Temporal dynamics and determinants of whole brain tissue volume changes during recovery from alcohol dependence (original) (raw)
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Background: Chronic alcohol consumption results in brain damage potentially reversible with abstinence. It is however difficult to gauge the degree of recovery of brain tissues with abstinence since changes are subtle and a significant portion of patients relapse. State-of-the-art morphometric methods are increasingly used in neuroimaging studies to detect subtle brain changes at a voxel level. Our aim was to use the most refined morphometric methods to observe in alcohol dependence the relationship between volumetric changes and interim drinking over a 6-month follow-up.
2014
The trajectory of regional volume changes during the first year of sustained abstinence in those recovering from an alcohol use disorder is unclear because previous research typically employed only two assessment points. To better understand the trajectory of regional brain volume recovery in treatment-seeking alcohol-dependent individuals (ALC), regional brain volumes were measured after 1 week, 1 month and 7.5 months of sustained abstinence via magnetic resonance imaging at 1.5 T. ALC showed significant volume increases in frontal, parietal and occipital gray matter (GM) and white matter (WM), total cortical GM and total lobar WM, thalamus and cerebellum, and decreased ventricular volume over 7.5 months of abstinence. Volume increases in regional GM were significantly greater over 1 week to 1 month than from 1 month to 7.5 months of abstinence, indicating a non-linear rate of change in regional GM over 7.5 months. Overall, regional lobar WM showed linear volume increases over 7.5 months. With increasing age, smoking ALC showed lower frontal and total cortical GM volume recovery than non-smoking ALC. Despite significant volume increases, ALC showed smaller GM volumes in all regions, except the frontal cortex, than controls after 7.5 months of abstinence. ALC and controls showed no regional WM volume differences at any assessment point. In non-smoking ALC only, increasing regional GM and WM volumes were related to improving processing speed. Findings may indicate a differential rate of recovery of cell types/cellular components contributing to GM and WM volume during early abstinence, and that GM volume deficits persist after 7.5 months of sustained sobriety in this ALC cohort.
Rapid Partial Regeneration of Brain Volume During the First 14 Days of Abstinence from Alcohol
Alcoholism: Clinical and Experimental Research, 2012
Background: Chronic alcohol abuse leads to severe damage of the nervous system, including a change in cerebral metabolism and brain morphology. Global volume reductions of gray matter (GM) and white matter and an increase in cerebrospinal fluid (CSF) occur after severe alcohol consumption, but abstinent alcoholics also demonstrate a brain volume recovery. The aim of this study was to investigate whether volumetric amelioration takes place already within the first 2 weeks of abstinence. Methods: All 49 alcohol-dependent patients included in this study were scanned within the first 24 hours of detoxification and after 2 weeks of supervised abstinence. Amelioration of volumetric brain loss in alcohol-dependent patients has been investigated, and brain volumes have been compared with 55 healthy control subjects using whole-brain segmentation and a voxel-based morphometric approach. Results: On the first day of abstinence, the global CSF volume was larger and the GM volume was smaller in alcohol-dependent patients compared with healthy controls. The largest clusters with significant volumetric differences were in the cingulate gyrus, precentral and middle frontal gyrus, cerebellum, and insula. Already after 2 weeks of abstinence, a significant albeit partial recovery of GM volume occurred in several brain regions. Conclusions: Our results show that recovery of GM volume in alcohol-dependent patients starts within a few days after detoxification but varies between brain regions. This suggests that the general ability to recover and the rate as well as onset of the recovery diverges for different brain regions.
Addiction Biology, 2016
Cross-sectional structural magnetic resonance (MR) imaging studies of individuals with an alcohol use disorder (AUD) report that those who relapse after treatment, relative to individuals who maintain a period of extended abstinence, show greater morphological abnormalities in multiple brain regions near the inception of treatment, particularly in the frontal lobe. However, given the cross-sectional design of previous studies, it is unclear if the baseline morphological differences between future abstainers and relapsers were maintained over the course of early recovery. The primary goal of this study was to determine if frontal lobe tissue volume recovery during early abstinence is associated with long-term abstinence from alcohol. We compared frontal, parietal, temporal and occipital grey matter (GM) and white matter (WM) volumes, at 1 and 4 weeks of abstinence, among individuals who resumed alcohol consumption within 12 months of treatment (Relapsers) and those who showed sustained abstinence over 12 months following treatment (Abstainers). At 1 and 4 weeks of sobriety, both Abstainers and Relapsers demonstrated significantly smaller GM volumes than Controls in the majority of ROIs, but Relapsers exhibited significantly smaller bilateral frontal GM volumes than Abstainers. No significant group differences were observed for any WM region of interest. The persistent bilateral frontal GM volume deficits in Relapsers over 4 weeks from last alcohol use may represent an endophenotype that differentiates those who respond more favorably to the typical psychosocial and pharmacological interventions provided for AUD.
Effects of abstinence on brain morphology in alcoholism
European Archives of Psychiatry and Clinical Neuroscience, 2009
j Abstract Chronic alcohol abuse leads to morphological changes of the brain. We investigated if these volumetric changes are reversible after a period of abstinence. For this reason 41 male and 15 female alcohol patients underwent MRI-scanning after inpatient detoxification (baseline) entering alcoholism treatment programs, and between 6 and 9 months later (follow-up), in a phase of convalescence. Additionally, 29 male and 16 female control subjects were examined. The MRI-scans were delineated and the resulting regions of interest, volumes of lateral ventricles and prefrontal lobes were expressed relatively to total brain volume. Compared to control subjects alcohol patients showed bilaterally decreased prefrontal lobes (11% reduction) and increased lateral ventricles (up to 42% enlargement). The extent of the ventricular increase was depending on patient's additional psychiatric diagnosis, showing smaller lateral ventricles in patients with additional personality disorder. While at follow-up the size of prefrontal lobes remained unchanged, volumes of the lateral ventricles decreased (5-6% reduction) in alcohol patients with abstinence and improved drinking behavior, especially in patients that underwent only one detoxification. The extent of the ventricular enlargement correlated with the elevation of alcohol related laboratory measures (mean corpuscular volume, gamma-glutamyl transpeptidase). In conclusion this study confirms the hypothesis that alcoholism causes brain damages that are partially reversible. It should be analyzed in further studies with larger sample sizes, if complete brain regeneration is possible maintaining abstinence over a longer period.
Effects of Alcoholism and Continued Abstinence on Brain Volumes in Both Genders
Alcoholism: Clinical and Experimental Research, 2011
Background: Alcohol abuse has detrimental effects on cerebral function, metabolism, and volume. Some of these effects were found to be at least partially reversible with continued abstinence. Furthermore, it has been reported that there are different effects of alcohol on brain volumes for women compared with men, but the results concerning the interaction between alcohol dependence and gender are inconsistent. With this study, we aimed to further investigate this question by examining the global gray matter (GM) and white matter (WM) changes as well as regional and local GM changes detected by voxel-based morphometry (VBM) in male and female alcoholic patients a few weeks after detoxification and the corresponding changes in a subgroup of these patients 3 months later. Methods: A total of 50 patients, consecutively admitted for alcohol withdrawal treatment, participated in this study and were followed up for at least 3 months into abstinence. High-resolution structural images were processed with SPM8 using an optimized VBM protocol. Results: Global cerebrospinal fluid (CSF) volume was increased and WM and GM volume decreased equally in male and female patients. A gender by diagnosis interaction was found neither for global nor for regional volumes or VBM data. VBM whole brain analysis yielded a significant GM volume loss in the patient group in the cingulate gyrus and the insula in both hemispheres. Region of interest analysis for the initial and 3 months follow-up scans yielded significant gains in regional volumes, particularly the cingulate gyrus and the insula in the group of abstinent patients, whereas no volume change at all is found in the patients who had relapsed. Conclusions: Our study confirms widespread cerebral volume loss in recently detoxified alcoholics. The effects of alcohol dependence seem to have equally adverse effects on brain morphometry in males and females.
MR Volumetry During Acute Alcohol Withdrawal and Abstinence: A Descriptive Study
Alcohol and Alcoholism, 2003
Aims: The brain volume of chronic drinkers is known to partially recover with abstinence from alcohol. To investigate the relative contribution of grey and white brain matter to this process, magnetic resonance imaging and brain tissue segmentation was used to study brain tissue in acute alcohol withdrawal and abstinence in seven alcohol-dependent men. Methods: The patients were studied on three occasions; within 48 h after the last drink and approximately one month and two and a half months later. Total brain tissue class volumes [grey matter (GM) and white matter (WM) and cerebrospinal fluid (CSF)] were measured. Eleven healthy volunteers were scanned twice to serve as a control group. The alcohol-dependent patients were investigated with regard to drinking variables, neuropsychological performance and blood biochemistry. Results: In the alcohol-dependent patients, intracranial volume and total GM volume did not change between scan occasions, except in a single patient who demonstrated a GM increase of 4.8% (4.2% relative volume) between scans 2 and 3. For all patients, the increase in total WM volume ranged between 1.9 and 22.4% (absolute volumes) and 2.1 and 21.2% (relative volumes). Between scans 2 and 3, the increase in total WM volume ranged between 0.3 and 13.2% (absolute volumes), and between 1.5 and 14.0% (relative volumes). One patient resumed drinking and was investigated a second time during acute withdrawal. In this patient, the measured decrease of 8.1 and 8.5% of absolute and relative WM volumes corresponded to the size of the volume increase between scans 1 and 2. CSF, GM and WM volumes in the healthy subjects were constant over time. Conclusions: The results demonstrate that changes in brain volume during short-term abstinence in chronic alcohol-dependent patients are confined to the WM. The time limit of WM volume restitution is variable and continues longer than 3 weeks after withdrawal.
European Addiction Research, 2015
We explored brain volume recovery in terms of cortical thickness (CTh; gyral, sulcal pattern) and surface area (SA), as well as subcortical volume recovery in the first 2 weeks of abstinence in 49 alcohol-dependent patients (ADPs). A widespread reduction of CTh in ADPs at day 1 of abstinence compared to healthy controls, with more pronounced differences in sulci relative to gyri was found. After 2 weeks of abstinence, partial recovery to varying degrees of CTh loss in ADPs was observed for several regions. The longitudinal CTh changes were greater in sulci than in gyri of affected regions. No longitudinal change in SAs and subcortical volumes was found. Alterations of CTh contribute to brain volume loss in alcoholism and recovery during early abstinence. Sulci seem to be more vulnerable to excessive alcohol consumption and to drive abstinence-induced volume recovery. During the initial 2 weeks of abstinence no subcortical volume regain was observed. Either the time span was too shor...
Deformation-based morphometry of brain changes in alcohol dependence and abstinence
NeuroImage, 2007
Brain atrophy associated with chronic alcohol consumption is partially reversible after cessation of drinking. Recovering alcoholics (RA, 45±8 years) were studied with MRI within one week of entering treatment, with followup at 8 months. Light drinkers (LD) were studied with MRI twice 1 year apart. For each participant, deformation maps of baseline structure and longitudinal size changes between baseline and followup scans were created using nonlinear registration techniques. ANCOVA assessed group differences and regression methods examined relationships between deformation maps and measures of drinking severity or baseline atrophy. At baseline, RA showed significant atrophy in the frontal and temporal lobes. Longitudinally, abstainers recovered tissue volumes significantly faster than LD in parietal and frontal lobes. When comparing abstainers to relapsers, additional regions with significantly greater recovery in abstainers were temporal lobes, thalamus, brainstem, cerebellum, corpus callosum, anterior cingulate, insula, and subcortical white matter. Gray matter volume at baseline predicted volume recovery during abstinence better than white matter. Drinking severity was not significantly related to brain structural changes assessed with this method. Longitudinally, deformation based morphometry confirmed tissue recovery in RAs who maintain long-term sobriety. Abstinence-associated tissue volume gains are significant in focal parts of the fronto-ponto-cerebellar circuit that is adversely affected by heavy drinking.