Sleep Disturbances and Hip Fractures

The ability to sleep for an adequate time period, plus the quality of sleep encountered on a daily basis represent emergent issues of public health high import in the context of efforts to impact optimal health and wellbeing in the older population ¹. Indeed sleep disturbances, including low quality sleep, disturbed sleep, sleep debt, deficits, and sleep deprivation remain highly common health correlates, especially among the older population, even though they often go unrecognized and untreated ². This is noteworthy because among the many detrimental health issues associated with sleep deficits are numerous comorbid health conditions known to heighten fall risk ³, and possibly poor bone health ¹, as well as falls and fall injuries that may result in one or bone fractures, especially fractures of the hip joint that impose so much excess morbidity and excess mortality rates among the elderly ⁴. In turn, fractures such as those at the hip joint may lead to sleep disturbances, especially lengthy sleep durations ⁵ that are documented falls and hip fracture risk factors ⁶.

Other work indicates that even though no association between measures of bone mineral density and sleep quality or duration may exist ⁷, many studies have shown that those individuals who consistently experience less than eight hours of sleep may, in turn, suffer from exhaustion as well as irritability, and have less ability to concentrate. They may also be more prone to suffer from arterial disease (especially those that sleep less than four hours), which can lead to an increased falls risk. They may also exhibit higher depression and anxiety rates, perform less well functionally and suffer more accidents and injuries such as fractures due to their lowered alertness and protective reflexive abilities ¹. Unsurprisingly, Cauley et al. ⁴ found poor sleep quality, insomnia, and more sleep disturbances were also associated with an increased odds of recurrent falls, a potential precursor of hip fractures. Min et al. ⁸ further report that older adults with sleep problems and who take sleep medications show a significantly higher risk of falls than older adults with similar features who do not experience sleep problems or take sleep medications. Sleep problems were also longitudinally associated with an increased falls risk in older community based adults ^{9, 10}.

In this regard, hip fractures among the elderly represent a widespread health condition where multiple studies have revealed the great importance of preventing this injury and limiting or eliminating an array of preventable factors that raise hip fracture risk, such as falls, as opposed to treating this condition after the fact or relying largely on pharmacologic bone building interventions among the frail elderly ¹¹ Among these possible modifiable factors in this respect are aspects of sleep, including sleep deprivation, and the use of medications to enhance sleep ¹².

Since the literature is non-conclusive in this regard, however, and efforts to prevent hip fractures, which impose enormous disability consequences in the older population ¹³ have not made great strides in past years, it was felt that a closer examination of this topic, was warranted, and would be helpful given the observed sleep related epidemic recently discussed, and which may be magnified among the elderly during the 2020 COVID-19 pandemic lock downs in the community and high risk of older adults living in this sphere who may be vulnerable to this lethal virus.

Ample research shows that hip fractures frequently result in premature mortality, serious morbidity among survivors, significant independence losses, and excessive re- hospitalizations/nursing home admission rates. They are also associated with enormous financial costs; high post-operative and post-discharge complications rates; and higher rates of utilization of outpatient and home help services than non-fractured controls ^{14, 15}.

Other common hip fracture associated morbidity outcomes include decreases in:

Life quality

Muscle strength capacity

Balance capacity

Physical and global functioning

Cognitive functioning

There may also be excessive morbidity due to:

Related soft tissue injuries

Fear of recurrent falls

An increased risk of multiple falls

A marked loss of confidence in one’s ability to return to independent living

2nd or 3rd hip fractures ^{14, 18}

In this respect, two differing topics, the role of intrinsic sleep related associations, versus extrinsic factors that can modify sleep and functional response time such as sleep medication were examined.

The PUBMED data base exploration yielded 96 possible articles on the topic of sleep and hip fractures as of July 20, 2020. As with Web of Science Consolidated, Scopus, and Google Scholar most listed references in PUBMED, which were also listed in the aforementioned additional data bases were not strictly related to the current topic, even though they were categorized as representing the topic.

Among these articles, selected after very careful review of all potential studies, and systematic reviews, one noteworthy report by Cauley et al. ⁴ who drew upon the Women’s Health initiative to examine the degree to which sleep disturbances may influence falls and fracture incidence among 157,306 women produced several clinically important observations. Based on an annual self-report of falling, where falling two or more times was defined as "recurrent falling" during each year of follow-up, the authors modeled the resulting data using a repeated measures logistic regression model approach to investigate the association between the reported sleep disturbances and the time that elapsed before the first reported fracture. The authors further examined the risks of recurrent falls and fracture relative to sleep duration using the duration of seven hours as their referent, as well as other aspects of sleep disturbances, insomnia status, and sleep quality. The average reported follow-up time for falls was 7.6 years and 12.0 years for fractures. In their multivariable models, adjustments were made for comorbidity, medications, and physical function. Results showed that women who were defined as short sleepers (≤5 hours), along with those defined as long sleepers (≥10 hours) were found to have an increased odds of recurrent falls. The attributes of sleep quality, insomnia, and more sleep disturbances were similarly associated with a higher risk of incurring a recurrent fall. Short sleep periods were further associated with an increased risk of all fractures, but surprisingly not hip fractures. Although there was little association between other sleep characteristics and fracture occurrences in this study, it was a concluded that both short and long sleep duration and poor sleep quality are independently associated with an increased risk of recurrent falls, and in a modest way with an increased fracture risk.

In a related study by Swanson et al. ⁷ the authors tried to use objective measures of sleep duration to determine if this factor has any association with bone mineral density that might increase fracture risk, either directly, or more commonly subsequent to a fall. To this end, nocturnal sleep duration, assessed objectively as well as subjectively, was not independently associated with bone mineral density in the postmenopausal women who constituted the sample. Moreover, no clinically or statistically significant differences in total hip or femoral neck bone density measures were observed relative to the objectively assessed nocturnal sleep duration data after adjusting for body mass index in either dichotomized (N = 874) or continuous (N = 1624) sleep duration models or when the subjective sleep duration measures were used. When sleep duration measures included daytime naps were assessed, it was noted that the longer sleep duration was associated with a lower total hip bone mineral density outcome. The results were obtained only for post menopausal women and did not focus on hip fracture incidence or other variables that can impact bone mineral density though. It is also possible too, to fracture healthy bones, if the magnitude of a fall or related injury is sufficiently high or the falling surface is non compliant or both. Fitzpatrick et al. ¹² further suggest that factors related to falls and fracture, such as fall severity or direction, may be more discriminatory predictors of hip fracture risk than osteoporosis in older women. Medications for sleep, which may have no direct or immediate bone effect may however cause balance or dizziness issues in their own right. As well, longer sleep durations over time might be expected to impact bone mineral density and muscle function unfavorably if inactivity is unduly prolonged ²².

According to Stone et al. ²³, self-reported long sleep and daily napping are indeed associated with greater risk of falls and fractures in older women. Data for this conclusion were derived from a prospective cohort study of osteoporosis that included 8100 community-dwelling Caucasian women aged 69 and older (mean age 77) who had their sleep and nap habits assessed using a questionnaire at their fourth clinic visit. Fall frequency during the subsequent year was ascertained using tri-annual questionnaire. Incident hip and nonspinal fractures during six years of follow-up were confirmed using radiographic reports. Results showed 553 women suffered hip fractures, and 1,938 suffered nonspinal fractures. In multivariate models, women who reported napping daily had significantly higher odds of suffering two or more falls during the subsequent year and were more likely to suffer a hip fracture than women who did not nap daily. Those sleeping at least 10 hours/24 had a higher risk of nonspinal fracture and a similar but nonsignificant increased risk of hip fracture to those who reported sleeping between 8 and 9 hours. It was concluded that self-reported long sleep and daily napping are associated with greater risk of falls and fractures in older women.

A contrary finding however, was that of Avidan et al. ²⁴ who examined the relationship between insomnia, hypnotic use, falls, and hip fractures in older people through a secondary analysis of a large, longitudinal, assessment database of 437 nursing homes in Michigan, where residents were 65 years of age and older at baseline and were followed-up over a period of 150 to 210 days. Logistic regression modeled any follow-up report of fall or hip fracture with the predictors being baseline insomnia reports (previous month) and use of hypnotics (previous week). Potential confounders taken into account included standard measures of functional status, cognitive status, intensity of resource utilization, proximity to death, illness burden, numbers of medications, emergency room visits, nursing home new admission, age, and sex. Results showed hypnotic use did not predict falls. In contrast, insomnia predicted future falls, while untreated insomnia and hypnotic-treated (unresponsive) insomnia predicted more falls than the absence of insomnia. After adjustment for confounding variables, however, insomnia and hypnotic use were not associated with subsequent hip fracture, even though insomnia, but not hypnotic use, was associated with a greater risk of subsequent falls. However, it was concluded that older age, poor sleep, and the use of the "Z" sedative hypnotic drugs (for example, zopiclone, eszopiclone, zolpidem, and zaleplon) that are commonly used to promote sleep in this group, can be expected to increase the risk of falls and fractures among older adults through mechanisms related to cognitive and psychomotor impairment according to Andrade ²⁰.

In an analogous study, Tsur et al. ²⁵ who did not specifically assess sleep attributes specifically among 82 people, 53 women and 29 men, who fell and fractured their hip, and underwent surgery, showed that 39 cases had fallen as a result of extrinsic factors and 43 as a result of intrinsic factors. Included among the factors, both medical and non-medical that may have influenced falls were some who suffered from slight or no disturbances in attention and concentration to a modest or high degree. The role of sleep was not detailed, however.

In a further study by Rogers et al. ²⁶ examining the role of dysregulated rest-activity rhythm patterns and falls, the later acrophase was found to be associated with a modestly greater risk of falls, but not fractures in elderly men. In this study, the authors used wrist-worn actigraphy to measure sleep rest activity attributes over 4.8 ± 0.8 24-h periods among men older than 67 years who were contacted every four months to report occurrence of falls/fractures. Logistic regression was used to estimate the likelihood of recurrent falls in the year after the visit. Proportional hazards models were used to estimate the risk (hazard ratio, HR) of fractures.

A large earlier study by Holmberg et al. ²⁷ of 22,444 men, mean age 44 years, and 10,902 women, mean age 50 years with a follow-up of to 16 years with regard to occurrence of fracture found 135 women had one low-energy hip fracture each, and 166 in men. Among the significant predictors, were reported sleep disturbances, an observation supported by Bakken et al. ¹⁹ for adults who take drugs to reduce sleep disturbances, Kulukci et al. for older adults with chronic pain ²⁸, and Kanis et al. ²⁹. As well, Yoshimura et al. ³⁰ who conducted a prospective study among Japanese adults that examined hip fracture determinants found these to include sleep disturbance, sleeping in a Western-style bed, and drinking more than three cups of coffee daily, which could hamper sleep.

In sum, while non-conclusive there is tentative evidence in our view for the following provisional associations shown in Figure 1. that can be examined in the future.

Figure 1.Possible interactive associations between sleep challenges in the older population and hip fractures and their outcomes * predicts possible further fractures15181920

The very detrimental impact of sustaining one or more hip fractures, which is very common among older women and men, has been extensively studied with few emergent sound preventive approaches that can be applied on a population wide basis. Among the less well studied hip fracture determinants is sleep as a key health behaviour and outcome and the lack of attention in this regard to related research may explain the partial lack of universal success with falls prevention approaches.

This report strove to uncover what is known about this topic and whether there is support for ongoing and insightful study of this topic given the plausible linkages that have been observed between key health status indicators and sleep hygiene in various populations, including the elderly.

The aim was to identify if more specific intervention points to offset the risk of incurring disability as a result of this injury are indicated, and if so, to offer practitioners related recommendations based on the current science base. First an in-depth search of the literature using the key terms: sleep and hip fracture was conducted. Then, the results of relevant studies, which were very few in number, were analysed. All potential articles listed on the data base were first scanned for relevance, and those that focused on the topic at hand were reviewed systematically for relevant clinical data and conclusions. These data revealed hip fracture injuries may be associated in some cases with some form of sleep disturbance directly or indirectly in the older population, but that more study is needed to tease out conflicting findings, and validate potentially clinically relevant findings.

According to the data, therefore, even though there is no universal agreement, sleep disturbances, that are common in older adults, may have a bearing on the development of some fractures, if for example chronic sleep problems predispose the individual to osteoporosis and poor bone and muscle health ³¹, along with confusion or deficient reflex responses. Swanson et al. ⁷ too imply that adequate sleep is important for numerous biological processes and the functioning of several body systems including optimal bone health. Shulman et al. ¹⁷ further report that at follow-up, poor sleep is independently associated with poor emotional status, that may impact fracture healing processes, as well as general personal safety, that could have a bearing on hip fractures and their outcomes, while according to Andrade ²⁰ drugs that are used to induce sleep where sleep problems prevail, these should be used judiciously or substituted by nonpharmacologic interventions for insomnia to avoid any potential falls or fracture risk. As well, patients prescribed Z-drugs as well as their caregivers should be apprised of the risk of falls and fractures and counseled about practical measures they can take to reduce the risk. Moreover, in light of these risks, physicians are urged to carefully consider these findings before prescribing such medications to older adults, especially those who are frail or vulnerable ³².

Since both short as well as long sleep durations appear to be significantly associated with falls ³³, it is recommended that older adults be carefully questioned by their care providers about their normal average nights length of sleep, and as required, help them to understand that both too little as well as too much sleep can prove equally problematic in increasing falls and fracture risk. The number of days in the week where poor sleep is evident should also be examined, as the falls risk increases with number of sleep related days reported ⁶. Min et al. ⁸ report that even if the association between sleep problems and risk of falls among the elderly are conflicting, some specific sleep problems such as extremely short sleep duration, daytime sleepiness and naps do appear to be significantly related to falls in a sufficient number of older adults, hence careful assessment of any sleep issue, followed by non pharmacologic tailored interventions appears warranted. The identification of sleep disturbances, for example those due to pain, may especially help identify high-risk elders who may benefit from fall prevention education ⁹.

In the meantime, since sleep problems are approaching epidemic levels, and falls and fractures among the elderly remain serious impediments to a high life quality, more carefully designed research that can reliably assess sleep as well as sleep components and their association with various form of hip fracture, plus clarification of discrepancies in the literature are strongly advocated and encouraged. The use of apps to track sleep issues, and/or falls events, as well as health status, which was not found in any clinical study presently reviewed may be one way of garnering more insightful individual data.

As outlined by Widera ³⁴, far greater attention should be paid to the palliation of sleeping difficulties in the older adult, not only to improve life quality, but also to reduce their chances of incurring injurious falls and disabling fractures.

In the interim, attributes needing clarification in future research in this regard are role of: Daytime sleepiness*

Naps*

Sleep duration*

Sleep quality Sleep

Disorders Sleep

Disturbances Sleep

Debt

Sleep fragmentation

(* established correlates of falls in the elderly)³⁶

Plus the possible predictive, moderating, or mediating role of:

Age

Comorbid status

Depression

Gender

Medications

Pain

Attention to instrumentation that is not reliant on memory or subjective reports is strongly urged.

In addition to suffering from falls and hip fractures at high rates, older adults who incur one or more sleep disruptions on a consistent basis, are more likely than not to be at higher risk for injurious falls, and possible hip fractures than those who have consistently adequate periods of quality sleep.

However, despite years of hip fracture research, support for efforts to focus on sleep hygiene in preventive efforts are very few and far between, even though more data than not imply sleep disturbances that are longstanding may be overlooked, but important hip fracture determinants.

More effort to establish the range of sleep issues that can impact hip fracture risk and that can adequately test the relationships depicted in Figure 1 over protracted time periods, will undoubtedly help meantime to reduce the chances of an older adult dying from this injury ³⁵ and possibly sustaining further fractures or poor health due to sleep challenges associated with hip fracture recovery and is strongly encouraged.

N/A

1. 1.Gulia K K, Kumar V M. (2018) Sleep disorders in the elderly: A growing challenge. , Psychogeriatrics 18(3), 155-165.
   Search at Google Scholar

1. 2.Rodriguez J C, Dzierzewski J M, Alessi C A. (2015) Sleep problems in the elderly. , Medical Clinics of North America 99(2), 431-439.
   Search at Google Scholar

1. 3.Onen S H, Onen F. (2018) Chronic medical conditions and sleep in the older adult. , Sleep Medicine Clinics 13(1), 71-79.
   Search at Google Scholar

1. 4.Cauley J A, Hovey K M, Stone K L, Andrews C A, Barbour K E. (2019) Characteristics of self-reported sleep and the risk of falls and fractures: The Women's Health Initiative (WHI). , Journal of Bone Mineral Research 34(3), 464-474.
   Search at Google Scholar

1. 5.Smagula S F, Koh W P, Wang R, Yuan J M. (2016) Chronic disease and lifestyle factors associated with change in sleep duration among older adults in the Singapore Chinese Health Study. , Journal of Sleep Research 25(1), 57-61.
   Search at Google Scholar

1. 6.Essien S K, Feng C X, Sun W, Farag M, Li L. (2018) Sleep duration and sleep disturbances in association with falls among the middle-aged and older adults in China: A population-based nationwide study. , BMC Geriatrics 18(1), 196.
   View article·PubMed·Search at Google Scholar

1. 7.Swanson C M, Blatchford P J, Orwoll E S, Cauley J A, LeBlanc E S. (2019) Study of Osteoporotic Fractures (SOF). Association between objective sleep duration and bone mineral density in older postmenopausal women from the Study of Osteoporotic Fractures (SOF). , Osteoporosis International 10, 2087-2098.
   View article·Search at Google Scholar

1. 8.Min Y, Nadpara P A, Slattum P W. (2016) The association between sleep problems, sleep medication use, and falls in community-dwelling older adults: Results from the Health and Retirement Study. , Journal of Aging Research 2016, 1-11.
   View article·Search at Google Scholar

1. 9.Ma T, Shi G, Zhu Y, Wang Y, Chu X. (2017) Sleep disturbances and risk of falls in an old Chinese population-Rugao Longevity and Ageing Study. , Archives of Gerontology and Geriatrics 73, 8-14.
   View article·Search at Google Scholar

1. 10.Takada S, Yamamoto Y, Shimizu S, Kimachi M, Ikenuie T. (2018) Association between subjective sleep quality and future risk of falls in older people: Results from LOHAS. The Journals of Gerontology. Series A, Biological Sciences and Medical Sciences 73(9), 1205-1211.
   View article·Search at Google Scholar

1. 11.Zullo A R, Sorial M N, Lee Y, Lary C W, Kiel D P. (2020) Predictors of hip fracture despite treatment with bisphosphonates among frail older adults. , Journal of the American Geriatric Society 68(2), 256-260.
   View article·Search at Google Scholar

1. 12.Fitzpatrick P, Kirke P N, Daly L, I Van Rooij, Dinn E. (2001) Predictors of first hip fracture and mortality post fracture in older women. , Irish Journal of Medical Science 170(1), 49-53.
   View article·Search at Google Scholar

1. 13.Dyer S M, Crotty M, Fairhall N, Magaziner J M, Beaupre L A. (2016) A critical review of the long-term disability outcomes following hip fracture. , BMC Geriatrics 16(1), 158.
   Search at Google Scholar

1. 14.Marks R. (2010) Hip fracture epidemiological trends, outcomes, and risk factors. , International Journal of General Medicine 3, 1-17.
   PubMed·Search at Google Scholar

1. 15.Veronese N, Maggi S. (2018) Epidemiology and social costs of hip fracture. , Injury 49(8), 1458-1460.
   View article·Search at Google Scholar

1. 16.Serrano-Checa R, Hita-Contreras F, Jiménez-García J D, Achalandabaso-Ochoa A. (2020) Aibar- Almazán A et al. , International Journal of Environmental Research and Public Health 17(11), 1-11.
   Search at Google Scholar

1. 17.Shulman B S, Liporace F A, Davidovitch R I, Karia R, Egol K A. (2015) Sleep disturbance after fracture is related to emotional well-being rather than functional result. , Journal of Orthopedic Trauma 29(3), 146-150.
   View article·Search at Google Scholar

1. 18.Zhu Y, Xing X, Liu S, Chen W, Zhang X. (2020) Epidemiology of low-energy wrist, hip, and spine fractures in Chinese populations 50 years or older: A national population- based survey. , Medicine (Baltimore) 99(5), 1-6.
   View article·Search at Google Scholar

1. 19.Bakken M S, Engeland A, Engesæter L B, Ranhoff A H, Hunskaar S. (2014) Risk of hip fracture among older people using anxiolytic and hypnotic drugs: A nationwide prospective cohort study. , European Journal of Clinical 70(7), 873-880.
   PubMed·View article·View article·Search at Google Scholar

1. 20.Andrade C. (2018) Sedative hypnotics and the risk of falls and fractures in the elderly. , Journal of Clinical Psychiatry 79(3), 18-12340.
   View article·Search at Google Scholar

1. 21.Benca R M, Teodorescu M. (2019) Sleep physiology and disorders in aging and dementia. , Handbook of Clinical Neurology 167, 477-493.
   View article·Search at Google Scholar

1. 22.LaMonte M J, Wactawski-Wende J, Larson J C, Mai X, Robbins J C. (2019) Association of physical activity and fracture risk among postmenopausal women. , JAMA Network Open 2(10), 1914084.
   PubMed·View article·Search at Google Scholar

1. 23.Stone K L, Ewing S K, Ancoli-Israel S, Ensrud K E, Redline S. (2009) Self-reported sleep and nap habits and risk of mortality in a large cohort of older women. , Journal of the American Geriatric Society 57(4), 604-611.
   View article·Search at Google Scholar

1. 24.Avidan A Y, Fries B E, James M L, Szafara K L, Wright G T. (2005) Insomnia and hypnotic use, recorded in the minimum data set, as predictors of falls and hip fractures in Michigan nursing homes. , Journal of the American Geriatric Society 53(6), 955-62.
   View article·Search at Google Scholar

1. 25.Tsur A, Shakeer N, Segal Z, Itah D, Eluz D. (2017) Extrinsic and intrinsic factors for falls that caused hip fracture. , Harefuah 156(5), 294-297.
   Search at Google Scholar

1. 26.Rogers T S, Blackwell T L, Lane N E, Tranah G, Orwoll E S. (2017) Rest-activity patterns and falls and fractures in older men. , Osteoporosis International 28(4), 1313-1322.
   View article·Search at Google Scholar

1. 27.Holmberg A H, Johnell O, Nilsson P M, Nilsson J A, Berglund G. (2005) Risk factors for hip fractures in a middle-aged population: A study of 33,000 men and women. , Osteoporosis International 16(12), 2185-2194.
   View article·Search at Google Scholar

1. 28.Kulakci Altintas H, Korkmaz Aslan G. (2019) Incidence of falls among community-dwelling older adults in Turkey and its relationship with pain and insomnia. , International Journal of Nursing 25(5).
   View article·Search at Google Scholar

1. 29.Kanis J, Johnell O, Gullberg B, Allander E, Elfors L. (1999) Risk factors for hip fracture in men from southern. Europe: The MEDOS study. Mediterranean Osteoporosis Study. Osteoporosis International 9(1), 45-54.
   View article·Search at Google Scholar

1. 30.Yoshimura N, Suzuki T, Hosoi T, Orimo H. (2005) Epidemiology of hip fracture in Japan: incidence and risk factors. , Journal of Bone Mineral Metabolism 23, 78-80.
   View article·Search at Google Scholar

1. 31.Lucassen E A, R de Mutsert, S le Cessie, Appelman-Dijkstra N M, Rosendaal F R. (2017) Poor sleep quality and later sleep timing are risk factors for osteopenia and sarcopenia in middle- aged men and women: The NEO study. PLoS One. 12(5), 0176685.
   PubMed·View article·Search at Google Scholar

1. 32.Treves N, Perlman A, Kolenberg Geron L, Asaly A. (2018) Z-drugs and risk for falls and fractures in older adults-a systematic review and meta-analysis. , Age and Ageing 47(2), 201-208.
   View article·Search at Google Scholar

1. 33.Wu L, Sun D. (2017) Sleep duration and falls: A systemic review and meta-analysis of observational studies. , Journal of Sleep Research 26(3), 293-301.
   View article·Search at Google Scholar

1. 34.Widera E. (2013) What's to blame for falls and fractures? Poor sleep or the sleeping medication?. , JAMA Internal Medicine 173(9), 761-762.
   View article·Search at Google Scholar

1. 35.Haentjens P, Magaziner J, Colón-Emeric C S, Vanderschueren D, Milisen K. (2010) Meta-analysis: excess mortality after hip fracture among older women and men. , Annals of Internal Medicine 152(6), 380-390.
   View article·Search at Google Scholar

1. 36.Min Y, Slattum P W. (2018) Poor sleep and risk of falls in community-dwelling older adults: A systematic review. , Journal of Applied Gerontology 37(9), 1059-1084.
   Search at Google Scholar