Your search keyword '"Avison, Malcolm J."' showing total 40 results

1. Brief exposure to obesogenic diet disrupts brain dopamine networks.

Author

Barry, Robert L., Byun, Nellie E., Williams, Jason M., Siuta, Michael A., Tantawy, Mohammed N., Speed, Nicole K., Saunders, Christine, Galli, Aurelio, Niswender, Kevin D., and Avison, Malcolm J.

Subjects

DOPAMINE, INSULIN receptors, HIGH-fat diet, CELLULAR signal transduction, LABORATORY rats

Abstract

Objective: We have previously demonstrated that insulin signaling, through the downstream signaling kinase Akt, is a potent modulator of dopamine transporter (DAT) activity, which fine-tunes dopamine (DA) signaling at the synapse. This suggests a mechanism by which impaired neuronal insulin receptor signaling, a hallmark of diet-induced obesity, may contribute to impaired DA transmission. We tested whether a short-term (two-week) obesogenic high-fat (HF) diet could reduce striatal Akt activity, a marker of central insulin, receptor signaling and blunt striatal and dopaminergic network responsiveness to amphetamine (AMPH). Methods: We examined the effects of a two-week HF diet on striatal DAT activity in rats, using AMPH as a probe in a functional magnetic resonance imaging (fMRI) assay, and mapped the disruption in AMPH-evoked functional connectivity between key dopaminergic targets and their projection areas using correlation and permutation analyses. We used phosphorylation of the Akt substrate GSK3α in striatal extracts as a measure of insulin receptor signaling. Finally, we confirmed the impact of HF diet on striatal DA D2 receptor (D2R) availability using [18F]fallypride positron emission tomography (PET). Results: We found that rats fed a HF diet for only two weeks have reductions in striatal Akt activity, a marker of decreased striatal insulin receptor signaling and blunted striatal responsiveness to AMPH. HF feeding also reduced interactions between elements of the mesolimbic (nucleus accumbens–anterior cingulate) and sensorimotor circuits (caudate/putamen–thalamus–sensorimotor cortex) implicated in hedonic feeding. D2R availability was reduced in HF-fed animals. Conclusion: These studies support the hypothesis that central insulin signaling and dopaminergic neurotransmission are already altered after short-term HF feeding. Because AMPH induces DA efflux and brain activation, in large part via DAT, these findings suggest that blunted central nervous system insulin receptor signaling through a HF diet can impair DA homeostasis, thereby disrupting cognitive and reward circuitry involved in the regulation of hedonic feeding. [ABSTRACT FROM AUTHOR]

Published

2018

2. An insulin resistance associated neural correlate of impulsivity in type 2 diabetes mellitus.

Author

Eckstrand, Kristen L., Mummareddy, Nishit, Kang, Hakmook, Cowan, Ronald, Zhou, Minchun, Zald, David, Silver, Heidi J., Niswender, Kevin D., and Avison, Malcolm J.

Subjects

INSULIN resistance, DOPAMINE, SELF regulation, IMPULSE (Psychology), FUNCTIONAL magnetic resonance imaging, PEOPLE with diabetes

Abstract

Central insulin resistance (IR) influences striatal dopamine (DA) tone, an important determinant of behavioral self-regulation. We hypothesized that an association exists between the degree of peripheral IR and impulse control, mediated by the impact of IR on brain circuits controlling the speed of executing “go” and/or “stop” responses. We measured brain activation and associated performance on a stop signal task (SST) in obese adults with type 2 diabetes (age, 48.1 ± 6.9 yrs (mean ± SD); BMI, 36.5 ± 4.0 kg/m2; HOMA-IR, 7.2 ± 4.1; 12 male, 18 female). Increasing IR, but not BMI, was a predictor of shorter critical stop signal delay (cSSD), a measure of the time window during which a go response can be successfully countermanded (R2 = 0.12). This decline was explained by an IR-associated increase in go speed (R2 = 0.13) with little impact of IR or BMI on stop speed. Greater striatal fMRI activation contrast in stop error (SE) compared with stop success (SS) trials (CONSE>SS) was a significant predictor of faster go speeds (R2 = 0.33, p = 0.002), and was itself predicted by greater IR (CONSE>SS vs HOMA-IR: R2 = 0.10, p = 0.04). Furthermore, this impact of IR on striatal activation was a significant mediator of the faster go speeds and greater impulsivity observed with greater IR. These findings suggest a neural mechanism by which IR may increase impulsivity and degrade behavioral self-regulation. [ABSTRACT FROM AUTHOR]

Published

2017

3. Characterizing active and inactive brown adipose tissue in adult humans using PET-CT and MR imaging.

Author

Gifford, Aliya, Towse, Theodore F., Walker, Ronald C., Avison, Malcolm J., and Welch, E. Brian

Subjects

MAGNETIC resonance imaging, CONNECTIVE tissues, ADIPONECTIN, ADIPOSE tissues, COMPUTED tomography

Abstract

Activated brown adipose tissue (BAT) plays an important role in thermogenesis and whole body metabolism in mammals. Positron emission tomography (PET)-computed tomography (CT) imaging has identified depots of BAT in adult humans, igniting scientific interest. The purpose of this study is to characterize both active and inactive supraclavicular BAT in adults and compare the values to those of subcutaneous white adipose tissue (WAT). We obtained [18F]fluorodeoxyglucose ([18F]FDG) PET-CT and magnetic resonance imaging (MRI) scans of 25 healthy adults. Unlike [18F]FDG PET, which can detect only active BAT, MRI is capable of detecting both active and inactive BAT. The MRI-derived fat signal fraction (FSF) of active BAT was significantly lower than that of inactive BAT (means ± SD; 60.2 ± 7.6 vs. 62.4 ± 6.8%, respectively). This change in tissue morphology was also reflected as a significant increase in Hounsfield units (HU; -69.4 ± 11.5 vs. -74.5 ± 9.7 HU, respectively). Additionally, the CT HU, MRI FSF, and MRI R2* values are significantly different between BAT and WAT, regardless of the activation status of BAT. To the best of our knowledge, this is the first study to quantify PET-CT and MRI FSF measurements and utilize a semiautomated algorithm to identify inactive and active BAT in the same adult subjects. Our findings support the use of these metrics to characterize and distinguish between BAT and WAT and lay the foundation for future MRI analysis with the hope that some day MRI-based delineation of BAT can stand on its own. [ABSTRACT FROM AUTHOR]

Published

2016

4. Antipsychotic Drug-Like Effects of the Selective M4 Muscarinic Acetylcholine Receptor Positive Allosteric Modulator VU0152100.

Author

Byun, Nellie E, Grannan, Michael, Bubser, Michael, Barry, Robert L, Thompson, Analisa, Rosanelli, John, Gowrishankar, Raajaram, Kelm, Nathaniel D, Damon, Stephen, Bridges, Thomas M, Melancon, Bruce J, Tarr, James C, Brogan, John T, Avison, Malcolm J, Deutch, Ariel Y, Wess, Jürgen, Wood, Michael R, Lindsley, Craig W, Gore, John C, and Conn, P Jeffrey

Subjects

ANTIPSYCHOTIC agents, MUSCARINIC antagonists, ACETYLCHOLINESTERASE inhibitors, ALLOSTERIC regulation, STARTLE reaction

Abstract

Accumulating evidence suggests that selective M4 muscarinic acetylcholine receptor (mAChR) activators may offer a novel strategy for the treatment of psychosis. However, previous efforts to develop selective M4 activators were unsuccessful because of the lack of M4 mAChR subtype specificity and off-target muscarinic adverse effects. We recently developed VU0152100, a highly selective M4 positive allosteric modulator (PAM) that exerts central effects after systemic administration. We now report that VU0152100 dose-dependently reverses amphetamine-induced hyperlocomotion in rats and wild-type mice, but not in M4 KO mice. VU0152100 also blocks amphetamine-induced disruption of the acquisition of contextual fear conditioning and prepulse inhibition of the acoustic startle reflex. These effects were observed at doses that do not produce catalepsy or peripheral adverse effects associated with non-selective mAChR agonists. To further understand the effects of selective potentiation of M4 on region-specific brain activation, VU0152100 alone and in combination with amphetamine were evaluated using pharmacologic magnetic resonance imaging (phMRI). Key neural substrates of M4-mediated modulation of the amphetamine response included the nucleus accumbens (NAS), caudate-putamen (CP), hippocampus, and medial thalamus. Functional connectivity analysis of phMRI data, specifically assessing correlations in activation between regions, revealed several brain networks involved in the M4 modulation of amphetamine-induced brain activation, including the NAS and retrosplenial cortex with motor cortex, hippocampus, and medial thalamus. Using in vivo microdialysis, we found that VU0152100 reversed amphetamine-induced increases in extracellular dopamine levels in NAS and CP. The present data are consistent with an antipsychotic drug-like profile of activity for VU0152100. Taken together, these data support the development of selective M4 PAMs as a new approach to the treatment of psychosis and cognitive impairments associated with psychiatric disorders such as schizophrenia. [ABSTRACT FROM AUTHOR]

Published

2014

5. An In Vivo 1H Magnetic Resonance Spectroscopy Study of the Deep Cerebellar Nuclei in Children with Fetal Alcohol Spectrum Disorders.

Author

Plessis, Lindie, Jacobson, Joseph L., Jacobson, Sandra W., Hess, Aaron T., Kouwe, Andre, Avison, Malcolm J., Molteno, Christopher D., Stanton, Mark E., Stanley, Jeffrey A., Peterson, Bradley S., and Meintjes, Ernesta M.

Subjects

NUCLEAR magnetic resonance spectroscopy, BRAIN physiology, FETAL alcohol syndrome, ASPARTIC acid, CHOLINE, INTELLIGENCE tests, RESEARCH funding, MULTIPLE regression analysis, DATA analysis software, PRENATAL exposure delayed effects

Abstract

Background Prenatal alcohol exposure has been linked to impairment in cerebellar structure and function, including eyeblink conditioning. The deep cerebellar nuclei, which play a critical role in cerebellar-mediated learning, receive extensive inputs from brain stem and cerebellar cortex and provide the point of origin for most of the output fibers to other regions of the brain. We used in vivo 1H magnetic resonance spectroscopy ( MRS) to examine effects of prenatal alcohol exposure on neurochemistry in this important cerebellar region. Methods MRS data from the deep cerebellar nuclei were acquired from 37 children with heavy prenatal alcohol exposure and 17 non- or minimally exposed controls from the Cape Coloured (mixed ancestry) community in Cape Town, South Africa. Results Increased maternal alcohol consumption around time of conception was associated with lower N-Acetylaspartate ( NAA) levels in the deep nuclei ( r = −0.33, p < 0.05). Higher levels of alcohol consumption during pregnancy were related to lower levels of the choline-containing metabolites ( r = −0.37, p < 0.01), glycerophosphocholine plus phosphocholine (Cho). Alcohol consumption levels both at conception ( r = 0.35, p < 0.01) and during pregnancy ( r = 0.38, p < 0.01) were related to higher levels of glutamate plus glutamine (Glx). All these effects continued to be significant after controlling for potential confounders. Conclusions The lower NAA levels seen in relation to prenatal alcohol exposure may reflect impaired neuronal integrity in the deep cerebellar nuclei. Our finding of lower Cho points to disrupted Cho metabolism of membrane phospholipids, reflecting altered neuropil development with potentially reduced content of dendrites and synapses. The alcohol-related alterations in Glx may suggest a disruption of the glutamate-glutamine cycling involved in glutamatergic excitatory neurotransmission. [ABSTRACT FROM AUTHOR]

Published

2014

6. Robust Data Driven Model Order Estimation for Independent Component Analysis of fMRI Data with Low Contrast to Noise.

Author

Majeed, Waqas and Avison, Malcolm J.

Subjects

INDEPENDENT component analysis, FUNCTIONAL magnetic resonance imaging, SIGNAL-to-noise ratio, NEUROSCIENCES, PRINCIPAL components analysis, DATA analysis

Abstract

Independent component analysis (ICA) has been successfully utilized for analysis of functional MRI (fMRI) data for task related as well as resting state studies. Although it holds the promise of becoming an unbiased data-driven analysis technique, a few choices have to be made prior to performing ICA, selection of a method for determining the number of independent components (nIC) being one of them. Choice of nIC has been shown to influence the ICA maps, and various approaches (mostly relying on information theoretic criteria) have been proposed and implemented in commonly used ICA analysis packages, such as MELODIC and GIFT. However, there has been no consensus on the optimal method for nIC selection, and many studies utilize arbitrarily chosen values for nIC. Accurate and reliable determination of true nIC is especially important in the setting where the signals of interest contribute only a small fraction of the total variance, i.e. very low contrast-to-noise ratio (CNR), and/or very focal response. In this study, we evaluate the performance of different model order selection criteria and demonstrate that the model order selected based upon bootstrap stability of principal components yields more reliable and accurate estimates of model order. We then demonstrate the utility of this fully data-driven approach to detect weak and focal stimulus-driven responses in real data. Finally, we compare the performance of different multi-run ICA approaches using pseudo-real data. [ABSTRACT FROM AUTHOR]

Published

2014

7. Canine body composition quantification using 3 tesla fat-water MRI.

Author

Gifford, Aliya, Kullberg, Joel, Berglund, Johan, Malmberg, Filip, Coate, Katie C., Williams, Phillip E., Cherrington, Alan D., Avison, Malcolm J., and Welch, E. Brian

Abstract

Purpose To test the hypothesis that a whole-body fat-water MRI (FWMRI) protocol acquired at 3 Tesla combined with semi-automated image analysis techniques enables precise volume and mass quantification of adipose, lean, and bone tissue depots that agree with static scale mass and scale mass changes in the context of a longitudinal study of large-breed dogs placed on an obesogenic high-fat, high-fructose diet. Materials and Methods Six healthy adult male dogs were scanned twice, at weeks 0 (baseline) and 4, of the dietary regiment. FWMRI-derived volumes of adipose tissue (total, visceral, and subcutaneous), lean tissue, and cortical bone were quantified using a semi-automated approach. Volumes were converted to masses using published tissue densities. Results FWMRI-derived total mass corresponds with scale mass with a concordance correlation coefficient of 0.931 (95% confidence interval = [0.813, 0.975]), and slope and intercept values of 1.12 and −2.23 kg, respectively. Visceral, subcutaneous and total adipose tissue masses increased significantly from weeks 0 to 4, while neither cortical bone nor lean tissue masses changed significantly. This is evidenced by a mean percent change of 70.2% for visceral, 67.0% for subcutaneous, and 67.1% for total adipose tissue. Conclusion FWMRI can precisely quantify and map body composition with respect to adipose, lean, and bone tissue depots. The described approach provides a valuable tool to examine the role of distinct tissue depots in an established animal model of human metabolic disease. J. Magn. Reson. Imaging 2014;39:485-491. © 2013 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2014

8. Validation of DTI Tractography-Based Measures of Primary Motor Area Connectivity in the Squirrel Monkey Brain.

Author

Gao, Yurui, Choe, Ann S., Stepniewska, Iwona, Li, Xia, Avison, Malcolm J., and Anderson, Adam W.

Subjects

DIFFUSION tensor imaging, MOTOR cortex, NEURAL circuitry, SQUIRREL monkeys, BRAIN physiology, NONINVASIVE diagnostic tests

Abstract

Diffusion tensor imaging (DTI) tractography provides noninvasive measures of structural cortico-cortical connectivity of the brain. However, the agreement between DTI-tractography-based measures and histological ‘ground truth’ has not been quantified. In this study, we reconstructed the 3D density distribution maps (DDM) of fibers labeled with an anatomical tracer, biotinylated dextran amine (BDA), as well as DTI tractography-derived streamlines connecting the primary motor (M1) cortex to other cortical regions in the squirrel monkey brain. We evaluated the agreement in M1-cortical connectivity between the fibers labeled in the brain tissue and DTI streamlines on a regional and voxel-by-voxel basis. We found that DTI tractography is capable of providing inter-regional connectivity comparable to the neuroanatomical connectivity, but is less reliable measuring voxel-to-voxel variations within regions. [ABSTRACT FROM AUTHOR]

Published

2013

9. Comparison of gross body fat-water magnetic resonance imaging at 3 Tesla to dual-energy X-ray absorptiometry in obese women.

Author

Silver, Heidi J., Niswender, Kevin D., Kullberg, Joel, Berglund, Johan, Johansson, Lars, Bruvold, Morten, Avison, Malcolm J., and Welch, E.Brian

Subjects

OBESITY in women, MAGNETIC resonance imaging, DUAL-energy X-ray absorptiometry, ADIPOSE tissues, WEIGHT loss, COMPARATIVE studies

Abstract

Objective: Improved understanding of how depot-specific adipose tissue mass predisposes to obesity-related comorbidities could yield new insights into the pathogenesis and treatment of obesity as well as metabolic benefits of weight loss. We hypothesized that three-dimensional (3D) contiguous 'fat-water' MR imaging (FWMRI) covering the majority of a whole-body field of view (FOV) acquired at 3 Tesla (3T) and coupled with automated segmentation and quantification of amount, type, and distribution of adipose and lean soft tissue would show great promise in body composition methodology. Design and Methods: Precision of adipose and lean soft tissue measurements in body and trunk regions were assessed for 3T FWMRI and compared to dual-energy X-ray absorptiometry (DXA). Anthropometric, FWMRI, and DXA measurements were obtained in 12 women with BMI 30-39.9 kg/m2. Results: Test-retest results found coefficients of variation (CV) for FWMRI that were all under 3%: gross body adipose tissue (GBAT) 0.80%, total trunk adipose tissue (TTAT) 2.08%, visceral adipose tissue (VAT) 2.62%, subcutaneous adipose tissue (SAT) 2.11%, gross body lean soft tissue (GBLST) 0.60%, and total trunk lean soft tissue (TTLST) 2.43%. Concordance correlation coefficients between FWMRI and DXA were 0.978, 0.802, 0.629, and 0.400 for GBAT, TTAT, GBLST, and TTLST, respectively. Conclusions: While Bland-Altman plots demonstrated agreement between FWMRI and DXA for GBAT and TTAT, a negative bias existed for GBLST and TTLST measurements. Differences may be explained by the FWMRI FOV length and potential for DXA to overestimate lean soft tissue. While more development is necessary, the described 3T FWMRI method combined with fully-automated segmentation is fast (<30-min total scan and post-processing time), noninvasive, repeatable, and cost-effective. [ABSTRACT FROM AUTHOR]

Published

2013

10. Fetal Alcohol-Related Growth Restriction from Birth through Young Adulthood and Moderating Effects of Maternal Prepregnancy Weight.

Author

Carter, R. Colin, Jacobson, Joseph L., Sokol, Robert J., Avison, Malcolm J., and Jacobson, Sandra W.

Subjects

COMPLICATIONS of alcoholism, ANALYSIS of covariance, ANTHROPOMETRY, BLACK people, FETAL growth retardation, HUMAN growth, INTERVIEWING, LONGITUDINAL method, RESEARCH funding, STATISTICAL sampling, SCALES (Weighing instruments), MULTIPLE regression analysis, REPEATED measures design, DATA analysis software, DESCRIPTIVE statistics, PRENATAL exposure delayed effects, PREGNANCY

Abstract

Background Fetal alcohol-related growth restriction persists through infancy, but its impact later in life is less clear. Animal studies have demonstrated important roles for maternal nutrition in fetal alcohol spectrum disorders, but the impact of prenatal maternal body composition has not been studied in humans. This study examined the effects of prenatal alcohol exposure on longitudinal growth from birth through young adulthood and the degree to which maternal weight and body mass index ( BMI) moderate these effects. Methods Nearly 480 mothers were recruited at their first prenatal clinic visit to overrepresent moderate-to-heavy use of alcohol during pregnancy, including a 5% random sample of low-level drinkers and abstainers. They were interviewed at every prenatal visit about their alcohol consumption using a timeline follow-back approach. Their children were examined for weight, length/height, and head circumference at birth, 6.5 and 13 months, and 7.5, 14, and 19 years. Results In multiple regression models with repeated measures (adjusted for confounders), prenatal alcohol exposure was associated with longitudinal reductions in weight, height, and weight-for-length/ BMI that were largely determined at birth. At low-to-moderate levels of exposure, these effects were more severe in infancy than in later childhood. By contrast, effects persisted among children whose mothers drank at least monthly and among those born to women with alcohol abuse and/or dependence who had consumed ≥ 4 drinks/occasion. In addition, effects on weight, height, and head circumference were markedly stronger among children born to mothers with lower prepregnancy weight. Conclusions These findings confirm prior studies demonstrating alcohol-related reductions in weight, height, weight-for-height/ BMI, and head circumference that persist through young adulthood. Stronger effects were seen among children born to mothers with smaller prepregnancy weight, which may have been because of attainment of higher blood alcohol concentrations in smaller mothers for a given amount of alcohol intake or to increased vulnerability in infants born to women with poorer nutrition. [ABSTRACT FROM AUTHOR]

Published

2013

11. Persistent Dose-Dependent Changes in Brain Structure in Young Adults with Low-to-Moderate Alcohol Exposure In Utero.

Author

Eckstrand, Kristen L., Ding, Zhaohua, Dodge, Neil C., Cowan, Ronald L., Jacobson, Joseph L., Jacobson, Sandra W., and Avison, Malcolm J.

Subjects

ANALYSIS of variance, BRAIN, STATISTICAL correlation, ETHANOL, LONGITUDINAL method, MAGNETIC resonance imaging, RESEARCH funding, STATISTICS, T-test (Statistics), DATA analysis, DATA analysis software, DESCRIPTIVE statistics, FETUS

Abstract

Background Many children with heavy exposure to alcohol in utero display characteristic alterations in brain size and structure. However, the long-term effects of low-to-moderate alcohol exposure on these outcomes are unknown. Methods Using voxel-based morphometry and region-of-interest analyses, we examined the influence of lower doses of alcohol on gray and white matter composition in a prospectively recruited, homogeneous, well-characterized cohort of alcohol-exposed ( n = 11, age 19.5 ± 0.3 years) and control ( n = 9, age 19.6 ± 0.5 years) young adults. A large proportion of the exposed individuals were born to mothers whose alcohol consumption during pregnancy was in the low-to-moderate range. Results There were no differences in total brain volume or total gray or white matter volume between the exposed and control groups. However, gray matter volume was reduced in alcohol-exposed individuals in several areas previously reported to be affected by high levels of exposure, including the left cingulate gyrus, bilateral middle frontal gyri, right middle temporal gyrus, and right caudate nucleus. Notably, this gray matter loss was dose dependent, with higher exposure producing more substantial losses. Conclusions These results indicate that even at low doses, alcohol exposure during pregnancy impacts brain development and that these effects persist into young adulthood. [ABSTRACT FROM AUTHOR]

Published

2012

12. Rescue of Dopamine Transporter Function in Hypoinsulinemic Rats by a D2 Receptor-ERK-Dependent Mechanism.

Author

Owens, W. Anthony, Williams, Jason M., Saunders, Christine, Avison, Malcolm J., Galli, Aurelio, and Daws, Lynette C.

Subjects

DOPAMINE, LABORATORY rats, DRUG abuse, AMPHETAMINES, CELLULAR signal transduction, INSULIN therapy

Abstract

The dopamine (DA) transporter (DAT) is a major target for abused drugs and a key regulator of extracellular DA. A rapidly growing literature implicates insulin as an important regulator of DAT function. We showed previously that amphetamine (AMPH)-evoked DA release is markedly impaired in rats depleted of insulin with the diabetogenic agent streptozotocin (STZ). Similarly, functional magnetic resonance imaging experiments revealed that the blood oxygenation level-dependent signal following acute AMPH administration in STZ-treated rats is reduced. Here, we report that these deficits are restored by repeated, systemic administration of AMPH (1.78 mg/kg, every other day for 8 d). AMPH stimulates DA D2 receptors indirectly by increasing extracellular DA. Supporting a role for D2 receptors in mediating this "rescue," the effect was completely blocked by pre-treatment of STZ-treated rats with the D2 receptor antagonist raclopride before systemic AMPH. D2 receptors regulate DAT cell surface expression through ERK1/2 signaling. In ex vivo striatal preparations, repeated AMPH injections increased immunoreactivity of phosphorylated ERK1/2 (p-ERK1/2) in STZ-treated but not control rats. These data suggest that repeated exposure to AMPH can rescue, by activating D2 receptors and p-ERK signaling, deficits in DATfunction that result from hypoinsulinemia. Our data confirm the idea that disorders influencing insulin levels and/or signaling, such as diabetes and anorexia, can degrade DAT function and that insulin-independent pathways are present that may be exploited as potential therapeutic targets to restore normal DAT function. [ABSTRACT FROM AUTHOR]

Published

2012

13. Parameterization-Invariant Shape Comparisons of Anatomical Surfaces.

Author

Kurtek, Sebastian, Klassen, Eric, Ding, Zhaohua, Jacobson, Sandra W., Jacobson, Joseph L., Avison, Malcolm J., and Srivastava, Anuj

Subjects

PARAMETER estimation, INVARIANTS (Mathematics), BRAIN imaging, JACOBIAN matrices, THREE-dimensional imaging, ATTENTION-deficit hyperactivity disorder, RIEMANNIAN geometry, BRAIN anatomy

Abstract

We consider 3-D brain structures as continuous parameterized surfaces and present a metric for their comparisons that is invariant to the way they are parameterized. Past comparisons of such surfaces involve either volume deformations or nonrigid matching under fixed parameterizations of surfaces. We propose a new mathematical representation of surfaces, called q-maps, such that \BBL^2 distances between such maps are invariant to re-parameterizations. This property allows for removing the parameterization variability by optimizing over the re-parameterization group, resulting in a proper parameterization-invariant distance between shapes of surfaces. We demonstrate this method in shape analysis of multiple brain structures, for 34 subjects in the Detroit Fetal Alcohol and Drug Exposure Cohort study, which results in a 91% classification rate for attention deficit hyperactivity disorder cases and controls. This method outperforms some existing techniques such as spherical harmonic point distribution model (SPHARM-PDM) or iterative closest point (ICP). [ABSTRACT FROM AUTHOR]

Published

2011

14. Changes in Dietary Iron Exacerbate Regional Brain Manganese Accumulation as Determined by Magnetic Resonance Imaging.

Author

Fitsanakis, Vanessa A., Zhang, Na, Avison, Malcolm J., Erikson, Keith M., Gore, John C., and Aschner, Michael

Subjects

MAGNETIC resonance imaging of the brain, LABORATORY rats, METALS in the body, METAL toxicology, BRAIN stem, HOMEOSTASIS, CELL membranes

Abstract

Manganese (Mn) is an essential metal required for normal homeostasis. Humans chronically exposed to high Mn levels, however, may exhibit psychomotor signs secondary to increased brain Mn. As Mn and iron (Fe) share several cellular membrane transporters, decreased Fe levels resulting from Fe deficiency or anemia lead to increased brain Mn deposition. Conversely, decreased Mn levels are associated with abnormal brain Fe accumulation. To reduce potential Mn toxicity resulting from brain Mn accumulation, we proposed that increased dietary Fe would attenuate brain Mn deposition. To test this hypothesis, three groups of Sprague-Dawley rats were injected weekly (14 weeks) with Mn (3 mg/kg) and fed normal Fe (TX), Fe-supplemented (FeS), or Fe-deficient (FeD) chow. Control (CN) rats received normal dietary Fe and saline injections. Using magnetic resonance imaging, rats were imaged biweekly for 14 weeks to qualitatively monitor brain Mn and Fe accumulation. Both FeS and FeD had greater brain Mn deposition than TX rats. By week 3, R1 values, which correlate with Mn deposition, were statistically significantly increased (p < 0.05) in brain stem, cerebellum, cortex, midbrain, and striatum compared with CN or TX animals. By week 14, R1 values for all brain regions in FeS and FeD animals were statistically significantly increased (p < 0.05). By the end of the study, similar results were obtained for R2 values, a marker of Fe accumulation. These data suggest that Fe supplementation does not effectively protect and may even exacerbate brain Mn accumulation in mammals subchronically exposed to Mn. [ABSTRACT FROM AUTHOR]

Published

2011

15. An Event-Related Potential Study of Response Inhibition in ADHD With and Without Prenatal Alcohol Exposure.

Author

Burden, Matthew J., Jacobson, Joseph L., Westerlund, Alissa, Lundahl, Leslie H., Morrison, Audrey, Dodge, Neil C., Klorman, Rafael, Nelson, Charles A., Avison, Malcolm J., and Jacobson, Sandra W.

Subjects

EVOKED potentials (Electrophysiology), ATTENTION-deficit hyperactivity disorder, CHILDREN of prenatal alcohol abuse, NEUROPHYSIOLOGY, FETAL alcohol syndrome

Abstract

Background: The attention and cognitive problems seen in individuals with a history of prenatal alcohol exposure often resemble those associated with attention deficit hyperactivity disorder (ADHD), but few studies have directly assessed the unique influence of each on neurobehavioral outcomes. Methods: We recorded event-related potentials (ERPs) during a Go/No-go response inhibition task in young adults with prospectively obtained histories of prenatal alcohol exposure and childhood ADHD. Results: Regardless of prenatal alcohol exposure, participants with childhood ADHD were less accurate at inhibiting responses. However, only the ADHD group without prenatal alcohol exposure showed a markedly diminished P3 difference between No-go and Go, which may reflect a more effortful strategy related to inhibitory control at the neural processing level. Conclusion: This finding supports a growing body of evidence suggesting that the manifestation of idiopathic ADHD symptoms may stem from a neurophysiologic process that is different from the ADHD symptomatology associated with prenatal alcohol exposure. Individuals who have been prenatally exposed to alcohol and present with ADHD symptomatology may represent a unique endophenotype of the disorder, which may require different treatment approaches from those found to be effective with idiopathic ADHD. [ABSTRACT FROM AUTHOR]

Published

2010

16. Chronic Exposure to Manganese Alters Brain Responses to Amphetamine: A Pharmacological Magnetic Resonance Imaging Study.

Author

Williams, Jason M., Milatovic, Dejan, Gore, John C., Aschner, Michael, and Avison, Malcolm J.

Subjects

AMPHETAMINES, DOPAMINERGIC neurons, MAGNETIC resonance imaging, MANGANESE, DOPAMINE

Abstract

The parkinsonian symptoms and increased Mn accumulation in dopaminergic (DAergic) neurons of the basal ganglia implicate impaired dopamine signaling in the neurotoxic effects of chronic manganese overexposure. Using blood oxygenation level-dependent (BOLD) pharmacological magnetic resonance imaging (phMRI), we mapped brain responses to acute amphetamine (AMPH; 3 mg/kg, ip), which stimulates midbrain DAergic systems, in male Sprague- Dawley rats following 6 weeks of chronic MnCl2 (5 mg Mn/kg, one per week, iv) or saline treatment. Plasma Mn content, measured immediately following phMRI, was elevated twofold in Mntreated animals (p < 0.05), but the twofold increase in mean striatal Mn content did not reach significance. In saline-treated animals, AMPH stimulated robust positive BOLD responses throughout the basal ganglia and their reciprocally innervated connections. In contrast, acute AMPH stimulated a negative BOLD response in many of these structures in the Mn-treated group, resulting in significant differences between saline- and Mntreated AMPH-evoked BOLD responses within caudate putamen, globus pallidus, substantia nigra, mediodorsal thalamic nucleus, and somatosensory cortex. These results demonstrate the utility of AMPH-evoked phMRI as readout of the DAergic signaling in vivo and confirm the vulnerability of DAergic systems to Mn. [ABSTRACT FROM AUTHOR]

Published

2010

17. Imaging body composition in obesity and weight loss: challenges and opportunities.

Author

Silver, Heidi J., Welch, E. Brian, Avison, Malcolm J., and Niswender, Kevin D.

Published

2010

18. Prenatal Alcohol Exposure and Interhemispheric Transfer of Tactile Information: Detroit and Cape Town Findings.

Author

Dodge, Neil C., Jacobson, Joseph L., Molteno, Christopher D., Meintjes, Ernesta M., Bangalore, Sumana, Diwadkar, Vaibhav, Hoyme, Eugene H., Robinson, Luther K., Khaole, Nathaniel, Avison, Malcolm J., and Jacobson, Sandra W.

Subjects

ALCOHOLISM in pregnancy, FETAL alcohol syndrome, CORPUS callosum, CHILDREN of prenatal alcohol abuse, BINGE drinking

Abstract

Background: Previous research has demonstrated that heavy prenatal alcohol exposure affects the size and shape of the corpus callosum (CC) and compromises interhemispheric transfer of information. The aim of this study was to confirm the previous reports of poorer performance on a finger localization test (FLT) of interhemispheric transfer in a cohort of heavily exposed children and to extend these findings to a cohort of moderately exposed young adults. Methods: In Study 1, the FLT was administered to 40 heavily exposed and 23 nonexposed children from the Cape Coloured community of Cape Town, South Africa, who were evaluated for fetal alcohol syndrome (FAS) dysmorphology and growth. Anatomical images of the CC were obtained using structural MRI on a subset of these children. In Study 2, the FLT was administered to a cohort of 85 moderate-to-heavily exposed young adults participating in a 19-year follow-up assessment of the Detroit Prenatal Alcohol Exposure cohort, whose alcohol exposure had been ascertained prospectively during gestation. Results: In Study 1, children with FAS showed more transfer-related errors than controls after adjustment for confounding, and increased transfer-related errors were associated with volume reductions in the isthmus and splenium of the CC. In Study 2, transfer-related errors were associated with quantity of alcohol consumed per occasion during pregnancy. More errors were made if the mother reported binge drinking (≥5 standard drinks) during pregnancy than if she drank regularly (M ≥ 1 drink/day) without binge drinking. Conclusions: These findings confirm a previous report of impaired interhemispheric transfer of tactile information in children heavily exposed to alcohol in utero and extend these findings to show that these deficits are also seen in more moderately exposed individuals, particularly those exposed to binge-like pregnancy drinking. [ABSTRACT FROM AUTHOR]

Published

2009

19. Molecular Imaging Without Radiopharmaceuticals?

Author

Gore, John C., Yankeelov, Thomas E., Peterson, Todd. E., and Avison, Malcolm J.

Published

2009

20. A model for the analysis of competitive relaxation effects of manganese and iron in vivo.

Author

Zhang, Na, Fitsanakis, Vanessa A., Erikson, Keith M., Aschner, Michael, Avison, Malcolm J., and Gore, John C.

Abstract

Manganese (Mn) and iron (Fe) are both paramagnetic species that can affect magnetic resonance relaxation rates. They also share common transport systems in vivo and thus in experimental models of metal exposure their effects on relaxation rates may interact in a complex fashion. Here we present a novel model to interpret the combined effects of Mn and Fe on MRI relaxation rates. To achieve varying levels of both metals, adult rats were separated into four groups; a control group and three groups treated with weekly intravenous injections of 3 mg Mn/kg body for 14 weeks. The three treated groups were fed either a normal diet, Fe deficient or Fe enriched diet. All rats were scanned using MRI at the 14th week to measure regional water relaxation rates. Rat brains were removed at the end of the study (14th week) and dissected into regions for measurement of Mn and Fe by atomic absorption spectroscopy. For the normal diet groups, R1 was strongly correlated with tissue Mn concentrations. However, the slopes of the linear regression fits varied significantly among different brain regions, and a simple linear model failed to explain the changes in relaxation rate when both Mn and Fe contents changed. We propose a competition model, which is based on the ability of Mn and Fe to compete in vivo for common binding sites. The combined effect of Mn and Fe on the relaxation rates is complicated and additional studies will be necessary to explain how MRI signals are affected when the levels of both metals are varied. Copyright © 2009 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2009

21. High-resolution 7T MRI of the human hippocampus in vivo.

Author

Thomas, Bradley P., Welch, E. Brian, Niederhauser, Blake D., Whetsell, William O., Anderson, Adam W., Gore, John C., Avison, Malcolm J., and Creasy, Jeffrey L.

Abstract

Purpose To describe an initial experience imaging the human hippocampus in vivo using a 7T magnetic resonance (MR) scanner and a protocol developed for very high field neuroimaging. Materials and Methods Six normal subjects were scanned on a 7T whole body MR scanner equipped with a 16-channel head coil. Sequences included a full field of view T1-weighted 3D turbo field echo (T1W 3D TFE: time of acquisition (TA) = 08:58), T2*-weighted 2D fast field echo (T2*W 2D FFE: TA = 05:20), and susceptibility-weighted imaging (SWI: TA = 04:20). SWI data were postprocessed using a minimum intensity projection (minIP) algorithm. Total imaging time was 23 minutes. Results T1W 3D TFE images with 700 μm isotropic voxels provided excellent anatomic depiction of macroscopic hippocampal structures. T2*W 2D FFE images with 0.5 mm in-plane resolution and 2.5 mm slice thickness provided clear discrimination of the Cornu Ammonis and the compilation of adjacent sublayers of the hippocampus. SWI images (0.5 mm in-plane resolution, 1.0 mm slice thickness) delineated microvenous anatomy of the hippocampus. Conclusion In vivo 7T MR imaging can take advantage of higher signal-to-noise and novel contrast mechanisms to provide increased conspicuity of hippocampal anatomy. J. Magn. Reson. Imaging 2008;28:1266-1272. © 2008 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2008

22. Hypoinsulinemia Regulates Amphetamine-Induced Reverse Transport of Dopamine.

Author

Williams, Jason M., Owens, W. Anthony, Turner, Gregory H., Saunders, Christine, Dipace, Concetta, Blakely, Randy D., France, Charles P., Gore, John C., Daws, Lynette C., Avison, Malcolm J., and Galli, Aurelio

Subjects

AMPHETAMINES, DOPAMINE, INSULIN, PROTEIN kinases, DRUG abuse

Abstract

After the striatum is exposed to amphetamines, insulin signaling regulates dopamine via downstream phosphotidylinositol 3-kinase and protein kinase B targets. This in vivo evidence points toward a mechanism for drug abuse. [ABSTRACT FROM AUTHOR]

Published

2007

23. High-Resolution Maps of Real and Illusory Tactile Activation in Primary Somatosensory Cortex in Individual Monkeys with Functional Magnetic Resonance Imaging and Optical Imaging.

Author

Chen, Li M., Turner, Gregory H., Friedman, Robert M., Na Zhang, Gore, John C., Roe, Anna W., and Avison, Malcolm J.

Subjects

OXYGENATORS, ELECTROPHYSIOLOGY, TOPOGRAPHIC maps, MAGNETIC resonance, DIAGNOSTIC imaging, MAGNETIC resonance imaging, MAGNETIC fields

Abstract

Although blood oxygenation level-dependent (BOLD) functional magnetic resonance imaging (fMRI) has been widely used to explore human brain function, questions remain regarding the ultimate spatial resolution of positive BOLD fMRI, and indeed the extent to which functional maps revealed by positive BOLD correlate spatially with maps obtained with other high-spatial-resolution mapping techniques commonly used in animals, such as optical imaging of intrinsic signal (OIS) and single-unit electrophysiology. Here, we demonstrate that the positive BOLD signal at 9.4T can reveal the fine topography of individual fingerpads in single-condition activation maps in nonhuman primates. These digit maps are similar to maps obtained from the same animal using intrinsic optical imaging. Furthermore, BOLD fMRI reliably resolved submillimeter spatial shifts in activation in area 3b previously identified with OIS (Chen et al., 2003) as neural correlates of the "funneling illusion." These data demonstrate that at high field, high-spatial-resolution topographic maps can be achieved using the positive BOLD signal, weakening previous notions regarding the spatial specificity of the positive BOLD signal. [ABSTRACT FROM AUTHOR]

Published

2007

24. 2D arbitrary shape-selective excitation summed spectroscopy (ASSESS).

Author

Qin, Qin, Gore, John C., Does, Mark D., Avison, Malcolm J., and de Graaf, Robin A.

Abstract

Conventional single-voxel localization for MR spectroscopy (MRS) is restricted to selecting only rectangular-shaped regions of interest (ROIs). The complexity of tissue shapes of interest and the desire to maximize the signal-to-noise ratio (SNR) while minimizing partial-volume effects require more sophisticated localization techniques. A group of spatially selective RF pulses are proposed in this work for the measurement of spectra from regions of arbitrary shape based on using a radial trajectory in k-space. Utilizing a single k-line per excitation results in a broad spectroscopic bandwidth. However, spatial localization accuracy is compromised for nutation angles > 10° because of the small-tip-angle approximation of the Bloch equations. By interleaving multiple radial k-lines per excitation with nonselective refocusing pulses, one can achieve accurate localization for nutation angles up to 90° while simultaneously maintaining the spectral bandwidth. The technique is described and compared with existing localization methods, and in vivo results are demonstrated. Magn Reson Med 58:19-26, 2007. © 2007 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

2007

25. The use of magnetic resonance imaging (MRI) in the study of manganese neurotoxicity

Author

Fitsanakis, Vanessa A., Zhang, Na, Avison, Malcolm J., Gore, John C., Aschner, Judy L., and Aschner, Michael

Published

2006

26. Inflammatory changes and breakdown of microvascular integrity in early human immunodeficiency virus dementia.

Author

Avison, Malcolm J., Nath, Avindra, Greene-Avison, Robin, Schmitt, Frederick A., Bales, Rodney A., Ethisham, As'ad, Greenberg, Richard N., and Berger, Joseph R.

Subjects

MAGNETIC resonance imaging, HIV-positive persons, CENTRAL nervous system, CEREBROSPINAL fluid, CHEMOKINES, MICROGLIA

Abstract

Increased postcontrast enhancement in contrast-enhanced magnetic resonance imaging (CE-MRI) of the central nervous system (CNS) is a predictor of human immunodeficiency virus (HIV) dementia severity in HIV-infected subjects. The present study confirms this earlier finding in a mildly impaired patient cohort, and demonstrates that the increased postcontrast enhancement is correlated with increased cerebrospinal fluid (CSF) levels of monocyte chemoattractant protein (MCP)-1, an inflammatory chemokine, and increased CNS levels of mI, a microglial marker. These results suggest that early CNS inflammation may underlie the microvascular changes observed, and may be a factor in the development of HIV dementia. [ABSTRACT FROM AUTHOR]

Published

2004

27. Acceleration of HIV dementia with methamphetamine and cocaine.

Author

Nath, Avindra, Maragos, William F., Avison, Malcolm J., Schmitt, Frederick A., and Berger, Joseph R.

Subjects

AIDS dementia complex, METHAMPHETAMINE, COCAINE, HIV-positive persons, SEIZURES (Medicine), MOVEMENT disorders

Abstract

We report a patient with rapidly accelerating HIV dementia accompanied by seizures and an unusual movement disorder despite highly potent antiretroviral therapy. This clinical constellation was associated with the non-parenteral use of methamphetamine and cocaine. Fractional enhancement time on post contrast magnetic resonance imaging studies revealed a progressive breakdown of the blood brain barrier particularly in the basal ganglia. The movement disorder but not the dementia responded to a combination of dopamine replacement and anticholinergic therapy. While the movement disorder may have been unmasked by concomitant anticonvulsant therapy, we suggest in this instance, that prior drug abuse synergized with HIV to cause a domino effect on cerebral function. Careful attention and analysis to histories of remote non-injecting drug abuse may help substantiate our hypothesis. [ABSTRACT FROM AUTHOR]

Published

2001

28. Functional magnetic resonance imaging evidence for task-specific activation of developmentally abnormal visual association cortex.

Author

Smith, Charles D., Trevathan, Edwin R., Zhang, Ming, Andersen, Anders H., Avison, Malcolm J., Smith, C D, Trevathan, E R, Zhang, M, Andersen, A H, and Avison, M J

Published

1999

29. Cortical activation in confrontation naming.

Author

Smith, Charles D., Andersen, Anders H., Chen, Qun, Blonder, Lee X., Kirsch, John E., and Avison, Malcolm J.

Published

1996

30. Measurement of Na+-K+ coupling ratio of Na+-K+-ATPase in rabbit proximal tubules.

Author

AVISON, MALCOLM J., GULLANS, STEVEN R., OGINO, TAKASHI, GIEBISCH, GERHARD, and SHULMAN, ROBERT G.

Published

1987

31. Frontal lobe phosphorus metabolism and neuropsychological function in aging and in alzheimer's disease.

Author

Smith, Charles D., Creed Pettigrew, L., Avison, Malcolm J., Kirsch, John E., Tinkhtman, Alexander J., Schmitt, Frederick A., Wermeling, Daniel P., Wekstein, David R., and Marchkesberry, William R.

Published

1995

32. Role of nucleoside uptake in renal postischemic ATP synthesis.

Author

VAN WAARDE, AREN, AVISON, MALCOLM J., THULIN, GUNILLA, GAUDIO, KAREN M., SHULMAN, ROBERT G., and SIEGEL, NORMAN J.

Published

1992

33. Succinate alters respiration, membrane potential, and intracellular K+ in proximal tubule.

Author

GULLANS, STEVEN R., KONE, BRUCE C., AVISON, MALCOLM J., and GIEBISCH, GERHARD

Published

1988

34. Postischemic ATP-MgCl2 provides precursors for resynthesis of cellular ATP in rats.

Author

STROMSKI, MICHAEL E., COOPER, KERRY, THULIN, GUNILLA, AVISON, MALCOLM J., GAUDIO, KAREN M., SHULMAN, ROBERT G., and SIEGEL, NORMAN J.

Published

1986

35. NMR measurements of intracellular sodium in the rabbit proximal tubule.

Author

GULLANS, STEVEN R., AVISON, MALCOLM J., TAKASHI OGINO, GIEBISCH, GERHARD, and SHULMAN, ROBERT G.

Published

1985

36. Enhanced recovery of renal ATP with postischemic infusion of ATP-MgCl2 determined by 31P-NMR.

Author

SIEGEL, NORMAN J., AVISON, MALCOLM J., REILLY, HUGH F., ALGER, JEFFREY R., and SHULMAN, ROBERT G.

Published

1983

37. Validation of 13C NMR measurements of liver glycogen in vivo.

Author

Gruetter, Rolf, Magnusson, Inger, Rothman, Douglas L., Avison, Malcolm J., Shulman, Robert G., and Shulman, Gerald I.

Published

1994

38. Proton NMR observation of glycogen in vivo.

Author

Chen, Wei, Avison, Malcolm J., Bloch, Gilles, and Shulman, Robert G.

Published

1994

39. Physiological Uses of Nuclear Magnetic Resonance.

Author

Avison, Malcolm J. and Siegel, Norman J.

Published

1989

40. Insulin Regulation of Monoamine Signaling: Pathway to Obesity.

Author

Niswender, Kevin D., Daws, Lynette C., Avison, Malcolm J., and Galli, Aurelio

Subjects

INSULIN, BLOOD sugar, DIABETES, OBESITY, METABOLIC disorders

Abstract

The article cites a research study on the regulation of insulin for dealing with diabetes and obesity. It is said that the number of people suffering from diabetes and obesity have increased dramatically over the past few years despite efforts to therapeutically target homeostatic mechanisms. Insulin regulate both homeostatic and reward-based high-fat feeding.

Published

2011