Indian J Palliat Care Home 

Year : 2016  |  Volume : 22  |  Issue : 3  |  Page : 295--300

The efficacy of oral melatonin in improving sleep in cancer patients with insomnia: A randomized double-blind placebo-controlled study

Madhuri S Kurdi, Sindhu Priya Muthukalai 
 Department of Anaesthesiology, Karnataka Institute of Medical Sciences, Hubli, Karnataka, India

Correspondence Address:
Madhuri S Kurdi
Department of Anaesthesiology, Karnataka Institute of Medical Sciences, Hubli, Karnataka


Background: The natural hormone melatonin has sleep inducing properties. Insomnia in cancer patients is common. So far, melatonin has been seldom tried for the improvement of sleep in patients with malignancies. Keeping this in mind, we planned and conducted a double-blind study to test the efficacy of melatonin in promoting sleep in patients with malignancies suffering from insomnia. Objective: To assess the hypnotic efficacy of oral melatonin in cancer patients with insomnia. Materials and Methods: After Ethical Committee approval, 50 patients (age range 20-65 years) from our pain clinic źDQ╗NIVARANEźDQ╗ who met the Diagnostic and Statistical Manual of Mental Disorders 4 th edition criteria for primary insomnia were randomized to receive melatonin 3 mg or placebo at 7 pm orally every day for 14 days from our pharmacist. After 1, 7, 14 days, the patients were reviewed with the Athens insomnia scale oral questionnaire to document the subjective sleep quality. The patients and we, the investigators were blinded to the study drug. Results: There were 2 drop outs (one from each group) as they failed to complete visit on day 14. Significant differences in favor of melatonin treatment were found in clinically relevant improvements in insomnia (46.53%; P = 0.00001 vs. 11.30%; P = 0.1026) There was improvement in sleep from 1 to 7 days (19.91%; P = 0.00001 vs. 0.98%; P = 0.2563). More significant improvements were seen between 7 and 14 days (33.24%; P = 0.00001 vs. 10.42%; P = 0.1469). Conclusion: We conclude that daily intake of oral melatonin 2 h before bedtime improves sleep induction and quality in cancer patients with insomnia.

How to cite this article:
Kurdi MS, Muthukalai SP. The efficacy of oral melatonin in improving sleep in cancer patients with insomnia: A randomized double-blind placebo-controlled study.Indian J Palliat Care 2016;22:295-300

How to cite this URL:
Kurdi MS, Muthukalai SP. The efficacy of oral melatonin in improving sleep in cancer patients with insomnia: A randomized double-blind placebo-controlled study. Indian J Palliat Care [serial online] 2016 [cited 2021 May 10 ];22:295-300
Available from:

Full Text


Sleep is vital to all human functioning and sleep disturbance is a significant problem for cancer patients. [1],[2] The prevalence, type, and severity of sleep complaints in a cancer population have been difficult to judge. The prevalence estimates range from 24% to 95%. [3]

Insomnia is a complaint regarding the quantity, quality, or sleep timing at least 3 times a week for at least 1 month according to the American Psychiatric Association's Diagnostic and Statistical Manual of Mental Disorders 4 th Edition. [4]

The sequels of insomnia include daytime fatigue and reduced alertness, irritability, and impaired concentration and all these symptoms having a major negative impact on the quality of life. [5]

Insomnia can exacerbate cancer-associated medical conditions such as pain, psychiatric comorbidities, fatigue, use of opioids (which could contribute to daytime sedation and sleep-related breathing disorders), and stimulating or alerting drugs. [6]

Insomnia is a frequently overlooked problem in cancer practice, and patients may fail to report it, assuming it to be a normal and temporary reaction to a cancer diagnosis or treatment. [7] The treatment should be multimodal including both nonpharmacological and pharmacological approaches. [8]

Nonpharmacological options include an emphasis on sleep hygiene, and cognitive behavioral interventions; [9] nevertheless; it is better to add medications to nonpharmacological therapy. Drugs commonly used in the management of sleep disturbances include the benzodiazepine (BDZ) group of drugs, BDZ-like drugs such as zolpidem and zaleplon, sedating antidepressants such as amitriptyline and nortriptyline and sedating antihistamines. All these drugs have several associated side effects. Long-term treatment with medication alone is not the optimal treatment strategy for patients with insomnia. It is better combined with the behavior changes to improve sleep patterns. [4]

Melatonin (N-acetyl-5-methoxytryptamine) is an endogenous hormone chemically related to serotonin. It is produced by the pineal gland in the midbrain. Melatonin exhibits both hypnotic and chronobiotic properties and thus has been tried for inducing sleep and treating sleep disorders of children, adults, and elderly people. [6],[10] Melatonin is different from BDZs and their derivatives in that it exerts a promoting effect on sleep by amplifying day/night differences in alertness and sleep quality and displaying a modest sleep inducing effect, quite mild. [11]

With this background, we planned and conducted a study for evaluating the efficacy of oral melatonin in improving sleep in patients with malignancies suffering from insomnia.


We conducted this study over a period of 6 months at our pain and palliative care clinic "NIVARANE" from January to June 2014 after Institutional Ethical Committee approval. Fifty cancer subjects after obtaining consent were selected if they satisfied the inclusion criteria. The inclusion criteria included age between 20 and 65 years, cancer patients with sleep complaints more than a month, any stage and type of cancer and patients who were not on sleep medications for a minimum of 2 weeks. Pregnant/lactating females, mentally impaired patients, patients with a history of psychiatric disorders, mental impairment or on antipsychotic treatment, having language or communication difficulties, other sleep disorders and with liver and renal dysfunction were excluded from the study.

A prospective double-blind study was conducted on 50 patients (n = 25) who were randomly assigned to Group A or B by the fishbowl technique. Patients were given either tablet melatonin 3 mg (Meloset from Aristo pharmaceuticals) or placebo (multivitamin tablets -Supradyn from Abbott Healthcare pharmaceuticals) by our pharmacist. The tablets in both groups were wrapped in similar looking envelopes which were given to the patients. Both the tablets were colored light yellow and similar looking. The patients were instructed to take the tablets every day for 14 days, 2 h before routine bedtime. They were evaluated with the Athens insomnia scale (AIS) oral questionnaire for assessing subjective sleep quality either through phone or in person. Both patient and we (evaluators) were blinded to the drug given by the pharmacist. The identity of the drug group was revealed to us at the end of the study.

The AIS is a self-assessment psychometric instrument designed for quantifying sleep difficulty. It consists of 8 items: The first 5 pertain to sleep induction, awakenings during the night, final awakening, total sleep duration, and sleep quality; while the last 3 refer to well-being, functioning capacity, and sleepiness during the day. The items are measured on 0-3 numeric rating scales. Patients are asked to rate the severity of their insomnia at 0 being "no problem" and 3 being "did not sleep at all." [12]

At a cut-off score of 10, the positive predictive value of the scale in the general population reaches about 90% without the negative predictive value becoming lower than 94%. [13]


After conducting a pilot study, the sample size n = 25 was found to be adequate with respect to improvement in the quality of sleep, [14] with the power of the study being 90% and an alpha error of 5%. The data collected were tabulated using Microsoft Excel worksheet and the data were analyzed using Statistical Package for the Social Sciences version 20.0 Inc., Chicago, IL, US. The parametric data regarding improvement in sleep in the two groups were compared using the paired t-test.

At the end of the study period, the study groups were revealed. Group A belonged to tablet melatonin 3 mg and Group B belonged to the placebo group.

Both groups were comparable in age and sex ratio. There was one drop out in each group. One patient had lost the drug, and one patient did not come for follow-up. 44% of the patients and 40% patients in Group B had stage one cancer in Group A and B, respectively followed by 32% and 36% of the patients belonging to stage 2 cancer respectively. Stage 3 and 4 together comprised of 24% in both groups [Table 1].{Table 1}

Fifty-four percent of the total sample had cancer of head and neck like carcinoma base of tongue, carcinoma larynx, etc., followed by cancer cervix 12%. The remaining 14% of the patients had ovarian, gastrointestinal, breast cancers, and sarcomas.

On comparison of the AIS scores of the two groups in improving sleep at days 1, 7, 14 by paired t-test, there was a significant improvement (P < 0.05) in sleep in patients receiving Group A when taken for 1 week and 14 days when compared to Group B [Table 2].{Table 2}

When the AIS scores of 1 st week, 2 nd week, and through the 14 days period were compared individually it was found that there was a significant improvement (P < 0.05) in sleep in Group A patients in the 1 st week as well as in the 2 nd week and after 14 days of taking the drug when compared to Group B patients. However, the improvements in sleep were highly significant in Group A in the 2 nd week of drug intake (P = 0.00001) [Table 3].{Table 3}

When an intragroup comparison of Group A was done it showed the percentage of changes in the improvement of sleep was 19.91% in the 1 st week, 33.24% in the 2 nd week, and 46.53% throughout the 2 weeks. This improvement in sleep was highly significant (P = 0.00001).

When an intragroup comparison of Group B was done the percentage of change in improvement of sleep was 0.98%, 10.42%, and 11.30% when the drug was taken for the 1 st week, 2 nd week and throughout the 2 weeks period. This improvement was insignificant as the (P > 0.05) [Figure 1].{Figure 1}


Oral melatonin undergoes extensive first pass metabolism with varying bioavailability. It is a highly lipophilic substance with a consequent high volume of distribution. More than 90% of circulating melatonin is cleared by the liver. Exogenous melatonin is rapidly absorbed and peak plasma levels are reached in 60-150 min. The elimination half-life of melatonin is about 12-48 min. Hence, there are minimal residual effects the next morning. Its bioavailability from an oral dose ranges from 10% to 56%. [4],[15]

Circulating melatonin can reach all body tissues and crosses the blood-brain barrier to modulate brain activity. Melatonin has a hypnotic/sedative effect when administered orally. This may be due to its circadian rhythm regulation effect. The sedative effect of melatonin is due to modulation of gamma-aminobutyric acid (GABA A ) receptors in the brain through its action on melatonin receptors (MT1 and MT2). Binding of melatonin to the MT1 receptor appears to affect the GABA A receptor through the G-coupled protein pathway. This enhances the binding of GABA to the GABA A receptor, which is similar to how other drugs such as BDZs exert their anesthetic effects. [16],[17]

Melatonin is available in the form of syrups, capsules, and tablets. The tablets have melatonin doses ranging from 0.3 to 5 mg. An oral dose of melatonin, 3 mg was taken as this preparation was easily available in the market and it is within the safe dose range (a maximum dose of 20 mg has been published in literature). [18] Several researchers [19],[20] have used melatonin tablets in dose ranges from 0.3 mg to 50 mg orally. The drug was administered 2 h prior to routine bedtime in our study like in other studies [14],[21] as the exogenous melatonin when administered is rapidly absorbed and peak plasma levels are reached in 60-150 min. The body levels of melatonin as a naturally occurring hormone follow a circadian course, being stimulated by the evening onset of dim light and suppressed by bright light. The evening rise in melatonin precedes the rise in sleepiness by about 1.5-2 h. [5] The use of BDZs or other hypnotics during our study and in the preceding 2 weeks or five half-lives, whichever was longer, and throughout was prohibited as done in other studies. [22],[23] This was necessary to wash out the residual effects of the hypnotic drugs.

We chose 2 weeks as the period of drug intake. The same period has been chosen by some other researchers. [14] It also allows for synchronization of melatonin levels with the circadian cycle. [22] This probably was also the reason for the highly significant improvement in sleep that was observed when the drug was taken for the entire period of 2 weeks in our study. The Pittsburgh Sleep Quality Index (PSQI) has been used in many studies [14] for the assessment of insomnia. It consists of 19 self-rated questions and five questions rated by the bed partner or room-mate [24] which would have been time-consuming and extensive for the poorly educated patient to comprehend and answer. The daily sleep diary has been used by a few researchers. [14],[23] Unfortunately, a major part of our study population had a poor educational background. Hence, it would have been difficult for them to maintain a sleep diary. Actigraphy has also been used to monitor the sleep in a recent study. [20] Since getting objective monitors was not feasible to us, we could not use them.

Though melatonin has been publicized as a cure for many sleep problems, the literature on its treatment for insomnia in cancer patients is limited. Currently, there is only one study conducted on the effect of melatonin on sleep in cancer patients with insomnia; [20] nonetheless, we have compared our study results with studies on melatonin in the treatment of insomnia in noncancer patients.

Our study results were congruent with the results of the study done by Innominato et al. [20] in breast cancer patients with insomnia. They found that bedtime melatonin was associated with a significant improvement in a marker of objective sleep quality, sleep fragmentation and quantity, subjective sleep, fatigue severity, global quality of life, and social and cognitive functioning scales when given regularly for 2 months. [20] However, they used a higher dose of 5 mg melatonin and used actigraphy for objective sleep monitoring. We used a lower dose of 3 mg and used the AIS, which is a subjective scale for sleep assessment. Studies suggest that a placebo does, in fact, elicit biological and behavioral responses in humans and therefore, the use of a placebo itself can be considered therapeutic and an effective method of treatment. [21]

Our study results agree with the results of the studies done by Wade et al., [14] Haimov et al., [25] who administered oral melatonin in elderly insomniacs and observed significant and clinically meaningful improvements in sleep quality, morning alertness, sleep onset latency and quality of life. However, these studies [14],[25] used prolonged release formulations. We administered single dose tablet formulations of melatonin. A meta-analysis done by Ferracioli-Oda et al. [26] concluded with the same observations along with additional information viz- the effects of melatonin on sleep are modest but do not appear to dissipate with continued melatonin use. Our study did not agree with the results obtained by Almeida Montes et al. [10] who concluded that melatonin did not produce any sleep benefit in elderly insomniacs. It may be because the doses they used were 0.3 mg and 1 mg which were less compared to our study dose.

In addition to sleep induction and maintenance, melatonin produces various effects viz- analgesia, anti-inflammatory and immunological effects, anti-oxidative effects, chronobiosis, and antihypertensive effect. [22] Melatonin lowers the toxicity of chemotherapeutic agents such as cisplatin, etoposide, anthracyclines, and 5-fluorouracil. It reduces the severity of treatment-related adverse events such as myelosuppression, neurotoxicity, nephrotoxicity, and asthenia. It is also effective in the treatment of major depression and has oncostatic properties. [6] All these properties of melatonin could prove to be beneficial in patients suffering from cancer.

We did not observe any adverse effects of melatonin in our patients. Most other researchers [23],[24] too, have not observed significant side effects and considered it to have a relatively benign side-effect profile compared to other agents. [26] It would be apt to note at this juncture that even if adverse effects such as a headache, dizziness, nausea, and vomiting had occurred in our patients, it would have been difficult to attribute them to melatonin intake. These effects commonly occur in cancer patients due to various other reasons.

Our study had several limitations. These include points like the inclusion of all stages of cancer in the study. In advanced stages of cancer, insomnia could be related to pain caused by tumor invasion like mass impinging on nerve roots. Patients in the early stages of cancer may have increased depression, anxiety, and fatigue levels following the diagnosis of cancer leading to insomnia. Depressive mood is the main factor influencing the quality of life. [27] The inclusion of patients suffering from a plethora of cancers was another limitation. The insomnia rates have been found to be variable in different cancer types; nevertheless, breast cancer patients are known to have high insomnia rates possibly because of the disruption of sleep due to increased frequency and severity of hot flashes associated with breast cancer treatment. [28] We could not standardize all these factors in our study. We did not stratify the effects of melatonin on insomnia as improvement in sleep onset and sleep maintenance, but we propose to do this in further studies.

Currently, subjective and objective measures are recommended for measuring sleep-wake disturbances in patients with cancer. Objective sleep monitors such as actigraphy and polysomnography for a more objective sleep measurement were not available to us. We had to thus resort to a subjective scale for sleep assessment.

In cancer populations, the causes of insomnia are multifactorial and include predisposing, precipitating, and perpetuating factors. Predisposing factors include female gender, older age, personal or family history, mood, or anxiety disorders; precipitating factors include cancer treatments that alter levels of inflammatory cytokines or disrupt circadian rhythms, side-effects of cancer treatment, menopausal symptoms, co-occurring symptoms like pain and medications used to manage treatment side-effects, such as corticosteroids; and perpetuating behavioral factors such as excessive daytime sleeping, long-term use of medications, and maladaptive cognitions, i.e., inaccurate appraisal of sleep difficulty and quality and daytime impairments. [7] We were not able to standardize all these factors in our study due to technical problems.

We suggest further research on this topic using prolonged release/sublingual formulations. Furthermore, we recommend robust studies with larger sample sizes than ours and long-term studies of longer duration than ours with more stringent inclusion criteria to evaluate the safety and efficacy of oral melatonin in cancer patients. Spouses/caregivers of cancer patients experience and share much of the suffering of the patients and have resultant insomnia. [2] Hence, studies on the use of melatonin in these caregivers would be beneficial.


We conclude that regular daily intake of oral melatonin 3 mg 2 h before bedtime along with nonpharmacological measures improves sleep induction and the quality of sleep in cancer patients with insomnia.

Financial support and sponsorship


Conflicts of interest

There are no conflicts of interest.


1Otte JL, Carpenter JS, Manchanda S, Rand KL, Skaar TC, Weaver M, et al. Systematic review of sleep disorders in cancer patients: Can the prevalence of sleep disorders be ascertained? Cancer Med 2015;4:183-200.
2Zhang Q, Yao D, Yang J, Zhou Y. Factors influencing sleep disturbances among spouse caregivers of cancer patients in Northeast China. PLoS One 2014;9:e108614.
3Graci G. Pathogenesis and management of cancer-related insomnia. J Support Oncol 2005;3:349-59.
4Ringdahl EN, Pereira SL, Delzell JE Jr. Treatment of primary insomnia. J Am Board Fam Pract 2004;17:212-9.
5Armour D, Paton C. Melatonin in the treatment of insomnia in children and adolescents. Psychiatr Bull 2004;28:222-4.
6Rondanelli M, Faliva MA, Perna S, Antoniello N. Update on the role of melatonin in the prevention of cancer tumorigenesis and in the management of cancer correlates, such as sleep-wake and mood disturbances: Review and remarks. Aging Clin Exp Res 2013;25:499-510.
7Howell D, Oliver TK, Keller-Olaman S, Davidson JR, Garland S, Samuels C, et al. Sleep disturbance in adults with cancer: A systematic review of evidence for best practices in assessment and management for clinical practice. Ann Oncol 2014;25:791-800.
8Koul R, Dubey A, Torri V, Kakumanu A, Goyal K. Fatigue in oncology. Internet J Pain Symptom Control Palliat Care 2012;9. Available from: [Last accessed on 2015 Dec 03].
9O′Donnell JF. Insomnia in cancer patients. Clin Cornerstone 2004;6:S5-28. Available from: [Last accessed on 2015 Dec 03].
10Almeida Montes LG, Ontiveros Uribe MP, Cortés Sotres J, Heinze Martin G. Treatment of primary insomnia with melatonin: A double-blind, placebo-controlled, crossover study. J Psychiatry Neurosci 2003;28:191-6.
11Cardinali DP, Srinivasan V, Brzezinski A, Brown GM. Melatonin and its analogs in insomnia and depression. J Pineal Res 2012;52:365-75.
12Kan KK. Validation of the Insomnia Severity Index, Athens Insomnia Scale and Sleep Quality Index in Adolescent Population in Hong Kong; 2008. Available from: [Last accessed on 2015 Nov 23].
13Soldatos CR, Dikeos DG, Paparrigopoulos TJ. The diagnostic validity of the Athens Insomnia Scale. J Psychosom Res 2003;55:263-7.
14Wade AG, Ford I, Crawford G, McMahon AD, Nir T, Laudon M, et al. Efficacy of prolonged release melatonin in insomnia patients aged 55-80 years: Quality of sleep and next-day alertness outcomes. Curr Med Res Opin 2007;23:2597-605.
15Patel T, Kurdi MS. A comparative study between oral melatonin and oral midazolam on preoperative anxiety, cognitive, and psychomotor functions. J Anaesthesiol Clin Pharmacol 2015;31:37-43.
16Naguib M, Gottumukkala V, Goldstein PA. Melatonin and anesthesia: A clinical perspective. J Pineal Res 2007;42:12-21.
17Wilhelmsen M, Amirian I, Reiter RJ, Rosenberg J, Gögenur I. Analgesic effects of melatonin: A review of current evidence from experimental and clinical studies. J Pineal Res 2011;51:270-7.
18Kain ZN, MacLaren JE, Herrmann L, Mayes L, Rosenbaum A, Hata J, et al. Preoperative melatonin and its effects on induction and emergence in children undergoing anesthesia and surgery. Anesthesiology 2009;111:44-9.
19Ellis CM, Lemmens G, Parkes JD. Melatonin and insomnia. J Sleep Res 1996;5:61-5.
20Innominato PF, Lim AS, Palesh O, Clemons M, Trudeau M, Eisen A, et al. The effect of melatonin on sleep and quality of life in patients with advanced breast cancer. Support Care Cancer 2015;24:1097-105.
21Jarratt J. Perioperative melatonin use. Anaesth Intensive Care 2011;39:171-81.
22Kurdi MS, Patel T. The role of melatonin in anaesthesia and critical care. Indian J Anaesth 2013;57:137-44.
23Roth T, Nir T, Zisapel N. Prolonged release melatonin for improving sleep in totally blind subjects: A pilot placebo-controlled multicenter trial. Nat Sci Sleep 2015;7:13-23.
24Lemoine P, Garfinkel D, Laudon M, Nir T, Zisapel N. Prolonged-release melatonin for insomnia - An open-label long-term study of efficacy, safety, and withdrawal. Ther Clin Risk Manag 2011;7:301-11.
25Haimov I, Lavie P, Laudon M, Herer P, Vigder C, Zisapel N. Melatonin replacement therapy of elderly insomniacs. Sleep 1995;18:598-603.
26Ferracioli-Oda E, Qawasmi A, Bloch MH. Meta-analysis: Melatonin for the treatment of primary sleep disorders. PLoS One 2013;8:e63773.
27Lobentanz IS, Asenbaum S, Vass K, Sauter C, Klösch G, Kollegger H, et al. Factors influencing quality of life in multiple sclerosis patients: Disability, depressive mood, fatigue and sleep quality. Acta Neurol Scand 2004;110:6-13.
28Fiorentino L, Ancoli-Israel S. Insomnia and its treatment in women with breast cancer. Sleep Med Rev 2006;10:419-29.