Your search keyword '"Gene-Jack Wang"' showing total 470 results

1. Neural circuit selective for fast but not slow dopamine increases in drug reward

Author

Peter Manza, Dardo Tomasi, Ehsan Shokri-Kojori, Rui Zhang, Danielle Kroll, Dana Feldman, Katherine McPherson, Catherine Biesecker, Evan Dennis, Allison Johnson, Kai Yuan, Wen-Tung Wang, Michele-Vera Yonga, Gene-Jack Wang, and Nora D. Volkow

Subjects

Science

Abstract

Abstract The faster a drug enters the brain, the greater its addictive potential, yet the brain circuits underlying the rate dependency to drug reward remain unresolved. With simultaneous PET-fMRI we linked dynamics of dopamine signaling, brain activity/connectivity, and self-reported ‘high’ in 20 adults receiving methylphenidate orally (results in slow delivery) and intravenously (results in fast delivery) (trial NCT03326245). We estimated speed of striatal dopamine increases to oral and IV methylphenidate and then tested where brain activity was associated with slow and fast dopamine dynamics (primary endpoint). We then tested whether these brain circuits were temporally associated with individual ‘high’ ratings to methylphenidate (secondary endpoint). A corticostriatal circuit comprising the dorsal anterior cingulate cortex and insula and their connections with dorsal caudate was activated by fast (but not slow) dopamine increases and paralleled ‘high’ ratings. These data provide evidence in humans for a link between dACC/insula activation and fast but not slow dopamine increases and document a critical role of the salience network in drug reward.

Published

2023

2. Ketogenic diet reduces a neurobiological craving signature in inpatients with alcohol use disorder

Author

Corinde E. Wiers, Peter Manza, Gene-Jack Wang, and Nora D. Volkow

Subjects

brain energetics, ketone, ketosis, neuroimaging, withdrawal, Nutrition. Foods and food supply, TX341-641

Abstract

Background and aimsIncreasing evidence suggests that a ketogenic (high-fat, low-carbohydrate) diet (KD) intervention reduces alcohol withdrawal severity and alcohol craving in individuals with alcohol use disorder (AUD) by shifting brain energetics from glucose to ketones. We hypothesized that the KD would reduce a neurobiological craving signature when individuals undergoing alcohol detoxification treatment were exposed to alcohol cues.MethodsWe performed a secondary analysis of functional magnetic resonance data of 33 adults with an AUD who were randomized to a KD (n = 19) or a standard American diet (SA; n = 14) and underwent 3 weeks of inpatient alcohol detoxification treatment. Once per week, participants performed an alcohol cue-reactivity paradigm with functional magnetic resonance imaging. We extracted brain responses to food and alcohol cues and quantified the degree to which each set of brain images shared a pattern of activation with a recently established ‘Neurobiological Craving Signature’ (NCS). We then performed a group-by-time repeated measures ANOVA to test for differences in craving signature expression between the dietary groups over the three-week treatment period. We also correlated these expression patterns with self-reported wanting ratings for alcohol cues.ResultsFor alcohol relative to food cues, there was a main effect of group, such that the KD group showed lower NCS expression across all 3 weeks of treatment. The main effect of time and the group-by-time interaction were not significant. Self-reported wanting for alcohol cues reduced with KD compared to SA but did not correlate with the NCS score.ConclusionA ketogenic diet reduces self-reported alcohol wanting, and induced lower NCS to alcohol cues during inpatient treatment for AUD. However, in the KD group alcohol wanting continued to decrease across the 3 weeks of abstinence while the NCS scores remained stable, suggesting that this cue-induced NCS may not fully capture ongoing, non-cue-induced alcohol desire.

Published

2024

3. Time-varying SUVr reflects the dynamics of dopamine increases during methylphenidate challenges in humans

Author

Dardo Tomasi, Peter Manza, Jean Logan, Ehsan Shokri-Kojori, Michele-Vera Yonga, Danielle Kroll, Dana Feldman, Katherine McPherson, Catherine Biesecker, Evan Dennis, Allison Johnson, Kai Yuan, Wen-Tung Wang, John A. Butman, Gene-Jack Wang, and Nora D. Volkow

Subjects

Biology (General), QH301-705.5

Abstract

Combined PET imaging and mathematical simulations reveal that the rate of dopamine increase in the striatum underlies self-reports of drug “high” in response to oral and intravenous methylphenidate challenges in humans

Published

2023

4. Striatal D1 and D2 receptor availability are selectively associated with eye-blink rates after methylphenidate treatment

Author

Şükrü B. Demiral, Peter Manza, Erin Biesecker, Corinde Wiers, Ehsan Shokri-Kojori, Katherine McPherson, Evan Dennis, Allison Johnson, Dardo Tomasi, Gene-Jack Wang, and Nora D. Volkow

Subjects

Biology (General), QH301-705.5

Abstract

PET imaging in human participants revealed that D1 and D2 dopamine receptor availability was associated with eye-blink rates following treatment with oral methylphenidate, but not a placebo.

Published

2022

5. Association between body mass index and treatment completion in extended-release naltrexone-treated patients with opioid dependence

Author

Xinyi Li, Daniel D. Langleben, Kevin G. Lynch, Gene-Jack Wang, Igor Elman, Corinde E. Wiers, and Zhenhao Shi

Subjects

opioid use disorder, medication-assisted treatment, body weight gain, addiction, food, obesity, Psychiatry, RC435-571

Abstract

BackgroundExcessive consumption of opioids is associated with impaired metabolic function including increased body mass index (BMI). Opioid antagonist naltrexone (NTX) is an effective treatment for opioid use disorder (OUD) that has the potential to mitigate such metabolic disturbances. Understanding the relationship between treatment adherence and BMI in NTX-treated OUD patients may provide valuable insights into optimizing clinical outcomes.MethodsPatients with opioid dependence were offered up to three monthly injections of extended-release (XR) NTX. Treatment completers (n = 41) were defined as those who had received all three XR-NTX injections, and non-completers (n = 20) as those missing at least one injection. Logistic regression was performed to examine the association between pre-treatment BMI and treatment completion.ResultsBMI was positively associated with treatment completion. This association remained significant after adjusting for potentially confounding variables.ConclusionOur findings suggest that baseline BMI may serve as a potential predictor of XR-NTX treatment adherence in patients with OUD and could help healthcare providers and policy makers alike in developing strategies to improve retention and tailor interventions for specific patient subgroups.

Published

2023

6. Cortical D1 and D2 dopamine receptor availability modulate methylphenidate-induced changes in brain activity and functional connectivity

Author

Peter Manza, Ehsan Shokri-Kojori, Şükrü Barış Demiral, Corinde E. Wiers, Rui Zhang, Natasha Giddens, Katherine McPherson, Erin Biesecker, Evan Dennis, Allison Johnson, Dardo Tomasi, Gene-Jack Wang, and Nora D. Volkow

Subjects

Biology (General), QH301-705.5

Abstract

Joint PET and MRI analyses of cortical D1 and D2 dopamine receptors in healthy adults provide a framework for understanding how dopamine-boosting drugs alter brain function.

Published

2022

7. Ketamine use disorder: preclinical, clinical, and neuroimaging evidence to support proposed mechanisms of actions

Author

Leah Vines, Diana Sotelo, Allison Johnson, Evan Dennis, Peter Manza, Nora D. Volkow, and Gene-Jack Wang

Subjects

Ketamine, Neuroimaging, N-methyl-D-aspartate, Dopamine, Serotonin, Glutamatergic, Medical technology, R855-855.5

Abstract

Ketamine, a noncompetitive N-methyl-D-aspartate (NMDA) receptor antagonist, has been exclusively used as an anesthetic in medicine and has led to new insights into the pathophysiology of neuropsychiatric disorders. Clinical studies have shown that low subanesthetic doses of ketamine produce antidepressant effects for individuals with depression. However, its use as a treatment for psychiatric disorders has been limited due to its reinforcing effects and high potential for diversion and misuse. Preclinical studies have focused on understanding the molecular mechanisms underlying ketamine's antidepressant effects, but a precise mechanism had yet to be elucidated. Here we review different hypotheses for ketamine's mechanism of action including the direct inhibition and disinhibition of NMDA receptors, aminomethylphosphonic acid receptors (AMPAR) activation, and heightened activation of monoaminergic systems. The proposed mechanisms are not mutually exclusive, and their combined influence may exert the observed structural and functional neural impairments. Long term use of ketamine induces brain structural, functional impairments, and neurodevelopmental effects in both rodents and humans. Its misuse has increased rapidly in the past 20 years and is one of the most common addictive drugs used in Asia. The proposed mechanisms of action and supporting neuroimaging data allow for the development of tools to identify ‘biotypes’ of ketamine use disorder (KUD) using machine learning approaches, which could inform intervention and treatment.

Published

2022

8. Neurological, Behavioral, and Pathophysiological Characterization of the Co-Occurrence of Substance Use and HIV: A Narrative Review

Author

Leah Vines, Diana Sotelo, Natasha Giddens, Peter Manza, Nora D. Volkow, and Gene-Jack Wang

Subjects

HIV-1, Tat, gp120, psychostimulant use disorders, neuroimaging, biopsychosocial model, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Combined antiretroviral therapy (cART) has greatly reduced the severity of HIV-associated neurocognitive disorders in people living with HIV (PLWH); however, PLWH are more likely than the general population to use drugs and suffer from substance use disorders (SUDs) and to exhibit risky behaviors that promote HIV transmission and other infections. Dopamine-boosting psychostimulants such as cocaine and methamphetamine are some of the most widely used substances among PLWH. Chronic use of these substances disrupts brain function, structure, and cognition. PLWH with SUD have poor health outcomes driven by complex interactions between biological, neurocognitive, and social factors. Here we review the effects of comorbid HIV and psychostimulant use disorders by discussing the distinct and common effects of HIV and chronic cocaine and methamphetamine use on behavioral and neurological impairments using evidence from rodent models of HIV-associated neurocognitive impairments (Tat or gp120 protein expression) and clinical studies. We also provide a biopsychosocial perspective by discussing behavioral impairment in differentially impacted social groups and proposing interventions at both patient and population levels.

Published

2023

9. Age-related differences in striatal dopamine D1 receptors mediate subjective drug effects

Author

Peter Manza, Ehsan Shokri-Kojori, Şükrü Barış Demiral, Rui Zhang, Evan Dennis, Allison Johnson, Leah Vines, Diana Sotelo, Dardo Tomasi, Gene-Jack Wang, and Nora D. Volkow

Subjects

Neuroscience, Medicine

Published

2023

10. Brain glutamate and sleep efficiency associations following a ketogenic diet intervention in individuals with Alcohol Use Disorder

Author

Xinyi Li, Zhenhao Shi, Juliana Byanyima, Peter T. Morgan, Jan-Willem van der Veen, Rui Zhang, Erin Deneke, Gene-Jack Wang, Nora D. Volkow, and Corinde E. Wiers

Subjects

Ketosis, Alcohol use disorder, Sleep quality, Sleep duration, Glutamate, Detoxification treatment, Medicine

Abstract

ABSTRACT: Background: We previously showed that ketogenic diet (KD) was effective in curbing alcohol withdrawal and craving in individuals with alcohol use disorder (AUD). We hypothesized that the clinical benefits were due to improvements in sleep. To test this, we performed a secondary analysis on the KD trial data to (1) examine the effects of KD on total sleep time (TST) and sleep quality and (2) investigate the association between KD-induced alterations in cingulate glutamate concentration and changes in TST and sleep quality. Methods: AUD individuals undergoing alcohol detoxification were randomized to receive KD (n = 19) or standard American diet (SA; n = 14) for three weeks. TST was measured weekly by self-report, GENEActive sleep accelerometer, and X4 Sleep Profiler ambulatory device. Sleep quality was assessed using subjectively ratings of sleep depth and restedness and Sleep Profiler (Sleep Efficiency [%]). Weekly 1H magnetic resonance spectroscopy scans measured cingulate glutamate levels. Results: TST was lower in KD than SA and increased with time. Sleep depth, restedness, and Sleep Efficiency improved with time, but exhibited no effect of diet. In KD and SA combined, week 1 cingulate glutamate levels correlated positively with Sleep Efficiency, but not with TST. Conclusions: Although cingulate glutamate levels correlated positively with Sleep Efficiency in week 1, KD-induced glutamate elevation did not produce significant sleep improvements. Rather, KD was associated with lower TST than SA. Given the well-established associations between sleep and alcohol relapse, longer follow up assessment of KD's impact on sleep in AUD is warranted.

Published

2022

11. Naloxone precipitated withdrawal increases dopamine release in the dorsal striatum of opioid dependent men

Author

Ehsan Shokri-Kojori, Gene-Jack Wang, and Nora D. Volkow

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Dopamine (DA) neurotransmission is critical in the neurobiology of reward and aversion, but its contribution to the aversive state of opioid withdrawal remains unknown in humans. To address this, we used updated voxelwise methods and retrospectively analyzed a [11C]raclopride-PET dataset to measure D2/3 receptor availability and relative cerebral blood flow (R1) in male opioid use disorder (OUD) participants (n = 10) during placebo and acute opioid withdrawal conditions. We found that acute withdrawal precipitated by the opioid antagonist naloxone significantly increased dorsal striatal DA release in OUD participants (p FWE

Published

2021

12. Sleep disturbances are associated with cortical and subcortical atrophy in alcohol use disorder

Author

Rui Zhang, Dardo Tomasi, Peter Manza, Ehsan Shokri-Kojori, Sukru B. Demiral, Dana E. Feldman, Danielle S. Kroll, Catherine L. Biesecker, Katherine L. McPherson, Gene-Jack Wang, Corinde E. Wiers, and Nora D. Volkow

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Sleep disturbances are prominent in patients with alcohol use disorder (AUD) and predict relapse. So far, the mechanisms underlying sleep disruptions in AUD are poorly understood. Because sleep-related regions vastly overlap with regions, where patients with AUD showed pronounced grey matter (GM) reduction; we hypothesized that GM structure could contribute to sleep disturbances associated with chronic alcohol use. We combined sleep EEG recording and high-resolution structural brain imaging to examine the GM-sleep associations in 36 AUD vs. 26 healthy controls (HC). The patterns of GM-sleep associations differed for N3 vs. REM sleep and for AUD vs. HC. For cortical thickness (CT), CT-sleep associations were significant in AUD but not in HC and were lateralized such that lower CT in right hemisphere was associated with shorter N3, whereas in left hemisphere was associated with shorter REM sleep. For the GM density (GMD), we observed a more extensive positive GMD-N3 association in AUD (right orbitofrontal cortex, cerebellum, dorsal cingulate and occipital cortex) than in HC (right orbitofrontal cortex), and the GMD-REM association was positive in AUD (midline, motor and paralimbic regions) whereas negative in HC (the left supramarginal gyrus). GM structure mediated the effect of chronic alcohol use on the duration of N3 and the age by alcohol effect on REM sleep. Our findings provide evidence that sleep disturbances in AUD were associated with GM reductions. Targeting sleep-related regions might improve sleep in AUD and enhance sleep-induced benefits in cognition and emotional regulation for recovery.

Published

2021

13. Correspondence between cerebral glucose metabolism and BOLD reveals relative power and cost in human brain

Author

Ehsan Shokri-Kojori, Dardo Tomasi, Babak Alipanahi, Corinde E. Wiers, Gene-Jack Wang, and Nora D. Volkow

Subjects

Science

Abstract

The brain primarily uses glucose to generate energy, but the relationship of neuronal activity to glucose utilization is not necessarily a simple linear one. Here, the authors introduce relative power (rPWR) and relative cost (rCST) as new metrics to quantify how brain activity relates to glucose consumption.

Published

2019

14. Cannabis Affects Cerebellar Volume and Sleep Differently in Men and Women

Author

Katherine L. McPherson, Dardo G. Tomasi, Gene-Jack Wang, Peter Manza, and Nora D. Volkow

Subjects

marijuana, tetrahydrocannabinol, magnetic resonance imaging, sexual dimorphism, subcortical volume, Psychiatry, RC435-571

Abstract

Background: There are known sex differences in behavioral and clinical outcomes associated with drugs of abuse, including cannabis. However, little is known about how chronic cannabis use and sex interact to affect brain structure, particularly in regions with high cannabinoid receptor expression, such as the cerebellum, amygdala, and hippocampus. Based on behavioral data suggesting that females may be particularly vulnerable to the effects of chronic cannabis use, we hypothesized lower volumes in these regions in female cannabis users. We also hypothesized poorer sleep quality among female cannabis users, given recent findings highlighting the importance of sleep for many outcomes related to cannabis use disorder.Methods: Using data from the Human Connectome Project, we examined 170 chronic cannabis users (>100 lifetime uses and/or a lifetime diagnosis of cannabis dependence) and 170 controls that we attempted to match on age, sex, BMI, race, tobacco use, and alcohol use. We performed group-by-sex ANOVAs, testing for an interaction in subcortical volumes, and in self-reported sleep quality (Pittsburgh Sleep Questionnaire Inventory).Results: After controlling for total intracranial volume and past/current tobacco usage, we found that cannabis users relative to controls had smaller cerebellum volume and poorer sleep quality, and these effects were driven by the female cannabis users (i.e., a group-by-sex interaction). Among cannabis users, there was an age of first use-by-sex interaction in sleep quality, such that females with earlier age of first cannabis use tended to have more self-reported sleep issues, whereas this trend was not present among male cannabis users. The amygdala volume was smaller in cannabis users than in non-users but the group by sex interaction was not significant.Conclusions: These data corroborate prior findings that females may be more sensitive to the neural and behavioral effects of chronic cannabis use than males. Further work is needed to determine if reduced cerebellar and amygdala volumes contribute to sleep impairments in cannabis users.

Published

2021

15. Increased transcription of TSPO, HDAC2, and HDAC6 in the amygdala of males with alcohol use disorder

Author

Luana Martins De Carvalho, Corinde E. Wiers, Hui Sun, Gene‐Jack Wang, and Nora D. Volkow

Subjects

alcohol, epigenetics, neuroinflammation, TSPO, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Introduction Repeated exposure to high doses of alcohol triggers neuroinflammatory processes that contribute to craving and mood dysfunction in alcohol use disorder (AUD). The upregulation of the translocator protein (TSPO) is considered a biomarker of neuroinflammation, and TSPO ligands have been used as neuroimaging biomarkers of neuroinflammation. Epigenetic mechanisms are also implicated in neuroinflammatory responses to alcohol, and elevated expression of HDAC2 and HDAC6 has been reported in the brain of animals exposed to chronic alcohol. Methods The present study examined the transcriptional regulation of TSPO, HDAC2, and HDAC6 in human postmortem brain tissue from males previously diagnosed with AUD (n = 11) compared to age‐matched nondependent males (n = 13) in four brain regions relevant to AUD: prefrontal cortex (PFC), nucleus accumbens (NAc), hippocampus (HPP), and amygdala (AMY). Results Translocator protein mRNA levels in AMY and PFC and HDAC2 and HDAC6 mRNA levels in AMY were upregulated in AUD compared to controls. In AMY, TSPO mRNA levels were positively associated with HDAC2 and HDAC6 mRNA levels, suggesting a possible regulation of TSPO by HDAC2 and HDAC6 in this brain region. In contrast, there were no group differences for TSPO, HDAC2, and HDAC6 in NAc and HPP. Conclusion Our study is the first to find upregulated TSPO mRNA levels in AMY and PFC in postmortem brains from AUD consistent with neuroinflammation, and in the amygdala, they implicate epigenetic regulation of TSPO by HDAC2 and HDAC6.

Published

2021

16. Human Cognitive Ability Is Modulated by Aromatase Availability in the Brain in a Sex-Specific Manner

Author

Nelly Alia-Klein, Rebecca N. Preston-Campbell, Sung Won Kim, Deborah Pareto, Jean Logan, Gene-Jack Wang, Scott J. Moeller, Joanna S. Fowler, and Anat Biegon

Subjects

aromatase, [11C]vorozole, estrogen, testosterone, cognition, PET, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The enzyme aromatase catalyzes the final step in estrogen biosynthesis, converting testosterone to estradiol, and is expressed in the brain of all mammals. Estrogens are thought to be important for maintenance of cognitive function in women, whereas testosterone is thought to modulate cognitive abilities in men. Here, we compare differences in cognitive performance in relation to brain aromatase availability in healthy men and women. Twenty-seven healthy participants were administered tests of verbal learning and memory and perceptual/abstract reasoning. In vivo images of brain aromatase availability were acquired in this sample using positron emission tomography (PET) with the validated aromatase radiotracer [11C]vorozole. Regions of interest were placed bilaterally on the amygdala and thalamus where aromatase availability is highest in the human brain. Though cognitive performance and aromatase availability did not differ as a function of sex, higher availability of aromatase in the amygdala was associated with lower cognitive performance in men. No such relationship was found in women; and the corresponding regression slopes were significantly different between the sexes. Thalamic aromatase availability was not significantly correlated with cognitive performance in either sex. These findings suggest that the effects of brain aromatase on cognitive performance are both region- and sex-specific and may explain some of the normal variance seen in verbal and nonverbal cognitive abilities in men and women as well as sex differences in the trajectory of cognitive decline associated with Alzheimer’s disease.

Published

2020

17. Age-Related Decreases in Interhemispheric Resting-State Functional Connectivity and Their Relationship With Executive Function

Author

Jizheng Zhao, Peter Manza, Corinde Wiers, Huaibo Song, Puning Zhuang, Jun Gu, Yinggang Shi, Gene-Jack Wang, and Dongjian He

Subjects

executive function, voxel-mirrored homotopic connectivity, Delis-Kaplan executive function system, mediation analysis, medial temporal lobe subsystem, salience network, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Age-related alterations of functional brain networks contribute to cognitive decline. Current theories indicate that age-related intrinsic brain functional reorganization may be a critical marker of cognitive aging. Yet, little is known about how intrinsic interhemispheric functional connectivity changes with age in adults, and how this relates to critical executive functions. To address this, we examined voxel-mirrored homotopic connectivity (VMHC), a metric that quantifies interhemispheric communication, in 93 healthy volunteers (age range: 19–85) with executive function assessment using the Delis-Kaplan Executive Function System (D-KEFS) scales. Resting functional MRI data were analyzed to assess VMHC, and then a multiple linear regression model was employed to evaluate the relationship between age and the whole-brain VMHC. We observed age-related reductions in VMHC of ventromedial prefrontal cortex (vmPFC) and hippocampus in the medial temporal lobe subsystem, dorsal anterior cingulate cortex and insula in salience network, and inferior parietal lobule in frontoparietal control network. Performance on the color-word inhibition task was associated with VMHC of vmPFC and insula, and VMHC of vmPFC mediated the relationship between age and CWIT inhibition reaction times. The percent ratio of correct design scores in design fluency test correlated positively with VMHC of the inferior parietal lobule. The current study suggests that brain interhemispheric functional alterations may be a promising new avenue for understanding age-related cognitive decline.

Published

2020

18. Molecular Imaging of Opioid and Dopamine Systems: Insights Into the Pharmacogenetics of Opioid Use Disorders

Author

Jamie A. Burns, Danielle S. Kroll, Dana E. Feldman, Christopher Kure Liu, Peter Manza, Corinde E. Wiers, Nora D. Volkow, and Gene-Jack Wang

Subjects

opioid use disorder, neuroimaging, genetics, positron emission tomography, PET, polymorphism, Psychiatry, RC435-571

Abstract

Opioid use in the United States has steadily risen since the 1990s, along with staggering increases in addiction and overdose fatalities. With this surge in prescription and illicit opioid abuse, it is paramount to understand the genetic risk factors and neuropsychological effects of opioid use disorder (OUD). Polymorphisms disrupting the opioid and dopamine systems have been associated with increased risk for developing substance use disorders. Molecular imaging studies have revealed how these polymorphisms impact the brain and contribute to cognitive and behavioral differences across individuals. Here, we review the current molecular imaging literature to assess how genetic variations in the opioid and dopamine systems affect function in the brain’s reward, cognition, and stress pathways, potentially resulting in vulnerabilities to OUD. Continued research of the functional consequences of genetic variants and corresponding alterations in neural mechanisms will inform prevention and treatment of OUD.

Published

2019

19. Neuroimaging of Sex/Gender Differences in Obesity: A Review of Structure, Function, and Neurotransmission

Author

Danielle S. Kroll, Dana E. Feldman, Catherine L. Biesecker, Katherine L. McPherson, Peter Manza, Paule Valery Joseph, Nora D. Volkow, and Gene-Jack Wang

Subjects

obesity, sex, gender, taste, neuroimaging, MRI, Nutrition. Foods and food supply, TX341-641

Abstract

While the global prevalence of obesity has risen among both men and women over the past 40 years, obesity has consistently been more prevalent among women relative to men. Neuroimaging studies have highlighted several potential mechanisms underlying an individual’s propensity to become obese, including sex/gender differences. Obesity has been associated with structural, functional, and chemical alterations throughout the brain. Whereas changes in somatosensory regions appear to be associated with obesity in men, reward regions appear to have greater involvement in obesity among women than men. Sex/gender differences have also been observed in the neural response to taste among people with obesity. A more thorough understanding of these neural and behavioral differences will allow for more tailored interventions, including diet suggestions, for the prevention and treatment of obesity.

Published

2020

20. Physical activity measured with wrist and ankle accelerometers: Age, gender, and BMI effects.

Author

Veronica Ramirez, Ehsan Shokri-Kojori, Elizabeth A Cabrera, Corinde E Wiers, Kathleen Merikangas, Dardo Tomasi, Gene-Jack Wang, and Nora D Volkow

Subjects

Medicine, Science

Abstract

Physical activity (PA) is associated with various aspects of physical and mental health and varies by age and BMI. We aimed to compare PA measures obtained with wrist and ankle accelerometers and characterize their associations with age and BMI. We assessed PA mean and PA variability (indexed by coefficient of variation (CV)) at daytime and nighttime periods for seven consecutive days (M = 152.90 h) in 47 healthy participants (18-73 years old, 21 females). Diurnally, mean PA for both ankle and wrist and CV of PA for ankle decreased from the first to the second half of daytime (p < 0.05). There were no differences in mean PA between wrist and ankle at any time-period (p > 0.2). CV of ankle PA at daytime was significantly higher than wrist PA (p < .0001). The opposite pattern was observed at nighttime (p < .0001). Pearson correlation analyses were performed to assess the associations between wrist (or ankle) PA and age and BMI. Mean daytime (but not nighttime) activity for wrist and ankle decreased significantly with age (p < .05). PA variability also decreased with age for wrist and ankle during daytime and for ankle during nighttime (p < .05). BMI was negatively associated with wrist daytime PA variability (p < .05). There were no gender effects on activity measures. These findings indicate that wrist and ankle mean PA measures were not significantly different but were significantly different (p < 0.5) for PA variability in both daytime and nighttime. Age-related decreases of PA-mean and variability were observed during daytime in wrist and ankle, whereas higher wrist daytime variability was inversely associated with BMI. These findings provide new insights into PA features in free-living environment, which are relevant for public health and may have implications for clinical assessment of neurodegenerative disorders impacting PA and their interaction with demographics.

Published

2018

21. Correlation between Traits of Emotion-Based Impulsivity and Intrinsic Default-Mode Network Activity

Author

Jizheng Zhao, Dardo Tomasi, Corinde E. Wiers, Ehsan Shokri-Kojori, Şükrü B. Demiral, Yi Zhang, Nora D. Volkow, and Gene-Jack Wang

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Negative urgency (NU) and positive urgency (PU) are implicated in several high-risk behaviors, such as eating disorders, substance use disorders, and nonsuicidal self-injury behavior. The current study aimed to explore the possible link between trait of urgency and brain activity at rest. We assessed the amplitude of low-frequency fluctuations (ALFF) of the resting-state functional magnetic resonance imaging (fMRI) signal in 85 healthy volunteers. Trait urgency measures were related to ALFF in the lateral orbitofrontal cortex, dorsolateral prefrontal cortex, ventral and dorsal medial frontal cortex, anterior cingulate, and posterior cingulate cortex/precuneus. In addition, trait urgency measures showed significant correlations with the functional connectivity of the posterior cingulate cortex/precuneus seed with the thalamus and midbrain region. These findings suggest an association between intrinsic brain activity and impulsive behaviors in healthy humans.

Published

2017

22. Roux-en-Y Gastric Bypass Alters Brain Activity in Regions that Underlie Reward and Taste Perception.

Author

Panayotis K Thanos, Mike Michaelides, Mike Subrize, Mike L Miller, Robert Bellezza, Robert N Cooney, Lorenzo Leggio, Gene-Jack Wang, Ann M Rogers, Nora D Volkow, and Andras Hajnal

Subjects

Medicine, Science

Abstract

BACKGROUND:Roux-en-Y gastric bypass (RYGB) surgery is a very effective bariatric procedure to achieve significant and sustained weight loss, yet little is known about the procedure's impact on the brain. This study examined the effects of RYGB on the brain's response to the anticipation of highly palatable versus regular food. METHODS:High fat diet-induced obese rats underwent RYGB or sham operation and were then tested for conditioned place preference (CPP) for the bacon-paired chamber, relative to the chow-paired chamber. After CPP, animals were placed in either chamber without the food stimulus, and brain-glucose metabolism (BGluM) was measured using positron emission tomography (μPET). RESULTS:Bacon CPP was only observed in RYGB rats that had stable weight loss following surgery. BGluM assessment revealed that RYGB selectively activated regions of the right and midline cerebellum (Lob 8) involved in subjective processes related to reward or expectation. Also, bacon anticipation led to significant activation in the medial parabrachial nuclei (important in gustatory processing) and dorsomedial tegmental area (key to reward, motivation, cognition and addiction) in RYGB rats; and activation in the retrosplenial cortex (default mode network), and the primary visual cortex in control rats. CONCLUSIONS:RYGB alters brain activity in areas involved in reward expectation and sensory (taste) processing when anticipating a palatable fatty food. Thus, RYGB may lead to changes in brain activity in regions that process reward and taste-related behaviors. Specific cerebellar regions with altered metabolism following RYGB may help identify novel therapeutic targets for treatment of obesity.

Published

2015

23. Kinetic Analysis of [C]Vorozole Binding in the Human Brain with Positron Emission Tomography

Author

Jean Logan, Sung Won Kim, Deborah Pareto, Frank Telang, Gene-Jack Wang, Joanna S. Fowler, and Anat Biegon

Subjects

Biology (General), QH301-705.5, Medical technology, R855-855.5

Abstract

Using positron emission tomography, we investigated the kinetics of [ 11 C]vorozole ([ 11 C]VOR), a radiotracer for the enzyme aromatase that catalyzes the last step in estrogen biosynthesis. Six subjects were scanned under baseline conditions followed by retest 2 weeks later. The retest was followed by a blocking study with 2.5 mg of the aromatase inhibitor letrozole. The binding potential (BPA d ) was estimated from a Lassen plot using the total tissue distribution volume ( V T ) for baseline and blocked. BP A ND for the thalamus was found to be 15 times higher than that for the cerebellum. From the letrozole studies, we found that [ 11 C]VOR exhibits a slow binding compartment (small k 4 ) that has a nonspecific and a blockable component. Because of the sensitivity of V T to variations in k 4 , a common value was used for the four highest binding regions. We also considered the tissue uptake to plasma ratio for 60 to 90 minutes as an outcome measure. Using the ratio method, the difference between the highest and lowest was 2.4 compared to 3.5 for the V T . The ratio method underestimates the high regions but is less variable and may be more suitable for patient studies. Because of its kinetics and distribution, this tracer is not a candidate for a bolus infusion or reference tissue methods.

Published

2014

24. Reactions to media violence: it's in the brain of the beholder.

Author

Nelly Alia-Klein, Gene-Jack Wang, Rebecca N Preston-Campbell, Scott J Moeller, Muhammad A Parvaz, Wei Zhu, Millard C Jayne, Chris Wong, Dardo Tomasi, Rita Z Goldstein, Joanna S Fowler, and Nora D Volkow

Subjects

Medicine, Science

Abstract

Media portraying violence is part of daily exposures. The extent to which violent media exposure impacts brain and behavior has been debated. Yet there is not enough experimental data to inform this debate. We hypothesize that reaction to violent media is critically dependent on personality/trait differences between viewers, where those with the propensity for physical assault will respond to the media differently than controls. The source of the variability, we further hypothesize, is reflected in autonomic response and brain functioning that differentiate those with aggression tendencies from others. To test this hypothesis we pre-selected a group of aggressive individuals and non-aggressive controls from the normal healthy population; we documented brain, blood-pressure, and behavioral responses during resting baseline and while the groups were watching media violence and emotional media that did not portray violence. Positron Emission Tomography was used with [18F]fluoro-deoxyglucose (FDG) to image brain metabolic activity, a marker of brain function, during rest and during film viewing while blood-pressure and mood ratings were intermittently collected. Results pointed to robust resting baseline differences between groups. Aggressive individuals had lower relative glucose metabolism in the medial orbitofrontal cortex correlating with poor self-control and greater glucose metabolism in other regions of the default-mode network (DMN) where precuneus correlated with negative emotionality. These brain results were similar while watching the violent media, during which aggressive viewers reported being more Inspired and Determined and less Upset and Nervous, and also showed a progressive decline in systolic blood-pressure compared to controls. Furthermore, the blood-pressure and brain activation in orbitofrontal cortex and precuneus were differentially coupled between the groups. These results demonstrate that individual differences in trait aggression strongly couple with brain, behavioral, and autonomic reactivity to media violence which should factor into debates about the impact of media violence on the public.

Published

2014

25. BMI modulates calorie-dependent dopamine changes in accumbens from glucose intake.

Author

Gene-Jack Wang, Dardo Tomasi, Antonio Convit, Jean Logan, Christopher T Wong, Elena Shumay, Joanna S Fowler, and Nora D Volkow

Subjects

Medicine, Science

Abstract

Dopamine mediates the rewarding effects of food that can lead to overeating and obesity, which then trigger metabolic neuroadaptations that further perpetuate excessive food consumption. We tested the hypothesis that the dopamine response to calorie intake (independent of palatability) in striatal brain regions is attenuated with increases in weight.We used positron emission tomography with [11C]raclopride to measure dopamine changes triggered by calorie intake by contrasting the effects of an artificial sweetener (sucralose) devoid of calories to that of glucose to assess their association with body mass index (BMI) in nineteen healthy participants (BMI range 21-35).Neither the measured blood glucose concentrations prior to the sucralose and the glucose challenge days, nor the glucose concentrations following the glucose challenge vary as a function of BMI. In contrast the dopamine changes in ventral striatum (assessed as changes in non-displaceable binding potential of [11C]raclopride) triggered by calorie intake (contrast glucose - sucralose) were significantly correlated with BMI (r = 0.68) indicating opposite responses in lean than in obese individuals. Specifically whereas in normal weight individuals (BMI

Published

2014

26. Association between dopamine D4 receptor polymorphism and age related changes in brain glucose metabolism.

Author

Nora D Volkow, Dardo Tomasi, Gene-Jack Wang, Frank Telang, Joanna S Fowler, Rita Z Goldstein, Nelly Klein, Christopher Wong, James M Swanson, and Elena Shumay

Subjects

Medicine, Science

Abstract

Aging is associated with reductions in brain glucose metabolism in some cortical and subcortical regions, but the rate of decrease varies significantly between individuals, likely reflecting genetic and environmental factors and their interactions. Here we test the hypothesis that the variant of the dopamine receptor D4 (DRD4) gene (VNTR in exon 3), which has been associated with novelty seeking and sensitivity to environmental stimuli (negative and positive) including the beneficial effects of physical activity on longevity, influence the effects of aging on the human brain. We used positron emission tomography (PET) and [(18)F]fluoro-D-glucose ((18)FDG) to measure brain glucose metabolism (marker of brain function) under baseline conditions (no stimulation) in 82 healthy individuals (age range 22-55 years). We determined their DRD4 genotype and found an interaction with age: individuals who did not carry the 7-repeat allele (7R-, n = 53) had a significant (p

Published

2013

27. Long-term stimulant treatment affects brain dopamine transporter level in patients with attention deficit hyperactive disorder.

Author

Gene-Jack Wang, Nora D Volkow, Timothy Wigal, Scott H Kollins, Jeffrey H Newcorn, Frank Telang, Jean Logan, Millard Jayne, Christopher T Wong, Hao Han, Joanna S Fowler, Wei Zhu, and James M Swanson

Subjects

Medicine, Science

Abstract

Brain dopamine dysfunction in attention deficit/hyperactivity disorder (ADHD) could explain why stimulant medications, which increase dopamine signaling, are therapeutically beneficial. However while the acute increases in dopamine induced by stimulant medications have been associated with symptom improvement in ADHD the chronic effects have not been investigated.We used positron emission tomography and [(11)C]cocaine (dopamine transporter radioligand) to measure dopamine transporter availability in the brains of 18 never-medicated adult ADHD subjects prior to and after 12 months of treatment with methylphenidate and in 11 controls who were also scanned twice at 12 months interval but without stimulant medication. Dopamine transporter availability was quantified as non-displaceable binding potential using a kinetic model for reversible ligands.Twelve months of methylphenidate treatment increased striatal dopamine transporter availability in ADHD (caudate, putamen and ventral striatum: +24%, p

Published

2013

28. Reduced metabolism in brain 'control networks' following cocaine-cues exposure in female cocaine abusers.

Author

Nora D Volkow, Dardo Tomasi, Gene-Jack Wang, Joanna S Fowler, Frank Telang, Rita Z Goldstein, Nelly Alia-Klein, and Christopher Wong

Subjects

Medicine, Science

Abstract

Gender differences in vulnerability for cocaine addiction have been reported. Though the mechanisms are not understood, here we hypothesize that gender differences in reactivity to conditioned-cues, which contributes to relapse, are involved.To test this we compared brain metabolism (using PET and ¹⁸FDG) between female (n = 10) and male (n = 16) active cocaine abusers when they watched a neutral video (nature scenes) versus a cocaine-cues video.Self-reports of craving increased with the cocaine-cue video but responses did not differ between genders. In contrast, changes in whole brain metabolism with cocaine-cues differed by gender (p

Published

2011

29. Distribution and pharmacokinetics of methamphetamine in the human body: clinical implications.

Author

Nora D Volkow, Joanna S Fowler, Gene-Jack Wang, Elena Shumay, Frank Telang, Peter K Thanos, and David Alexoff

Subjects

Medicine, Science

Abstract

Methamphetamine is one of the most toxic of the drugs of abuse, which may reflect its distribution and accumulation in the body. However no studies have measured methamphetamine's organ distribution in the human body.Positron Emission Tomography (PET) was used in conjunction with [(11)C]d-methamphetamine to measure its whole-body distribution and bioavailability as assessed by peak uptake (% Dose/cc), rate of clearance (time to reach 50% peak-clearance) and accumulation (area under the curve) in healthy participants (9 Caucasians and 10 African Americans).Methamphetamine distributed through most organs. Highest uptake (whole organ) occurred in lungs (22% Dose; weight ∼1246 g), liver (23%; weight ∼1677 g) and intermediate in brain (10%; weight ∼1600 g). Kidneys also showed high uptake (per/cc basis) (7%; weight 305 g). Methamphetamine's clearance was fastest in heart and lungs (7-16 minutes), slowest in brain, liver and stomach (>75 minutes), and intermediate in kidneys, spleen and pancreas (22-50 minutes). Lung accumulation of [(11)C]d-methamphetamine was 30% higher for African Americans than Caucasians (p

Published

2010

30. Methylphenidate attenuates limbic brain inhibition after cocaine-cues exposure in cocaine abusers.

Author

Nora D Volkow, Gene-Jack Wang, Dardo Tomasi, Frank Telang, Joanna S Fowler, Kith Pradhan, Millard Jayne, Jean Logan, Rita Z Goldstein, Nelly Alia-Klein, and Christopher Wong

Subjects

Medicine, Science

Abstract

Dopamine (phasic release) is implicated in conditioned responses. Imaging studies in cocaine abusers show decreases in striatal dopamine levels, which we hypothesize may enhance conditioned responses since tonic dopamine levels modulate phasic dopamine release. To test this we assessed the effects of increasing tonic dopamine levels (using oral methylphenidate) on brain activation induced by cocaine-cues in cocaine abusers. Brain metabolism (marker of brain function) was measured with PET and (18)FDG in 24 active cocaine abusers tested four times; twice watching a Neutral video (nature scenes) and twice watching a Cocaine-cues video; each video was preceded once by placebo and once by methylphenidate (20 mg). The Cocaine-cues video increased craving to the same extent with placebo (68%) and with methylphenidate (64%). In contrast, SPM analysis of metabolic images revealed that differences between Neutral versus Cocaine-cues conditions were greater with placebo than methylphenidate; whereas with placebo the Cocaine-cues decreased metabolism (p

Published

2010

31. Association of body mass and brain activation during gastric distention: implications for obesity.

Author

Dardo Tomasi, Gene-Jack Wang, Ruiliang Wang, Walter Backus, Allan Geliebter, Frank Telang, Millar C Jayne, Christopher Wong, Joanna S Fowler, and Nora D Volkow

Subjects

Medicine, Science

Abstract

BACKGROUND:Gastric distention (GD), as it occurs during meal ingestion, signals a full stomach and it is one of the key mechanisms controlling food intake. Previous studies on GD showed lower activation of the amygdala for subjects with higher body mass index (BMI). Since obese subjects have dopaminergic deficits that correlate negatively with BMI and the amygdala is innervated by dopamine neurons, we hypothesized that BMI would correlate negatively with activation not just in the amygdala but also in other dopaminergic brain regions (midbrain and hypothalamus). METHODOLOGY/PRINCIPAL FINDINGS:We used functional magnetic resonance imaging (fMRI) to evaluate brain activation during GD in 24 healthy subjects with BMI range of 20-39 kg/m(2). Using multiple regression and cross-correlation analyses based on a family-wise error corrected threshold P = 0.05, we show that during slow GD to maximum volumes of 500 ml and 700 ml subjects with increased BMI had increased activation in cerebellum and left posterior insula, and decreased activation of dopaminergic (amygdala, midbrain, hypothalamus, thalamus) and serotonergic (pons) brain regions and anterior insula, regions that were functionally interconnected with one another. CONCLUSIONS:The negative correlation between BMI and BOLD responses to gastric distention in dopaminergic (midbrain, hypothalamus, amygdala, thalamus) and serotonergic (pons) brain regions is consistent with disruption of dopaminergic and serotonergic signaling in obesity. In contrast the positive correlation between BMI and BOLD responses in posterior insula and cerebellum suggests an opposing mechanism that promotes food intake in obese subjects that may underlie their ability to consume at once large food volumes despite increasing gastric distention.

Published

2009

32. Dopamine transporters in striatum correlate with deactivation in the default mode network during visuospatial attention.

Author

Dardo Tomasi, Nora D Volkow, Ruiliang Wang, Frank Telang, Gene-Jack Wang, Linda Chang, Thomas Ernst, and Joanna S Fowler

Subjects

Medicine, Science

Abstract

BACKGROUND:Dopamine and dopamine transporters (DAT, which regulate extracellular dopamine in the brain) are implicated in the modulation of attention but their specific roles are not well understood. Here we hypothesized that dopamine modulates attention by facilitation of brain deactivation in the default mode network (DMN). Thus, higher striatal DAT levels, which would result in an enhanced clearance of dopamine and hence weaker dopamine signals, would be associated to lower deactivation in the DMN during an attention task. METHODOLOGY/PRINCIPAL FINDINGS:For this purpose we assessed the relationship between DAT in striatum (measured with positron emission tomography and [(11)C]cocaine used as DAT radiotracer) and brain activation and deactivation during a parametric visual attention task (measured with blood oxygenation level dependent functional magnetic resonance imaging) in healthy controls. We show that DAT availability in caudate and putamen had a negative correlation with deactivation in ventral parietal regions of the DMN (precuneus, BA 7) and a positive correlation with deactivation in a small region in the ventral anterior cingulate gyrus (BA 24/32). With increasing attentional load, DAT in caudate showed a negative correlation with load-related deactivation increases in precuneus. CONCLUSIONS/SIGNIFICANCE:These findings provide evidence that dopamine transporters modulate neural activity in the DMN and anterior cingulate gyrus during visuospatial attention. Our findings suggest that dopamine modulates attention in part by regulating neuronal activity in posterior parietal cortex including precuneus (region involved in alertness) and cingulate gyrus (region deactivated in proportion to emotional interference). These findings suggest that the beneficial effects of stimulant medications (increase dopamine by blocking DAT) in inattention reflect in part their ability to facilitate the deactivation of the DMN.

Published

2009

33. Methylphenidate decreased the amount of glucose needed by the brain to perform a cognitive task.

Author

Nora D Volkow, Joanna S Fowler, Gene-Jack Wang, Frank Telang, Jean Logan, Christopher Wong, Jim Ma, Kith Pradhan, Helene Benveniste, and James M Swanson

Subjects

Medicine, Science

Abstract

The use of stimulants (methylphenidate and amphetamine) as cognitive enhancers by the general public is increasing and is controversial. It is still unclear how they work or why they improve performance in some individuals but impair it in others. To test the hypothesis that stimulants enhance signal to noise ratio of neuronal activity and thereby reduce cerebral activity by increasing efficiency, we measured the effects of methylphenidate on brain glucose utilization in healthy adults. We measured brain glucose metabolism (using Positron Emission Tomography and 2-deoxy-2[18F]fluoro-D-glucose) in 23 healthy adults who were tested at baseline and while performing an accuracy-controlled cognitive task (numerical calculations) given with and without methylphenidate (20 mg, oral). Sixteen subjects underwent a fourth scan with methylphenidate but without cognitive stimulation. Compared to placebo methylphenidate significantly reduced the amount of glucose utilized by the brain when performing the cognitive task but methylphenidate did not affect brain metabolism when given without cognitive stimulation. Whole brain metabolism when the cognitive task was given with placebo increased 21% whereas with methylphenidate it increased 11% (50% less). This reflected both a decrease in magnitude of activation and in the regions activated by the task. Methylphenidate's reduction of the metabolic increases in regions from the default network (implicated in mind-wandering) was associated with improvement in performance only in subjects who activated these regions when the cognitive task was given with placebo. These results corroborate prior findings that stimulant medications reduced the magnitude of regional activation to a task and in addition document a "focusing" of the activation. This effect may be beneficial when neuronal resources are diverted (i.e., mind-wandering) or impaired (i.e., attention deficit hyperactivity disorder), but it could be detrimental when brain activity is already optimally focused. This would explain why methylphenidate has beneficial effects in some individuals and contexts and detrimental effects in others.

Published

2008

34. Brain glutamate and sleep efficiency associations following a ketogenic diet intervention in individuals with Alcohol Use Disorder

Author

Xinyi Li, Zhenhao Shi, Juliana Byanyima, Peter T. Morgan, Jan-Willem van der Veen, Rui Zhang, Erin Deneke, Gene-Jack Wang, Nora D. Volkow, and Corinde E. Wiers

Abstract

We previously showed that ketogenic diet (KD) was effective in curbing alcohol withdrawal and craving in individuals with alcohol use disorder (AUD). We hypothesized that the clinical benefits were due to improvements in sleep. To test this, we performed a secondary analysis on the KD trial data to (1) examine the effects of KD on total sleep time (TST) and sleep quality and (2) investigate the association between KD-induced alterations in cingulate glutamate concentration and changes in TST and sleep quality.AUD individuals undergoing alcohol detoxification were randomized to receive KD (n=19) or standard American diet (SA; n=14) for three weeks. TST was measured weekly by self-report, GENEActive sleep accelerometer, and X4 Sleep Profiler ambulatory device. Sleep quality was assessed using subjectively ratings of sleep depth and restedness and Sleep Profiler (Sleep Efficiency [%]). WeeklyTST was lower in KD than SA and increased with effect of time. Sleep depth, restedness, and Sleep Efficiency improved with time, but exhibited no effect of diet. In KD and SA combined, week 1 cingulate glutamate levels correlated positively with Sleep Efficiency, but not with TST.Although cingulate glutamate levels correlated positively with Sleep Efficiency in week 1, KD-induced glutamate elevation did not produce significant sleep improvements. Rather, KD was associated with lower TST than SA. Given the well-established associations between sleep and alcohol relapse, longer follow up assessment of KD's impact on sleep in AUD is warranted.

Published

2023

35. Neural correlates of decreased impulsivity during delay discounting task after laparoscopic sleeve gastrectomy

Author

Wenchao Zhang, Guanya Li, Yang Hu, Jia Wang, Weibin Ji, Karen M. von Deneen, Juan Yu, Yu Han, Guangbin Cui, Peter Manza, Dardo Tomasi, Nora D. Volkow, Huaning Wang, Yongzhan Nie, Gang Ji, Gene‐Jack Wang, and Yi Zhang

Subjects

Nutrition and Dietetics, Endocrinology, Endocrinology, Diabetes and Metabolism, Medicine (miscellaneous)

Published

2023

36. Brain functional and structural magnetic resonance imaging of obesity and weight loss interventions

Author

Guanya Li, Yang Hu, Wenchao Zhang, Jia Wang, Weibin Ji, Peter Manza, Nora D. Volkow, Yi Zhang, and Gene-Jack Wang

Subjects

Cellular and Molecular Neuroscience, Psychiatry and Mental health, Molecular Biology

Abstract

Obesity has tripled over the past 40 years to become a major public health issue, as it is linked with increased mortality and elevated risk for various physical and neuropsychiatric illnesses. Accumulating evidence from neuroimaging studies suggests that obesity negatively affects brain function and structure, especially within fronto-mesolimbic circuitry. Obese individuals show abnormal neural responses to food cues, taste and smell, resting-state activity and functional connectivity, and cognitive tasks including decision-making, inhibitory-control, learning/memory, and attention. In addition, obesity is associated with altered cortical morphometry, a lowered gray/white matter volume, and impaired white matter integrity. Various interventions and treatments including bariatric surgery, the most effective treatment for obesity in clinical practice, as well as dietary, exercise, pharmacological, and neuromodulation interventions such as transcranial direct current stimulation, transcranial magnetic stimulation and neurofeedback have been employed and achieved promising outcomes. These interventions and treatments appear to normalize hyper- and hypoactivations of brain regions involved with reward processing, food-intake control, and cognitive function, and also promote recovery of brain structural abnormalities. This paper provides a comprehensive literature review of the recent neuroimaging advances on the underlying neural mechanisms of both obesity and interventions, in the hope of guiding development of novel and effective treatments.

Published

2023

37. Long-term changes in insula-mesolimbic structural and functional connectivity in obese patients after laparoscopic sleeve gastrectomy

Author

Hao, Li, Yang, Hu, Guanya, Li, Wenchao, Zhang, Jia, Wang, Zongxin, Tan, Zhenzhen, Jia, Lei, Zhang, Shuai, Lv, Juan, Yu, Yu, Han, Guangbin, Cui, Peter, Manza, Nora D, Volkow, Yongzhan, Nie, Gang, Ji, Gene-Jack, Wang, and Yi, Zhang

Subjects

Diffusion Tensor Imaging, Gastrectomy, Endocrine and Autonomic Systems, Humans, Laparoscopy, Obesity, Neurology (clinical), Magnetic Resonance Imaging

Abstract

Brain imaging studies have shown insula-related functional and structural abnormalities in patients with obesity. Laparoscopic sleeve gastrectomy is currently an effective procedure for treating obesity, which promotes acute recovery of brain functional and structural abnormalities in obese patients. The aim of this study was to investigate the long-term impact of laparoscopic sleeve gastrectomy on insula-related structural and functional connectivity.Diffusion tensor imaging and resting-state functional magnetic resonance imaging were employed to investigate laparoscopic sleeve gastrectomy-induced changes in insula-related structural connectivity and corresponding resting-state functional connectivity in 25 obese patients prior to (PreLSG) and 12 months post-surgery (PostLSGResults showed significant increases in fractional anisotropy and axial diffusivity between the right insula and anterior cingulate cortex, and higher fractional anisotropy of left insula-putamen, left insula-caudate and anterior cingulate cortex-right posterior cingulate cortex/precuneus at PostLSG12 compared with PreLSG. There were significant negative correlations between axial diffusivity of right insula-anterior cingulate cortex and body mass index, and fractional anisotropy of right insula-anterior cingulate cortex with scores on external eating at PostLSG12. Anxiety and depressive status ratings were negatively correlated with fractional anisotropy of left insula-putamen at PostLSG12. In addition, there was a significant decrease in resting-state functional connectivity between left insula and left caudate.These findings demonstrate long-term changes in insula-related structural and functional connectivity abnormalities promoted by laparoscopic sleeve gastrectomy, which highlight its strong association with long-term weight loss and improvement in eating behaviors.

Published

2022

38. Alterations in Functional and Structural Connectivity of Basal Ganglia Network in Patients with Obesity

Author

Zongxin, Tan, Yang, Hu, Gang, Ji, Guanya, Li, Yueyan, Ding, Wenchao, Zhang, Jia, Wang, Zhenzhen, Jia, Lei, Zhang, Hao, Li, Karen M, von Deneen, Yu, Han, Guangbin, Cui, Peter, Manza, Nora D, Volkow, Yongzhan, Nie, Gene-Jack, Wang, and Yi, Zhang

Subjects

Brain Mapping, Neurology, Radiological and Ultrasound Technology, Brain, Humans, Radiology, Nuclear Medicine and imaging, Obesity, Neurology (clinical), Anatomy, Magnetic Resonance Imaging, Basal Ganglia

Abstract

Obesity is related to overconsumption of high-calorie (HiCal) food, which is modulated by brain reward and inhibitory control circuitries. The basal ganglia (BG) are a key set of nuclei within the reward circuitry, but obesity-associated functional and structural abnormalities of BG have not been well studied. Resting-state functional MRI with independent component analysis (ICA) and probabilistic tractography were employed to investigate differences in BG-related functional-(FC) and structural connectivity (SC) between 32 patients with obesity (OB) and 35 normal-weight (NW) participants. Compared to NW, OB showed significantly lower FC strength in the caudate nucleus within the BG network, and seed-based FC analysis showed lower FC between caudate and dorsolateral prefrontal cortex (DLPFC), which was negatively correlated with craving for HiCal food cues. Further SC analysis revealed that OB showed lower SC than NW between left caudate and left DLPFC as measured with fractional anisotropy (FA). Alterations in FC and SC between caudate and DLPFC in obese patients, which highlights the role of BG network in modulating the balance between reward and inhibitory-control.

Published

2022

39. Ketamine use disorder: preclinical, clinical, and neuroimaging evidence to support proposed mechanisms of actions

Author

Leah Vines, Diana Sotelo, Allison Johnson, Evan Dennis, Peter Manza, Nora D. Volkow, and Gene-Jack Wang

Subjects

Article

Abstract

Ketamine, a noncompetitive NMDA receptor antagonist, has been exclusively used as an anesthetic in medicine and has led to new insights into the pathophysiology of neuropsychiatric disorders. Clinical studies have shown that low subanesthetic doses of ketamine produce antidepressant effects for individuals with depression. However, its use as a treatment for psychiatric disorders has been limited due to its reinforcing effects and high potential for diversion and misuse. Preclinical studies have focused on understanding the molecular mechanisms underlying ketamine’s antidepressant effects, but a precise mechanism had yet to be elucidated. Here we review different hypotheses for ketamine’s mechanism of action including the direct inhibition and disinhibition of NMDA receptors, AMPAR activation, and heightened activation of monoaminergic systems. The proposed mechanisms are not mutually exclusive, and their combined influence may exert the observed structural and functional neural impairments. Long term use of ketamine induces brain structural, functional impairments, and neurodevelopmental effects in both rodents and humans. Its misuse has increased rapidly in the past 20 years and is one of the most common addictive drugs used in Asia. The proposed mechanisms of action and supporting neuroimaging data allow for the development of tools to identify ‘biotypes’ of ketamine use disorder (KUD) using machine learning approaches, which could inform intervention and treatment.

Published

2023

40. Habenular connectivity predict weight loss and negative emotional-related eating behavior after laparoscopic sleeve gastrectomy

Author

Jia Wang, Gang Ji, Guanya Li, Yang Hu, Wenchao Zhang, Weibin Ji, Zongxin Tan, Hao Li, Fukun Jiang, Yaqi Zhang, Feifei Wu, Karen M von Deneen, Juan Yu, Yu Han, Guangbin Cui, Peter Manza, Dardo Tomasi, Nora D Volkow, Yongzhan Nie, Yi Zhang, and Gene-Jack Wang

Subjects

Cellular and Molecular Neuroscience, Cognitive Neuroscience

Abstract

Habenular (Hb) processes negative emotions that may drive compulsive food-intake. Its functional changes were reported following laparoscopic-sleeve-gastrectomy (LSG). However, structural connectivity (SC) of Hb-homeostatic/hedonic circuits after LSG remains unclear. We selected regions implicated in homeostatic/hedonic regulation that have anatomical connections with Hb as regions-of-interest (ROIs), and used diffusion-tensor-imaging with probabilistic tractography to calculate SC between Hb and these ROIs in 30 obese participants before LSG (PreLSG) and at 12-month post-LSG (PostLSG12) and 30 normal-weight controls. Three-factor-eating-questionnaire (TFEQ) and Dutch-eating-behavior-questionnaire (DEBQ) were used to assess eating behaviors. LSG significantly decreased weight, negative emotion, and improved self-reported eating behavior. LSG increased SC between the Hb and homeostatic/hedonic regions including hypothalamus (Hy), bilateral superior frontal gyri (SFG), left amygdala (AMY), and orbitofrontal cortex (OFC). TFEQ-hunger negatively correlated with SC of Hb-Hy at PostLSG12; and increased SC of Hb-Hy correlated with reduced depression and DEBQ-external eating. TFEQ-disinhibition negatively correlated with SC of Hb-bilateral SFG at PreLSG. Increased SC of Hb-left AMY correlated with reduced DEBQ-emotional eating. Higher percentage of total weight-loss negatively correlated with SC of Hb-left OFC at PreLSG. Enhanced SC of Hb-homeostatic/hedonic regulatory regions post-LSG may contribute to its beneficial effects in improving eating behaviors including negative emotional eating, and long-term weight-loss.

Published

2022

41. 0693 Rest-activity rhythm in Methadone and Buprenorphine-maintained patients

Author

Rui Zhang, Peter Manza, Dardo Tomasi, Ehsan Shokri-Kojori, Sukru Demiral, Gene-Jack Wang, and Nora Volkow

Subjects

Physiology (medical), Neurology (clinical)

Abstract

Introduction Opioid use disorder (OUD) is a chronic relapsing disorder with a high overdose death rate. In OUD, sleep and circadian disruptions are highly prevalent, interfere with retention in opioid maintenance treatment (OMT) and increase relapse. Growing evidence suggests a link between sleep/circadian disruptions and dopaminergic (DA) signaling which accounts for addictive properties of drugs of abuse. The current study investigated rest-activity rhythm in Methadone and Buprenorphine-maintained patients and how it relates to DA changes in patients. Methods To access rest-activity rhythm, twenty-five OUD patients (9 Females; age 44.34±11.97; 60% White, 32% Black; 18 Methadone; 7 Buprenorphine) and thirty-four age, sex, race and BMI-matched healthy controls wore wrist accelerometers for one-week and completed questionnaires for sleep and chronotype. Among OUD patients, sixteen of them completed [11C]NNC112 and [11C]raclopride PET scans for the assessments of D1R and D2R availability, respectively. Negative mood was accessed as secondary outcomes. Results Our preliminary data showed that compared to healthy participants, OUD patients undergoing OMT reported greater sleep problems and showed greater sleep irregularity measured by actigraphy, but no differences in other parameters such as sleep duration, rhythm timing or physical activity. Among patients, greater eveningness and irregularity were associated with higher level of negative mood including depression and anxiety. There is a tendency of a positive correlation between later phase and greater D1 receptor availability and a negative association between sleep irregularity and D2 receptor availability. Conclusion Our finding suggests that a link between altered rest-activity rhythm and DA signaling in OUD patients. Circadian/sleep interventions that regulate rest-activity rhythm might benefit mood improvement and promote OUD recovery by normalizing DA transmission. Support (if any)

Published

2023

42. Dopaminergic and other genes related to reward induced overeating, Bulimia, Anorexia Nervosa, and Binge eating

Author

Rehan Jalali, Luis Llanos Gomez, Panayotis K. Thanos, Abdalla Bowirrat, Kenneth Blum, Marjorie C. Gondré-Lewis, Gene-Jack Wang, David Baron, and Mark S. Gold

Subjects

Pharmacology, medicine.medical_specialty, Binge eating, business.industry, Dopaminergic, Anorexia nervosa (differential diagnoses), Drug Discovery, Genetics, Molecular Medicine, Medicine, medicine.symptom, Overeating, business, Psychiatry

Published

2021

43. Sex differences in methylphenidate-induced dopamine increases in ventral striatum

Author

Erin Biesecker, Peter Manza, Katherine L. McPherson, Nora D. Volkow, Corinde E. Wiers, Dana E. Feldman, Gene-Jack Wang, Danielle S. Kroll, Dardo Tomasi, Andrew Kelleher, Ehsan Shokri-Kojori, Allison A. Johnson, Evan Dennis, and Song Qu

Subjects

Raclopride, medicine.medical_specialty, business.industry, Methylphenidate, Ventral striatum, Striatum, Nucleus accumbens, Cellular and Molecular Neuroscience, Psychiatry and Mental health, Reward system, medicine.anatomical_structure, Endocrinology, Dopamine, Internal medicine, Cohort, Medicine, business, Molecular Biology, medicine.drug

Abstract

Sex differences in the prevalence of dopamine-related neuropsychiatric diseases and in the sensitivity to dopamine-boosting drugs such as stimulants is well recognized. Here we assessed whether there are sex differences in the brain dopamine system in humans that could contribute to these effects. We analyzed data from two independent [11C]raclopride PET brain imaging studies that measured methylphenidate-induced dopamine increases in the striatum using different routes of administration (Cohort A = oral 60 mg; Cohort B = intravenous 0.5 mg/kg; total n = 95; 65 male, 30 female), in blinded placebo-controlled designs. Females when compared to males reported stronger feeling of “drug effects” and showed significantly greater dopamine release in the ventral striatum (where nucleus accumbens is located) to both oral and intravenous methylphenidate. In contrast, there were no significant differences in methylphenidate-induced increases in dorsal striatum for either oral or intravenous administration nor were there differences in levels of methylphenidate in plasma. The greater dopamine increases with methylphenidate in ventral but not dorsal striatum in females compared to males suggests an enhanced sensitivity specific to the dopamine reward system that might underlie sex differences in the vulnerability to substance use disorders and to attention-deficit/hyperactivity disorder (ADHD).

Published

2021

44. Age-related differences in striatal dopamine D1 receptors mediate subjective drug effects

Author

Peter Manza, Ehsan Shokri-Kojori, Şükrü Barış Demiral, Rui Zhang, Evan Dennis, Allison Johnson, Leah Vines, Diana Sotelo, Dardo Tomasi, Gene-Jack Wang, and Nora D. Volkow

Subjects

General Medicine

Published

2022

45. Associations among body mass index, working memory performance, gray matter volume, and brain activation in healthy children

Author

Yaqi Zhang, Weibin Ji, Fukun Jiang, Feifei Wu, Guanya Li, Yang Hu, Wenchao Zhang, Jia Wang, Xiao Fan, Xiaorong Wei, Peter Manza, Dardo Tomasi, Nora D Volkow, Xinbo Gao, Gene-Jack Wang, and Yi Zhang

Subjects

Cellular and Molecular Neuroscience, Cognitive Neuroscience

Abstract

To investigate the neural mechanisms underlying the association between poorer working memory performance and higher body mass index (BMI) in children. We employed structural-(sMRI) and functional magnetic resonance imaging (fMRI) with a 2-back working memory task to examine brain abnormalities and their associations with BMI and working memory performance in 232 children with overweight/obesity (OW/OB) and 244 normal weight children (NW) from the Adolescent Brain Cognitive Development dataset. OW/OB had lower working memory accuracy, which was associated with higher BMI. They showed smaller gray matter (GM) volumes in the left superior frontal gyrus (SFG_L), dorsal anterior cingulate cortex, medial orbital frontal cortex, and medial superior frontal gyrus, which were associated with lower working memory accuracy. During the working memory task, OW/OB relative to NW showed weaker activation in the left superior temporal pole, amygdala, insula, and bilateral caudate. In addition, caudate activation mediated the relationship between higher BMI and lower working memory accuracy. Higher BMI is associated with smaller GM volumes and weaker brain activation in regions involved with working memory. Task-related caudate dysfunction may account for lower working memory accuracy in children with higher BMI.

Published

2022

46. 3D segmentation of rodent brains using deformable models and variational methods.

Author

Shaoting Zhang 0001, Jinghao Zhou, Xiaoxu Wang, Sukmoon Chang, Dimitris N. Metaxas, George J. Pappas, Foteini Delis, Nora D. Volkow, Gene-Jack Wang, Panayotis K. Thanos, and Chandra Kambhamettu

Published

2009

47. Sleep disturbances are associated with cortical and subcortical atrophy in alcohol use disorder

Author

Gene-Jack Wang, Katherine L. McPherson, Sukru B. Demiral, Danielle S. Kroll, Rui Zhang, Ehsan Shokri-Kojori, Peter Manza, Dardo Tomasi, Nora D. Volkow, Dana E. Feldman, Corinde E. Wiers, and Catherine L. Biesecker

Subjects

Sleep Wake Disorders, medicine.medical_specialty, Addiction, Neurosciences. Biological psychiatry. Neuropsychiatry, Alcohol use disorder, Audiology, Grey matter, Paralimbic cortex, Article, Lateralization of brain function, Cellular and Molecular Neuroscience, Neuroimaging, Cortex (anatomy), mental disorders, medicine, Humans, Gray Matter, Biological Psychiatry, business.industry, medicine.disease, Magnetic Resonance Imaging, Sleep in non-human animals, Alcoholism, Psychiatry and Mental health, medicine.anatomical_structure, Orbitofrontal cortex, Atrophy, Sleep, business, Neuroscience, RC321-571

Abstract

Sleep disturbances are prominent in patients with alcohol use disorder (AUD) and predict relapse. So far, the mechanisms underlying sleep disruptions in AUD are poorly understood. Because sleep-related regions vastly overlap with regions, where patients with AUD showed pronounced grey matter (GM) reduction; we hypothesized that GM structure could contribute to sleep disturbances associated with chronic alcohol use. We combined sleep EEG recording and high-resolution structural brain imaging to examine the GM-sleep associations in 36 AUD vs. 26 healthy controls (HC). The patterns of GM-sleep associations differed for N3 vs. REM sleep and for AUD vs. HC. For cortical thickness (CT), CT-sleep associations were significant in AUD but not in HC and were lateralized such that lower CT in right hemisphere was associated with shorter N3, whereas in left hemisphere was associated with shorter REM sleep. For the GM density (GMD), we observed a more extensive positive GMD-N3 association in AUD (right orbitofrontal cortex, cerebellum, dorsal cingulate and occipital cortex) than in HC (right orbitofrontal cortex), and the GMD-REM association was positive in AUD (midline, motor and paralimbic regions) whereas negative in HC (the left supramarginal gyrus). GM structure mediated the effect of chronic alcohol use on the duration of N3 and the age by alcohol effect on REM sleep. Our findings provide evidence that sleep disturbances in AUD were associated with GM reductions. Targeting sleep-related regions might improve sleep in AUD and enhance sleep-induced benefits in cognition and emotional regulation for recovery.

Published

2021

48. Obese Individuals Show Disrupted Dynamic Functional Connectivity between Basal Ganglia and Salience Networks

Author

Hao Li, Guanya Li, Yongzhan Nie, Gene-Jack Wang, Jia Wang, Peter Manza, Nora D. Volkow, Yang Hu, Yi Zhang, Yu Han, Zongxin Tan, Xiaohua Li, Shuai Lv, Zhenzhen Jia, Guangbin Cui, Gang Ji, Lei Zhang, and Wenchao Zhang

Subjects

0301 basic medicine, Brain Mapping, medicine.diagnostic_test, Cognitive Neuroscience, Functional connectivity, Executive control network, Brain, Biology, Magnetic Resonance Imaging, Basal Ganglia, 03 medical and health sciences, Cellular and Molecular Neuroscience, 030104 developmental biology, 0302 clinical medicine, Salience (neuroscience), Neural Pathways, Basal ganglia, medicine, Humans, Original Article, Obesity, Functional magnetic resonance imaging, Neuroscience, 030217 neurology & neurosurgery, Dynamic functional connectivity

Abstract

Previous functional magnetic resonance imaging (fMRI) studies have showed obesity (OB)-related alterations in intrinsic functional connectivity (FC) within and between different resting-state networks (RSNs). However, few studies have examined dynamic functional connectivity (DFC). Thus, we employed resting-state fMRI with independent component analysis (ICA) and DFC analysis to investigate the alterations in FC within and between RSNs in 56 individuals with OB and 46 normal-weight (NW) controls. ICA identified six RSNs, including basal ganglia (BG), salience network (SN), right executive control network/left executive control network, and anterior default-mode network (aDMN)/posterior default-mode network. The DFC analysis identified four FC states. OB compared with NW had more occurrences and a longer mean dwell time (MDT) in state 2 (positive connectivity of BG with other RSN) and also had higher FC of BG–SN in other states. Body mass index was positively correlated with MDT and FCs of BG–aDMN (state 2) and BG–SN (state 4). DFC analysis within more refined nodes of RSNs showed that OB had more occurrences and a longer MDT in state 1 in which caudate had positive connections with the other network nodes. The findings suggest an association between caudate-related and BG-related positive FC in OB, which was not revealed by traditional FC analysis, highlighting the utility of adding DFC to the more conventional methods.

Published

2021

49. Deep brain stimulation of the nucleus accumbens/ventral capsule for severe and intractable opioid and benzodiazepine use disorder

Author

Wanhong Zheng, Jennifer L. Marton, James J. Mahoney, Ehsan Shokri-Kojori, Victor Finomore, Will M. Aklin, Laura R. Lander, Dardo Tomasi, James H. Berry, Nicholas J. Brandmeir, Gene-Jack Wang, Marc W. Haut, Sally Hodder, Ali R. Rezai, Daniel L. Farmer, Jeremy L. Hensley, and Manish Ranjan

Subjects

Adult, Male, Deep brain stimulation, Internal capsule, Substance-Related Disorders, Visual analogue scale, medicine.drug_class, Deep Brain Stimulation, medicine.medical_treatment, Pilot Projects, Craving, Nucleus accumbens, behavioral disciplines and activities, Nucleus Accumbens, Article, Benzodiazepines, Internal Capsule, Neuromodulation, medicine, Humans, Pharmacology (medical), Pharmacology, Benzodiazepine, business.industry, Analgesics, Opioid, Psychiatry and Mental health, medicine.anatomical_structure, Opioid, Anesthesia, medicine.symptom, business, medicine.drug

Abstract

Given high relapse rates and the prevalence of overdose deaths, novel treatments for substance use disorder (SUD) are desperately needed for those who are treatment refractory. The objective of this study was to evaluate the safety of deep brain stimulation (DBS) for SUD and the effects of DBS on substance use, substance craving, emotional symptoms, and frontal/executive functions. DBS electrodes were implanted bilaterally within the Nucleus Accumbens/Ventral anterior internal capsule (NAc/VC) of a man in his early 30s with >10-year history of severe treatment refractory opioid and benzodiazepine use disorders. DBS of the NAc/VC was found to be safe with no serious adverse events noted and the participant remained abstinent and engaged in comprehensive treatment at the 12-week endpoint (and 12-month extended follow-up). Using a 0-100 visual analog scale, substance cravings decreased post-DBS implantation; most substantially in benzodiazepine craving following the final DBS titration (1.0 ± 2.2) compared to baseline (53.4 ± 29.5; p < .001). A trend toward improvement in frontal/executive function was observed on the balloon analog risk task performance following the final titration (217.7 ± 76.2) compared to baseline (131.3 ± 28.1, p = .066). FDG PET demonstrated an increase in glucose metabolism in the dorsolateral prefrontal and medial premotor cortices at the 12-week endpoint compared to post-surgery/pre-DBS titration. Heart Rate Variability (HRV) improved following the final titration (rMSSD = 56.0 ± 11.7) compared to baseline (19.2 ± 8.2; p < .001). In a participant with severe, treatment refractory opioid and benzodiazepine use disorder, DBS of the NAc/VC was safe, reduced substance use and craving, and improved frontal and executive functions. Confirmation of these findings with future studies is needed. (PsycInfo Database Record (c) 2021 APA, all rights reserved).

Published

2021

50. Connectome-Based Prediction of Optimal Weight Loss Six Months After Bariatric Surgery

Author

Yang Hu, Wenchao Zhang, Guanya Li, Gang Ji, Yu Han, Karen M. von Deneen, Yang He, Peter Manza, Guangbin Cui, Yi Zhang, Dardo Tomasi, Yongzhan Nie, Gene-Jack Wang, Jia Wang, Ganggang Lv, and Nora D. Volkow

Subjects

Adult, Male, Multivariate statistics, medicine.medical_specialty, Cognitive Neuroscience, Bariatric Surgery, Feature selection, Machine Learning, Young Adult, 03 medical and health sciences, Cellular and Molecular Neuroscience, Cognition, 0302 clinical medicine, Reward, Salience (neuroscience), Weight loss, Neural Pathways, Weight Loss, Connectome, medicine, Humans, Obesity, 030304 developmental biology, 0303 health sciences, medicine.diagnostic_test, business.industry, Functional Neuroimaging, Brain, Reproducibility of Results, Prognosis, medicine.disease, Magnetic Resonance Imaging, Surgery, Multivariate Analysis, Female, Original Article, medicine.symptom, Functional magnetic resonance imaging, business, 030217 neurology & neurosurgery

Abstract

Despite bariatric surgery being the most effective treatment for obesity, a proportion of subjects have suboptimal weight loss post-surgery. Therefore, it is necessary to understand the mechanisms behind the variance in weight loss and identify specific baseline biomarkers to predict optimal weight loss. Here, we employed functional magnetic resonance imaging (fMRI) with baseline whole-brain resting-state functional connectivity (RSFC) and a multivariate prediction framework integrating feature selection, feature transformation, and classification to prospectively identify obese patients that exhibited optimal weight loss at 6 months post-surgery. Siamese network, which is a multivariate machine learning method suitable for small sample analysis, and K-nearest neighbor (KNN) were cascaded as the classifier (Siamese-KNN). In the leave-one-out cross-validation, the Siamese-KNN achieved an accuracy of 83.78%, which was substantially higher than results from traditional classifiers. RSFC patterns contributing to the prediction consisted of brain networks related to salience, reward, self-referential, and cognitive processing. Further RSFC feature analysis indicated that the connection strength between frontal and parietal cortices was stronger in the optimal versus the suboptimal weight loss group. These findings show that specific RSFC patterns could be used as neuroimaging biomarkers to predict individual weight loss post-surgery and assist in personalized diagnosis for treatment of obesity.

Published

2020