Acamprosate to Reduce Symptoms of Alcohol Withdrawal

Phase 2

Completed

Conditions: Alcohol-Related Disorders
Alcohol Dependence
Alcoholism
Healthy Volunteer

Interventions: Procedure: NMR-spectroscopy
Drug: Oral acamprosate

Registration Number: NCT00106106

Lead Sponsor: National Institutes of Health Clinical Center (CC)

Brief Summary: This study will examine whether a new drug called acamprosate can be helpful for alcohol withdrawal, a result of drinking high amounts of alcohol for long periods of time. Alcohol withdrawal can cause various symptoms, including nausea or vomiting, anxiety or depression, tremor, high blood pressure, and others. During withdrawal, brain chemicals called neurotransmitters change, with some rising to abnormally high levels. These changes may contribute to alcohol craving, drinking relapse and impaired mental performance. This study will see if taking acamprosate for 4 weeks can lower the levels of neurotransmitters, such as glutamate, lessen withdrawal symptoms and decrease alcohol craving and brain damage associated with withdrawal.

Healthy normal volunteers and alcohol-dependent patients between 21 and 65 years of age may be eligible for this study.

Participants are admitted to the hospital for 28 days. They receive standard inpatient care for alcohol detoxification, including a medical history and physical examination, neurological evaluation, laboratory tests, nursing, nutrition, discharge planning and referrals for treatment of concomitant conditions, if needed. In addition, they are randomly assigned to take either two acamprosate or two placebo pills three times a day for 28 days and undergo the following tests and procedures:

* Days 1-28: Drug treatment. Patients take acamprosate or placebo daily. Patients with severe withdrawal symptoms may also receive diazepam (Valium). Throughout their hospitalization, patients fill out questionnaires about their emotional state and personality and are interviewed by staff about their mental health, use of alcohol, cigarettes, and illicit drugs, employment, support systems and family and social relationships, and their legal status.

* Days 2 and 3: Blood tests. Blood is tested for levels of the stress hormones cortisol and ACTH, which are released to excess during alcohol withdrawal. For this test, a heparin lock (thin, flexible plastic tube with a rubber stopper on the end) is placed in an arm vein for blood collections each day at 6 AM, 12 noon, 6 PM and 12 midnight. Patients rest in bed for 30 minutes before each collection.

* Day 4: Magnetic resonance imaging (MRI) and magnetic resonance spectroscopy (MRS). These procedures are done at the same time. They use a strong magnetic field and radio waves to show structural and chemical changes in the brain. The patient lies on a table in a space enclosed by a metal cylinder (the scanner) for about 20 to 30 minutes during the test.

* Day 5: Lumbar puncture (spinal tap). A local anesthetic is given to numb the area for the procedure. Then, a needle is inserted in the space between the bones in the lower back where the cerebrospinal fluid circulates below the spinal cord. A small amount of fluid is collected through the needle.

* Days 5 and 6: Dexamethasone-corticotropin releasing factor (CRF) test. This test measures the effect of alcohol withdrawal on ACTH and cortisol. The patient takes a standard dose of the steroid dexamethasone at 11 PM on day 5. At noon the next day, they are given lunch and then stay in bed and rest. A plastic tube is put in an arm vein. A salt water solution is slowly infused through the catheter and a blood sample is withdrawn through it. At 3 p.m., the patient is given 100 micrograms of the hormone CRF. Repeated blood samples are obtained to measure ACTH and cortisol.

* Days 23-27: All of the tests done on days 2-6 are repeated, except the MRI. MRS is repeated to measure neurotransmitters.

Detailed Description: Objective: Clinical as well as preclinical studies indicate that the process of developing alcohol dependence recruits a progressively aggravated hyperglutamatergic state, which in turn is a key signal for emotional dysregulations leading to craving and relapse, as well as neurotoxicity leading to cognitive impairment and loss of grey matter in alcoholic patients. Acamprosate has recently been approved for relapse prevention in sober alcoholics, an effect mediated through largely unknown mechanisms. Preclinical data indicate, however, that it might primarily be useful for targeting the hyperglutamatergic state that develops during recurring withdrawal episodes, halting the process described above. If so, acamprosate might be of value as a withdrawal treatment to prevent the progression of alcohol dependence. The aim of the present protocol is to evaluate, in a randomized controlled trial, the effects of acamprosate during withdrawal and the early post-withdrawal phase. The primary outcome variable will be central glutamate/glutamine concentration as determined by MR spectroscopy. A number of exploratory biological and clinical measures will in addition be obtained and used for secondary analyses as specified below.

Study Population: We will study patients age 21 - 65, without gross impairment of judgment or complicated psychiatric or other morbidity, going into withdrawal or with a high probability of doing so, will be admitted as inpatients to the NIAAA CC-unit. A group of healthy volunteers who do not receive study medication will be examined separately in order to confirm that a hyperglutamatergic state is present in the patients during withdrawal.

Design: All patients will receive standard care for alcohol detoxification. In addition, half of them will be randomized in a blinded fashion to oral acamprosate, two 333 mg tablets taken 3 times daily or corresponding placebo. Validated rating scales (CIWA-Ar, CPRS-SA) will be used to assess intensity of withdrawal and psychopathology. If severity of withdrawal exceeds a predefined criterion, standard diazepam treatment will be added to study medication. The accrual target is based on a primary analysis sample of patients who will not require diazepam medication, which is a potential confound. A secondary analysis will be carried out on the complete sample, analyzing the requirement for/amount of diazepam supplement as a secondary outcome variable.

Outcome Measures: A battery of tests will be obtained during the 1st and 3rd week of inpatient treatment. These will include NMR-spectroscopy to quantify central levels of excitatory and inhibitory amino acids (primary outcome variable: GluX concentration); lumbar puncture to obtain CSF for analysis of neurotransmitter/neurohormone metabolites and synaptic proteins. Repeated 4 x daily blood collection for analysis of serum cortisol and ACTH will be obtained to assess spontaneous activity and circadian variation of the HPA-axis, and the combined dexamethasone - CRH test will be carried out to dynamically probe this system, and gauge its sensitivity for feedback inhibition.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 56

Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

Study Type: INTERVENTIONAL

Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Placebo	NMR-spectroscopy	For subjects randomized to placebo control, placebo doses were given every 8 hours.
Acamprosate	NMR-spectroscopy	For subjects randomized to active treatment, the first 3 acamprosate doses were 1332 mg every 8 hours in an attempt to more rapidly achieve active plasma concentrations, followed by 666 mg acamprosate every 8 hours for the remainder of the study.
Acamprosate	Oral acamprosate	For subjects randomized to active treatment, the first 3 acamprosate doses were 1332 mg every 8 hours in an attempt to more rapidly achieve active plasma concentrations, followed by 666 mg acamprosate every 8 hours for the remainder of the study.

Primary Outcome Measures

Name	Time	Method
Ratio of Glutamate to Creatine in the Anterior Cingulate of the Brain, Measured on Day 4	Day 4	The ratio of glutamate to creatine was determined using magnetic resonance spectroscopy (MRS), a technique that complements magnetic resonance imaging (MRI). MRS is used to determine the concentration of brain metabolites, such as glutamate, in brain tissue. MRS utilizes a magnetic field to look at magnetic nuclei, which absorb and re-emit electromagnetic energy in the presence of the magnetic field. By looking at the peaks in the resultant spectra the structure and concentration of metabolites can be determined.
Ratio of Glutamate to Creatine in the Anterior Cingulate of the Brain, Measured on Day 25	Day 25	The ratio of glutamate to creatine was determined using magnetic resonance spectroscopy (MRS), a technique that complements magnetic resonance imaging (MRI). MRS is used to determine the concentration of brain metabolites, such as glutamate, in brain tissue. MRS utilizes a magnetic field to look at magnetic nuclei, which absorb and re-emit electromagnetic energy in the presence of the magnetic field. By looking at the peaks in the resultant spectra the structure and concentration of metabolites can be determined.

Secondary Outcome Measures