Melatonin Osteoporosis Prevention Study (MOPS)

March 9, 2012 updated by: Duquesne University

Assessing the Efficacy of Melatonin on Bone Health in Peri-menopausal Women

Osteoporosis is one of the most common skeletal disorders. Today in the United States, 10 million individuals have osteoporosis and 34 million more have low bone mass or osteopenia, which places them at an increased risk of some day developing osteoporosis. Of the people affected by this problem, 68% are women.The current thinking on the development of osteoporosis is that the changes in bone turnover that occur with aging play a major factor. Many modalities of treatment are used to prevent the bone loss and increased fracture risk associated with osteoporosis and osteopenia. Melatonin supplementation may be another treatment modality that lowers risk of hip fracture in perimenopausal women. Melatonin can remodel bone in animal models and in culture. Melatonin works through melatonin receptors to form osteoblasts from human mesenchymal stem cells and has been shown to inhibit osteoclast activity in rodents. Melatonin levels have been correlated with modulating bone markers; low nocturnal levels of melatonin correlate with in an increase in bone marker metabolism and osteoporosis. It is been shown that women who have worked night-shifts for greater than 20 years have increased risk for wrist and hip fractures. Night-shift workers have lower nocturnal melatonin levels than people who do not work the night-shift. The addition of exogenous melatonin suppresses bone marker metabolism. In human stem cells taken from bone marrow, melatonin increases the activity of bone-forming cells called osteoblasts. It is hypothesized that melatonin will improve bone health, menopausal quality of life and sleep compared to placebo in perimenopausal women. In particular, the investigators expect perimenopausal women taking melatonin to show an improvement in overall bone health as revealed by a reduction in bone marker turnover since bone resorption increases more so than bone absorption in this population compared to those women taking placebo. We also expect that perimenopausal women taking melatonin to have better control over their menopausal symptoms, better quality of life and less sleep disturbances when compared to their placebo controls since melatonin is known to modulate estrogen levels in the body and regulate sleep. The data from these studies may provide novel and alternative uses for melatonin; in particular its use for the prevention and/or treatment of osteoporosis.

Study Overview

Status

Completed

Conditions

Intervention / Treatment

Detailed Description

BACKGROUND AND SIGNIFICANCE Osteoporosis is one of the most common skeletal disorders. Today in the United States, 10 million individuals have osteoporosis and 34 million more have low bone mass or osteopenia, which places them at an increased risk of some day developing osteoporosis. Of the people affected by this problem, 68% are women.[1] Osteoporosis is characterized by low bone mass and microarchitectural disruption, such that fewer, thinner bony spicules are present leading to less structural support. These hallmark features of osteoporosis lead to increased skeletal fragility and an increased fracture risk.[2] Hip fracture specifically has been shown to be a major problem leading to increased morbidity and mortality.[3] In addition osteoporotic fractures are responsible for a large portion of health care spending. In 1995 $13.8 billion in health care expenditures were attributable to osteoporotic fractures.[4] Because the health of older adults often deteriorates after hip fracture, efforts to prevent fracture by treating and preventing osteoporosis are critical to reducing this common cause of morbidity, mortality and health service utilization.

The current thinking on the development of osteoporosis is that the changes in bone turnover that occur with aging play a major factor. One study which measured markers of bone formation, such as osteocalcin (OC), and markers of bone resorption, such as type I collagen cross-linked N-telopeptide (NTX), showed that rates of bone formation and resorption are high in elderly women. However, bone resorption increases more so than bone formation leading resorption to be the major determinant of bone mass.[5] These biochemical markers of bone formation and resorption may play an important role in monitoring therapy. In a recent review that examined clinical studies in which bone turnover markers were measured after beginning treatment with a bisphosphonate, the data showed that suppression of bone turnover markers occurred after as little as three months of therapy.[6,7] This suppression in bone turnover markers was also associated with reduction in risk for fracture.[6,7] Although dual X-ray absorptiometry (DXA) is the gold standard for diagnosis of osteoporosis and osteopenia, recent reports are showing that DXA may not be the best method for measuring bone health. For example, bone fractures routinely occur despite modest bone mineral density levels and no significant reduction in the risk of fracture occurs in patients taking one of the two standard medications, one that significantly increases bone mineral density and the other that moderately increases it.[6] Thus, it is currently thought that bone quality may not be clinically assessed by measures other than the determination of bone metabolism with biochemical markers of bone turnover because these markers measure "living" bone cells.[6] Many modalities of treatment are used to prevent the bone loss and increased fracture risk associated with osteoporosis and osteopenia. One method involves use of calcium and vitamin D supplementation such that total calcium intake is approximately 1500 mg/day. Calcium and vitamin D supplementation may increase bone mineral density to a small extent, but not nearly to the same degree as is seen with other treatment modalities.[8] Therefore, it is often combined with another treatment method for better efficacy. Bisphosphonates are being used more and more often in postmenopausal women. These antiresorptive agents have been shown to prevent bone loss and reduce the incidence of vertebral and nonvertebral fractures.[9] Calcitonin has been shown to decrease vertebral fractures, increase bone mineral density at the lumbar spine and inhibit bone turnover.[10]

Melatonin supplementation may be another treatment modality that lowers risk of hip fracture in perimenopausal women. Melatonin can remodel bone in animal models and in culture.[11] Melatonin works through melatonin receptors to form osteoblasts from human mesenchymal stem cells[12] and has been shown to inhibit osteoclast activity in rodents.[13] Melatonin levels have been correlated with modulating bone markers whereby low nocturnal levels of melatonin correlate with in an increase in bone marker metabolism and osteoporosis.[14] The addition of exogenous melatonin suppresses bone marker metabolism.[15] Work from my laboratory reveals that application of melatonin to human bone stem cells grown in culture enhances alkaline phosphatase activity by 50% and calcium deposition by 10-fold.[16]

HYPOTHESIS AND SPECIFIC AIMS We hypothesize that melatonin will improve bone health, menopausal quality of life and sleep compared to placebo in perimenopausal women.

  1. Assess the feasibility of recruiting perimenopausal women willing to be enrolled in a randomized, trial of melatonin versus placebo
  2. Assess the effects of melatonin versus placebo on markers of bone health, quality of life, and sleep disturbance.

PRIMARY ENDPOINTS: The primary outcome variables are bone turnover marker status, and melatonin levels as measured in blood and bone density as measured by the Achilles method.

SECONDARY ENDPOINTS:

  1. Quality of life as measured by the MenQOL, a validated scale of menopausal quality of life
  2. Sleep, as measured by the Pittsburgh Sleep Questionnaire

RESEARCH PLAN This study is a longitudinal, cohort trial of 20 subjects who are perimenopausal and aged 45 years old or greater who have new onset of irregular menses not due to other known causes such as polycystic ovaries or hypothyroidism. Perimenopause is defined as the time between the onset of menstrual irregularity and menopause; there is no lab test that is diagnostic of perimenopause. Thus, the investigators will include women who, according to their age, are likely to be perimenopausal (age 45 or greater) and who have symptoms of perimenopause (irregular menses). Once a cohort of 20 subjects is recruited, the investigators will randomize volunteers using a computer-generated blocked randomization scheme. Five study subjects will receive placebo and 15 study subjects will receive melatonin, 3 mg). The women enrolled in the study will be asked to take their treatments by mouth at bedtime each day for 6 months to coincide with the nocturnal surge in melatonin each day. This dose of melatonin has been chosen because 3 mg melatonin is commonly used to induce phase-shifts in circadian rhythms in people.[17] Seeing that this is one of our secondary endpoints, this dose is appropriate. Regarding melatonin's effects on bone, there is nothing known about its efficacy on forming bone in women. Therefore, the dose of melatonin was chosen based on the reported literature using pre-clinical or in vitro culture models that showed positive effects on bone formation. These reports show variable effects of melatonin ranging from 400 pM in rat [15], to 5 mg melatonin in mouse (unpublished data) to 50 nM on human mesenchymal stem cells grown in culture.[12,16] The bioavailability of melatonin is 17% in females taking 250 mcg melatonin po.[18] Thus, a 3 mg dose of melatonin taken by mouth would result in a nocturnal exogenous level of 2.19 mM. The terminal half-life of melatonin is about 41 minutes in females [18], however, accumulation of melatonin in the bone marrow occurs [11]. Therefore, these data suggest that our 3 mg dose is appropriate for these studies.

PLANS FOR ASSESSMENT AND STUDY OUTCOMES Our primary outcome will be the levels of bone turnover markers, OC and NTX, bone density and melatonin taken at baseline and then after 6 months of treatment. The change in bone turnover marker levels will be compared between those taking melatonin and those taking placebo. Baseline levels of OC and NTX will be calculated. For this study the investigators will also visually inspect the data in order to perform descriptive analyses of the demographic characteristics of our population, such as age, and weight. We will explore characteristics of any individuals who have a significant improvement in their bone turnover markers, such as compliance with the treatment, diet, and lifestyle as determined by the diary. We will also make note of characteristics such as current or past cigarette smoking and alcohol and caffeine consumption as individuals with these risk factors may show less improvement in their bone turnover markers. We will use intention to treat as our primary analysis. We will attempt to minimize missing data with careful follow-up of subjects, maintaining consistent contact with them over the study period, and remunerating them for their inconvenience. If a subject drops out of the study, the investigators will still attempt to obtain their follow up studies.

Expected Outcomes.We expect perimenopausal women taking melatonin to show an improvement in overall bone health as revealed by an increase in bone density, an increase in OC and a decrease in NTX levels when compared to those women taking placebo. We also expect those taking melatonin to have better control over their menopausal symptoms, better quality of life and less sleep disturbances compared to their placebo controls. The potential benefits of participating in this study include the possibility of decreasing bone turnover and reducing fracture risk as well as improve sleep regardless, a condition much affected in this population of women. The data from these studies may provide novel and alternative uses for melatonin for the prevention of osteoporosis and provide women with more options to manage diseases associated with menopause.

Study Type

Interventional

Enrollment (Actual)

19

Phase

  • Phase 1

Contacts and Locations

This section provides the contact details for those conducting the study, and information on where this study is being conducted.

Study Locations

  • United States
    • Pennsylvania
      • Pittsburgh, Pennsylvania, United States, 15282
        • Duquesne University School of Pharmacy Center for Pharmacy Care

Participation Criteria

Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.

Eligibility Criteria

Ages Eligible for Study

45 years to 54 years (Adult)

Accepts Healthy Volunteers

No

Genders Eligible for Study

Female

Description

Inclusion Criteria:

  • Inclusion criteria include perimenopausal women,
  • willingness to participate in the 6-month study, willingness to undergo testing of bone turnover markers before and after the drug therapies and willingness to provide a self-assessment on quality of life and sleep throughout the program.
  • Subjects must be willing to take their treatments right before bed and to not to consume alcohol with this medication.

Exclusion Criteria:

  • Exclusion criteria will include women in whom osteopenia is a result of some other known process such as hyperparathyroidism, metastatic bone disease, multiple myeloma or chronic steroid use.
  • Those individuals on osteoporotic drugs, hypnotics, CYP1A2 inhibiting drugs, fluvoxamine or those with severe sleep apnea, severe COPD and those with moderate or severe hepatic impairment will also be excluded.
  • Individuals who are lactose intolerant will also be excluded because the placebo and melatonin capsules will contain lactose.

Study Plan

This section provides details of the study plan, including how the study is designed and what the study is measuring.

How is the study designed?

Design Details

  • Primary Purpose: Prevention
  • Allocation: Randomized
  • Interventional Model: Parallel Assignment
  • Masking: Triple

Arms and Interventions

Participant Group / Arm
Intervention / Treatment
Placebo Comparator: Sugar pill
Dietary supplement: sugar pill
lactose p.o. at bedtime daily
Other Names:
  • Lactose
Active Comparator: melatonin
Dietary supplement: melatonin
3mg p.o. at bedtime daily
Other Names:
  • Nature's Bounty Melatonin
  • Natrol Melatonin
  • Spring Valley Melatonin

What is the study measuring?

Primary Outcome Measures

Outcome Measure
Measure Description
Time Frame
The Effect of Melatonin (3 mg) or Placebo on the Mean Change in Serum Osteocalcin (OC) Levels in Women After 6 Months, as Compared to Baseline
Time Frame: Baseline and 6 months
Osteocalcin is a measure of osteoblast activity because it is secreted from osteoblasts. Osteocalcin levels were measured in the serum of women at baseline and after 6 months of taking placebo or melatonin (3 mg) and the data are reported as ng/mL. Osteoblasts are bone-forming cells so a more positive mean change in osteoblast activity over time (6 months - baseline) could indicate an improvement in bone mineral density. A more negative mean change in osteocalcin levels over time (6 months - baseline) could indicate a worsening of bone mineral density.
Baseline and 6 months
The Effect of Melatonin (3 mg) or Placebo on the Mean Change in Serum Type-1 Collagen Cross-linked N-telopeptide (NTX) Levels in Women After 6 Months, as Compared to Baseline.
Time Frame: Baseline and 6 months
Type-1 collagen cross-linked N-telopeptide (NTX) levels were measured in the serum of women at baseline and after taking placebo or melatonin (3 mg) nightly for 6 months. NTX, reported as bone collagen equivalents (BCE), is released from bone due to the actions of osteoclasts or bone breakdown cells. A more positive mean change in NTX levels (6 months - baseline) could result in a worsening of bone mineral density due to an increase in bone breakdown whereas a more negative mean change in NTX levels could result in an improvement in bone mineral density due to a decrease in bone breakdown.
Baseline and 6 months
The Effect of Melatonin (3 mg) or Placebo on the Mean Change in Bone Density in Women After 6 Months, as Compared to Baseline.
Time Frame: Baseline and 6 months
The mean change in bone mineral density (BMD), represented by T-scores, was assessed by calcaneal ultrasound in women taking melatonin (3 mg) or placebo nightly at baseline and after 6 months. A T-score is a comparison of a subject's BMD to that of a healthy 30 year old female of the same ethnicity. The more negative the T-score, the worse the BMD. Osteoporosis or brittle bone disease is defined as a T-score -2.5 or less. A more negative mean change in a T-score would indicate a worsening of BMD. A more positive mean change in a T-score would indicate an improvement of BMD.
Baseline and 6 months

Secondary Outcome Measures

Outcome Measure
Measure Description
Time Frame
The Effect of Melatonin (3 mg) or Placebo on the Mean Change in Menopause-Specific Quality of Life (MENQOL) Physical Domain Scores in Women After 6 Months, as Compared to Baseline.
Time Frame: Baseline and 6 mos
Menopause-Specific Quality of Life (MENQOL) questionnaires were administered to women at baseline and after 6 months of taking placebo or melatonin nightly. The MENQOL is a validated questionnaire that measures 4 domains of menopause quality of life in women: physical, vasomotor, psychosocial and sexual with each domain having a scale of "not bothered" (score 0) or "bothered ranging from 1(not too bothered) to 6 (really bothered)". A more negative mean change for each of the MENQOL domain scores indicates an improvement of these symptoms and a more positive value a worsening of symptoms.
Baseline and 6 mos
The Effect of Melatonin (3 mg) or Placebo on the Mean Change in Menopause-Specific Quality of Life (MENQOL) Vasomotor Domain Scores in Women After 6 Months, as Compared to Baseline.
Time Frame: Baseline and 6 mos
Menopause-Specific Quality of Life (MENQOL) questionnaires were administered to women at baseline and after 6 months of taking placebo or melatonin nightly. The MENQOL is a validated questionnaire that measures 4 domains of menopause quality of life in women: physical, vasomotor, psychosocial and sexual with each domain having a scale of "not bothered" (score 0) or "bothered ranging from 1(not too bothered) to 6 (really bothered)". A more negative mean change for each of the MENQOL domain scores indicates an improvement of these symptoms and a more positive value a worsening of symptoms.
Baseline and 6 mos
The Effect of Melatonin (3 mg) or Placebo on the Mean Change in Menopause-Specific Quality of Life (MENQOL) Psychosocial Domain Scores in Women After 6 Months, as Compared to Baseline.
Time Frame: Baseline and 6 mos
Menopause-Specific Quality of Life (MENQOL) questionnaires were administered to women at baseline and after 6 months of taking placebo or melatonin nightly. The MENQOL is a validated questionnaire that measures 4 domains of menopause quality of life in women: physical, vasomotor, psychosocial and sexual with each domain having a scale of "not bothered" (score 0) or "bothered ranging from 1(not too bothered) to 6 (really bothered)". A more negative mean change for each of the MENQOL domain scores indicates an improvement of these symptoms and a more positive value a worsening of symptoms.
Baseline and 6 mos
The Effect of Melatonin (3 mg) or Placebo on the Mean Change in Menopause-Specific Quality of Life (MENQOL) Sexual Domain Scores in Women After 6 Months, as Compared to Baseline.
Time Frame: Baseline and 6 mos
Menopause-Specific Quality of Life (MENQOL) questionnaires were administered to women at baseline and after 6 months of taking placebo or melatonin nightly. The MENQOL is a validated questionnaire that measures 4 domains of menopause quality of life in women: physical, vasomotor, psychosocial and sexual with each domain having a scale of "not bothered" (score 0) or "bothered ranging from 1(not too bothered) to 6 (really bothered)". A more negative mean change for each of the MENQOL domain scores indicates an improvement of these symptoms and a more positive value a worsening of symptoms.
Baseline and 6 mos
The Effect of Melatonin (3 mg) or Placebo on the Mean Change in the Pittsburgh Sleep Quality Index (PSQI) in Women After 6 Months, as Compared to Baseline.
Time Frame: Baseline and 6 months
Pittsburgh Sleep Quality Index (PSQI) Questionnaire is a validated questionnaire that assesses the quality and quantity of sleep and sleep disorders.This survey is designed to identify "good" and "poor" sleepers and has a score scale that ranges from "0-21" with "0" being good quality of sleep and "21" being poor quality of sleep and/or indicating as having a sleep disorder. A more positive mean change in the PSQI over time indicates a worsening of sleep. A more negative mean change in the PSQI over time indicates an improvement in sleep.
Baseline and 6 months

Collaborators and Investigators

This is where you will find people and organizations involved with this study.

Sponsor

Duquesne University

Investigators

  • Principal Investigator: Paula A Witt-Enderby, PhD, Duquesne University School of Pharmacy
  • Principal Investigator: Judith L Balk, MD, Magee-Womens Hospital, University of Pittsburgh

Publications and helpful links

The person responsible for entering information about the study voluntarily provides these publications. These may be about anything related to the study.

General Publications

Helpful Links

Study record dates

These dates track the progress of study record and summary results submissions to ClinicalTrials.gov. Study records and reported results are reviewed by the National Library of Medicine (NLM) to make sure they meet specific quality control standards before being posted on the public website.

Study Major Dates

Study Start

September 1, 2008

Primary Completion (Actual)

July 1, 2010

Study Completion (Actual)

July 1, 2010

Study Registration Dates

First Submitted

June 28, 2010

First Submitted That Met QC Criteria

June 28, 2010

First Posted (Estimate)

June 29, 2010

Study Record Updates

Last Update Posted (Estimate)

March 13, 2012

Last Update Submitted That Met QC Criteria

March 9, 2012

Last Verified

March 1, 2012

More Information

Terms related to this study

Keywords

Additional Relevant MeSH Terms

Other Study ID Numbers

  • 07-88

This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.

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