Background
Multimorbidity, commonly defined as the co-existence of two or more chronic conditions [
1,
2], is affecting an increasing number of individuals worldwide [
1,
3,
4]. Data from the Survey of Health, Ageing, and Retirement in Europe (SHARE) indicate that the prevalence of multimorbidity in Europe in middle-aged and older adults increased from 38% in 2006 to 42% in 2015 [
5]. This trend is due to increasing life expectancy and population ageing, changes in lifestyle, and improvements in the detection of chronic conditions [
6,
7]. Systematic reviews have suggested that the burden of multiple chronic conditions is associated with poorer quality of life [
5,
8‐
11], one of the core outcome measures for multimorbidity research and healthy ageing [
12]. However, little is known about the nature of the relationship between multimorbidity and quality of life [
13‐
15]. A promising area of research has focused on the role of functional limitation [
13,
15,
16], defined as the restriction of the ability of an individual to live autonomously, without physical or psychological limitations in daily activities [
17,
18]. Individuals living with multimorbidity have been found to have, in addition to poorer quality of life, a higher number of functional limitations [
11,
19‐
23]. However, due to a shortage of longitudinal prospective studies, there is limited knowledge on how multimorbidity affects functional limitation and quality of life across the life course. Specifically, we do not know if the cross-sectional associations between multimorbidity, functional limitation, and quality of life reported in the literature are persistent over time or how the increase in the degree of functional limitation among individuals living with multimorbidity affects their quality of life. A more in-depth understanding of these complex and dynamic relationships would help us to identify the mechanism by which multimorbidity impacts quality of life or how it moderates the relationship between functional limitation and quality of life across the life course. Such knowledge could potentially lead to the identification of routes and windows of opportunity by which interventions targeting individuals affected by multimorbidity could better maintain or improve their quality of life, for instance, by addressing some of the negative consequences associated with the burden of functional limitation.
The objective of the present study was to address some of these gaps by assessing how multimorbidity affects trajectories of functional limitation and quality of life and how the prospective relationship between these two trajectories is moderated by multimorbidity status and how it differs across the life course. We hypothesized that, across the life course, adults with multimorbidity would have a higher degree of functional limitation and poorer quality of life. We also predicted that an increase over time in functional limitation would produce a decline in quality of life, especially among individuals with multimorbidity. Finally, we hypothesized that the nature of the relationship between multimorbidity, functional limitation, and quality of life would differ across the life course.
Discussion
As an increasing number of individuals in Europe and in other parts of the world are becoming vulnerable to more years lived with multiple chronic health conditions, there is a growing need to identify factors that might lead to improvements in or maintenance of quality of life among individuals living with multimorbidity. This study assessed how multimorbidity affects trajectories in functional limitation and quality of life as well as the relationship between these trajectories. We also explored whether these relationships vary across the life course.
Compared to previous cross-sectional studies [
5,
8‐
11], we took advantage of the longitudinal SHARE data and a multi-cohort study design. We found that middle-aged and older adults living with multimorbidity exhibited consistently poorer quality of life than those living without multimorbidity throughout the life course. In addition, while supporting past findings that individuals living with multimorbidity have a higher degree of functional limitation [
11,
19‐
22], our study contributed to a more refined understanding of the nature of this relationship. Specifically, we found that, throughout the life course, a larger proportion of adults living with multimorbidity was at a higher risk of experiencing a functional limitation than those without multimorbidity. We also revealed that middle-aged and older adults living with multimorbidity had a higher number of functional limitations compared to those without multimorbidity. This gap may be larger among older adults.
Our study emphasized the need to assess how multimorbidity might affect the longitudinal relationship between the number of functional limitations and quality of life. At baseline, functional limitation had an overall negative impact on quality of life, as previously suggested in a number of cross-sectional studies [
11,
13,
15,
47], and this effect was stronger among individuals with multimorbidity. This confirmed our hypothesis that multimorbidity is likely to exacerbate the relationship between functional limitation and quality of life. The longitudinal design of our study allowed us to provide some support for the hypothesis that an increase in the number of functional limitations leads to a decline in quality of life over time. However, this association was statistically significant among middle-aged adults without multimorbidity and among older adults with multimorbidity. The direction and magnitude of the significant and non-significant parameter estimates suggested that the negative impact of an increase in functional limitation on the decline in quality of life is more pronounced among individuals living with multimorbidity. This observation, however, would have to be tested and confirmed in additional longitudinal studies.
This study was based on earlier conceptualizations of the interrelationships between multimorbidity, functional limitation, and quality of life. Using a cross-sectional sample of adults 65 years and older from the Medicare Health Outcomes Survey, Barile and colleagues found that the association between the number of functional limitations and quality of life was moderated by the number of chronic conditions, i.e., multimorbidity [
15]. In a cross-sectional study of SHARE respondents from several European settings, Makovski and colleagues highlighted that the number of chronic conditions and functional limitations had an independent relationship with quality of life [
13]. To the best of our knowledge, our study is the first longitudinal assessment of these relationships. It allowed us to conclude that the previously observed cross-sectional associations of multimorbidity with functional limitation and quality of life are more persistent and can affect middle-aged and older adults over the life course. However, this relationship was not statistically significant in all groups and needs to be further investigated. Finally, our results suggest that the strength of the association of multimorbidity with functional limitation and quality of life, as well as the relationship between these two health outcomes, may differ across the life course. This initial observation, however, would have to be formally tested and confirmed in additional longitudinal studies. This novel finding suggests that any future research on the interrelationship between multimorbidity, functional limitation, and quality of life should assess these relationships separately for middle-aged and older adults.
This study also employed a number of novel methodological techniques that may be beneficial to future research on healthy ageing. Firstly, the longitudinal study design and LGC modeling techniques offered a unique opportunity not only to assess the trajectories in individual health outcomes but also the relationships between these trajectories. Secondly, taking advantage of the multi-cohort study design, we explored how multimorbidity might affect functional limitation and quality of life across a longer span of the life course than a single age cohort would allow us to do. However, we suggest that future studies with longer follow-up time periods would be in a better position to untangle complex interrelationships between multimorbidity, functional limitation, and quality of life compared to studies relying only on synthetic cohorts. Thirdly, in the past, the ADL/IADL summated scale was used either as a binary indicator [
13,
21,
23], count variable [
19], or as a continuous scale [
15]. We proposed a more realistic measurement option for functional limitation by assuming the existence of two longitudinal processes, the over-time change in the risk of having functional limitation and, among those at risk, the change in the number of limitations. We encourage future studies to provide further validation for this modeling approach. Finally, a number of past studies indicated that there exist substantial across-country differences in the prevalence of and relationships between multimorbidity, functional limitation, and quality of life. This suggests that demographic, socioeconomic, and health care system differences across contexts have pronounced influences on these relationships [
5,
13,
22]. Thus, although there are some advantages in using pooled data from multiple geographic settings, we employed a more homogeneous sample of non-institutionalized residents of Luxembourg. We encourage future research to corroborate our findings in other contexts.
Some limitations of our study warrant mentioning. A selection bias could have affected the representativeness of the sample, as individuals with poorer health or lower socioeconomic status tend to be under-represented in self-reported population surveys and are more likely to drop out throughout the study period. To address this issue, we used sampling weights, controlled for key indicators of socioeconomic status, and introduced statistical adjustments for attrition and missing data. Our measures of chronic conditions, functional limitation, and quality of life were self-reported and could be affected by recall bias. However, self-reports are commonly used in large population-based studies [
48] and a sensitivity analysis of SHARE data has indicated a very strong concordance in reporting the same chronic conditions across time [
22]. Future research should explore how specific sub-domains of the multidimensional CASP-12 scale (i.e., control, autonomy, self-realization, and pleasure) as well as other aspects of quality of life (e.g., social and functional aspects, mental health, vitality) are associated with multimorbidity and functional limitation.
Our study focused on the role of multimorbidity. Past research, however, has provided some evidence that distinct patterns and combinations of chronic conditions may be differentially associated with functional limitation [
9,
23,
49]. Thus, future studies should consider assessing the relative role of specific chronic conditions or clusters of conditions (e.g., musculoskeletal, cardiometabolic, and mental health) in functional limitation and quality of life among people living with multimorbidity. Future studies should also assess how time of onset and progression of chronic conditions across the life course may lead to differential trajectories in quality of life and functional limitation.
An important limitation of the study is the lack of information on additional confounding variables. These would include major modifiable risk factors (e.g., smoking, alcohol consumption, diet, physical activity, sleep), which are known to influence both multimorbidity risk and the selected study outcomes. SHARE data focuses on individuals ≥ 50 years and excludes those between the ages of 45 and 49, limiting our ability to assess the relationship between multimorbidity, functional limitation, and quality of life across the whole spectrum of “middle age”, as defined by Erikson [
30].
Furthermore, length of the follow-up in our study could be too short to detect long-term effects of multimorbidity on functional limitation and quality of life. Although we took advantage of the multi-cohort design and presented our results as a synthetic cohort, these results should be treated as exploratory and confirmed in studies with longer follow-ups. Finally, the statistically significant variances associated with the parameter estimates for the growth trajectories suggested that there is a substantial degree of heterogeneity across person-specific functional limitation and quality of life trajectories. Although our study did not explore the presence of latent classes consisting of individuals with more homogenous growth trajectories, this might be a potentially fruitful direction for future research on healthy ageing. It may also be beneficial to identify sub-groups of individuals living with multimorbidity, as these groups may have different needs and may require more targeted interventions to address their functional limitations and improve their quality of life.
Acknowledgements
The SHARE data collection has been funded by the European Commission, DG RTD through FP5 (QLK6-CT-2001-00360), FP6 (SHARE-I3: RII-CT-2006-062193, COMPARE: CIT5-CT-2005-028857, SHARELIFE: CIT4-CT-2006-028812), FP7 (SHARE-PREP: GA N°211909, SHARE-LEAP: GA N°227822, SHARE M4: GA N°261982, DASISH: GA N°283646) and Horizon 2020 (SHARE-DEV3: GA N°676536, SHARE-COHESION: GA N°870628, SERISS: GA N°654221, SSHOC: GA N°823782), and by DG Employment, Social Affairs & Inclusion through VS 2015/0195, VS 2016/0135, VS 2018/0285, VS 2019/0332, and VS 2020/0313. Additional funding from the German Ministry of Education and Research, the Max Planck Society for the Advancement of Science, the U.S. National Institute on Aging (U01_AG09740-13S2, P01_AG005842, P01_AG08291, P30_AG12815, R21_AG025169, Y1-AG-4553-01, IAG_BSR06-11, OGHA_04-064, HHSN271201300071C, RAG052527A) and from various national funding sources is gratefully acknowledged (see
www.share-project.org).
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