A Mechanism of Rapidly Reversible Cerebral Ventricular Enlargement Independent of Tissue Atrophy

Zahr, Natalie M.; Mayer, Dirk; Rohlfing, Torsten; Orduna, Juan; Luong, Richard; Sullivan, Edith V.; Pfefferbaum, Adolf

doi:10.1038/npp.2013.11

Cited by 35 publications

(60 citation statements)

References 49 publications

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“…Results of in vivo MR imaging are consistent with our previous studies: each binge EtOH exposure cycle was associated with an increase in the volume of the lateral ventricles, a decrease in the levels of NAA and tCr, and an increase in the levels of Cho (Zahr et al, 2010; Zahr et al, 2014; Zahr et al, 2013). As described in great detail, this pattern of changes is consistent with a model of transient fluid redistribution during acute EtOH intoxication and recovery (Zahr et al, 2013).…”

Section: Discussionsupporting

confidence: 90%

“…Our in vivo magnetic resonance (MR) studies have consistently shown that a single 4-day EtOH binge is associated with reversible brain abnormality: enlargement of lateral ventricles, reductions in MR Spectroscopy (MRS)-detectable metabolites, N-acetyl-asparate (NAA) and total creatine (tCr), and elevations in choline-containing compounds (Cho) (Zahr et al, 2010; Zahr et al, 2014; Zahr et al, 2013). Together, these reversible events indicate transient cellular injury.…”

Section: Introductionmentioning

confidence: 99%

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Transient CNS responses to repeated binge ethanol treatment

et al. 2015

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Adaptive changes occur in response to repeated exposure to drugs. Although ethanol (EtOH) is known to induce pharmacokinetic tolerance, the effects of EtOH on in vivo, magnetic resonance (MR)-detectable brain measures across repeated exposures have not previously been reported. Of 28 rats weighing 341±22g at baseline, 15 were assigned to the EtOH group and 13 to the control (Ctrl) group. EtOH animals were exposed to 5 cycles of 4-days of EtOH treatment followed by 10 days of recovery. Rats in both groups had structural MR imaging (MRI) scans and whole brain MR spectroscopy (MRS) at baseline, immediately following each binge period, and after each recovery period (total=11 MR scans per rat). Average blood alcohol levels (BALs) across each of the 5, 4-day binge periods were 298, 300, 301, 312, 318 mg/dL. Cerebrospinal fluid (CSF) volumes of the lateral ventricles and cisterns showed enlargement with each binge EtOH exposure but recovery with each abstinence period. Similarly, changes to MRS metabolites were transient: levels of N-acetyl aspartate (NAA) and total creatine (tCr) decreased, while those of choline-containing compounds (Cho) and glutamate/glutamine (Glx) increased with each binge EtOH exposure cycle, but also recovered during each abstinence period. The directionality of changes in response to EtOH were in expected directions based on previous, single-binge EtOH exposure experiments, but the current results do not provide support for accruing pathology with repeated binge EtOH exposure.

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Section: Discussionsupporting

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Transient CNS responses to repeated binge ethanol treatment

et al. 2015

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“…The pattern of changes at time 2 included enlarged ventricles, hyperintensities in the inferior colliculus, and reduced NAA and Cho in the thalamus, but no lactate elevation. Enlargement of the ventricles has previously been reported in thiamine deficiency (Dror et al, 2010), but this MR metric is a non-specific index of brain pathology (e.g., Zahr et al, 2013). The edematous nature of inferior collicular pathology (Watanabe and Kanabe, 1978) may explain why it is detected early in the course of in thiamine deficiency by in vivo MRI, which is sensitive to brain pathology caused by tissue edema (Jung et al, 2012).…”

Section: Discussionmentioning

confidence: 98%

Associations between in vivo neuroimaging and postmortem brain cytokine markers in a rodent model of Wernicke's encephalopathy

Zahr

Alt

Mayer

et al. 2014

Experimental Neurology

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Thiamine (vitamin B1) deficiency, associated with a variety of conditions, including chronic alcoholism and bariatric surgery for morbid obesity, can result in the neurological disorder Wernicke’s encephalopathy (WE). Recent work building upon early observations in animal models of thiamine deficiency has demonstrated an inflammatory component to the neuropathology observed in thiamine deficiency. The present, multilevel study including in vivo magnetic resonance imaging (MRI) and spectroscopy (MRS) and postmortem quantification of chemokine and cytokine proteins sought to determine whether a combination of these in vivo neuroimaging tools could be used to characterize an in vivo MR signature for neuroinflammation. Thiamine deficiency for 12 days was used to model neuroinflammation; glucose loading in thiamine deficiency was used to accelerate neurodegeneration. Among 38 animals with regional brain tissue assayed postmortem for cytokine/chemokine protein levels, three groups of rats (controls+glucose, n=6; pyrithiamine+saline, n=5; pyrithiamine+glucose, n=13) underwent MRI/MRS at baseline (time 1), after 12 days of treatment (time 2), and 3h after challenge (glucose or saline, time 3). In the thalamus of glucose-challenged, thiamine deficient animals, correlations between in vivo measures of pathology (lower levels of N-acetyle aspartate and higher levels of lactate) and postmortem levels of monocyte chemotactic protein-1 (MCP-1, also known as chemokine ligand 2, CCL2) support a role for this chemokine in thiamine deficiency-related neurodegeneration, but do not provide a unique in vivo signature for neuroinflammation.

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“…Magnetic resonance imaging is acquired 1) pre-exposure (i.e., baseline), 2) within 2h of the last alcohol dose (BALs 250–300 mg/dL), and 3) after 7 days of recovery. The alcohol insult is reflected by reliably and significantly increased lateral ventricular volume in the alcohol group compared with the control group (Figure 4) (Zahr et al, 2010; Zahr et al, 2013a; Zahr et al, 2013b). Alcohol relative to control animals furthermore reveal alterations in MR spectroscopy (MRS) derived signals: lower N-acetylaspartate (NAA) and total creatine (tCr) and higher choline-containing compounds (Cho) (Zahr et al, 2010; Zahr et al, 2013a; Zahr et al, 2013b).…”

Section: Cognitive Function Deficit and Recoverymentioning

confidence: 98%

“…Lack of tissue volume reductions in brain regions adjacent to ventricles argues against atrophy as a mechanism of ventricular expansion. Decreased tissue water T2, decreased thalamic diffusivity, and a role for both NAA and Cho as osmolytes support a mechanism of rapid fluid redistribution during alcohol intoxication to account for rapid ventricular volume changes (Zahr et al, 2013b). Shifts of fluid between various brain compartments might explain reversibility of ventricular enlargement observed in humans following recovery from alcohol abuse (Zipursky et al, 1989), anorexia nervosa (Enzmann and Lane, 1977), and prolonged steroid use (Bentson et al, 1978).…”

Section: Cognitive Function Deficit and Recoverymentioning

confidence: 99%

Brain pathways to recovery from alcohol dependence

Cui

Noronha

Warren

et al. 2015

Alcohol

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This article highlights the research presentations at the satellite symposium on “Brain Pathways to Recovery from Alcohol Dependence” held at the 2013 Society for Neuroscience Annual Meeting. The purpose of this symposium was to provide an up to date overview of research efforts focusing on understanding brain mechanisms that contribute to recovery from alcohol dependence. A panel of scientists from the alcohol and addiction research field presented their insights and perspectives on brain mechanisms that may underlie both recovery and lack of recovery from alcohol dependence. The four sessions of the symposium encompassed multilevel studies exploring mechanisms underlying relapse and craving associated with sustained alcohol abstinence, cognitive function deficit and recovery, and translational studies on preventing relapse and promoting recovery. Gaps in our knowledge and research opportunities were also discussed.

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A Mechanism of Rapidly Reversible Cerebral Ventricular Enlargement Independent of Tissue Atrophy

Cited by 35 publications

References 49 publications

Transient CNS responses to repeated binge ethanol treatment

Transient CNS responses to repeated binge ethanol treatment

Associations between in vivo neuroimaging and postmortem brain cytokine markers in a rodent model of Wernicke's encephalopathy

Brain pathways to recovery from alcohol dependence

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