Use of Xyrem to Improve Sleep in Chronic Fatigue Syndrome
Chronic fatigue syndrome is a disabling illness for which there is no specific treatment. As a group, CFS patients have disturbed sleep with frequent arousals and the sense of not having slept upon awakening. Xyrem (Sodium oxybate) is known to improve deep sleep and so may reduce the sleep disturbances of CFS leading to better sleep with less fatigue. Its ability to produce the rapid onset of deep sleep is a reason it became a street drug, but its availability is currently limited via distribution through a single centralized pharmacy. Xyrem has been successfully used based on results from a study on patients with fibromyalgia (FM), an ailment closely resembling CFS. However, in that study, the researchers provided no information as to whether patients had FM alone or FM plus CFS. Thus, it is not clear from this study just which patient may be helped. I have prescribed Xyrem for patients who have both FM and CFS with good results. In this study, funded by the company that makes Xyrem, I propose testing the drug's efficacy on patients with CFS alone - that is, they do not have fibromyalgia.
Volunteers for this study will complete paper and pencil questionnaires about their symptoms as well as a computerized test to assess their degree of brain fog. They will then be randomly assigned to one of two groups, placebo or drug. Volunteers will not know what group they are in until the end of the study. Only the drug group will receive the medication. The placebo group will receive a substance that looks identical to the real medicine but with no active ingredients. The medication comes as a liquid and patients will start taking an initial dose about 30 min before they expect to sleep. If subjects awaken after less than 5 hrs of sleep, they will take a second dose. If they sleep more than 5 hrs, they will be told to skip taking the second dose. We will call patients weekly to see how they are doing on the "drug." If they have tolerable side effects or report significant improvement, we will maintain the dose. But if patients report no effect of treatment, the dosage will be incremented by 1 ml per week until good sleep is achieved or a predetermined maximum is reached.
Volunteers for the study will be reimbursed $50 for each of their two visits to our offices for their time and travel expenses.
|Study Design:||Endpoint Classification: Efficacy Study
Intervention Model: Single Group Assignment
Masking: Double Blind (Subject, Investigator)
Primary Purpose: Treatment
|Official Title:||Phase IV - A Trial of Xyrem in the Treatment of Chronic Fatigue Syndrome.|
- Sleep [ Time Frame: 6 weeks ] [ Designated as safety issue: Yes ]To determine if Xyrem reduces fatigue and the other symptoms of chronic fatigue syndrome including widespread pain (not fulfilling the requirements for the diagnosis of fibromyalgia), unrefreshing sleep and cognitive complaints.
|Study Start Date:||May 2007|
|Study Completion Date:||December 2008|
|Primary Completion Date:||December 2008 (Final data collection date for primary outcome measure)|
|Placebo Comparator: Placebo||
Drug: Xyrem [sodium oxybate]
Volunteers for this study will complete questionnaires about their symptoms and a computerized test to assess their degree of brain fog. They will be randomly assigned to one of two groups, placebo or drug. Volunteers will know what group they are in at end of the study. Only the drug group will receive the medication. The placebo group will receive a substance that looks like the real medicine but with no active ingredients. The medication comes as a liquid and patients will start taking an initial dose about 30 min before they expect to sleep. If subjects awaken after less than 5 hrs of sleep, they will take a second dose. If they sleep more than 5 hrs, they will skip the second dose. We will call patients weekly to see how they are doing . If they have tolerable side effects or report significant improvement, we will maintain the dose. But if patients report no effect, the dosage will be incremented by 1 ml per week until good sleep is achieved or a predetermined maximum is reached.
Medically unexplained fatigue occurs in about 5% of the population with 10% of that number fulfilling formal case definitions for chronic fatigue syndrome1. Medically unexplained fatigue is a major problem for both patient and practitioner - for both because there is no effective FDA-approved treatment for the symptom. One major problem for these patients is unrefreshing sleep. Formal sleep studies show reduced total sleep time and reduced sleep efficiency compared to controls.2;3 We are currently in the early stages of an NIH-funded grant designed to study cytokines during sleep. Preliminary results support awake time for patients relative to controls, producing a decreased sleep efficiency. These data lead to our working hypothesis that the problem of severe daytime fatigue is due to a previously unappreciated form of sleep pathology related to sleep fragmentation.
Patients with medically unexplained pain also complain of disturbed sleep. Sodium oxybate has been tested on patients with this complaint who fulfill a formal case definition for fibromyalgia and has found to reduce symptoms and improve sleep quality.4 Specifically, six of 7 pain/fatigue scores (overall pain, pain at rest, pain during movement, end of day fatigue, overall fatigue, and morning fatigue) were relieved by 29% to 33% with sodium oxybate, compared with 6% to 10% relief with placebo (p < 0.005). Alpha intrusion indicative of disturbed sleep, sleep latency, and rapid-eye-movement sleep were significantly decreased, while slow-wave (stage 3/4) sleep was significantly increased, compared with placebo (p < 0.005). Two of the 5 subjective sleep related variables were significantly different from placebo: morning alertness (improved by 18% with sodium oxybate, compared with 2% for placebo; p = 0.0033) and quality of sleep (improved by 33% and 10%, respectively; p = 0.0003).
Importantly, approximately 40% of patients in my study group fulfill case definitions simultaneously for CFS and FM. Since we do not know if patients in either sodium oxybate treatment trial had CFS, we cannot be sure whether efficacy was specific for FM or instead may have occurred due to the fact that a large representation of CFS had occurred.
An unpublished Phase II randomized double-blind placebo controlled trial in FM, done by Jon Russell and colleagues in Dallas and presented at the 2005 meeting of the American College of Rheumatology, reported substantial symptom improvement with statistically significant benefits in self reported pain scales and patient global impression of improvement at both doses of sodium oxybate tested compared with placebo [4.5g [9ml] total dose per night; p=0.005 and 6g [12 ml], p=0.048]. Improvement in outcome variables was 34.5% at the 4.5g and 27.3% at the 6g compared to 12.5% in the placebo group.
I have prescribed sodium oxybate in my own practice for patients who have both CFS and FM with good results. Anecdotally, patients reporting less pain also reported better quality sleep and less fatigue upon awakening. This has led me to hypothesize that sodium oxybate will reduce fatigue in patients with CFS alone (i.e., without also having FM).
To test this hypothesis, I propose doing a double blind, placebo controlled trial of sodium oxybate in 30 patients who fulfill a formal case definition for chronic fatigue syndrome and who do not also have FM.
Please refer to this study by its ClinicalTrials.gov identifier: NCT00498485
|United States, New Jersey|
|UMDNJ - Pain & Fatigue Study Center, ADMC 1618|
|Newark, New Jersey, United States, 07101|
|Principal Investigator:||Benjamin Natelson, MD||Rutgers, The State University of New Jersey|