Table 2).

3.2. Effects of Household Handrail Provision on Physical Caregiver Burden

In order to investigate the effect of household handrail provision on their perceived physical caregiver burden (1 = no burden, 2 = lower burden, 3 = higher burden) while controlling for other potentially important factors, it is essential to employ multivariate analysis based on ordinal logistic regression. However, after applying the Brant test, a significant test statistic provides evidence that the parallel regression assumption has been violated. Therefore, for this study, a generalized ordered logistic model with the autofit option proposed by Williams [52] was employed. The major advantage of generalized ordered logistic regression is that it is less restrictive than the parallel lines model estimated by an ordered logistic regression model. The autofit option greatly simplifies the process of identifying partial proportional odds models that fit the data.
The odds ratio for the ordinal logistic regression models evaluating the association between household handrail provision and physical caregiver burden is displayed in Table 3. Overall, the caregivers in older person’s households where there was a handrail in one place were less likely to experience a high physical care burden compared with the caregivers of the households without a handrail.
In Model 1 (unadjusted analysis), there was a significant difference in physical burden between caregivers of the one place-handrail households and the non-handrail households. The caregivers in the one place-handrail households had 0.56 times (95% CI = 0.33–0.94) less chance of physical burden than the non-handrail household caregivers.
After adjusting for caregiver background variables, including age, sex, marital status, education, working status, relationship to the older person(s), duration of being a caregiver, and sandwich carer status, Model 2 shows that the effect of household handrail provision on physical caregiver burden became non-significant (OR = 0.58, 95% CI = 0.32–1.04). In Model 3, which added the household background characteristics (household wealth index and living arrangement), it was found that the caregiver of the one place-handrail household remained statistically significant, but the size of the odds ratio was reduced. The caregivers of the one place-handrail household were less likely to suffer from a high physical burden than the caregivers of non-handrail households by 58% (OR = 0.42, 95% CI = 0.22–0.80).
For Model 4, which adjusted for the caregiver and household backgrounds and older person’s health status (i.e., cognitive impairment, functional dependency, behavioral problems), the findings show that the effect of household handrail provision on physical caregiver burden remained statistically significant. Compared to the adjusted Model 3, there was a lesser value of the odds ratio (OR = 0.36, 95% CI = 0.17–0.75). For Model 5, which added caregiving hours to the model, the odds ratios of the association were the smaller size (OR = 0.30, 95% CI = 0.14–0.66) compared to Model 4. These results were statistically significant.
In Model 6, which adjusted for all other potential factors, the significant level and odds ratios of the association were not changed from Model 5 (OR = 0.30, 95% CI = 0.14–0.67). However, the model suggests that the caregiver in a household that had handrails in more than one place was not likely to have a lower level of physical caregiver burden when compared to the caregiver of the household without handrails.

4. Discussion

According to the level of physical caregiver burden as measured by the CBI, about half of the caregivers of the older-person households in this sample in Phutthamonthon District of Nakhon Pathom Province in 2017 experienced a high burden. The level of the reported burden contrasts with previous studies of burden among well-educated caregivers of older people with dementia in clinical settings [53,54]. These are clinic-based studies in which most caregivers are well educated, have no financial problems, and receive strong social support [54,55,56,57]. However, outside the clinical setting, most Thai caregivers only have primary school education [58] and live in the home community. Moreover, direct comparison with those studies might be difficult. Cultural, religious, and spiritual beliefs play an important role in motivation for caregiving for dependent older members of the family [59,60,61]. The Thai “Bun-khun” (obligation) system is anchored in Buddhist caregiving principles. Buddhists believe that caregiving is repayment and expression of gratitude to their parents and other older persons who helped raise them [60,61]. Most residents of Phuthamonthon District are devout Buddhists, and the Buddhist belief and concept of seeking a path of moderation between two extremes might influence their engagement in caregiving [62,63]. Moreover, some coping strategies of Buddhism (e.g., prayer and meditation) might also mitigate the burden among caregivers in older-person households. Nevertheless, the prevalence of a high burden among caregivers of the households with dependent older persons in the study households is quite large. This suggests the need for some forms of respite care for these caregivers [54,64].
The results from multivariate analysis based on ordinal logistic regression indicated that caregivers in older person households with a handrail in one place were less likely to experience a high physical care burden compared with caregivers of a household without handrails. This might be because bathing, toileting, and stair handrails offer the potential to enhance the functionality of older people, resulting in an alleviation of the stress and sickness resulting from the physical care provided by caregivers [3,4,5].
Moreover, the findings highlighted the role played by household background characteristics (i.e., household wealth index and living arrangement) after adding these factors into the model. The adjusted association with the physical burden of caregivers was more significant, and the size of the odds ratio was reduced. Handrails in bedrooms, bathrooms, or on stairs are critical to most aging residents, but the older person households often lack these amenities, particularly the poor households, as presented in Table 1.
Based on the Pearlin stress process model [24], the moderator variable, such as social support, is a significant and direct predictor of caregiver burden. In contrast, the stress appraisal process model of Yates [25] did not find a direct effect of perceived social support on caregiver burden. The results of this study showed that the odds ratios of the association were still the same size as before adding the social support variable into the model. A potential explanation for this is that social support might be strongly associated with well-being rather than caregiver burden [65].
Although household handrails could enable older people to effectively engage within their environment and reduce the physical burden expressed by the caregiver, this study revealed that there was no significant difference in levels of physical burden between caregivers of households with handrails in more than one place and the non-handrail households. A likely reason for this is that handrails could not be substituted the assistance or support from a caregiver [22]. The more places of handrail installation at home, the greater the participation of the caregiver in older people’s specific self-care tasks [27]. Thus, the specific tasks participated by the caregivers for which the handrail might be used could cause a physical burden for them. The body mechanisms of using handrails in different places are different. To complete tasks with a handrail independently, older people need either sufficient muscles performance or full support or assistance from another. Naturally performing transferring movements while using a handrail requires body coordination, trunk, and lower limb supports [36]. For example, holding the toilet handrail and performing a sit to stand movement requires trunk and lower limb function to maintain the standing posture without releasing the hands from the handrail after standing up, or to pull the body in the forward direction and to raise it in the upward vertical direction. It is documented that if the older people incorrectly perform by grasping the handle using forearm pronation during using stairs or toilets, the handrail reaction force will be increased. This causes risks of older people falling and lower back disorder for the caregivers [39,66,67].
Furthermore, there is strong evidence that minor home modifications are a more effective strategy than many modifications for improving the performance of older people’s daily activities and caregiving by a caregiver [23]. In addition, caregivers also accept handrails in some places of the house [23,68]. They have different priorities and preferences in the use of handrails when they are in more than one place in the household. If the use of handrails requires more time or demands more energy from caregivers for many tasks, they might not be welcomed or accepted [3,68,69].
Other daily tasks such as household duties or commuting from home to work, on the other hand, may create other possible physical burdens, thus these variables must be monitored in the study. Additionally, because most older people live with their families, it is questionable whether other household members also serve as secondary caregivers.
With respect to the regression model analyses, the pseudo R2 statistics have been proposed as a measure of how well the ordinal responses can be predicted by a given logistic regression model and covariates. A pseudo R2 value is measured in the range of 0.0–1.0, approaching 0 as the quality of the fit of the model diminishes and 1 as the fit improves. However, the best pseudo R2 value is not universally reported [70]. The small sample size and numbers of variables could affect the sizes of the pseudo R2 [70,71]. In this study, although the low pseudo R2 was presented in the unadjusted model, the pseudo R2 of the adjusted models was good enough to explain the results, particularly in social science research [71].
The strength of this study is that it analyzed data at a household level. Nevertheless, there are a number of limitations, and recommendations for further study are described as follows: First, the study included only older persons in private households. Moreover, the data collection was carried out in one district of one province in central Thailand. Future research on older people and care burden should be broadened by including sample populations from other areas of the country. This would provide richer geographical and cultural comparisons. Second, regarding the analysis of factors affecting caregiver burden, this research was limited by its cross-sectional design. Therefore, a longitudinal design is recommended to investigate the patterns and true predictors of care burden for individuals over time. Third, in some context, other caregiver characteristics, such as income distribution and nationality, may also be likely to contribute to caregiver burden, further investigation is recommended. Finally, the caregiver burden is driven by mediators. The mediator such as coping strategy and coping resources (social support) can potentially block any point of the stress process, these two variables play a major role in explaining the variation of caregiver burden and well-being as they help caregivers to adapt better to their caregiving role [24,45]. Since home modification is one kind of coping strategy, this study only focused on the social support of the caregiver as a determinant of caregiver burden. A greater understanding of the coping mechanisms that a caregiver uses might help explain the findings from this research. Other strategies, such as seeking counseling and prayer, may decrease caregiver burden. This factor (i.e., coping) should be addressed in future research.

5. Conclusions

Physical caregiver burden tends to be an increasing problem and presents a growing challenge for aging societies as Thai caregivers are growing older. Building handrails in older people’s households is becoming more important. This study was conducted to address gaps in the previous studies on household handrail provision and physical caregiver burden in the context of Thailand. The prevalence of high physical caregiver burden among caregivers in older-person households with a need for care in Phutthamonthon District was quite large. This suggests the need for some form of respite care for these caregivers. The use of handrails in the household in one place by older people with disabilities appears to reduce the physical burden of their caregivers. However, this study does not provide support for the hypothesis that the use of a handrail in more than one place will reduce the burden. The results of this study provide a piece of crucial information for caregivers involved in long-term care. The results may also guide related social welfare institutions and government sectors in determining how to reduce physical caregiver burden by installing an appropriate number of handrails in the household of older people.

Author Contributions

Conceptualization, P.V. and R.P.; methodology, R.P.; formal analysis, R.P. and P.V. writing—original draft preparation; R.P.; writing—review and editing, P.V.; supervision, P.V.; project administration, R.P.; funding acquisition, R.P. All authors have read and agreed to the published version of the manuscript.

Funding

This research project is supported by Mahidol University, Thailand (Grant number A32/2563).

Institutional Review Board Statement

Our earlier research project was approved by the Institute for Population and Social Research-Institutional Review Board (IPSR-IRB) on 29 June 2017 (COA No. 2017/06-135). This current study was approved as a secondary data analysis project on 30 January 2020 (COE No. 2020/01-028) by the same institutional review board.

Informed Consent Statement

Informed consent was obtained from all participants involved in the study.

Data Availability Statement

Data are available from the corresponding author upon reasonable request.

Acknowledgments

The authors would like to thank the Local Health Promoting Hospitals and the Phuttamonthon Hospital in Phuttamonthon District, Nakhon Pathom for their assistance. The researcher obtained permission to use the NPI-Q Thai from Solaphat Hemrachroj, and the medical team of the Department of Psychiatry, Faculty of Medicine, Chulalongkorn University, who developed this tool and cross-validated it with the standard NPI. The authors would also like to thank Teeranong Sakulsri for generating the maps shown in this work.

Conflicts of Interest

The authors declared no potential conflict of interest with respect to the research, authorship, and/or publication of this article.

References

  1. Christensen, K.; Doblhammer, G.; Rau, R.; Vaupel, J.W. Ageing populations: The challenges ahead. Lancet 2009, 374, 1196–1208. [Google Scholar] [CrossRef] [Green Version]
  2. World Health Organization. International Classification of Functioning, Disability, and Health: Children & Youth Version: ICF-CY; World Health Organization: Geneva, Switzerland, 2007. [Google Scholar]
  3. Gitlin, L.N.; Winter, L.; Dennis, M.P. Assistive devices caregivers use and find helpful to manage problem behaviors of dementia. Gerontechnology 2010, 9, 408–414. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  4. Bamford, G. Cohousing for older people: Housing innovation in the Netherlands and Denmark. Australas. J. Ageing 2005, 24, 44–46. [Google Scholar] [CrossRef] [Green Version]
  5. WikstrÃķm, B.-M. Congregate Housing for Old People: The Importance of the Physical Environment. Aust. J. Prim. Health 2007, 13, 85–90. [Google Scholar] [CrossRef]
  6. George, L.K.; Gwyther, L.P. Caregiver well-being: A multidimensional examination of family caregivers of demented adults. Gerontologist 1986, 26, 253–259. [Google Scholar] [CrossRef]
  7. Schölzel-Dorenbos, C.J.; Draskovic, I.; Vernooij-Dassen, M.J.; Rikkert, M.G.O. Quality of life and burden of spouses of Alzheimer disease patients. Alzheimer Dis. Assoc. Disord. 2009, 23, 171–177. [Google Scholar] [CrossRef]
  8. Schulz, R.; Sherwood, P.R. Physical and mental health effects of family caregiving. J. Soc. Work Educ. 2008, 44, 105–113. [Google Scholar] [CrossRef]
  9. Zarit, S.H.; Reever, K.E.; Bach-Peterson, J. Relatives of the impaired elderly: Correlates of feelings of burden. Gerontologist 1980, 20, 649–655. [Google Scholar] [CrossRef] [Green Version]
  10. Kasper, J.D.; Steinbach, U.; Andrews, J. Caregiver role appraisal and caregiver tasks as factors in ending caregiving. J. Aging Health 1994, 6, 397–414. [Google Scholar] [CrossRef]
  11. Jitapunkul, S.; Wivatvanit, S. National policies and programs for the aging population in Thailand. Ageing Int. 2008, 33, 62–74. [Google Scholar] [CrossRef]
  12. Kwon, S. Future of long-term care financing for the elderly in Korea. J. Aging Soc. Policy 2008, 20, 119–136. [Google Scholar] [CrossRef] [PubMed]
  13. Menon, J.; Melendez, A.C. Ageing in Asia: Trends, impacts and responses. ASEAN Econ. Bull. 2009, 26, 293–305. [Google Scholar] [CrossRef]
  14. Rozario, P.A.; Rosetti, A.L. “Many Helping Hands”: A review and analysis of long-term care policies, programs, and practices in Singapore. J. Gerontol. Soc. Work 2012, 55, 641–658. [Google Scholar] [CrossRef] [PubMed]
  15. United Nations. World Population Prospects 2019. Online Edition. Available online: https://population.un.org/wpp/Download/Standard/Population/ (accessed on 16 August 2020).
  16. Adams, T.; Bridge, C.; Carnemolla, P.; McNamara, N.; Quinn, J. Consumer Factsheet: Arranging Home Modifications; Consumer Factsheet Series; Home Modification Information Clearinghouse: Sydney, Australia, 2014. [Google Scholar]
  17. Carnemolla, P.; Bridge, C. A scoping review of home modification interventions—Mapping the evidence base. Indoor Built Environ. 2020, 29, 299–310. [Google Scholar] [CrossRef]
  18. Carnemolla, P.; Bridge, C. Housing design and community care: How home modifications reduce care needs of older people and people with disability. Int. J. Environ. Res. Public Health 2019, 16, 1951. [Google Scholar] [CrossRef] [Green Version]
  19. Carter, S.E.; Campbell, E.M.; Sanson-Fisher, R.W.; Gillespie, W.J. Accidents in older people living at home: A community-based study assessing prevalence, type, location and injuries. Aust. N. Z. J. Public Health 2000, 24, 633–636. [Google Scholar] [CrossRef]
  20. Ishihara, K.; Nagamachi, M.; Komatsu, K.; Ishihara, S.; Ichitsubo, M.; Mikami, F.; Osuga, Y.; Imamura, K.; Osaki, H. Handrails for the elderly: A survey of the need for handrails and experiments to determine the optimal size of staircase handrails. Gerontechnology 2002, 1, 175–189. [Google Scholar] [CrossRef]
  21. Lin, D.; Borjan, M.; Seanell, D.; Kelly, C. The role of PT, OT, and other therapies in palliative care for seriously ill patients. In Oxford Textbook of Palliative Nursing, 5th ed.; Ferrell, B.R., Coyle, N., Paice, J., Eds.; Oxford University Press: Oxford, UK, 2019; pp. 154–196. [Google Scholar]
  22. Agree, E.M.; Freedman, V.A.; Cornman, J.C.; Wolf, D.A.; Marcotte, J.E. Reconsidering substitution in long-term care: When does assistive technology take the place of personal care? J. Gerontol. B Psychol. Sci. Soc. Sci. 2005, 60, S272–S280. [Google Scholar] [CrossRef] [Green Version]
  23. Powell, J.; Mackintosh, S.; Bird, E.; Ige, J.; Garrett, H.; Roys, M. The Role of Home Adaptations in Improving Later Life; Centre for Ageing Better: London, UK, 2017. [Google Scholar]
  24. Pearlin, L.I.; Mullan, J.T.; Semple, S.J.; Skaff, M.M. Caregiving and the stress process: An overview of concepts and their measures. Gerontologist 1990, 30, 583–594. [Google Scholar] [CrossRef]
  25. Yates, M.E.; Tennstedt, S.; Chang, B.-H. Contributors to and mediators of psychological well-being for informal caregivers. J. Gerontol. B Psychol. Sci. Soc. Sci. 1999, 54, 12–22. [Google Scholar] [CrossRef] [Green Version]
  26. Schulz, R.; O’Brien, A.T.; Bookwala, J.; Fleissner, K. Psychiatric and physical morbidity effects of dementia caregiving: Prevalence, correlates, and causes. Gerontologist 1995, 35, 771–791. [Google Scholar] [CrossRef] [PubMed]
  27. Gitlin, L.N.; Corcoran, M.A. OTR/L managing dementia at home. Top. Geriatr. Rehabil. 1996, 12, 28–39. [Google Scholar] [CrossRef]
  28. Nakhon Pathom Provincial Hall. Available online: http://www.nakhonpathom.go.th/files/com_news_describe/2017–11_d47c24414a18dec.pdf (accessed on 17 December 2020).
  29. Department of Provincial Administration, Ministry of Interior. Available online: http://service.nso.go.th/nso/web/statseries/statseries01.html (accessed on 8 June 2020).
  30. Mariyasoosai, R.; Chompikul, J.; Keiwkarnka, B.; Wongsawass, S. Hypertension preventive behavior among pre-hypertensive adults in Phutthamonthon district, Nakhon Pathom province, Thailand. J. Public Health Dev. 2015, 13, 51–65. [Google Scholar]
  31. Novak, M.; Guest, C. Application of a multidimensional caregiver burden inventory. Gerontologist 1989, 29, 798–803. [Google Scholar] [CrossRef] [PubMed]
  32. Chou, K.-R.; Jiann-Chyun, L.; Chu, H. The reliability and validity of the Chinese version of the caregiver burden inventory. Nurs. Res. 2002, 51, 324–331. [Google Scholar] [CrossRef] [PubMed]
  33. Marvardi, M.; Mattioli, P.; Spazzafumo, L.; Mastriforti, R.; Rinaldi, P.; Polidori, M.C.; Cherubini, A.; Quartesan, R.; Bartorelli, L.; Bonaiuto, S. The Caregiver Burden Inventory in evaluating the burden of caregivers of elderly demented patients: Results from a multicenter study. Aging. Clin. Exp. Res. 2005, 17, 46–53. [Google Scholar] [CrossRef] [PubMed]
  34. Valer, D.B.; Aires, M.; Fengler, F.L.; Paskulin, L.M.G. Adaptation and validation of the Caregiver Burden Inventory for use with caregivers of elderly individuals1. Rev. Latino-Am. Enfermagem. 2015, 23, 130–138. [Google Scholar] [CrossRef] [Green Version]
  35. Vázquez, F.L.; Otero, P.; Simón, M.A.; Bueno, A.M.; Blanco, V. Psychometric properties of the Spanish version of the caregiver burden inventory. Int. J. Environ. Res. Public Health 2019, 16, 217. [Google Scholar] [CrossRef] [Green Version]
  36. Kato, T.; Sekiguchi, Y.; Honda, K.; Izumi, S.-I.; Kanetaka, H. Comparison of handrail reaction forces between two different handrails during sit-to-stand movement in the elderly. Clin. Biomech. 2020, 80, 105130. [Google Scholar] [CrossRef]
  37. Chacko, T.V.; Thangaraj, P.; Muhammad, G. How fall-safe is the housing for the elderly in rural areas? A cross sectional study using fall prevention screening checklist. J. Indian Acad. Geriatr. 2017, 13, 124–130. [Google Scholar]
  38. Chan, M.Y. Ageing-in-Place: Home Enhancement to Give Elderly a “Dream Home”. Asia Pacific Institute of Ageing Studies Newsletter. Available online: http://commons.ln.edu.hk/apiasnlj/vol6/iss1/15/ (accessed on 3 December 2021).
  39. Homma, K.; Yamada, Y.; Matsumoto, O.; Ono, E.; Lee, S.; Horimoto, M.; Suzuki, T.; Kanehira, N.; Suzuki, T.; Shiozawa, S. A proposal of a method to reduce burden of excretion care using robot technology. In Proceedings of the 2009 IEEE International Conference on Rehabilitation Robotics, Kyoto, Japan, 23–26 June 2009; pp. 621–625. [Google Scholar]
  40. Yu, Y.; Liu, Z.-W.; Li, T.-X.; Li, Y.-L.; Xiao, S.-Y.; Tebes, J.K. Test of the stress process model of family caregivers of people living with schizophrenia in China. Soc. Sci. Med. 2020, 259, 113113. [Google Scholar] [CrossRef] [PubMed]
  41. Yakubu, Y.A.; Schutte, D.W. Caregiver attributes and socio-demographic determinants of caregiving burden in selected low-income communities in cape town, South Africa. J. Compassionate Health Care 2018, 5, 1–10. [Google Scholar] [CrossRef] [Green Version]
  42. Bastawrous, M. Caregiver burden—A critical discussion. Int. J. Nurs. Stud. 2013, 50, 431–441. [Google Scholar] [CrossRef]
  43. Casado, B.; Sacco, P. Correlates of caregiver burden among family caregivers of older Korean Americans. J. Gerontol. B Psychol. Sci. Soc. Sci. 2012, 67, 331–336. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  44. Raina, P.; O’Donnell, M.; Schwellnus, H.; Rosenbaum, P.; King, G.; Brehaut, J.; Russell, D.; Swinton, M.; King, S.; Wong, M. Caregiving process and caregiver burden: Conceptual models to guide research and practice. BMC Pediatr. 2004, 4, 1–13. [Google Scholar] [CrossRef] [Green Version]
  45. Lazarus, R.S.; Folkman, S. Stress, Appraisal, and Coping; Springer Publishing Company: New York, NY, USA, 1984. [Google Scholar]
  46. McKenzie, D.J. Measuring inequality with asset indicators. J. Popul. Econ. 2005, 18, 229–260. [Google Scholar] [CrossRef]
  47. Kim, H.; Chang, M.; Rose, K.; Kim, S. Predictors of caregiver burden in caregivers of individuals with dementia. J. Adv. Nurs. 2012, 68, 846–855. [Google Scholar] [CrossRef]
  48. Shiba, K.; Kondo, N.; Kondo, K. Informal and formal social support and caregiver burden: The AGES caregiver survey. J. Epidemiol. 2016, 26, 622–628. [Google Scholar] [CrossRef] [Green Version]
  49. StataCorp, L. StataCorp Stata Statistical Software: Release 14; StataCorp LP.: College Station, TX, USA, 2015. [Google Scholar]
  50. Lee, J. Cumulative logit modelling for ordinal response variables: Applications to biomedical research. Comput. Appl. Biosci. 1992, 8, 555–562. [Google Scholar] [CrossRef]
  51. McCullagh, P. Regression models for ordinal data. J. R. Stat. Soc. Ser. B Stat. Methodol. 1980, 42, 109–127. [Google Scholar] [CrossRef]
  52. Williams, R. Generalized ordered logit/partial proportional odds models for ordinal dependent variables. Stata J. 2006, 6, 58–82. [Google Scholar] [CrossRef] [Green Version]
  53. Mekawichai, P.; Saetang, S. Caregiver burden among Thai dementia patients’ caregivers. J. Psychiatr. Assoc. Thail. 2013, 58, 101–110. [Google Scholar]
  54. Muangpaisan, W.; Praditsuwan, R.; Assanasen, J.; Srinonprasert, V.; Assantachai, P.; Intalapaporn, S.; Pisansalakij, D. Caregiver burden and needs of dementia caregivers in Thailand: A cross-sectional study. J. Med. Assoc. Thai 2010, 93, 601–607. [Google Scholar] [PubMed]
  55. Griffiths, J.; Bunrayong, W. Problems and needs in helping older people with dementia with daily activities: Perspectives of Thai caregivers. Br. J. Occup. Ther. 2016, 79, 78–84. [Google Scholar] [CrossRef]
  56. Limpawattana, P.; Theeranut, A.; Chindaprasirt, J.; Sawanyawisuth, K.; Pimporm, J. Caregivers burden of older adults with chronic illnesses in the community: A cross-sectional study. J. Community Health 2013, 38, 40–45. [Google Scholar] [CrossRef]
  57. Ondee, P.; Panitrat, R.; Pongthavornkamol, K.; Senanarong, V.; Harvath, T.A.; Nittayasudhi, D. Factors predicting depression among caregivers of persons with dementia. Pac. Rim Int. J. Nurs. Res. 2013, 17, 167–180. [Google Scholar]
  58. Knodel, J.; Teerawichitchainan, B.P.; Prachuabmoh, V.; Pothisiri, W. The Situation of Thailand’s Older Population: An Update based on the 2014 Survey of Older Persons in Thailand; Research Collection School of Social Sciences, Paper 1948; HelpAge International: Chiang Mai, Thailand, 2015. [Google Scholar]
  59. Chang, B.-H.; Noonan, A.E.; Tennstedt, S.L. The role of religion/spirituality in coping with caregiving for disabled elders. Gerontologist 1998, 38, 463–470. [Google Scholar] [CrossRef]
  60. Subgranon, R.; Lund, D.A. Maintaining caregiving at home: A culturally sensitive grounded theory of providing care in Thailand. J. Transcult. Nurs. 2000, 11, 166–173. [Google Scholar] [CrossRef]
  61. Wiseso, W.; Fongkaew, W.; Pinyokham, N.; Spiers, J. Caring for terminally Ill persons with cancer: Experiences of Thai Buddhist family caregivers. Pac. Rim Int. J. Nurs. Res. 2017, 21, 317–330. [Google Scholar] [CrossRef]
  62. Gray, R.S.; Hahn, L.; Thapsuwan, S.; Thongcharoenchupong, N. Strength and stress: Positive and negative impacts on caregivers for older adults in Thailand. Australas. J. Ageing 2016, 35, 7–12. [Google Scholar] [CrossRef]
  63. Sethabouppha, H.; Kane, C. Caring for the seriously mentally ill in Thailand: Buddhist family caregiving. Arch. Psychiatr. Nurs. 2005, 19, 44–57. [Google Scholar] [CrossRef] [PubMed]
  64. D’Onofrio, G.; Sancarlo, D.; Addante, F.; Ciccone, F.; Cascavilla, L.; Paris, F.; Picoco, M.; Nuzzaci, C.; Elia, A.C.; Greco, A. Caregiver burden characterization in patients with Alzheimer’s disease or vascular dementia. Int. J. Geriatr. Psychiatry 2015, 30, 891–899. [Google Scholar] [CrossRef] [PubMed]
  65. Chappell, N.L.; Reid, R.C. Burden and well-being among caregivers: Examining the distinction. Gerontologist 2002, 42, 772–780. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  66. Marras, W.S.; Davis, K.G.; Kirking, B.C.; Bertsche, P.K. A comprehensive analysis of low-back disorder risk and spinal loading during the transferring and repositioning of patients using different techniques. Ergonomics 1999, 42, 904–926. [Google Scholar] [CrossRef]
  67. Wilson, K. Ergonomics and the bariatric patient. Bariatr. Surg. Patient Care 2006, 1, 173–178. [Google Scholar] [CrossRef]
  68. Marquardt, G.; Johnston, D.; Black, B.S.; Morrison, A.; Rosenblatt, A.; Lyketsos, C.G.; Samus, Q.M. A descriptive study of home modifications for people with dementia and barriers to implementation. J. Hous. Elder. 2011, 25, 258–273. [Google Scholar] [CrossRef] [Green Version]
  69. Hasselkus, B.R. Meaning in family caregiving: Perspectives on caregiver/professional relationships. Gerontologist 1988, 28, 686–691. [Google Scholar] [CrossRef]
  70. Aldrich, J.H.; Nelson, F.D. Linear Probability, Logit, and Probit Models; Sage: London, UK, 1984. [Google Scholar]
  71. Long, J.S.; Long, J.S. Regression Models for Categorical and Limited Dependent Variables; Sage: Thousand Oaks, CA, USA, 1997; Volume 7. [Google Scholar]
Ijerph 19 02272 g001 550
Figure 1. The study setting: (a) a map of Thailand (b) Phutthamonthon District, Nakhon Pathom Province of Thailand (c) three sub-districts of Phutthamonthon.
Figure 1. The study setting: (a) a map of Thailand (b) Phutthamonthon District, Nakhon Pathom Province of Thailand (c) three sub-districts of Phutthamonthon.
Ijerph 19 02272 g001
Ijerph 19 02272 g002 550
Figure 2. Flow chart of the population recruitment.
Figure 2. Flow chart of the population recruitment.
Ijerph 19 02272 g002
Ijerph 19 02272 g003 550
Figure 3. An analytical framework of this study.
Figure 3. An analytical framework of this study.
Ijerph 19 02272 g003
Table
Table 1. Background characteristics by household handrail provision (n = 254 households).
Table 1. Background characteristics by household handrail provision (n = 254 households).
Household Handrail Provision
CharacteristicsAllNo
Handrails (%)		Having a Handrail in One Place
(%)		Having
Handrails in More Than One Place (%)
n = 25443.335.820.9
Households
Living arrangement of older person
 lived alone/with another older person1266.616.716.7
 lived with only their caregiver2948.334.517.2
 lived with caregiver and others19241.136.522.4
 lived with others but not a caregiver2142.842.914.3
Relative household wealth
 quintile 1, poorest5162.833.33.9
 quintile 2, poor5058.026.016.0
 quintile 3, medium5154.933.311.8
 quintile 4, rich5328.345.326.4
 quintile 5, richest4912.340.846.9
Caregivers
Age mean (SD) (range: 21–90 years)54.6 (12.6)51.8 (13.3)57.6 (10.0)55.3 (14.1)
 non-older 17047.732.919.4
 older 8434.541.723.8
Sex
 male4252.430.916.7
 female21241.536.821.7
Marital status
 married/cohabiting16643.437.319.3
 single4233.342.923.8
 widowed/divorced/separated4652.223.923.9
Educational level
 primary or less15342.542.515.0
 secondary school6750.817.931.3
 higher secondary3432.341.226.5
Working status
 working17444.836.818.4
 not working8040.033.826.2
Relationship to older person
 kinship24043.336.720.0
 non-kinship1442.921.435.7
Sandwich carer
 yes6349.228.622.2
 no19141.438.220.4
Duration of care for older person (years)
 ≤26939.152.28.7
 3–43735.135.229.7
 >414847.328.424.3
Health status of older persons
Functional dependency
 all independent12133.947.119.0
 ≥1 dependent13351.925.622.5
Cognitive impairment
 all absent12837.542.220.3
 ≥ 1 present12649.229.421.4
Behavioral problem
 all absent15545.834.220.0
 ≥1 present9939.438.422.2
Caregiving hours
 <1 7838.443.618.0
 1.1–3.09749.528.921.6
 >37940.536.722.8
Social support of caregivers
 non-received3735.240.524.3
 received21744.735.020.3
Table
Table 2. Levels of physical caregiver burden by household handrail provision (n = 254 households).
Table 2. Levels of physical caregiver burden by household handrail provision (n = 254 households).
Household Handrail Provision
Physical Caregiver BurdenAllNo
Handrails		Having a Handrail in One PlaceHaving
Handrails in More Than One Place
n = 254n = 110n = 91n = 53
Mean (SD)5.0 (3.85)5.3 (3.60)4.3 (3.90)5.7 (4.10)
Range0–160–130–160–16
Level of the physical burden
 no 16.9%
 low 37.0%
 high46.1%
Table
Table 3. Odds ratio (OR) and 95% confidence interval (CI) from generalized ordinal logistic models evaluating the association between household handrail provision and physical caregiver burden (n = 254 households).
Table 3. Odds ratio (OR) and 95% confidence interval (CI) from generalized ordinal logistic models evaluating the association between household handrail provision and physical caregiver burden (n = 254 households).
Model 1Model 2Model 3Model 4Model 5Model 6
Physical Caregiver BurdenUnadjustedAdjusted for Caregiver BackgroundAdjusted for Caregiver and Household BackgroundsAdjusted for Caregiver and Household Backgrounds and Older Person’s Health StatusAdjusted for Caregiver and Household Backgrounds and Older Person’s Health Status and Caregiving HoursAdjusted for Caregiver and Household Backgrounds and Older Person’s Health Status and Caregiving Hours and Social Support
Household Handrail ProvisionOR95% CIOR95% CIOR95% CIOR95% CIOR95% CIOR95% CI
Panel 1 (1 vs. 2 and 3) (Ref: no handrail)
 having a handrail in one place0.56 *(0.33, 0.94)0.58(0.32, 1.04)0.42 **(0.22, 0.80)0.36 **(0.17, 0.75)0.30 **(0.14, 0.66)0.30 **(0.14, 0.67)
 having handrails in more than one place3.11(0.90, 10.82)3.21(0.88, 11.69)1.81(0.46, 7.13)2.51(0.57, 11.00)5.82 *(1.05, 32.29)5.29(0.98, 28.63)
Panel 2 (1 and 2 vs. 3) (Ref: no handrail)
 having a handrail in one place0.56 *(0.33, 0.94)0.58(0.32, 1.04)0.42 **(0.22, 0.80)0.36 **(0.17, 0.75)0.30 **(0.14, 0.66)0.30 **(0.14, 0.67)
 having handrails in more than one place0.82(0.43, 1.57)0.72(0.35, 1.50)0.45(0.20, 1.01)0.47(0.19, 1.15)0.43(0.16, 1.15)0.45(0.17, 1.19)
Log-likelihood−254.01083−225.27539−209.40633−187.1365−163.71701−162.48592
Wald Chi212.9970.46102.2146.74193.58196.04
Prob> Chi20.00470.00000.00000.00000.00000.0000
Pseudo R20.02490.13520.19620.28160.37150.3763
Note: Caregiver backgrounds- age, sex, marital status, education, working status, relationship to older person(s), duration of being a caregiver, and sandwich carer status; household backgrounds- household wealth index, living arrangement; health status of the older person- cognitive impairment, functional dependency, and behavioral problems. ** p < 0.01; and * p < 0.05.
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Phetsitong, R.; Vapattanawong, P. Reducing the Physical Burden of Older Persons’ Household Caregivers: The Effect of Household Handrail Provision. Int. J. Environ. Res. Public Health 2022, 19, 2272. https://doi.org/10.3390/ijerph19042272

AMA Style

Phetsitong R, Vapattanawong P. Reducing the Physical Burden of Older Persons’ Household Caregivers: The Effect of Household Handrail Provision. International Journal of Environmental Research and Public Health. 2022; 19(4):2272. https://doi.org/10.3390/ijerph19042272

Chicago/Turabian Style

Phetsitong, Ruttana, and Patama Vapattanawong. 2022. "Reducing the Physical Burden of Older Persons’ Household Caregivers: The Effect of Household Handrail Provision" International Journal of Environmental Research and Public Health 19, no. 4: 2272. https://doi.org/10.3390/ijerph19042272

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop