Sundowning

Sundowning, or sundown syndrome,[1] is a neurological phenomenon associated with increased confusion and restlessness in people with delirium or some form of dementia. It is most commonly associated with Alzheimer's disease but also found in those with other forms of dementia. The term "sundowning" was coined by nurse Lois K. Evans in 1987 due to the timing of the person's increased confusion beginning in the late afternoon and early evening.[2][3] For people with sundown syndrome, a multitude of behavioral problems begin to occur and are associated with long term adverse outcomes.[4][5][6][7] Sundowning seems to occur more frequently during the middle stages of Alzheimer's disease and mixed dementia and seems to subside with the progression of the person's dementia.[4][5] People are generally able to understand that this behavioral pattern is abnormal. Research shows that 20–45% of people with Alzheimer's will experience some variation of sundowning confusion.[4][8] However, despite lack of an official diagnosis of sundown syndrome in the Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition (DSM-5), there is currently a wide range of reported prevalence.[2]

Relevance

The following social, economic, and physiological adverse outcomes are correlated with individuals affected by sundowning and their caregivers:

  • Long term admission to psychiatric care facilities.[7]
  • Prolonged hospital admission with recurrent visits that increase financial burden.[7]
  • Steeper cognitive decline in Alzheimer's disease.[7]
  • Decreased quality of life.[9]
  • Increased stress and burnout of caregivers due to the timing of sundowning symptom onset.[7]

Symptoms

Symptoms are not limited to but may include:

  • Increased general confusion as natural light begins to fade and increased shadows appear.[4][10]
  • Agitation,[10] and mood swings. Individuals may become fairly frustrated with their own confusion as well as aggravated by noise. Individuals being found yelling and becoming increasingly upset with their caregiver is not uncommon.[4][5]
  • Mental and physical fatigue increase with the setting of the sun. This fatigue can play a role in the individual's irritability.[4][5]
  • An individual may experience an increase in their restlessness while trying to sleep. Restlessness can often lead to pacing and or wandering which can be potentially harmful for an individual in a confused state.[5]
  • Hallucinations (visual and/or auditory) and paranoia can cause increased anxiety and resistance to care.[7]

Causes

While the specific causes of sundowning have not been empirically proven, some evidence suggests that circadian rhythm disruption increases sundowning behaviors.[11] In humans, sunset triggers a biochemical cascade that involves a reduction of dopamine levels and a shift towards melatonin production as the body prepares for sleep. In individuals with dementia, melatonin production may be decreased,[1] which may interrupt other neurotransmitter systems.

Other causes or precipitating factors that may lead to sundown syndrome may include hormonal changes, disturbances in REM sleep, individual and/or caregiver fatigue, inappropriate medication use, or being predisposed to behavioral disorders from chronic neurological diseases.[12] Resources in an institution's environment can also play a role as a symptom trigger. A reduced number of staff in the evening can attribute to more unmet needs and a lower threshold for agitation for individuals with sundown syndrome.[13]

Sundowning should be distinguished from delirium, and could be presumed to be delirium when it appears as a new behavioral pattern until a causal link between sunset and behavioral disturbance is established.[14] People with established sundowning and no obvious medical illness may be suffering from impaired circadian regulation, or may be affected by nocturnal aspects of their institutional environment such as shift changes, increased noise, or reduced staffing (which leads to fewer opportunities for social interaction). Delirium is generally an acute event that can span over a time period of hours to days.[1]

Disturbances in circadian rhythms

It is thought that with the development of plaques and tangles associated with Alzheimer's disease there might be a disruption within the suprachiasmatic nucleus (SCN).[6] The SCN is located in the hypothalamus and is associated with regulating sleep patterns by maintaining circadian rhythms, which are strongly associated with external light and dark cues. A disruption within the suprachiasmatic nucleus would seem to be an area that could cause the types of confusion that are seen in sundowning. However, finding evidence for this is difficult, as an autopsy is needed to analyze this disruption properly. By the time a person experiencing Alzheimer's has died, they have usually surpassed the level of brain damage (and associated dementia) that would be associated with sundowning. This hypothesis is, however, supported by the effectiveness of melatonin, a natural hormone, to decrease behavioral symptoms associated with sundowning. The pineal gland produces melatonin when signaled by the SCN to help maintain circadian rhythms. Melatonin supplementation can be administered to older adults as their natural hormonal production decreases over time.[12]

Another cause can be oral problems, like tooth decay with pain. When the time a meal is served comes close, a person can show symptoms of sundowning. This cause is not widely recognized;[15] however, anticipation of food can increase dopamine levels, and dopamine and melatonin have an antagonistic relationship.

Serotonin has also been observed to potentially have a key role in the regulation of circadian rhythm as research has shown that serotonergic agonism in the SCN results in "phase shifts" in portions of the light-dark cycle.[2][16][17] In addition to the effects on circadian rhythm, serotonin is also known to be involved in the regulation of aggression.[2] Due to the serotonergic signaling deficiencies of Alzheimer's disease, it has been commonly reported that deficiencies in serotonin have been associated with worsening circadian rhythm or aggression.[2][18]

Risk factors

Elderly people often experience multiple comorbidities that may contribute to the phenomenon of sundowning syndrome through neurodegeneration.

Treatment

Treatment of sundown syndrome may vary based upon when agitated behavior is observed throughout the day.[21]

Non-pharmacological treatments

  • If possible, a consistent sleeping schedule and daily routine that a patient is comfortable with can reduce confusion and agitation.[4]
  • If the person's condition permits, having increased daily activity incorporated into their schedule can help promote an earlier bed time and need for sleep.[4][5]
  • Check for over-napping. People may wish to take naps during the day, but unintentionally getting too much sleep will affect nighttime sleep. Physical activity is a treatment for Alzheimer's, and a way to encourage night sleep.[5]
  • Caffeine is a (fast-working) brain stimulant, but should be limited at night if a night's sleep is needed.[4][5][10]
  • Caregivers could try letting people choose their own sleeping arrangements each night, wherever they feel most comfortable sleeping, as well as allow for a dim light to occupy room to alleviate confusion associated with an unfamiliar place.[5]
  • Light therapy can help regulate circadian rhythms. Older adults can struggle to receive consistent sunlight due to bedrest and institutional limitations.[12] Mood and spatial positioning improvements have been noted in peoples experiencing dementia with exposure to indoor light, but evidence is currently inconclusive.[22]
  • Reducing the amount of overwhelming noise in the late afternoon or early evening can help the transition to sleep.[7]
  • Music therapy, aromatherapy, acupressure, psychosocial support, caregiver education, multi-sensory stimulation, and simulated presence therapy are possible treatment pathways, but evidence is currently lacking in clinical practice.[23][24][25]
  • Exercising at consistent times daily has been proposed to improve circadian rhythm and reduce the symptoms of sundown syndrome in people with Alzheimer's and dementia.[2] It has also been observed that people with Alzheimer's walking at morning or afternoon hours had improvements in sundowning symptoms.[2][26]

Pharmacological treatments

  • Some evidence supports the use of melatonin to induce sleep.[6][12] The length of time required for a person to transition from fully awake to asleep has been shown to be more regular in melatonin users. Better memory and more positive emotional states have also been observed in peoples experiencing Alzheimer's disease.[27]
  • Drug classes such as hypnotics, benzodiazepines, acetylcholinesterase inhibitors (AChIs), N-methyl D-aspartic acid antagonists (NMDA), selective serotonin reuptake inhibitors (SSRIs), and sedative antipsychotics have been used to treat sundowning, but their side effects limit their overall effectiveness in a risk versus benefit balance.[12][28] Various side effects in the risk category include increased fall risk, vivid dreams, or nocturnal agitation.[13]

Research directions

There are several pathways in the pipeline for scientists seeking therapeutic options for sundowning syndrome.

  • NADH cytochrome C reductase is an enzyme involved in the synthesis of neuron energy. Stress, hypometabolism, and oxidative damage may decrease physiologic reserve in the elderly and can lead to a decrease in neuron energy production and an increase in neuron damage.[12]
  • Thioredoxin reductase is an antioxidant that neutralizes oxidative free radicals that can cause cell death. The brain is vulnerable to oxidative free radicals because it receives 20% of the human body's oxygen supply. Finding a way to maintain the thioredoxin reductase pathway can decrease plaque formation and SCN degeneration.[12]
  • Inflammatory stress in mouse models can provide a pathway for studying neurodegeneration. It is hypothesized that neurodegeneration has a relationship with inflammatory cytokines such as IL-1β. The role of cytokines in sundowning can improve our understanding of the pathology.[12]
  • Injection of chemogenetic ligands into the eye to stimulate the SCN through the retinohypothalamic tract is another possible treatment for sundown syndrome as a similar strategy has been thought to have potential with regards to therapy for mood-related disorders.[2][29][30]

Controversy

In addition to sundown syndrome not being officially recognized in the DSM-5, there is also the thought that sundown syndrome may be a phenomenon of caretakers' perception of patient agitation in the early afternoon to evening.[2] Some studies have observed sundown syndrome occurring at times other than sunset which may suggest the symptoms associated with sundown syndrome are time-dependent rather than occurring specifically at sundown.[2][31]

References

  1. Khachiyants N, Trinkle D, Son SJ, Kim KY (December 2011). "Sundown syndrome in persons with dementia: an update". Psychiatry Investigation. 8 (4): 275–287. doi:10.4306/pi.2011.8.4.275. PMC 3246134. PMID 22216036.
  2. Todd WD (2020). "Potential Pathways for Circadian Dysfunction and Sundowning-Related Behavioral Aggression in Alzheimer's Disease and Related Dementias". Frontiers in Neuroscience. 14: 910. doi:10.3389/fnins.2020.00910. PMC 7494756. PMID 33013301.
  3. Evans LK (February 1987). "Sundown syndrome in institutionalized elderly". Journal of the American Geriatrics Society. 35 (2): 101–108. doi:10.1111/j.1532-5415.1987.tb01337.x. PMID 3805551. S2CID 21234681.
  4. Smith G (April 28, 2011). "Sundowning: Late-day confusion". mayoclinic.com. Mayo Clinic. Retrieved August 30, 2016.
  5. "Sleeplessness and Sundowning". Alzheimer's Association.
  6. de Jonghe A, Korevaar JC, van Munster BC, de Rooij SE (December 2010). "Effectiveness of melatonin treatment on circadian rhythm disturbances in dementia. Are there implications for delirium? A systematic review". International Journal of Geriatric Psychiatry. 25 (12): 1201–1208. doi:10.1002/gps.2454. PMID 21086534. S2CID 39214881.
  7. Canevelli M, Valletta M, Trebbastoni A, Sarli G, D'Antonio F, Tariciotti L, et al. (December 2016). "Sundowning in Dementia: Clinical Relevance, Pathophysiological Determinants, and Therapeutic Approaches". Frontiers in Medicine. 3: 73. doi:10.3389/fmed.2016.00073. PMC 5187352. PMID 28083535.
  8. "Il demente e la sindrome del tramonto" [The demented and the sunset syndrome]. anzianievita.it (in Italian). April 2, 2014.
  9. Bedrosian TA, Nelson RJ (May 2013). "Sundowning syndrome in aging and dementia: research in mouse models". Experimental Neurology. 243: 67–73. doi:10.1016/j.expneurol.2012.05.005. PMID 22627081. S2CID 14990198.
  10. "Tips for Coping with Sundowning". National Institute on Aging. Retrieved 2021-03-31.
  11. Boronat, Alexandre C.; Ferreira-Maia, Ana Paula; Wang, Yuan-Pang (2019). "Sundown Syndrome in Older Persons: A Scoping Review". Journal of the American Medical Directors Association. 20 (6): 664–671.e5. doi:10.1016/j.jamda.2019.03.001. ISSN 1525-8610. PMID 31043358. S2CID 143423734.
  12. Gnanasekaran G (June 2016). ""Sundowning" as a biological phenomenon: current understandings and future directions: an update". Aging Clinical and Experimental Research. 28 (3): 383–392. doi:10.1007/s40520-015-0431-3. PMID 26243434. S2CID 41480208.
  13. Bachman D, Rabins P (January 2006). ""Sundowning" and other temporally associated agitation states in dementia patients". Annual Review of Medicine. 57 (1): 499–511. doi:10.1146/annurev.med.57.071604.141451. PMID 16409163.
  14. Patti, Laryssa; Gupta, Mohit (2021), "Change In Mental Status", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID 28723002, retrieved 2021-08-02
  15. Scherder E. "Waarom vernietigt vanillevla onze hersenen?" [Why does vanilla custard destroy our brains?]. www.universiteitvannederland.nl.
  16. Daut RA, Fonken LK (July 2019). "Circadian regulation of depression: A role for serotonin". Frontiers in Neuroendocrinology. 54: 100746. doi:10.1016/j.yfrne.2019.04.003. PMC 9826732. PMID 31002895.
  17. Ciarleglio CM, Resuehr HE, McMahon DG (December 2011). "Interactions of the serotonin and circadian systems: nature and nurture in rhythms and blues". Neuroscience. 197: 8–16. doi:10.1016/j.neuroscience.2011.09.036. PMID 21963350. S2CID 16015771.
  18. Chakraborty S, Lennon JC, Malkaram SA, Zeng Y, Fisher DW, Dong H (June 2019). "Serotonergic system, cognition, and BPSD in Alzheimer's disease". Neuroscience Letters. 704: 36–44. doi:10.1016/j.neulet.2019.03.050. PMC 6594906. PMID 30946928.
  19. Carter B, Justin HS, Gulick D, Gamsby JJ (2021-03-26). "The Molecular Clock and Neurodegenerative Disease: A Stressful Time". Frontiers in Molecular Biosciences. 8: 644747. doi:10.3389/fmolb.2021.644747. PMC 8056266. PMID 33889597.
  20. Gallagher-Thompson, Dolores; Brooks, John O.; Bliwise, Donald; Leader, Julie; Yesavage, Jerome A. (1992). "The Relations among Caregiver Stress, "Sundowning" Symptoms, and Cognitive Decline in Alzheimer's Disease". Journal of the American Geriatrics Society. 40 (8): 807–810. doi:10.1111/j.1532-5415.1992.tb01853.x. PMID 1634724. S2CID 19777495.
  21. McGaffigan S, Bliwise DL (January 1997). "The treatment of sundowning. A selective review of pharmacological and nonpharmacological studies". Drugs & Aging. 10 (1): 10–17. doi:10.2165/00002512-199710010-00002. PMID 9111704. S2CID 22395293.
  22. Goudriaan I, van Boekel LC, Verbiest ME, van Hoof J, Luijkx KG (2017). "Dementia Enlightened?! A Systematic Literature Review of the Influence of Indoor Environmental Light on the Health of Older Persons with Dementia in Long-Term Care Facilities". Clinical Interventions in Aging. 16: 909–937. doi:10.2147/CIA.S297865. PMC 8163627. PMID 34079240.
  23. Ferrazzoli D, Sica F, Sancesario G (June 2013). "Sundowning syndrome: a possible marker of frailty in Alzheimer's disease?". CNS & Neurological Disorders Drug Targets. 12 (4): 525–528. doi:10.2174/18715273113129990065. PMID 23574165.
  24. Abraha I, Rimland JM, Trotta FM, Dell'Aquila G, Cruz-Jentoft A, Petrovic M, et al. (March 2017). "Systematic review of systematic reviews of non-pharmacological interventions to treat behavioural disturbances in older patients with dementia. The SENATOR-OnTop series". BMJ Open. 7 (3): e012759. doi:10.1136/bmjopen-2016-012759. PMC 5372076. PMID 28302633.
  25. Patti, Laryssa; Gupta, Mohit (2021), "Change In Mental Status", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID 28723002, retrieved 2021-07-31
  26. Shih YH, Pai MC, Lin HS, Sung PS, Wang JJ (June 2020). "Effects of walking on sundown syndrome in community-dwelling people with Alzheimer's disease". International Journal of Older People Nursing. 15 (2): e12292. doi:10.1111/opn.12292. PMID 31814316. S2CID 208956296.
  27. Cardinali DP, Furio AM, Brusco LI, Liberczuk C (2006). "Melatonin Efficacy to Treat Circadian Alterations of Sleep in Alzheimer's Disease". Sleep and Sleep Disorders. Boston, MA: Springer US. pp. 111–120. doi:10.1007/0-387-27682-3_11. ISBN 978-0-387-27681-6.
  28. Staedt J, Stoppe G (June 2005). "Treatment of rest-activity disorders in dementia and special focus on sundowning". International Journal of Geriatric Psychiatry. 20 (6): 507–511. doi:10.1002/gps.1307. PMID 15920710. S2CID 8941229.
  29. Bowrey HE, James MH, Aston-Jones G (July 2017). "New directions for the treatment of depression: Targeting the photic regulation of arousal and mood (PRAM) pathway". Depression and Anxiety. 34 (7): 588–595. doi:10.1002/da.22635. PMC 5797474. PMID 28489327.
  30. Venner A, Todd WD, Fraigne J, Bowrey H, Eban-Rothschild A, Kaur S, Anaclet C (May 2019). "Newly identified sleep-wake and circadian circuits as potential therapeutic targets". Sleep. 42 (5): zsz023. doi:10.1093/sleep/zsz023. PMC 6519911. PMID 30722061.
  31. Yesavage JA, Friedman L, Ancoli-Israel S, Bliwise D, Singer C, Vitiello MV, et al. (September 2003). "Development of diagnostic criteria for defining sleep disturbance in Alzheimer's disease". Journal of Geriatric Psychiatry and Neurology. 16 (3): 131–139. doi:10.1177/0891988703255684. PMID 12967054. S2CID 38287514.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.