Journal of Aging Research And Healthcare

Journal of Ageing Research and Healthcare

Journal of Ageing Research and Healthcare

Current Issue Volume No: 5 Issue No: 2

Review Article Open Access Available online freely Peer Reviewed Citation Provisional

Osteoarthritis Depressive, Loneliness and Social Isolation in Later Life and the Robotic Cmpanion

Ray Marks 1  

1Osteoarthritis Research Center, Unit 2, Box 5B, Willowbrook-Charnwood Postal Depot, Markham, Ont L3T, 5H3, Canada.

Abstract

Background

Older adults with disabling osteoarthritis may be severely impacted by negative emotions and pain, especially if they feel isolated.

Review Aims

1) To summarize the research base concerning the presence of depression in older adults suffering from osteoarthritis; 2) To examine the degree to which mitigating loneliness is desirable in this regard and may be helped by one of the many emergent robotic social devices offering companionship; and 3) To provide directives for professionals who work or are likely to work with this population in the future.

Methods

Reviewed were current publications detailing some aspect of osteoarthritis in the older adult, depression, emergent loneliness and social isolation, and the role and impact of robotic personal ‘friends’ in this realm.

Results

Collectively, these data reveal efforts to reduce and mitigate different degrees of depression in older adult osteoarthritis cases are needed and that social robots may help quell isolation.

Implication

Those older adults with osteoarthritis suffering from depression and emergent loneliness and social isolation may benefit from robotic human or pet like contacts and interactions regardless of cause and overall health status, but the key is still loneliness prevention.

Author Contributions
Received 14 Aug 2025; Accepted 16 Aug 2025; Published 18 Aug 2025;

Copyright ©  2025 Ray Marks

License
Creative Commons License     This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Competing interests

The authors have declared that no competing interests exist.

Citation:

Ray Marks (2025) Osteoarthritis Depressive, Loneliness and Social Isolation in Later Life and the Robotic Cmpanion. Journal of Ageing Research and Healthcare - 5(2):36-50. https://doi.org/10.14302/issn.2474-7785.jarh-25-5659

Download as RIS, BibTeX, Text (Include abstract )

DOI 10.14302/issn.2474-7785.jarh-25-5659

Introduction

Osteoarthritis, a chronic health condition affecting one or more of the freely moving joints of the body of many older adults induces enormous bouts of pain and functional disability that is projected to reach epidemic proportions by 2050. With few remediable intervention options a high proportion of older adults may well endure progressive and oftentimes widespread cumulative pathological features of joint pain and derangement. As time evolves, and especially if more than one joint site is painful 1 mental health may gradually wane and functional challenges may be difficult to obviate or reverse thus leading to possible dejection and declining motivation to cope in at least 20 percent 2 or up to 55 percent of cases 3 .

At the same time, many cases may suffer from multiple medical conditions that stem from or foster symptoms of depression and related declines in the motivation to move and the ability of the older impaired adult to undertake life affirming social activities. According to Mahmoudi et al. 4 the high prevalence of depression among older adults with osteoarthritis highlights the need for routine depression screening and management so as to maximize treatment outcomes and quality, including surgical outcomes 5.

In either case, those who are neglected or overlooked may suffer increasing pain and isolation and with this persistent feelings of sadness, a loss of interest and pleasure in daily activities, feelings of hopelessness, and low self-worth. Even in the absence of osteoarthritis, older adults and others suffering from various degrees of depression may experience poor sleep patterns, fatigue, excessive catastrophic thinking, and appetite losses or weight control impairments 6. They may experience related elevated pain levels and poor self-efficacy as well as an impaired body image, a loss of resilience and life quality, especially if care giving is sporadic and they strongly believe they have an irreversible, rather than a potentially modifiable condition and degree of disability, including loneliness, a chronic disease mediator or moderator and one that can impact osteoarthritis adversely 7 even after surgery if ignored 8.

In this regard, it is apparent that social robots are increasingly being deployed to address social isolation and loneliness, particularly among older adults, in a wide sphere of health concerns that may reflect a deficit in social support coupled with a sense of invalidation 8. Clips on social media attest that individuals availing themselves of this option are pleased with their robot companions. Yet, some people find the use of social robots to meet fundamental human emotional needs disturbing 9, 10, 11.

To this end, this review describes: what is observed as regards depressive symptoms in the older adult affected by osteoarthritis, and which may occur independently as a separate longstanding health condition, or in reaction to the persistent presence of other illnesses, adverse life events and losses, social and self-care and mobility losses. Accordingly, this discussion focuses on:

1. Some key features of the predicament of older adults with osteoarthritis.

2. Findings concerning associated osteoarthritis and depression features such as loneliness.  

3. Whether loneliness, involving an affective experience implicating a lack supportive human relations can be alleviated by artificially intelligent companion-oriented oriented robots and therby alleviate affective distress.

4. Implications for future practices and research.

Assumptions

In cases of emergent loneliness that is found to inhibit osteoarthritis treatment and adaptations, robots being created and made available in different formats and that are often extremely humanlike may be helpful to an older suffering adult.

Although current robots are not yet the same as those occurring in terms of reality, robots are currently being used in healthcare, education, and business to increasing degrees and their potential is worth investigating.

Robots are discussed here because it is felt there is evidence of their possible benefits such as relieving loneliness and enabling communication in the socially isolated or severely debilitated case.

Engineers are trying to build robots that look and behave like humans and thus need comprehensive knowledge not only of technology but also of human cognition, emotion, and behavior.

Older adults are often sensitive to loneliness, which may contribute to mental and physical health, serious illness, and increased mortality 12.

Social relationships are essential resources for psychological well-being and physical health.

In older adults, there may be a trend towards increased vulnerability and loss of functions that are accompanied by diminishing social networks reinforcing a vicious circle. This decrease of social cohesion 4 presents risks for health and well-being that might be cushioned by introducing social robots 13.

It may be too that older adults who suffer from osteoarthritis and who receive treatment for depression can improve their status and that some may especially benefit from exposure to a social robot. These artificially intelligent robots can be shown to foster a positive emotional attachment and reduced feelings of suffering and loneliness, especially among cases who desire to live ‘in place’ and have experienced the loss of one or more human relationships 14 while meeting some of the socio-emotional needs of at least some older adults with debilitating osteoarthritis. Indeed it appears that the older population who may suffer from bouts of depression, and loneliness can experience a better quality of life post or ongoing social robot exposures 15

Significance

It was felt this information would be consistent with the need for continuing efforts to broaden our knowledge base concerning what prevention/intervention strategies other than those currently considered standard osteoarthritis and depression practices might prove efficacious for socially isolated older adults 16, while minimizing the extent of the osteoarthritis and its anticipated disease progression.

Moreover, populations who are aging rapidly need to increase their engagement in social activities to tackle loneliness, depression, and isolation 16, 17 as well as limiting ongoing threats to their health 18. In this regard, even before the pandemic emerged, a 2020 National Academy of Sciences, Engineering and Medicine report warned of the underappreciated adverse effects of social isolation and loneliness on health, especially among older populations. Social isolation and loneliness not only predict all-cause mortality at rates that rival clinical risk factors, such as obesity and smoking; but they are associated with a greater incidence of psychological, cognitive, and physical morbidity. 

Accordingly, in the first section of this work, some background information on the topic of osteoarthritis is followed by the topic of depression. Then some recent data from the loneliness literature is provided. The work concludes by summarizing the key findings from robot companion research.

Methods

The desired information was compiled from an extensive review of the English language literature embedded in the PubMed over the last 10 years. The link between depression and osteoarthritis disability and loneliness and robot surrogates was explored using the keywords: Osteoarthritis,Depression, Loneliness, Older Adults, and Robots and building on prior works, Narrated in descriptive form is a contemporary summary of a possible novel direction for enhancing older adult wellbeing. More specifically it explores the potential value of social robots in community based as well as hospital care of the lonely older adult suffering depression and painful arthritis 19. Papers discussing COVID 19 were excluded as were applications in long term care, and dementia, along with proposals.

Results

As in the past, most current reports continue to state that osteoarthritis often produces lengthy periods of chronically intractable bouts of pain, joint stiffness and inflammation, as well as multiple functional, social, occupational, cognitive and emotional challenges and restrictions, plus a low life quality, fatigue, sleep disturbances, and feelings of emotional distress, depression or actual clinical depression despite years of study 4, 20, 21, 22. Although not a ‘death sentence, its significant overlapping negative aforementioned impacts that are often unrelenting and that may well impact and hasten progression rates towards joint surgery 23, are also increasingly observed to have a negative genetic influence on the risk of acquiring osteoarthritis 22, 24 and a bi-directional association with myalgic pain 24 and that may preside incrementally in those affected who are socially isolated or perceive this as a ‘hurtful’ state. While some articles discuss or attempt to recount efforts to reduce the magnitude of this problem or help to offset it biochemically or via physical therapy, most fail to pinpoint or offer any definitive set of strategies for reducing osteoarthritis pain that may arise from persistent loneliness and isolation feelings. Nonetheless, many authors agree that more needs to be done in this sphere 25, especially to treat both pain and depression in tandem 26. Alternately, many current authors support the need to more successfully identify if the older adult is at risk for depression, and if so, to try to avert this accordingly.

One important observation is that despite decades where osteoarthritis was deemed an evitable genetic or age associated physical problem, its emotional correlates are now shown of additional value and high salience in explaining findings of disease variations such as declines in vitality, poor life quality, reduced cognitive and physical functioning among diverse older adults with one or more diseased joints and that may enhance the need for surgery 25, 27. Moreover, in addition to associated ongoing mechanical disturbances, osteoarthritis which may be accompanied by diverse degrees of vascular changes, soft tissue contractures, muscle spasm, crystal deposition, and disease related alterations in sensory inputs to the central nervous system may reduce functional ability as perceived by the sufferer that may impact their ability to interact or participate in social actions and others 28. In addition a pervasive pain experience that reaches catastrophic proportions is often accompanied by bouts of reactive depressive, even if the actual extent of joint pathology itself is not striking and surgery is forthcoming 29 because depression that stems from a progressively emergent state of increased pain sensitivity is considered a disability medically speaking in its own right 30, as is its central nervous system influences including individual behaviors, and increases in pain sensitivity. This emergent state may foster or result in feelings of helplessness, anxiety, poor coping ability, poor self-efficacy, and sleep disturbances that can all prove disabling. In turn, data show this negative series of feedback responses are significantly correlated with future pain and disability, and decreases in physical function 31, while generating a low sense of morale.

Compounding osteoarthritis presence and its highly resistant and unpredictable nature, are misconceptions in this regard about the importance of optimal mental health, mindset, and psychosocial factors in averting osteoarthritis 32, 33, 34, 35, 36, ideas long engendered about its irremediable trajectory by medical organizations and personnel, as well as suboptimal intervention outcomes that have more to do with study design than efficacy failure even where indicated. The experience of constant pain and increasingly difficulties in accomplishing everyday tasks, that engender fatigue, may likewise elicit persistent feelings of sadness, loss of interest and pleasure in daily activities, feelings of hopelessness, and low self-worth and isolation, low life quality, but this is rarely explicitly assessed 37. Moreover, those older individuals already suffering from primary depressive symptoms may experience a declining ability to garner social support, they may be angry and fearful as well as anxious with poor sleep patterns, excessive pain catastrophizing that all foster interference with their daily activities, alongside a greater likelihood of premature death, higher rates of inflammation, increased blood pressure, memory challenges, a decreased desire for physical activities, illness uncertainty, weakness, social withdrawal, and higher rates of bone attrition, and inactivity, factors that could all interact to magnify the extent of osteoarthritis disability, and possible overuse of existing health services 38, 39, 40. Expected too in the absence of dedicated intervention are high-levels of kinesiophobia, and its negative influence on physical as well as social activities, progressive decreases in mental health, plus a higher prevalence of comorbid conditions relative to age and gender, plus pain 38. They may incur an increasing sense of perceived failure to cope with their difficulties that may compound their recovery trajectory post surgery 5.

Robotics

In recent times there have been reports of cases in which quality of life and loneliness of elderly people have been affected by interactions with a pet-type robot ‘AIBO’ and robots in general 41 with statistically significant improvements in speech, emotional words and satisfaction index. The loneliness scale values also improved 42. This was very revealing because as loneliness is a common problem in long-term care facilities and other situations but one improved following animal-assisted therapy as well as animal like social robots designed to decrease or reverse loneliness 43. An interactive robotic dog that can reduce loneliness appears to provide a target of sorts for attachment that is mostly beneficial and equak to a living dog.

In sum, as of 2012, several studies have indeed reported positive effects of companion-type robots on (socio) psychological (eg, mood, loneliness, and social connections and communication) and physiological (eg, stress reduction) parameters 44, 45.

Another study described that the telepresence robot system designed to improve the well-being of elderly by supporting them to do daily activities independently, was also designed to facilitate social interaction in order to help users overcome a sense of social isolation and loneliness as well as to support the professional caregivers in everyday care 46.

When occupational therapists were surveyed as regards a similar mode of intervention several perceived robots as serving as "a useful device" and one that acts as "an assistant" rather than "a companion". This set of respondents stated the most important functions of such a robot would be its health aspects such as emergency alarms, health parameters monitoring, physical activity and memory training, and ability to encourage reminders about medication. Functions such as mood detection, encouraging contact with friends, and monitoring of food consumption were highly accepted by almost all respondents. However, the socially robotic induced functions designed to increase everyday activities and decrease the sense of loneliness were rated poorly in terms of outcome efficacy by most respondents 47.

In other research a key question has been whether when implementing robotics it is important to help care personnel accept care robots, and to diminish any fears that their introduction would make the treatment of elderly people inhumane or in some way add to their loneliness. As such, education is crucial in changing attitudes and making care personnel understand that care robots can perform routine tasks, allowing care personnel to focus on providing improved care and nursing 48. Lim 49 note benefits relative to the use of social robot interventions to reduce cognitive decline, depression, and loneliness among older adults, even though the types, functions, and programs of effective social robots have not yet been confirmed.

More recent study does show technological rather than sole reliance on human involvement and solutions can support the elderly, improve their quality of life and reduce their feelings of isolation and loneliness 50. The Euro-Japan ACCRA (Agile Co-Creation for Robots and Aging) project that specifically aims to build a reference co-creation methodology for the development of robotic solutions for ageing does stress the importance of research however, to validate this approach, especially from the end-user’s perspective. As such, they reported a positive perception by older adults as regards the application of a robotic solution for a problem when based on the users real needs and capabilities 16, 17, 50. Researchers 51, 52 conclude significant improvements in mental well-being in using social robots such as Paro. Most also concur further research may help us to understand the advantages of using a Paro like intervention as a form of depression therapy and where social robots may be helpful conversational promoters 53.

Other reports allude to robopets as having the potential to benefit older adults living in care homes, potentially through their ability to increase engagement and interaction opportunities that could be applied in the community 43. With the robot acting as a catalyst, this form of engagement and interaction may also afford comfort and help, while reducing agitation and loneliness 54. In addition, social robots could tackle both emotional and social loneliness by empowering impaired or aging adults to engage in different forms of social interaction inside and outside a facility 19, 55. This may empower older isolated dejected adults to engage in different forms of social interaction that can support aging-in-place and fill the gaps of the intensified shortage of health and social manpower 56, 57, especially in light of the impact of arthritis on social isolation 58.

Tan et al. 59 who focused on (1) examining the social well-being of single older adults through the companionship of social robots and (2) understanding the perceptions of single older adults when interacting with social robots found four main themes emerged from the participants' interactions with LOVOT, such as caring for a social robot, the comforting presence of the social robot, the meaningful connections forged with the social robot, and a preference for LOVOT over pets. The results indicated that single older adults can obtain psychosocial support by interacting with LOVOT as a companion and that this process makes single older adults feel like they have a greater sense of purpose and someone to connect with. Moreover, the study implied social robots can provide companionship to older adults who live alone and can alleviate loneliness by allowing single older adults to form health affirming social connections 60.

By mitigating emotional distress and loneliness, robotic interventions may enhance existing pain therapies and offer innovative solutions for resource-limited healthcare systems. Those suffering loneliness are also likely to benefit 61.

Discussion

As outlined above, it is clear that many older adults with osteoarthritis may feel isolated and depressed for several reasons. Firstly, because they may already be clinically depressed and hence prone to excess disability, as well as more severe disease activity. Second, and in the context of osteoarthritis, a disease frequently associated with obesity and cardiovascular problems including diabetes, related work shows depression can potentially increase the burden of the disease quite significantly in those with one or more of these comorbid conditions. In particular, high body mass indices, often associated independently with depression, can significantly increase the risk for perceiving one’s body negatively, and for reducing the ability of the individual with osteoarthritis to carry out activities of daily living that affect wellbeing.

Indeed, among a fairly representative sample of studies that have specifically examined the relationship between depression and osteoarthritis, most provide clear support for improved efforts to identify, study and treat this psychosocial factor, which has a strong bearing on pain, self-efficacy for managing their disease, and higher levels of anxiety and fear-avoidance feelings. Treated suboptimally one can predict immense impacts on wellbeing, mobility and function, plus fewer social contacts, given a strong desire to be more sedentary than not.

However in addition to standard forms of therapy, it appears socially oriented robots may well reduce to some degree excess suffering and health care usage, pain-related fears of movement and poor functional status that stem from feelings of depression and isolation. In this regard, preliminary data show both ‘pets’ and social robots can provide or offer dynamic communication opportunities and positive interaction patterns for mitigating the distress of an older impaired and isolated adult 62.

This approach, while not yet well developed, may support the disabled or impaired older adult’s desire to remain independent, while having a positive effect on features of the osteoarthritis disease process, such as pain. That is, given that an increased prevalence of at least moderately severe depression is observed among a reasonable percentage of older adults and that a fair number have declining mental health, repeated robotic interactions may heighten their ability to be more active physically, as well as socially, rather than perpetuating the avoidance thereof.

To this end, such efforts do not negate a role for efforts to impact depression directly, including some form of cognitive behavioral therapy, emotional and social support, plus a combination of adequate nutrition, exercise, stress control strategies, weight management, and sleep assistance, plus efforts to minimize inflammation and negative beliefs. However, loneliness and social isolation are increasingly prevalent public health concerns among community-dwelling older adults that may be exacerbated by osteoarthritis and may be greatly benefited by exposure to robotic methods of reducing levels of loneliness and social isolation. Minimizing the extent of any comorbid condition, plus reducing the risk for cardiovascular disease, insofar as these problems can heighten the risk of depression, plus educating osteoarthritis sufferers’ about treatment options can potentially help affected individual’s to control their pain, and thereby to heighten or optimize their mental function. Finally, reducing the stigma of depression due to negative media, ageism, or social network influences, a social carefully construed robot application may be especially helpful as well. In addition, as opposed to using antidepressants to treat depression, and narcotics to treat pain, the importance of minimizing depression safely without side effects cannot be underestimated in the context of both weight control, as well as pain control and the probability socially constructed tailored automated robots can help is quite high.

However, caution is advised because some research offers only weak support for social robots to universally mitigate loneliness. Clearly, as with other forms of therapy, some participants may feel uncomfortable with this form of intervention, or have limited dexterity and strength as well as vision and hearing attributes. However, as with other osteoarthritis interventions, greater attentiveness to the desirability of the therapy and comfort with this as well as adaptations can certainly be addressed. To date, one study showed most participants (68.7%) did not think an automated companion robot would make them feel less lonely and felt somewhat-to-very uncomfortable (69.3%) with the idea of being allowed to believe that an artificial companion is human. In adjusted models, even though one additional year of age was also associated with lower likelihood of perceived benefit of reducing loneliness, those with high confidence using computers experienced greater comfort and heightened social robot acceptance 63, 64.

However, Lei et al. 65 cautions to not be too optimistic given that participants' acceptance of technology in the face of loneliness may not increase the intention to use the robots in cases where there were signs of related emotional anxiety, hesitant attitudes, the perceptions of an unreal social presence, and usability difficulties. The study has however provided health workers with valuable insights into why they should avoid introducing robots to their clients without due thought and in light of the prevailing needs and health regimens of older isolated/depressed adults.

In sum, because both comorbid as well as reactive depression can influence pain perception as well as the severity of comorbid conditions, and functional disability quite markedly, even if social robots can reduce loneliness, strategies to treat or minimize depression remain highly indicated in efforts to foster optimal health status and overall health outcomes and osteoarthritis associated life ‘quality’. While social oriented companion robotics may impact the extent of any excess health care utilization by the affected adult or serve as a proxy in poor service areas, osteoarthritis treatments may require input from the target person in conjunction with the provider to benefit from this. In addition Lee et al. 66 conclude well-designed robotic interventions, as complements to existing aging and clinical interventions, have the potential to improve health behaviors among socially isolated older adults and this should be explored further.

However, it is fair to say, more favorable outcomes of socially automated social support has considerable potential. Indeed, Tobis et al. 67 found older adults not only assessed the robot in question more positively with respect to its roles as a companion and assistant than their providers, they also had higher scores on their need to increase their knowledge about the robot. Regarding the robot's functions, the greatest differences between groups were observed for the social aspects on a survey, including experiencing a decreasing sense of loneliness when accompanying the user in everyday activities. Mean scores of the Animacy, Likeability, and Perceived Intelligence scales were significantly higher for older participants than for caregivers, suggesting providers have their own preferences and should step back when helping their clients.

It also appears therapies that foster feelings of efficacy and confidence and engage the mental and social capacities of the arthritis sufferer such as social robots are expected to be more positively impacted than not 68. Educational programs to foster an individual's self-management capacity, and that could be delivered remotely, may similarly heighten the individual older adult osteoarthritis options, especially for those who are isolated with limited social support and feel distressed 12.

To this end, regular screening and follow up assessments using the robotic unit and an appropriate set of measurement instruments are indicated. In addition, from what we know about the nature of culture and perceptions of homogeneity on health delivery and communication outcomes the development of socially interactive robots and their non-verbal communication attributes should be given more consideration 69. Other benefits should be explored even if loneliness is not impacted significantly after using a socially constructed robotic device 70, 71, for example their inputs appeared to foster adherence. The main mechanism of effect within group settings however, does appear to be the stimulation of social interaction with other humans 72

Among the many products now available, Broadbent et al. 14 describes an automated social robot device termed ElliQ, which is a consumer robot with a friendly appearance that uses voice, sounds, light, and buttons through a touch screen to facilitate conversation. It also provides opportunities for engagement in music, video calls, and assessments, plus stress relief approaches, games, and health reminders. According to 15 US government agencies ElliQ is not only highly engaging for older people but may be able to improve their life quality and reduce their sense of loneliness. In addition, the development of a weekly report that patients can share with their clinicians to allow better integration into routine care is described but more work is strongly indicated for current findings to be deemed generalizable 73. Nakai et al. 74 specifically highlight the potential of robotics to complement traditional therapies in alleviating pain and enhancing emotional well-being.

Conclusions

This brief overview concerning the most common joint disease osteoarthritis and its depressive implications among older adults shows in addition to its physical correlates of disability it may be beneficial to examine the emotional factors implicated in mediating or moderating the extent of osteoarthritis-related disability.

At the same time, loneliness and social isolation, prevalent public health concerns among community-dwelling older adults and others may be reduced through selected technology-driven solutions especially among individuals who are poorly supported clinically or perceive this.

Two main symptoms of the disease, namely pain and disability, as well as feelings of depression, and loneliness may be mitigated by adjunctive socially mediated robotic ‘humanoids’ or pets. Cases previously sedentary may be more rather than less willing to pursue activities deemed beneficial to them over time. In addition resilience and self efficacy may improve.

In essence we conclude that although multiple functional limitations experienced by older adults with end-stage osteoarthritis are likely to arise due to an array of physical rather than mental disturbances, those with severe osteoarthritis subjected to carefully tailored robotic exposure, may be able to counter feelings of futility, loneliness and depression 75. As per Lee et al. 70, 71 adherence, an important management attribute, may depend on the robot's conversational abilities, accurate initial framing, and user willingness to form a "relationship, but is yet quite promising. However, as with any intervention promising outcomes may not flow in the face of repetitive dialogue or mismatched expectations and ill designed introduction processes.

It also appears that even though social robots are quite well advanced as far as health assistant goes, a lack of holistically oriented care, and a predominant focus on physical factors at the expense of psychological and social factors plus a failure to foster empathetic communications may greatly mar treatment impacts and potential, plus self-efficacy for managing the disease. This limited approach may also heighten anxiety and fears about undertaking recommended activities or rehabilitation directives, as may provider hesitance due to their beliefs in direct rather than indirect care options. However, it is clear, the lives of many older adults with osteoarthritis can be improved if not cured by directly targeting depression early on and efforts to recognise a subject’s companionship needs.

In the meantime, osteoarthritis, a highly prevalent progressively disabling chronic health condition affecting one or more joints of a high number of older adults is likely to foster various states of depression and isolation and a low likelihood of any favorable intervention response in that event. Those with longstanding disease histories, plus those cases with severe or chronic pain, and multiple joint problems, as well as those with high stress levels, and few social contacts may be worse off as a whole all things considered and should be especially targeted and if appropriate introduced to the possible utility of employing a socially oriented robot to raise their life quality. We also agree with the need to simultaneously use other options to combat loneliness, such as group therapy, so as to foster social interaction opportunities, as well as the ability to live independently. Preventing loneliness in its own right may however reduce the risk of osteoarthritis and its disabling consequences at low cost at the outset and should be incorporated into successful aging preventive programs, asthma care and pain programs, and applied to those over 65 suffering or at risk for social isolation 76, 77, 78.

Acknowledgments

None

Funding

None

References

  1. 1.Peral Pérez J, Mortensen S R, Lluch Girbés E. (2025) Association between widespread pain and psychosocial factors in people with knee osteoarthritis: a cross-sectional study of patients from primary care in Denmark. Physiother Theory Pract. 41(4), 752-762.
  1. 2.Longo U G, Campi S, Marino M. (2025) Robotic companions and their depression mitigation potential was explored specifically. Influence of depression on functional outcomes in patients with knee osteoarthritis undergone unicompartmental knee arthroplasty or total knee arthroplasty: a prospective study. J Back Musculoskelet Rehabil. 10538127251336743.
  1. 3.Vu H M, Tang H T, V Minh Hai B. (2025) Robotic companions and their depression mitigation potential was explored specifically. Comorbidities and health-related quality of life among rural older community-dwellers in Vietnam. PLoS One. 20-4.
  1. 4.Mahmoudi L, Sadati S M, Farpour H R. (2025) Prevalence of depression in elderly patients with osteoarthritis: a cross-sectional study. Musculoskeletal Care. 23-3.
  1. 5.GV Ten Noever de Brauw, Aalders M B, GMMJ Kerkhoffs. (2025) The mind matters: Psychological factors influence subjective outcomes following unicompartmental knee arthroplasty-A prospective study. Knee Surg Sports Traumatol Arthrosc. 33(1), 239-251.
  1. 6.B Van Dongen, Ronteltap A, Cijs B. (2025) Psychosocial factors associated with physical activity, weight management, and sleep in adults with hip and knee osteoarthritis: a systematic review. BMC Rheumatol. 9-1.
  1. 7.Meng L, Xu R, Li J. (2024) The silent epidemic: exploring the link between loneliness and chronic diseases in China's elderly. BMC Geriatr. 24-1.
  1. 8.Smith T O, Dainty J R, MacGregor A J. (2017) Changes in social isolation and loneliness following total hip and knee arthroplasty: longitudinal analysis of the English Longitudinal Study of Ageing (ELSA) cohort. Osteoarthritis Cartilage. 25(9), 1414-1419.
  1. 9.Lederman Z. (2023) Technological solutions to loneliness-Are they enough? Bioethics. 37(3), 275-284.
  1. 10.Lederman Z, Jecker N S. (2023) Social robots to fend off loneliness? Kennedy Inst Ethics J. 33(3), 249-276.
  1. 11.AYM Leung, Zhao I Y, Lin S. (2022) Exploring the presence of humanoid social robots at home and capturing human-robot interactions with older adults: experiences from four case studies. Healthcare (Basel). 11-1.
  1. 12.Choi H K, Lee S H. (2021) Trends and effectiveness of ICT interventions for the elderly to reduce loneliness: a systematic review. Healthcare. , (Basel) 9-3.
  1. 13.Zöllick J C, Rössle S, Kluy L. (2022) Potentials and challenges of social robots in relationships with older people: a rapid review of current debates]. Z Gerontol Geriatr. 55(4), 298-304.
  1. 14.Broadbent E. (2017) Interactions with robots: the truths we reveal about ourselves. Annu Rev Psychol. 68, 627-652.
  1. 15.M de, Lampraki C, Marques A. (2024) Longitudinal cross-lagged analysis of depression, loneliness, and quality of life in 12 European countries. BMC Public Health. 24-1.
  1. 16.D'Onofrio G, Fiorini L, M de. (2018) Agile co-creation for robots and aging (accra) project: new technological solutions for older people. Eur Geriatr Med. 9(6), 795-800.
  1. 17.D'Onofrio G, Fiorini L, Hoshino H. (2019) Assistive robots for socialization in elderly people: results pertaining to the needs of the users. Aging Clin Exp Res. 31(9), 1313-1329.
  1. 18.Jecker N S. (2021) You've got a friend in me: sociable robots for older adults in an age of global pandemics. Ethics Inf Technol. 23, 35-43.
  1. 19.Pirhonen J, Tiilikainen E, Pekkarinen S. (2020) Can robots tackle late-life loneliness? Scanning of future opportunities and challenges in assisted living facilities. Futures. 124-102640.
  1. 20.Wang Q, Ni J, Guan Y. (2025) Associations of depression and symptomatic knee osteoarthritis with cognitive function among middle-aged and older adults: evidence from CHARLS in China. J Gerontol Soc Work. 1-17.
  1. 21.Li G Z, Ji R J, Xu C P. (2025) On patient quality of life: impacts of knee osteoarthritis on pain, anxiety, depression, fatigue and sleep disorders. Nurs Open. 12-7.
  1. 22.Pan Y, Jin X, Zhou Q. (2025) The causal relationship between emotions and osteoarthritis: A bidirectional Mendelian randomization study. Medicine (Baltimore). 104-21.
  1. 23.Bensa A, Bianco Prevot L, Piano A. (2025) Depressive symptoms influence progression to total knee arthroplasty in patients with early knee osteoarthritis: evidence from the Osteoarthritis Initiative database. J Exp Orthop. 1-3.
  1. 24.Wei X, Zhou T, Wei X, Wang H. (2025) Causal association between depression and myalgia-related disorders: a bidirectional mendelian randomization study. J Affect Disord. 386-119450.
  1. 25.Dong Y, Cai C, Liu M. (2024) Improvement and prognosis of anxiety and depression after total knee arthroplasty. Acta Orthop Belg. 90(2), 211-216.
  1. 26.Broekman M M, Brinkman N, CLP van de Ree. (2025) Statistical groupings of mental health and osteoarthritis severity correlate with 10-year trajectories of levels of capability and comfort among people with hip pain: a nationwide prospective cohort study (CHECK). Clin Orthop Relat Res.
  1. 27.Richey A E, Segovia N, Hastings K. (2024) Self-reported preoperative anxiety and depression associated with worse patient-reported outcomes for periacetabular osteotomy and hip arthroscopy surgery. J Hip Preserv Surg. 11(4), 251-256.
  1. 28.Szekanecz Z, Osadcii-Zaiat D, Bajkó A. (2024) Key personal insights and changing needs of osteoarthritis patients: an international quantitative survey analysis. , Reumatologia 62(6), 398-404.
  1. 29.VMPS Moreira, Signorelli F S, Hattori W T. (2025) Association between psychological factors and physical performance in individuals with knee osteoarthritis: A cross-sectional study. J Bodyw Mov Ther. 42, 274-282.
  1. 30.Esposito E, Lemes I R, Salimei P S. (2024) Chronic musculoskeletal pain is associated with depressive symptoms in community-dwelling older adults independent of physical activity. Exp Aging Res. 1-13.
  1. 31.Sonobe T, Otani K, Sekiguchi M. (2024) Influence of knee osteoarthritis severity, knee pain, and depression on physical function: a cross-sectional study. Clin Interv Aging. 19, 1653-1662.
  1. 32.Karim A, Hussain M A, Ahmad F. (2025) Predictors of osteoarthritis in older europeans: insights from the SHARE survey. Musculoskeletal Care. 23-2.
  1. 33.Giotis D, Gianniki M, Koukos C. (2025) Impact of knee pain and osteoarthritis on quality of life: a comprehensive assessment of physical, social, and psychological factors. J Orthop Case Rep. 15(4), 306-312.
  1. 34.Broekman M, Aurelian S M, Oancea C. (2025) Supplementary treatment for alleviating pain and enhancing functional ability in geriatric patients with osteoarthritis. Healthcare. , (Basel) 13-2.
  1. 35.Sergooris A, Verbrugghe J, Bonnechère B. (2024) Beyond the Hip: Clinical Phenotypes of Hip Osteoarthritis Across the Biopsychosocial Spectrum. J Clin Med. 13(22), 6824.
  1. 36.Feng Q, Weng M, Yang X. (2025) Anxiety and depression prevalence and associated factors in patients with knee osteoarthritis. Front Psychiatry. 15, 1483570.
  1. 37.Norman S S, Mat S, Kamsan S S. (2025) Mediating role of psychological status in the association between resiliency and quality of life among older Malaysians living with knee osteoarthritis. Exp Aging Res. 51(3), 350-363.
  1. 38.Tan Yijia B, Goff A, Lang K V. (2024) Psychosocial factors in knee osteoarthritis: scoping review of evidence and future opportunities. Osteoarthritis Cartilage. 32(10), 1327-1338.
  1. 39.Nishiwaki T, Ishikura H, Masuyama Y. (2025) Impact of preoperative factors on clinical outcomes after total hip arthroplasty. 16(4), 105273.
  1. 40.Gacto-Sánchez M, Lozano-Meca J, Lozano-Guadalajara J V. (2025) Exploring the impact of illness uncertainty on psychosocial and functional outcomes in knee osteoarthritis. Physiother Theory Pract. 1-10.
  1. 41.Newton J P. (2008) Who needs friends...when robots may be the answer? Gerodontology. 25(2), 65-6.
  1. 42.Kanamori M, Suzuki M, Tanaka M. (2002) [Maintenance and improvement of quality of life among elderly patients using a pet-type robot]. Nihon Ronen Igakkai Zasshi. Mar;39(2): 214-8. Japanese. doi: 10.3143/geriatrics.39.214. PMID: 11974948.
  1. 43.Abbott R, Orr N, McGill P. (2019) How do "robopets" impact the health and well-being of residents in care homes? A systematic review of qualitative and quantitative evidence. Int J Older People Nurs. 14-3.
  1. 44.Banks M R, Willoughby L M, Banks W A. (2008) Animal-assisted therapy and loneliness in nursing homes: use of robotic versus living dogs. J Am Med Dir Assoc. 9(3), 173-7.
  1. 45.Bemelmans R, Gelderblom G J, Jonker P. (2012) Socially assistive robots in elderly care: a systematic review into effects and effectiveness. J Am Med Dir Assoc. 13(2), 114-120.
  1. 46.Koceski S, Koceska N. (2016) Evaluation of an assistive telepresence robot for elderly healthcare. J Med Syst. 40-5.
  1. 47.Tobis S, Cylkowska-Nowak M. (2017) Occupational therapy students' perceptions of the role of robots in the care for older people living in the community. Occup Ther Int. 9592405.
  1. 48.Coco K, Kangasniemi M, Rantanen T. (2018) Care Personnel's Attitudes And Fears Toward Care Robots In Elderly Care: A Comparison Of Data From The Care Personnel In. , Finland 50(6), 634-644.
  1. 49.Lim J. (2023) Effects of a cognitive-based intervention program using social robot PIO on cognitive function, depression, loneliness, and quality of life of older adults living alone. Front Public Health. 11, 1097485.
  1. 50.D'Onofrio G, Fiorini L, M de. (2018) Agile Co-Creation for Robots and Aging (ACCRA) Project: new technological solutions for older people. Eur Geriatr Med. 9(6), 795-800.
  1. 51.Chen S C, Moyle W, Jones C. (2020) A social robot intervention on depression, loneliness, and quality of life for Taiwanese older adults in long-term care. Int Psychogeriatr. 32(8), 981-991.
  1. 52.Moyle W, Bramble M, Jones C. (2018) Care staff perceptions of a social robot called Paro and a look-alike Plush Toy: a descriptive qualitative approach. Aging Ment Health. 22(3), 330-335.
  1. 53.Chen H, Kim Y, Patterson K. (2025) Social robots as conversational catalysts: Enhancing long-term human-human interaction at home. Sci Robot. 10-100.
  1. 54.Hudson J, Ungar R, Albright L. (2020) Robotic pet use among community-dwelling older adults. , J Gerontol B Psychol Sci Soc Sci 75(9), 2018-2028.
  1. 55.Döring N, Conde M, Brandenburg K. (2022) Can communication technologies reduce loneliness and social isolation in older people? A scoping review of reviews. , Int J Environ Res Public Health 11310.
  1. 56.Zhao I Y, AYM Leung, Huang Y. (2025) A social robot in home care: acceptability and utility among community-dwelling older adults. Innov Aging. 9-5.
  1. 57.Sirizi D, Sabet M, Yahyaeian A A. (2025) Evaluating human-robot interactions to support healthy aging-in-place. , J Appl Gerontol 44(7), 1109-1124.
  1. 58.Kool M B, Geenen R. (2012) Loneliness in patients with rheumatic diseases: the significance of invalidation and lack of social support. , J 146-1.
  1. 59.Tan C K, VWQ Lou, CYM Cheng. (2024) Improving the social well-being of single older adults using the lovot social robot: qualitative phenomenological study. JMIR Hum Factors. 11-56669.
  1. 60.Chang Y, Sun L. (2021) EEG-Based emotion recognition for modulating social-aware robot navigation. Annu Int Conf IEEE Eng Med Biol Soc 5709-5712.
  1. 61.Yang Y, Wang C, Xiang X. (2025) AI Applications to reduce loneliness among older adults: a systematic review of effectiveness and technologies. Healthcare. , (Basel) 13-5.
  1. 62.Chiu C J, Hsieh S, Li C W. (2021) Needs and preferences of middle-aged and older adults in taiwan for companion robots and pets: survey study. J Med Internet Res. 23-6.
  1. 63.Berridge C, Zhou Y, Robillard J M. (2023) Companion robots to mitigate loneliness among older adults: Perceptions of benefit and possible deception. Front Psychol. 14, 1106633.
  1. 64.Huppertz C, Forbrig T A, Lengert-Brzozowski S. (2023) Associations between older adults' loneliness and acceptance of socially assistive robots: a cross-sectional study. J Gerontol Nurs. 49(4), 21-26.
  1. 65.Lei J, Liang Y, Su Z. (2024) Can socially assistive robots be accepted by older people living alone in the community?: empirical findings from a social work project in China. J Gerontol Soc Work. 67(7), 995-1012.
  1. 66.Lee J, Joo C. (2025) Can social robots reduce the loneliness of older adults? -Interaction and communication between social robots and older adults. Geriatr Nurs. 64, 103359.
  1. 67.Tobis S, Piasek-Skupna J, Neumann-Podczaska A. (2023) The effects of stakeholder perceptions on the use of humanoid robots in care for older adults: postinteraction cross-sectional study. J Med Internet Res. 25-4661.
  1. 68.Hung L, Wong J, KLY Wong. (2025) It's always happy to see me": Exploring LOVOT robots as companions for older adults. J Rehabil Assist Technol Eng. 12, 20556683251320669.
  1. 69.Strutz N, Perotti L, Heimann-. (2024) Older adults' communication with an interactive humanoid robot : expectations and experiences of older adults in verbal and nonverbal communication with a socially interactive humanoid robot: a mixed methods design in Germany. Z Gerontol Geriatr. 57(5), 371-375.
  1. 70.Lee O E, Nah K O, Kim E M. (2024) Exploring the use of socially assistive robots among socially isolated Korean American older adults. , J Appl Gerontol 43(9), 1295-1304.
  1. 71.Lee O E, Lee H, Park A. (2024) My precious friend: human-robot interactions in home care for socially isolated older adults. Clin Gerontol. 47(1), 161-170.
  1. 72.Nichol B, McCready J, Erfani G. (2024) Exploring the impact of socially assistive robots on health and wellbeing across the lifespan: an umbrella review and meta-analysis. , Int J Nurs Stud 153-104730.
  1. 73.Bertin L, Katz J S, Deshpande G. (2025) Beyond the human touch: A critical review of the promise and challenges of animal- and robot-assisted therapy in loneliness and mental healthcare. , Asian 110-104615.
  1. 74.Nakae A, Bu-Omer H M, Chang W C. (2025) The potential of a robot presence in close relationship to influence human responses to experimental pain. Life (Basel). 15-2.
  1. 75.Kim S K, Jang J W, Hwang Y S. (2025) Investigating the effectiveness of socially assistive robot on depression and cognitive functions of community dwelling older adults with cognitive impairments. Assist Technol. 37(1), 22-30.
  1. 76.Zhang H, Zeng M, Qu Y. (2024) Pos1152 causal effects of loneliness and the incidence of osteoarthritis: an observational analysis and Mendelian randomization study. Ann Rheum Dis. 83, 666-667.
  1. 77.Wu Z, Luo X, Dou P. (2025) social isolation and loneliness, and risk of incident osteoarthritis. Arthritis Res Ther. 27-1.
  1. 78.Carrasco P M, Crespo D P, Rubio C M. (2022) Loneliness in the elderly: association with health variables, pain, and cognitive performance. a population-based study. Clin Hlth. 33(2), 51-58.