Management of Sleep-Wake Disturbances Comorbid With Cancer

Article

In both primary care and oncology settings, screening patients for sleep-wake disturbances comorbid with cancer and their daytime consequences can reduce the economic burden of untreated sleep problems.

Oncology (Williston Park). 31(8):610–617.

Figure. Simplified Algorithm for Assessment and Treatment of Sleep-Wake Disturbances Comorbid With Cancer

Table 1. Instruments to Measure Sleep Disturbance in Cancer Patients

Table 2. Guide to Selecting Medications for Treating Sleep-Wake Disturbances

It is critical that clinicians and healthcare systems adopt routine screening and affordable interventions to reduce chronic insomnia and improve the quality of life in cancer patients and survivors. We provide expert clinical advice on how to manage sleep-wake disturbances that occur comorbidly with cancer. Our discussion focuses on the etiology, screening, and assessment of sleep-wake disturbances, and on both nonpharmacologic and pharmacologic interventions to manage sleep disturbances, insomnia, and sleep-related breathing disorders. We share a simplified sleep management algorithm based on evidence-based guidelines and resources from the National Cancer Institute, National Comprehensive Cancer Network, and Oncology Nursing Society, as well as case studies that illustrate how oncology professionals can use the algorithm. Finally, we describe ways to strengthen the partnership between clinicians and patients in the management of sleep-wake disorders and related symptoms.

Introduction

Despite notable improvements over the last few decades in the efficacy, tolerability, and survival outcomes of cancer therapy, a diagnosis of cancer still causes patients a significant degree of emotional distress.[1] A statistical analysis of ratings and responses made by 1,205 cancer outpatients using the National Comprehensive Cancer Network (NCCN) Distress Thermometer and Problem List identified sleep problems as one of the top five risk factors for distress (other common factors include financial problems, worry, nervousness, and physical difficulties with “getting around”).[2] Patients can experience sleep disruption or sleep-wake disturbances during cancer treatment, for a long time after completing treatment, and even prior to the diagnosis and initial treatment of cancer. A 2017 study of 219 women with breast cancer in Nebraska, for example, found that even before starting chemotherapy, patients reported a cluster of symptoms that included sleep disturbances, anxiety, concerns about appearance, and difficulty concentrating.[3] Although sleep-wake disturbances are common throughout the cancer trajectory, they continue to be underdiagnosed and undertreated.[4]

Consequences of acute and chronic untreated sleep-wake disturbances in individuals with and without cancer include daytime fatigue, irritable mood, and cognitive impairment. When these conditions persist, they may have a negative impact on a person’s social life, daily function at work and at home, and quality of life. In the general population, persistent insomnia has been associated with work absences, life-threatening motor vehicle and work-site accidents, and psychiatric and cardiovascular disorders.[5] Importantly, the economic burden of untreated insomnia is much higher than the costs associated with treating insomnia. For example, in a randomly selected sample of 948 adults in Canada, 76% of all reported insomnia-related expenses resulted from work absences and reduced productivity.[6] Since cancer survivors often depend on employment for economic survival and insurance benefits, access to effective treatments for sleep-wake disturbances, insomnia, and sleep disorders is critical. The personal and societal burden of chronic sleep-wake disturbances, especially in people with cancer, needs to be addressed. To that end, this article describes the etiology, screening, and assessment of sleep-wake disturbances; outlines pharmacologic and nonpharmacologic interventions to manage sleep-wake disturbances; provides expert clinical advice on managing sleep-wake disturbances that occur in the context of cancer; and presents a simplified, user-friendly sleep management algorithm (see Figure).

There is a lack of consistency in the terms and definitions used to describe “sleep disturbances.” Although the terms sleep disorder, acute and chronic insomnia, and sleep-wake disturbance are often used interchangeably, there are distinctions between them. Sleep disorders comprise nearly 100 diagnostic entities described in the International Classification of Sleep Disorders diagnostic and coding manual (third edition, ICSD-3)[5] and the Diagnostic and Statistical Manual of Mental Disorders (fifth edition, DSM-5).[7] The most common sleep disorders diagnosed in primary care and oncology populations include chronic insomnia, sleep-disordered breathing (such as obstructive sleep apnea [OSA]), movement disorders (such as restless legs syndrome), and circadian rhythm disorders.[8] Insomnia is defined by the ICSD-3 as persistent difficulty with sleep initiation, maintenance, duration, or quality accompanied by some form of daytime impairment, which occurs despite adequate opportunity for sleep. Insomnia is considered chronic if these problems persist for 3 or more nights per week for at least 3 months; and acute if they have been occurring for less than 3 months. The term sleep-wake disturbances is broader, encompassing perceived or actual alterations in nighttime sleep (quality and duration), with subsequent daytime impairment, without a diagnosis by a provider.[9] Although sleep-wake disturbances often present with the usual features of insomnia-such as difficulty falling asleep (sleep initiation/latency), difficulty staying asleep (sleep maintenance), not feeling restored or refreshed on awakening, and daytime dysfunction-they also include circadian changes, sleep fragmentation, and other sleep alterations. In clinical practice, distinguishing between sleep-wake disturbances and insomnia is less important than identifying the actual sleep disorder and treating it appropriately. It is estimated that 30% to 60% of adults with cancer experience sleep-wake disturbances during diagnosis, treatment, and survivorship.[10]

Maria is a 63-year-old white woman with stage II, estrogen receptor–positive, progesterone receptor–positive, human epidermal growth factor receptor 2–negative breast cancer. Following a lumpectomy with sentinel lymph node biopsy, she completed chemotherapy and radiation therapy, and recently started treatment with an aromatase inhibitor (AI). She works part-time as a receptionist. She presents with an irregular sleep schedule; complaints of difficulty falling asleep; and more than six awakenings per night due to AI-related hot flashes, aches, and pains. The results of her physical examination are unremarkable and her physical status is good. She reports severe fatigue (7 on a scale of 0 to 10) and experiences daytime sleepiness that leads to afternoon naps 3 to 5 days per week. She has a history of anxiety and is very worried about cancer recurrence.

APPLICATION OF THE ALGORITHMStep 1: Screen – Yes.Step 2: No.Step 3: Her Insomnia Severity Index (ISI) score is 16 (due to irregular sleep schedule, hot flashes, anxiety, fatigue, and pain).Step 4: Focus on regular sleep schedule; better sleep environment; and management of hot flashes, aches, and pain.Step 5: Exercise program and mindfulness-based stress reduction strategies to reduce anxiety; short-term zolpidem tartrate at 5 mg PRN.Step 6: Repeat assessment at 12 weeks: ISI = 10; patient rates fatigue and anxiety as moderate (5 on a scale of 0 to 10). Continue to assess; sleep medication not renewed.

The etiology of and risk factors for sleep-wake disturbances comorbid with cancer are numerous, and these conditions often exacerbate prior sleep issues. Sleep-wake disturbances are linked to tumor pathology, advanced stage of cancer, treatments, adjunct medications, environmental factors, psychosocial disturbances, and comorbid medical conditions.[7,11,12] Cancer treatments (chemotherapy, radiation, surgery, biologic agents, hormonal agents, molecularly targeted agents) have sleep-stealing adverse effects and can alter levels of inflammatory cytokines or disrupt circadian rhythms and sleep-wake patterns.[4] Cancer treatments and medications with sedative or stimulant properties (opioids, anxiolytics, anti-emetics, antidepressants, corticosteroids) disrupt sleep latency and maintenance.[13,14] Symptoms related to cancer or its treatment (pain, dyspnea, hot flashes, nausea, diarrhea) and psychological distress (depression, anxiety, and mood alterations) can negatively impact sleep quality and duration.[15]

It is unclear whether specific types of cancer tend to be associated with sleep-wake disturbances. In some studies, the prevalence of sleep-wake disturbances is greatest in patients with breast cancer, compared with other cancer types.[16] OSA has been associated with head and neck cancer.[17] Prostate cancer survivors treated with radiotherapy may experience sleep-wake disturbances resulting from urinary frequency and urgency.[18]

Risk factors for insomnia are categorized as predisposing, precipitating, and perpetuating in Spielman’s “3P” model of insomnia.[19] Predisposing factors are enduring psychological or biological traits that increase the likelihood of developing sleep-wake disturbances during the cancer experience. Predisposing factors include advanced age, female sex, an anxiety-prone personality, a family or personal history of insomnia and/or psychiatric disorder, and genetic characteristics. Precipitating factors are life events and medical, psychological, and environmental factors that trigger insomnia.These include anxiety related to the cancer diagnosis; treatment-related effects of chemotherapy, radiation, and anti-estrogen therapy; and specific side effects/conditions that result in disrupted circadian rhythms, hospitalization, and menopausal symptoms.[4] Perpetuating factors are maladaptive behaviors and beliefs that patients feel help them to cope with sleep difficulties. Detrimental behaviors include spending extended time in bed, taking frequent and long naps, following an irregular sleep schedule, and being physically inactive. Beliefs such as fear of sleeplessness and worries about daytime consequences of poor sleep may delay sleep onset and cause frequent, prolonged awakenings.

How Do We Screen for and Assess Sleep-Wake Disturbances?

Sleep-wake disturbances are recognized through patients’ subjective complaints of insufficient quality or duration of sleep. In addition, patients with sleep disorders such as OSA present with observable signs, such as snoring and apneic episodes during sleep. Prominent groups, including the National Cancer Institute (NCI),[20] NCCN,[21] the Oncology Nursing Society (ONS, in a Putting Evidence into Practice [PEP] resource),[22] and the pan-Canadian expert panel[23] disseminate evidence-based guidelines and resources for screening, assessment, and treatment of sleep-wake disturbances in patients with cancer. Despite the pervasiveness of sleep-wake disturbances and the availability of practice guidelines aimed at addressing symptoms, research suggests that provider communication, assessment, and treatment of sleep-wake disturbances are suboptimal.[24-26] Patient, provider, and system-related barriers hamper the translation of the relevant guidelines into practice.[27] The barriers are similar to issues that impede implemention of guidelines for management of cancer-related fatigue.[28] They include patients’ attitudes and beliefs, clinicians’ tendency to prescribe medications due to a lack of familiarity with and capacity to provide behavioral interventions, and the lack of access to reimbursement and sleep specialists.

Step 1 of the simplified algorithm (Figure)[21] is to identify sleep-wake disturbances in patients with cancer using three brief and standardized screening questions; these need to be asked at regular intervals and when changes occur in the patient’s clinical status. Step 2 is to detect sleep disorders (eg, OSA, restless legs syndrome, hypersomnia) using self-report instruments (Table 1). A referral to a sleep specialist is indicated when a sleep disorder is suspected. Step 3 is a focused assessment. Because of its established use in cancer populations, we suggest using the Insomnia Severity Index (ISI)[29] to determine the severity of sleep-wake disturbances. Identification of treatable risk factors such as comorbidities, medications, symptoms, and irregular sleep-wake patterns is a high priority. Controlling comorbidities and lowering the doses of medications that have stimulating or sedating side effects (eg, corticosteroids, opiates, antidepressants, anti-emetics, antihistamines) may provide immediate benefits. Clinicians need to monitor and treat concurrent symptoms such as pain, fatigue, and depression.

How Do We Treat Sleep-Wake Disturbances That Are Comorbid With Cancer?

Research investigating interventions to treat sleep-wake disturbances that are comorbid with cancer has advanced steadily in the last two decades. Step 4 of the algorithm (see Figure) outlines sleep hygiene (SH) education that is fundamental knowledge for all patients (ISI = 0 to 28). If a patient’s ISI score is ≤ 14, then Step 5 is skipped and a follow-up assessment is scheduled in 12 weeks (Step 6). If a patient’s ISI score is ≥ 15, then selection of nonpharmacologic and/or pharmacologic interventions is indicated (Step 5). The clinicians collaborates with the patient to select an intervention categorized as “recommended for practice” or “likely to be effective” by ONS PEP experts, in addition to SH education.[21-23] Step 6 is a follow-up assessment 12 weeks later or if a change occurs in the patient’s condition.

Tom is a 58-year-old African-American man with stage III colon cancer treated with a colon resection and chemotherapy. He has a history of poor sleep, excessive daytime sleepiness, and fatigue (6 on a scale of 0 to 10) that has interfered with his work at a manufacturing plant and with his social life. He has been overweight throughout adulthood. His wife notes his loud snoring and frequent gasps at night, which have worsened since he started treatment with a hypnotic drug after surgery.

APPLICATION OF THE ALGORITHMStep 1: Screen – Yes.Step 2: His STOP-Bang score is 6; yes. He is referred to a sleep specialist and diagnosed with obstructive sleep apnea; he is started on continuous positive airway pressure (CPAP) treatment and his hypnotic is tapered.Step 3: His Insomnia Severity Index (ISI) score is 11, due largely to a history of poor sleep.Step 4: Emphasis on regular sleep schedule, routine exercise, and healthy eating.Step 5: Assessment at 12 weeks indicates CPAP is improving sleep at night, with better daytime function and fatigue. ISI = 8; fatigue is rated as mild (3 on a scale of 0 to 10). Continue to reassess the patient, especially when his schedule changes upon his return to work.

Patients with cancer who are experiencing sleep-wake disturbances may benefit from treatments that were originally developed for and tested in adults without cancer. Several meta-analyses and systematic reviews have examined the efficacy of nonpharmacologic[4,30,31] and pharmacologic[32] interventions to improve sleep-wake disturbances occurring comorbidly with cancer. The ONS PEP program uses standardized criteria to conduct ongoing analyses of research evidence for a variety of sleep interventions. ONS PEP experts have concluded that cognitive-behavioral interventions or approaches (CBI/A) for insomnia have strong and consistent evidence to supports their recommendation for clinical use.[22] CBI/A is a multicomponent therapy aimed at changing detrimental sleep-related thoughts and behaviors. Although more time consuming than administering medication, CBI/A is well received by patients and produces sustained improvements in both sleep quality and duration.[33] Standard components of CBI/A include sleep restriction, stimulus control, SH education, and cognitive therapy, with or without relaxation.[33,34] These components reduce the hyperarousal and other factors that perpetuate sleep-wake disturbances-by modifying sleep schedules, habits, and dysfunctional misconceptions. Combining CBI/A with medications can optimize outcomes, although there is scant evidence to guide the integration of these approaches into clinical practice.[33]

The ONS-PEP category of “likely to be effective” includes exercise and mindfulness-based stress reduction (MBSR).[22] Exercise is characterized by “FITT,” or frequency, intensity, time, and type.[35] Exercise interventions have improved sleep in patients both during and after cancer treatments.[36] Guidelines for interventions to improve sleep in cancer patients with normal functional status are similar to those used in healthy populations.[37] Aerobic exercise maintains and/or improves mental and emotional health in stressful times and strengthens 24-hour circadian activity rhythms, a factor associated with longer survival in patients with advanced cancer.[38] MBSR is “likely to be effective” in improving cancer-related sleep-wake disturbances[22] and may be particularly helpful in patients with anxiety, but more evidence is needed from large, well-designed studies.

Sedative/hypnotic medications may be beneficial as short-term strategies to treat sleep-wake disturbances and often are used in conjunction with SH and other nonpharmacologic strategies that take longer to show benefits. Table 2 synthesizes information from NCI[20] and NCCN[21] about sedative/hypnotic medications approved by the US Food and Drug Administration to treat sleep-wake disturbances. Selection of a sedative/hypnotic agent needs to be based on the type of sleep problem encountered. Short-acting agents are preferred for sleep initiation, and long-acting agents are used for sleep maintenance. Comorbid conditions such as anxiety and depression also should be considered. The clinician’s decision to prescribe sleep medication must be made carefully; both the patient and caregiver need to be aware of potential adverse effects, drug-drug interactions, long-term implications, and safety issues associated with a particular agent.

The preferred classes of prescription drugs for short-term use (< 7 days) by patients with sleep-wake disturbances are benzodiazepines and nonbenzodiazepine benzodiazepine receptor agonists. Hypnotics and sedatives can create a hang-over effect upon awakening and may result in reduced memory and performance, leading to impaired daytime functioning. This effect also occurs with over-the-counter sleep aids containing antihistamines. Other potentially serious adverse effects of sedative/hypnotic medications that should be discussed with patients and caregivers include complex sleep-related behaviors such as sleep-driving, worsening of depression, and psychological and/or physical dependence. Sleep experts recommend starting medications at low doses, monitoring patients closely for side effects, and tapering the drugs slowly to prevent withdrawal symptoms and rebound insomnia.[39] The use of herbal sleep aids is strongly discouraged due to a lack of information about drug-drug interactions.

Two clinical scenarios (case studies) show how the algorithm (Figure) is applied in the management of patients with cancer and comorbid sleep-wake disturbances.

Discussion/Conclusion

KEY POINTS

  • One-third to one-half of adult patients with cancer self-report problems with sleep duration and quality.
  • Screening and focused assessment for sleep-wake disturbances need to be integrated into oncology clinical care.
  • Access to diagnosis and treatment of sleeping disorders is essential to reduce long-term negative outcomes.
  • For cancer patients with insomnia and sleep-wake disturbances, pharmacologic interventions are for short-term use. Evidence-based practice guidelines recommend nonpharmacologic interventions for long-term use and best outcomes.

NCCN survivorship guidelines on sleep-wake disturbances were released in 2015; ONS PEP reviewers rated interventions as “effectiveness established” and “likely to be effective,” and disseminated this information online.[21,22] Patient, clinician, and system-level resources need to be developed for widespread implementation and adoption of guidelines for the management of sleep-wake disturbances in practice settings. There is tension in busy oncology clinics between delivery of cancer treatment and supportive care such as screening and management of sleep-wake disturbances. NCI PDQ[40] is an example of a resource for patients.

In both primary care and oncology settings, screening patients for sleep-wake disturbances comorbid with cancer and their daytime consequences can reduce the economic burden of untreated sleep problems. Clinicians and systems need to value the electronic medical record and dedicate its use to tracking screening methods, treatments prescribed, and outcomes for patients with sleep-wake disturbances. Referrals, SH education, and evidence-based interventions need to be readily available to patients-and performed by qualified clinicians. Treatment is most likely to be successful when it is tailored to the individual and focuses on specific physiologic and behavioral factors. Survivorship care plans also need to address this issue. Like nutrition and exercise, resources to address difficulties with sleep need to be included in public health initiatives.

Financial Disclosure:The authors have no significant financial interest in or other relationship with the manufacturer of any product or provider of any service mentioned in this article.

Acknowledgment:We thank Dilorom Djalilova, BSN, BA for her assistance in preparing this manuscript.

References:

1. Siegel RL, Miller KD, Jemal A. Cancer statistics, 2016. CA Cancer J Clin. 2016;66:7-30.

2. VanHoose L, Black LL, Doty K et al. An analysis of the distress thermometer problem list and distress in patients with cancer. Support Care Cancer. 2015;23:1225-32.

3. Albusoul RM, Berger AM, Gay CL, et al. Symptom clusters change over time in women receiving adjuvant chemotherapy for breast cancer. J Pain Symptom Manage. 2017; 53:880-6.

4. Bower JE, Ganz PA, Irwin MR, et al. Inflammation and behavioral symptoms after breast cancer treatment: do fatigue, depression, and sleep disturbance share a common underlying mechanism? J Clin Oncol. 2011;29:3517-22.

5. American Academy of Sleep Medicine. International classification of sleep disorders. 3rd Edition. American Academy of Sleep Medicine, Darien, IL; 2014.

6. Daley M, Morin C, LeBlanc M, et al. The economic burden of insomnia: direct and indirect costs for individuals with insomnia syndrome, insomnia symptoms, and good sleepers. Sleep. 2009;32:55-64.

7. American Psychiatric Association. Diagnostic and statistical manual of mental disorders. American Psychatric Publishing, Arlington, VA; 2013.

8. Sateia MJ, Lang BJ. Sleep and cancer: recent developments. Curr Oncol Rep. 2008;10:309-18.

9. Berger AM, Desaulniers G, Matthews EE et al. Sleep wake disturbances. In: Irwin M, Johnson J (editors). Putting evidence into practice: a pocket guide to cancer symptom management. Oncology Nursing Society, Pittsburgh, PA; 2014; pp 255-267.

10. Savard J, Ivers H, Savard MH et al. Cancer treatments and their side effects are associated with aggravation of insomnia: results of a longitudinal study. Cancer. 2015;121:1703-11.

11. Savard J, Morin C. Insomnia in the context of cancer: a review of a neglected problem. J Clin Oncol. 2001;19:895-908.

12. Savard J, Simard S, Blanchet J, et al. Prevalence, clinical characteristics, and risk factors for insomnia in the context of breast cancer. Sleep. 2001;24:583-590.

13. Matthews EE, Tanner JM, Dumont NA. Sleep disturbances in acutely ill patients with cancer. Crit Care Nurs Clin North Am. 2016;28:253-68.

14. Galiano-Castillo N, Cantarero-Villanueva I, Fernandez-Lao C, et al. Telehealth system: a randomized controlled trial evaluating the impact of an internet-based exercise intervention on quality of life, pain, muscle strength, and fatigue in breast cancer survivors. Cancer. 2016;122:3166-74.

15. Mercadante S, Adile C, Ferrera P et al. Sleep disturbances in advanced cancer patients admitted to a supportive/palliative care unit. Support Care Cancer. 2017;25:1301-6.

16. Palesh O, Roscoe J, Mustian KM, et al. Prevalence, demographics, and psychological associations of sleep disruption in patients with cancer: University of Rochester Cancer Center-Community Clinical Oncology Program. J Clin Oncol. 2010;28:292-8.

17. Zhou J, Jolly S. Obstructive sleep apnea and fatigue in head and neck cancer patients. Am J Clin Oncol. 2015;38:411-4.

18. Garrett K, Dhruva A, Koetters T, et al. Differences in sleep disturbance and fatigue between patients with breast and prostate cancer at the initiation of radiation therapy. J Pain Symptom Manage. 2011;42:239-50.

19. Spielman AJ, Glovinsky PB. A conceptual framework of insomnia for primary care practitioners: predisposing, precipitating and perpetuating factors. Sleep Medicine Alert. 2004;9.1:1-6.

20. National Cancer Institute. Sleep disorders (PDQ®)- Health Professional Version. https://www.cancer.gov/about-cancer/treatment/side-effects/sleep-disorders-hp-pdq#cit/section_4.30. Accessed July 24, 2017.

21. National Comprehensive Cancer Network. NCCN Clinical Practice Guidelines in Oncology Survivorship. Version 1.2017. https://www.nccn.org/professionals/physician_gls/pdf/survivorship.pdf. Accessed July 24, 2017. Accessed July 24, 2017.

22. Oncology Nursing Society Putting Evidence into Practice. Sleep-wake disturbances. https://www.ons.org/practice-resources/pep/sleep-wake-disturbances.

23. Howell D, Keller-Olaman S, Oliver TK, et al. A pan-Canadian practice guideline and algorithm: screening, assessment, and supportive care of adults with cancer-related fatigue. Curr Oncol. 2013;20:e233-e246.

24. Siefert ML, Hong F, Valcarce B, et al. Patient and clinician communication of self-reported insomnia during ambulatory cancer care clinic visits. Cancer Nurs. 2014;37:E51-E59.

25. Pachman DR, Barton DL, Swetz KM, et al. Troublesome symptoms in cancer survivors: fatigue, insomnia, neuropathy, and pain. J Clin Oncol. 2012;30:3687-96.

26. Morin CM. Cognitive behavioral therapy for chronic insomnia: state of the science versus current clinical practices. Ann Intern Med. 2015;163:236-7.

27. Sivertsen B, Vedaa Ø, Nordgreen T. The future of insomnia treatment-the challenge of implementation. Sleep. 2013;36:303-4.

28. Berger AM, Mitchell SA, Jacobsen PB, et al. Screening, evaluation, and management of cancer-related fatigue: ready for implementation to practice? CA Cancer J Clin. 2015;65:190-211.

29. Savard M, Savard J, Simard S, et al. Empirical validation of the Insomnia Severity Index in cancer patients. Psychooncology. 2005;14:429-41.

30. Garland SN, Johnson JA, Savard J, et al. Sleeping well with cancer: a systematic review of cognitive behavioral therapy for insomnia in cancer patients. Neuropsychiatr Dis Treat. 2014;10:1113-24.

31. Langford DJ, Lee K, Miaskowski C. Sleep disturbance interventions in oncology patients and family caregivers: a comprehensive review and meta-analysis. Sleep Med Rev. 2012;16:397-414.

32. Sateia MJ, Buysse D, Krystal AD, et al. Clinical practice guideline for the pharmacologic treatment of chronic insomnia in adults: an American Academy of Sleep Medicine clinical practice guideline. J Clin Sleep Med. 2016;12:307-9.

33. Morin CM, Benca R. Chronic insomnia. Lancet. 2012;379:1129-41.

34. Edinger JD, Carney CE. Overcoming insomnia: a cognitive-behavioral therapy approach, therapist guide. 2nd Ed. Oxford University Press, New York; 2014.

35. American Council on Exercise. ACE personal trainer manual. American Council on Exercise, San Diego, CA; 2003.

36. Berger AM, Matthews EE. Physical activity for promoting sleep. In: Bernardo LM, Becker BJ (editors). Integrating physical activity into cancer care: an evidence-based approach. Oncology Nursing Society, 2017.

37. Jankowski CM, Matthews EE. Exercise guidelines for adults with cancer: a vital role in survivorship. Clin J Oncol Nurs, 2011;15:683-6.

38. Mormont MC, Waterhouse J, Bleuzen P, et al. Marked 24-h rest/activity rhythms are associated with better quality of life, better response, and longer survival in patients with metastatic colorectal cancer and good performance status. Clin Cancer Res. 2000;6:3038-45.

39. Turner C, Handford ADF, Nicholson AN. Sedation and memory: studies with a histamine H-1 receptor antagonist. J Psychopharmacol. 2006;20:506-17.

40. National Cancer Institute. Sleep disorders (PDQ®)-Patient Version. https://www.cancer.gov/about-cancer/treatment/side-effects/sleep-disorders-pdq. Accessed July 24, 2017.

41. Carney CE, Buysse DJ, Ancoli-Israel S, et al. The consensus sleep diary: standardizing prospective sleep self-monitoring. Sleep. 2012;35:287-302.

42. Morin C. Insomnia. Guilford Press, New York; 1993.

43. Yu L, Buysse DJ, Germain A, et al. Development of short forms from the PROMIS sleep disturbance and Sleep-Related Impairment item banks. Behav Sleep Med. 2011;10:6-24.

44. Johns MW. A new method for measuring daytime sleepiness: the Epworth sleepiness scale. Sleep. 1991;14:540-5.

45. Chung F, Yegneswaran B, Liao P, et al. STOP questionnaire: a tool to screen patients for obstructive sleep apnea. Anesthesiology. 2008;108:812-21.

46. Buysse D, Reynolds CF 3rd, Monk TH, et al. The Pittsburgh Sleep Quality Index: a new instrument for psychiatric practice and research. Psychiatry Res. 1989.28:193-213.

Related Videos
Acupuncture
Related Content