Your search keyword '"Amphetamine-Related Disorders pathology"' showing total 128 results

1. Nrf2 expression, mitochondrial fission, and neuronal apoptosis in the prefrontal cortex of methamphetamine abusers and rats.

Author

Nie QY, Yang GM, Zhang P, Dong WJ, Jing D, Hou ZP, Peng YX, Yu Y, Li LH, and Hong SJ

Subjects

Animals, Male, Rats, Humans, Adult, Rats, Sprague-Dawley, Neurons metabolism, Neurons drug effects, Neurons pathology, Oxidative Stress drug effects, Oxidative Stress physiology, Dynamins metabolism, Central Nervous System Stimulants pharmacology, Central Nervous System Stimulants toxicity, Amphetamine-Related Disorders metabolism, Amphetamine-Related Disorders pathology, Middle Aged, Young Adult, Female, Methamphetamine pharmacology, Methamphetamine toxicity, Prefrontal Cortex metabolism, Prefrontal Cortex drug effects, Mitochondrial Dynamics physiology, Mitochondrial Dynamics drug effects, Apoptosis drug effects, Apoptosis physiology, NF-E2-Related Factor 2 metabolism

Abstract

Methamphetamine (MA), a representative amphetamine-type stimulant, is one of the most abused drugs worldwide. Studies have shown that MA-induced neurotoxicity is strongly associated with oxidative stress and apoptosis. While nuclear factor E2-related factor 2 (Nrf2), an antioxidant transcription factor, is known to exert neuroprotective effects, its role in MA-induced dopaminergic neuronal apoptosis remains incompletely understood. In the present study, we explored the effects of MA on the expression levels of Nrf2, dynamin-related protein 1 (Drp1), mitofusin 1 (Mfn1), cytochrome c oxidase (Cyt-c), and cysteine aspartate-specific protease 3 (Caspase 3), as well as the correlations between Nrf2 and mitochondrial dynamics and apoptosis. Brain tissue from MA abusers was collected during autopsy procedures. An MA-dependent rat model was also established by intraperitoneal administration of MA (10 mg/kg daily) for 28 consecutive days, followed by conditioned place preference (CPP) testing. Based on immunohistochemical staining and western blot analysis, the protein expression levels of Nrf2 and Mfn1 showed a decreasing trend, while levels of Drp1, Cyt-c, and Caspase 3 showed an increasing trend in the cerebral prefrontal cortex of both MA abusers and MA-dependent rats. Notably, the expression of Nrf2 was positively associated with the expression of Mfn1, but negatively associated with the expression levels of Drp1, Cyt-c, and Caspase 3. These findings suggest that oxidative stress and mitochondrial fission contribute to neuronal apoptosis, with Nrf2 potentially playing a critical role in MA-induced neurotoxicity., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

2. Hereditary and cortical morphological biomarker of sensitivity to reward in short-term withdrawal methamphetamine abusers.

Author

Yang L, Yang W, Tang F, Yuan K, Zhang J, and Liu J

Subjects

Humans, Male, Adult, Female, Young Adult, Substance Withdrawal Syndrome genetics, Substance Withdrawal Syndrome pathology, Substance Withdrawal Syndrome psychology, Substance Withdrawal Syndrome diagnostic imaging, Craving physiology, Punishment, Amphetamine-Related Disorders genetics, Amphetamine-Related Disorders diagnostic imaging, Amphetamine-Related Disorders pathology, Methamphetamine adverse effects, Reward, Cerebral Cortex diagnostic imaging, Cerebral Cortex pathology, Polymorphism, Single Nucleotide, Magnetic Resonance Imaging

Abstract

Higher sensitivity to reward (SR) and weaker sensitivity to punishment (SP) construct the fundamental craving characteristics of methamphetamine abuse. However, few studies have appraised relationships between SR/SP (SR or SP) and cortical morphological alterations in methamphetamine abusers and whether hereditary factors take effects on SR/SP is unclear. Based on surface-based morphometric analysis, cortical discrepancy was investigated between 38 methamphetamine abusers and 37 healthy controls. Within methamphetamine abusers, correlation profiling was performed to discover associations among aberrant neuroimaging substrates, SR, SP, and craving. According to nine single nucleotide polymorphism sites of dopamine-related genes, we conducted univariate general linear model to find different effects of genotypes on cortical alterations and SR/SP/craving (SR, SP, or craving). Ultimately, mediation analyses were conducted among single nucleotide polymorphism sites, SR/SP/craving, and cortical morphological alterations to discover their association pathways. Compared to healthy controls, thinner cortices in inferior temporal gyrus, lateral orbitofrontal cortex, medial orbitofrontal cortex, inferior parietal lobule, and lateral occipital cortex in the left hemisphere were found in methamphetamine abusers (P < 0.05, family-wise error corrected). Cortical thickness in the inferior temporal gyrus was negatively correlated with SR scores. We found that rs1800497 A-containing genotypes had lower cortical thickness in the left inferior parietal lobule than the GG genotype. The rs5751876 had effects on SR scores. This study would provide convincing biomarkers for SR in methamphetamine abusers and offer potential genetic targets for personalizing relapse prevention., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permission@oup.com.)

Published

2024

3. Difference in topological organization of white matter structural connectome between methamphetamine and heroin use disorder.

Author

Li W, Wang L, Lyu Z, Chen J, Li Y, Sun Y, Zhu J, Wang W, Wang Y, and Li Q

Subjects

Adult, Amphetamine-Related Disorders diagnostic imaging, Amphetamine-Related Disorders physiopathology, Heroin Dependence diagnostic imaging, Heroin Dependence physiopathology, Humans, Male, Nerve Net diagnostic imaging, White Matter diagnostic imaging, Young Adult, Amphetamine-Related Disorders pathology, Diffusion Tensor Imaging, Heroin Dependence pathology, Nerve Net pathology, White Matter pathology

Abstract

The psychological symptoms caused by heroin and methamphetamine are significantly different in people with substance use disorders. The topological organization of structural connections that may underlie these differences remains unknown. The study sample consisted of 23 males with methamphetamine use disorder (MAUD), 20 males with heroin use disorder (HUD), and 21 male healthy controls (HCs) who were demographically matched. Diffusion tensor imaging and probabilistic tractography were used for white matter network construction. Psychological symptoms were evaluated by the Symptom Checklist-90. Using graph theoretical analysis, we examined the difference in graph-level and nodal-level properties among the groups. The network Hubs distribution and the relationship between the network alterations and psychological symptoms were identified. The MAUD group demonstrated significantly higher scores on anxiety, hostility, and symptoms of schizophrenia than the HUD and HCs groups. The HUD group showed significantly higher global efficiency and network strength than the HCs group, and higher network strength than the MAUD group. Compared with the HUD group, the MAUD group showed significantly lower Nodal Strength and efficiency, distributed mainly in the temporal, parietal, and occipital regions. We also found the network Hubs were decreased in the MAUD group, but increased in the HUD group. The Nodal Strength in the right superior temporal gyrus was significantly correlated with psychological symptoms in the MAUD group. These findings reflect the significant differences in topological structural connection between HUD and MAUD. This evidence helps shed some light on the neurobiological mechanisms of the psychological differences between HUD and MAUD, and extend our understanding of the structural disruption underlying MAUD-related psychological symptoms., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

4. Brain dysfunction of methamphetamine-associated psychosis in resting state: Approaching schizophrenia and critical role of right superior temporal deficit.

Author

Yang M, Jia X, Zhou H, Ren P, Deng H, Kong Z, Xie C, Hu W, Jiang W, Lai W, Zhang B, Zhao M, and Liu T

Subjects

Adult, Amphetamine-Related Disorders diagnostic imaging, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Patient Acuity, Temporal Lobe diagnostic imaging, Amphetamine-Related Disorders pathology, Methamphetamine adverse effects, Psychoses, Substance-Induced pathology, Schizophrenia pathology, Temporal Lobe physiology

Abstract

Methamphetamine (MA)-associated psychosis (MAP) is highly debilitating and common among individuals who use the drug, yet the underlying neural mechanism is not clear. This study compared brain functions between patients with MAP and those with schizophrenia during resting state and investigated the effect of brain alteration on the association between MA use and psychosis in patients with MAP. Three groups, including 24 patients with MAP, 17 with schizophrenia in first-episode (SCZ) and 31 healthy controls (HCs), were included after receiving a resting-state functional MRI scan. The severity of psychosis was assessed with Positive and Negative Syndrome Scale (PANSS). Imaging data were analysed using regional homogeneity (ReHo) to measure individual's brain function. Compared with the HC subjects, the MAP and SCZ groups had significantly lower ReHo in the cortical regions including left postcentral cortex, right superior temporal gyrus and right rolandic operculum, while had higher ReHo in the left putamen, with brain dysfunctions being more pronounced in the SCZ group. Among the MAP subjects, a mediating effect of ReHo in the right superior temporal gyrus was found on the association between MA use frequency and PANSS positive score. MAP and schizophrenia had a common trend of brain alteration, with the dysfunction being more pronounced in schizophrenia. This finding implicated that MAP might be a condition with neuropathology approaching schizophrenia. The observed critical role of right superior temporal deficit between MA use and psychosis proposed a potential target for interventions., (© 2021 Society for the Study of Addiction.)

Published

2021

5. Methamphetamine and heightened risk for early-onset stroke and Parkinson's disease: A review.

Author

Lappin JM and Darke S

Subjects

Humans, Parkinson Disease, Secondary metabolism, Parkinson Disease, Secondary pathology, Risk Factors, Stroke metabolism, Stroke pathology, Amphetamine-Related Disorders metabolism, Amphetamine-Related Disorders pathology, Central Nervous System Stimulants adverse effects, Methamphetamine adverse effects, Parkinson Disease, Secondary chemically induced, Stroke chemically induced

Abstract

Introduction: Methamphetamine users are typically young adults, placing them at risk for significant drug-related harms. Neurological harms include stroke and Parkinson's disease, both of which may develop prematurely in the context of methamphetamine use., Material and Methods: We conducted a narrative review examining the evidence first, for stroke under 45 years and second, early onset of Parkinson's disease (PD) and parkinsonism related to methamphetamine use. We summarise epidemiological factors and common clinical features, before examining in detail the underlying pathology and causal mechanisms., Results and Discussion: Methamphetamine use among young people (<45 years) is associated with heightened risk for haemorrhagic stroke. Compared to age-matched all-cause fatal stroke, haemorrhage secondary to aneurysmal rupture is more common among young people with methamphetamine-related stroke and is associated with significantly poorer prognosis. Aetiology is related primarily to both acute and chronic hypertension associated with methamphetamine's sympathomimetic action. Evidence from a variety of sources supports a link between methamphetamine use and increased risk for the development of PD and parkinsonism, and with their early onset in a subset of individuals. Despite this, direct evidence of degeneration of dopaminergic neurons in methamphetamine users has not been demonstrated to date., Conclusions: Stroke and Parkinson's Disease/parkinsonism are neurological harms observed prematurely in methamphetamine users., (Copyright © 2021. Published by Elsevier Inc.)

Published

2021

6. Cannabidiol promotes neurogenesis in the dentate gyrus during an abstinence period in rats following chronic exposure to methamphetamine.

Author

Razavi Y, Keyhanfar F, Haghparast A, Shabani R, and Mehdizadeh M

Subjects

Animals, Cell Proliferation drug effects, Chronic Disease, Hippocampus drug effects, Hippocampus growth & development, Injections, Intraventricular, Male, Neural Stem Cells drug effects, Rats, Rats, Sprague-Dawley, Amphetamine-Related Disorders pathology, Cannabidiol pharmacology, Central Nervous System Stimulants toxicity, Dentate Gyrus drug effects, Dentate Gyrus growth & development, Methamphetamine toxicity, Neurogenesis drug effects, Neuroprotective Agents pharmacology

Abstract

Chronic methamphetamine (meth) abuse can lead to certain deficits in the hippocampal function by affecting the hippocampal neurogenesis and plasticity. To determine whether cannabidiol (CBD) can promote proliferation and maturation of neuronal progenitor cells, this study investigated the CBD effect on neurogenesis in the hippocampal dentate gyrus (DG) following chronic exposure to meth in rats. The rats received 2 mg/kg of meth twice a day for ten days. Next, immunofluorescence was performed to evaluate the effect of intracerebroventricular (ICV) administration of CBD (50 μg/5 μL) over an abstinence period (ten days) on the expression levels of neurogenesis markers, such as Ki67, NeuN, and doublecortin (DCX). Moreover, neuronal degeneration in the hippocampus was assessed using Nissl staining. According to our findings, repeated ICV administration of CBD improved cell proliferation and neurogenesis and increased the number of Ki-67 and DCX-positive cells in the abstinence period. Meanwhile, meth treatment subjects caused a significant decrease in the number of neurogenesis makers, as compared to the control group. The neurogenesis markers (Ki-67 and DCX) could be somewhat reversed, while NeuN did not show any significant increase in the CBD group. Our findings demonstrated that CBD can induce neuroprotective effects by modulating neurogenesis. Therefore, it can provide a promising therapeutic approach to improve cognitive performance following chronic exposure to psychostimulant drugs, including meth., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2021

7. CYP2D6 genotype may moderate measures of brain structure in methamphetamine users.

Author

Dean AC, Nurmi EL, Morales AM, Cho AK, Seaman LC, and London ED

Subjects

Adolescent, Adult, Amphetamine-Related Disorders pathology, Amphetamine-Related Disorders psychology, Brain diagnostic imaging, Case-Control Studies, Central Nervous System Stimulants metabolism, Cognition drug effects, Female, Genotype, Humans, Magnetic Resonance Imaging, Male, Memory, Methamphetamine metabolism, Middle Aged, Young Adult, Amphetamine-Related Disorders genetics, Brain pathology, Central Nervous System Stimulants adverse effects, Cytochrome P-450 CYP2D6 genetics, Methamphetamine adverse effects

Abstract

Chronic methamphetamine use is linked to abnormalities in brain structure, which may reflect neurotoxicity related to metabolism of the drug. As the cytochrome P450 2D6 (CYP2D6) enzyme is central to the metabolism of methamphetamine, genotypic variation in its activity may moderate effects of methamphetamine on brain structure and function. This study explored the relationship between CYP2D6 genotype and measures of brain structure and cognition in methamphetamine users. Based on the function of genetic variants, a CYP2D6 activity score was determined in 82 methamphetamine-dependent (Diagnostic and Statistical Manual of Mental Disorders, Fourth Edition [DSM-IV] criteria) and 79 healthy-control participants who completed tests of cognitive function (i.e., attention, memory, and executive function); most were also evaluated with structural magnetic resonance imaging (MRI) (66 methamphetamine-dependent and 52 controls). The relationship between CYP2D6 activity score and whole brain cortical thickness differed by group (interaction p = 0.024), as increasing CYP2D6 activity was associated with thinner cortical thickness in the methamphetamine users (β = -0.254; p = 0.035), but not in control subjects (β = 0.095; p = 0.52). Interactions between CYP2D6 activity and group were nonsignificant for hippocampal volume (ps > 0.05), but both hippocampi showed trends similar to those observed for cortical thickness (negative relationships in methamphetamine users [ps < 0.05], and no relationships in controls [ps > 0.50]). Methamphetamine users had lower cognitive scores than control subjects (p = 0.007), but there was no interaction between CYP2D6 activity score and group on cognition (p > 0.05). Results suggest that CYP2D6 genotypes linked to higher enzymatic activity may confer risk for methamphetamine-induced deficits in brain structure. The behavioral consequences of these effects are unclear and warrant additional investigation., (©2020 Society for the Study of Addiction.)

Published

2021

8. Methamphetamine facilitates pulmonary and splenic tissue injury and reduces T cell infiltration in C57BL/6 mice after antigenic challenge.

Author

Hernandez-Santini AC, Mitha AN, Chow D, Hamed MF, Gucwa AL, Vaval V, and Martinez LR

Subjects

Amphetamine-Related Disorders immunology, Amphetamine-Related Disorders pathology, Animals, Antigens, Bacterial, Apoptosis drug effects, Chemotaxis, Leukocyte drug effects, Chemotaxis, Leukocyte physiology, Disease Models, Animal, Female, Humans, Inflammation chemically induced, Inflammation immunology, Inflammation pathology, Jurkat Cells, Lipopolysaccharides, Lung drug effects, Lung immunology, Lung pathology, Lung Injury immunology, Lung Injury pathology, Lymphocyte Activation drug effects, Mice, Mice, Inbred C57BL, Spleen drug effects, Spleen immunology, Spleen injuries, Spleen pathology, Splenic Diseases immunology, Splenic Diseases pathology, T-Lymphocytes physiology, Lung Injury chemically induced, Methamphetamine pharmacology, Splenic Diseases chemically induced, T-Lymphocytes drug effects

Abstract

Methamphetamine (METH) is a strong addictive central nervous system stimulant. METH abuse can alter biological processes and immune functions necessary for host defense. The acquisition and transmission of HIV, hepatitis, and other communicable diseases are possible serious infectious consequences of METH use. METH also accumulates extensively in major organs. Despite METH being a major public health and safety problem globally, there are limited studies addressing the impact of this popular recreational psychostimulant on tissue adaptive immune responses after exposure to T cell dependent [ovalbumin (OVA)] and independent [lipopolysaccharide (LPS)] antigens. We hypothesized that METH administration causes pulmonary and splenic tissue alterations and reduces T cell responses to OVA and LPS in vivo, suggesting the increased susceptibility of users to infection. Using a murine model of METH administration, we showed that METH causes tissue injury, apoptosis, and alters helper and cytotoxic T cell recruitment in antigen challenged mice. METH also reduces the expression and distribution of CD3 and CD28 molecules on the surface of human Jurkat T cells. In addition, METH decreases the production of IL-2 in these T-like cells, suggesting a negative impact on T lymphocyte activation and proliferation. Our findings demonstrate the pleotropic effects of METH on cell-mediated immunity. These alterations have notable implications on tissue homeostasis and the capacity of the host to respond to infection.

Published

2021

9. Transcriptional Profiling of Whisker Follicles and of the Striatum in Methamphetamine Self-Administered Rats.

Author

Jang WJ, Son T, Song SH, Ryu IS, Lee S, and Jeong CH

Subjects

Alzheimer Disease genetics, Alzheimer Disease pathology, Amphetamine-Related Disorders pathology, Animals, Corpus Striatum drug effects, Corpus Striatum metabolism, Disease Models, Animal, Gene Expression Regulation drug effects, Hair Follicle metabolism, High-Throughput Nucleotide Sequencing, Humans, Huntington Disease genetics, Huntington Disease pathology, Neostriatum drug effects, Neostriatum metabolism, Parkinson Disease genetics, Parkinson Disease pathology, Rats, Self Administration, Signal Transduction drug effects, Vibrissae drug effects, Vibrissae metabolism, Amphetamine-Related Disorders genetics, Hair Follicle drug effects, Methamphetamine pharmacology, Transcriptome genetics

Abstract

Methamphetamine (MA) use disorder is a chronic neuropsychiatric disease characterized by recurrent binge episodes, intervals of abstinence, and relapses to MA use. Therefore, identification of the key genes and pathways involved is important for improving the diagnosis and treatment of this disorder. In this study, high-throughput RNA sequencing was performed to find the key genes and examine the comparability of gene expression between whisker follicles and the striatum of rats following MA self-administration. A total of 253 and 87 differentially expressed genes (DEGs) were identified in whisker follicles and the striatum, respectively. Multivariate and network analyses were performed on these DEGs to find hub genes and key pathways within the constructed network. A total of 129 and 49 genes were finally selected from the DEG sets of whisker follicles and of the striatum. Statistically significant DEGs were found to belong to the classes of genes involved in nicotine addiction, cocaine addiction, and amphetamine addiction in the striatum as well as in Parkinson's, Huntington's, and Alzheimer's diseases in whisker follicles. Of note, several genes and pathways including retrograde endocannabinoid signaling and the synaptic vesicle cycle pathway were common between the two tissues. Therefore, this study provides the first data on gene expression levels in whisker follicles and in the striatum in relation to MA reward and thereby may accelerate the research on the whisker follicle as an alternative source of biomarkers for the diagnosis of MA use disorder.

Published

2020

10. LC3 and ATG5 overexpression and neuronal cell death in the prefrontal cortex of postmortem chronic methamphetamine users.

Author

Khoshsirat S, Khoramgah MS, Mahmoudiasl GR, Rezaei-Tavirani M, Abdollahifar MA, Tahmasebinia F, Darabi S, Niknazar S, and Abbaszadeh HA

Subjects

Adult, Amphetamine-Related Disorders pathology, Autophagy drug effects, Autopsy, Cell Death drug effects, Humans, Male, Neurons drug effects, Neurons pathology, Oxidative Stress drug effects, Prefrontal Cortex drug effects, Prefrontal Cortex pathology, Amphetamine-Related Disorders metabolism, Autophagy physiology, Autophagy-Related Protein 5 metabolism, Cell Death physiology, Methamphetamine poisoning, Microtubule-Associated Proteins metabolism, Neurons metabolism, Prefrontal Cortex metabolism

Abstract

Methamphetamine (METH) abuse is accompanied by oxidative stress, METH-induced neurotoxicity, and apoptosis. Oxidative stress has devastating effects on the structure of proteins and cells. Autophagy is an evolutionarily conserved intracellular regulated mechanism for orderly degradation of dysfunctional proteins or removing damaged organelles. The precise role of autophagy in oxidative stress-induced apoptosis of dopaminergic neuronal cells caused by METH has not clarified completely. In this study, we sought to evaluate the effects of METH abuse on autophagy in the prefrontal cortex of postmortem users, mainly focusing on the ATG5 and LC3 during neuroinflammation. Postmortem molecular and histological examination was done for two groups containing 12 non-addicted and 14 METH addicted cases. ATG5 and LC3 expression were analyzed by real-time PCR and immunohistochemistry (IHC) methods. Histopathological analysis was performed by stereological cell counting of neuronal cells using Hematoxylin and Eosin (H & E) staining technique. In order to detect DNA damage in the prefrontal lobe, Tunnel staining was performed. Real-time PCR and IHC assay showed overexpression of ATG5 and LC3 protein in the prefrontal cortex of Meth users. The cell death and neuronal degeneration were increased significantly based on Tunel assay and the stereological analysis in the Prefrontal cortex. Chronic METH exposure probably induces ATG5 and LC3 overexpression and neuronal cell death in the Prefrontal cortex of the postmortem cases., Competing Interests: Declaration of Competing Interest The authors declare that they have no conflict of interest., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

11. Disrupted brain network dynamics and cognitive functions in methamphetamine use disorder: insights from EEG microstates.

Author

Chen T, Su H, Zhong N, Tan H, Li X, Meng Y, Duan C, Zhang C, Bao J, Xu D, Song W, Zou J, Liu T, Zhan Q, Jiang H, and Zhao M

Subjects

Adult, Amphetamine-Related Disorders pathology, Brain drug effects, Cognition Disorders pathology, Female, Humans, Male, Amphetamine-Related Disorders physiopathology, Brain pathology, Brain physiopathology, Cognition Disorders chemically induced, Cognition Disorders physiopathology, Electroencephalography, Methamphetamine adverse effects

Abstract

Background: Dysfunction in brain network dynamics has been found to correlate with many psychiatric disorders. However, there is limited research regarding resting electroencephalogram (EEG) brain network and its association with cognitive process for patients with methamphetamine use disorder (MUD). This study aimed at using EEG microstate analysis to determine whether brain network dynamics in patients with MUD differ from those of healthy controls (HC)., Methods: A total of 55 MUD patients and 27 matched healthy controls were included for analysis. The resting brain activity was recorded by 64-channel electroencephalography. EEG microstate parameters and intracerebral current sources of each EEG microstate were compared between the two groups. Generalized linear regression model was used to explore the correlation between significant microstates with drug history and cognitive functions., Results: MUD patients showed lower mean durations of the microstate classes A and B, and a higher global explained variance of the microstate class C. Besides, MUD patients presented with different current density power in microstates A, B, and C relative to the HC. The generalized linear model showed that MA use frequency is negatively correlated with the MMD of class A. Further, the generalized linear model showed that MA use frequency, scores of Two-back task, and the error rate of MA word are correlated with the MMD and GEV of class B, respectively., Conclusions: Intracranial current source densities of resting EEG microstates are disrupted in MUD patients, hence causing temporal changes in microstate topographies, which are correlated with attention bias and history of drug use.

Published

2020

12. Methamphetamine-induced alterations in intestinal mucosal barrier function occur via the microRNA-181c/ TNF-α/tight junction axis.

Author

Shen S, Zhao J, Dai Y, Chen F, Zhang Z, Yu J, and Wang K

Subjects

Adolescent, Adult, Amphetamine-Related Disorders blood, Amphetamine-Related Disorders genetics, Amphetamine-Related Disorders pathology, Animals, Apoptosis drug effects, Bacterial Translocation drug effects, Biomarkers blood, Case-Control Studies, Cell Line, Electric Impedance, Epithelial Cells metabolism, Epithelial Cells pathology, Female, Gastrointestinal Microbiome, Humans, Intestinal Mucosa metabolism, Intestinal Mucosa pathology, Male, MicroRNAs genetics, Middle Aged, Permeability, Rats, Signal Transduction, Tight Junctions metabolism, Tight Junctions pathology, Tumor Necrosis Factor-alpha blood, Tumor Necrosis Factor-alpha genetics, Young Adult, Amphetamine-Related Disorders metabolism, Central Nervous System Stimulants adverse effects, Epithelial Cells drug effects, Intestinal Mucosa drug effects, Methamphetamine adverse effects, MicroRNAs metabolism, Tight Junctions drug effects, Tumor Necrosis Factor-alpha metabolism

Abstract

An enterogenic infection occurs when intestinal mucosal disruption is followed by the invasion of intestinal bacteria into the blood and distant organs, which can result in severe diseases or even death. Our previous study using Rhesus monkeys as an in vivo model revealed that methamphetamine (MA) induced intestinal mucosal barrier damage, which poses a high risk of enterogenic infection. However, how methamphetamine causes intestinal mucosal barrier damage remains largely unknown. In this study, we employed an in vitro model, and found that MA treatment could inhibit the expression of miR-181c, which directly targets and regulates TNF-α, and ultimately induces apoptosis and damages the intestinal barrier. Moreover, we measured TNF-α serum levels as well as the intestinal mucosal barrier damage indicators (diamine oxidase, d-lactic acid, and exotoxin) and found that their levels were significantly higher in MA-dependents than in healthy controls (P < 0.001). To the best of our knowledge, this is the first report evidencing that miR-181c is involved in MA-induced intestinal barrier injury via TNF-α regulation, which introduces novel potential therapeutic targets for MA-dependent intestinal diseases., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

13. The Impact of Substance Abuse on Heart Failure Hospitalizations.

Author

Nishimura M, Bhatia H, Ma J, Dickson SD, Alshawabkeh L, Adler E, Maisel A, Criqui MH, Greenberg B, and Thomas IC

Subjects

Adult, Aged, Aged, 80 and over, California, Female, Hospitalization, Humans, Male, Methamphetamine toxicity, Middle Aged, Retrospective Studies, Alcoholism complications, Amphetamine-Related Disorders pathology, Heart Failure etiology, Heart Failure therapy, Opioid-Related Disorders

Abstract

Background: The burden of substance abuse among patients with heart failure and its association with subsequent emergency department visits and hospital admissions are poorly characterized., Methods: We evaluated the medical records of patients with a diagnosis of heart failure treated at the University of California-San Diego from 2005 to 2016. We identified substance abuse via diagnosis codes or urine drug screens. We used Poisson regression to evaluate the incidence rate ratios (IRR) of substance abuse for emergency department visits or hospitalizations with a primary diagnosis of heart failure, adjusted for age, sex, race, medical insurance status, and medical diagnoses., Results: We identified 11,268 patients with heart failure and 15,909 hospital encounters for heart failure over 49,712 person-years of follow-up. Substance abuse was diagnosed in 15.2% of patients. Disorders such as methamphetamine abuse (prevalence 5.2%, IRR 1.96, 95% confidence interval [CI] 1.85-2.07), opioid use and abuse (8.2%, IRR 1.54, 95% CI 1.47-1.61), and alcohol abuse (4.5%, IRR 1.51, 95% CI 1.42-1.60) were associated with a greater number of hospital encounters for heart failure, with associations that were comparable to diagnoses such as atrial fibrillation (37%, IRR 1.78, 95% CI 1.73-1.84), ischemic heart disease (24%, IRR 1.67, 95% CI 1.62-1.73), and chronic kidney disease (26%, IRR 1.57, 95% CI 1.51-1.62)., Conclusions: Although less prevalent than common medical comorbidities in patients with heart failure, substance-abuse disorders are significant sources of morbidity that are independently associated with emergency department visits and hospitalizations for heart failure. Greater recognition and treatment of substance abuse may improve outcomes among patients with heart failure., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

14. Disrupted resting-state brain functional network in methamphetamine abusers: A brain source space study by EEG.

Author

Khajehpour H, Makkiabadi B, Ekhtiari H, Bakht S, Noroozi A, and Mohagheghian F

Subjects

Adult, Amphetamine-Related Disorders metabolism, Anxiety complications, Anxiety pathology, Brain Mapping, Brain Waves, Depression complications, Depression pathology, Female, Humans, Male, Signal Processing, Computer-Assisted, Statistics, Nonparametric, Stress, Psychological, Young Adult, Amphetamine-Related Disorders pathology, Brain physiopathology, Electroencephalography, Rest physiology

Abstract

This study aimed to examine the effects of chronic methamphetamine use on the topological organization of whole-brain functional connectivity network (FCN) by reconstruction of neural-activity time series at resting-state. The EEG of 36 individuals with methamphetamine use disorder (IWMUD) and 24 normal controls (NCs) were recorded, pre-processed and source-reconstructed using standardized low-resolution tomography (sLORETA). The brain FCNs of participants were constructed and between-group differences in network topological properties were investigated using graph theoretical analysis. IWMUD showed decreased characteristic path length, increased clustering coefficient and small-world index at delta and gamma frequency bands compared to NCs. Moreover, abnormal changes in inter-regional connectivity and network hubs were observed in all the frequency bands. The results suggest that the IWMUD and NCs have distinct FCNs at all the frequency bands, particularly at the delta and gamma bands, in which deviated small-world brain topology was found in IWMUD., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

15. Trace amine-associated receptor gene polymorphism increases drug craving in individuals with methamphetamine dependence.

Author

Loftis JM, Lasarev M, Shi X, Lapidus J, Janowsky A, Hoffman WF, and Huckans M

Subjects

Adult, Amphetamine-Related Disorders metabolism, Amphetamine-Related Disorders pathology, Cell Line, Craving, Dopamine genetics, Dopamine metabolism, Female, Gene Expression Regulation genetics, Humans, Male, Methamphetamine administration & dosage, Methamphetamine adverse effects, Middle Aged, Receptors, G-Protein-Coupled biosynthesis, Amphetamine-Related Disorders genetics, Polymorphism, Single Nucleotide, Receptors, G-Protein-Coupled genetics

Abstract

Background: Methamphetamine (MA) is a potent agonist at the trace amine-associated receptor 1 (TAAR1). This study evaluated a common variant (CV) in the human TAAR1 gene, synonymous single nucleotide polymorphism (SNP) V288V, to determine the involvement of TAAR1 in MA dependence., Methods: Participants (n = 106) with active MA dependence (MA-ACT), in remission from MA dependence (MA-REM), with active polysubstance dependence, in remission from polysubstance dependence, and with no history of substance dependence completed neuropsychiatric symptom questionnaires and provided blood samples. In vitro expression and function of CV and wild type TAAR1 receptors were also measured., Results: The V288V polymorphism demonstrated a 40% increase in TAAR1 protein expression in cell culture, but message sequence and protein function were unchanged, suggesting an increase in translation efficiency. Principal components analysis resolved neuropsychiatric symptoms into four components, PC1 (depression, anxiety, memory, and fatigue), PC2 (pain), PC3 (drug and alcohol craving), and PC4 (sleep disturbances). Analyses of study group and TAAR1 genotype revealed a significant interaction for PC3 (craving response) (p = 0.003). The control group showed no difference in PC3 associated with TAAR1, while adjusted mean craving for the MA-ACT and MA-REM groups, among those with at least one copy of V288V, was estimated to be, respectively, 1.55 (p = 0.036) and 1.77 (p = 0.071) times the adjusted mean craving for those without the TAAR1 SNP., Conclusions: Neuroadaptation to chronic MA use may be altered by TAAR1 genotype and result in increased dopamine signaling and craving in individuals with the V288V genotype., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

16. Regional differences in white matter integrity in stimulant use disorders: A meta-analysis of diffusion tensor imaging studies.

Author

Beard CL, Schmitz JM, Soder HE, Suchting R, Yoon JH, Hasan KM, Narayana PA, Moeller FG, and Lane SD

Subjects

Adult, Amphetamine-Related Disorders pathology, Anisotropy, Corpus Callosum diagnostic imaging, Corpus Callosum pathology, Female, Humans, Male, Prefrontal Cortex diagnostic imaging, Prefrontal Cortex pathology, White Matter pathology, Amphetamine-Related Disorders diagnostic imaging, Central Nervous System Stimulants adverse effects, Diffusion Tensor Imaging methods, White Matter diagnostic imaging, White Matter drug effects

Abstract

Background: Converging lines of evidence from diffusion tensor imaging (DTI) studies reveal significant alterations in white matter (WM) microstructure in the prefrontal cortex of chronic stimulant users compared to controls, suggesting compromised axonal microstructure and/or myelin., Methods: A meta-analysis of DTI-based WM integrity was conducted for white matter regions across the corpus callosum and association fibers. Articles were sourced and selected using PRISMA guidelines for systematic review and meta-analysis. Inclusion and exclusion criteria were determined by the authors in order to best capture WM integrity among individuals with primary stimulant use in comparison to healthy control subjects., Results: Eleven studies that focused on region-of-interest (ROI)-based analysis of WM integrity were extracted from an initial pool of 113 independent studies. Analysis across ROIs indicated significantly lower fractional anisotropy (FA) values in stimulant use groups compared to controls with a small to moderate overall effect (Hedges' g = -0.37, 95% CI [-0.54, -0.20]). Eigenvalues were also analyzed, revealing a significant effect for radial diffusivity (RD; Hedges' g = 0.24, 95% CI [0.01, 0.47]) but not axial diffusivity (AD; Hedges' g = 0.05, 95% CI [-0.20, 0.29]) or mean diffusivity (MD; Hedges' g = 0.20, 95% CI [-0.01, 0.41]). Subgroup analyses based on specific ROIs, primary substance use, poly-substance use, and imaging technology were also explored., Conclusion: Results of the present study suggest a consistent effect of compromised WM integrity for individuals with stimulant use disorders. Furthermore, no significant differences were found between cocaine and methamphetamine-based groups., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

17. Effect of a binge-like dosing regimen of methamphetamine on dopamine levels and tyrosine hydroxylase expressing neurons in the rat brain.

Author

Moreira da Silva Santos A, Kelly JP, Dockery P, and Doyle KM

Subjects

Amphetamine-Related Disorders metabolism, Amphetamine-Related Disorders pathology, Animals, Body Temperature drug effects, Brain metabolism, Brain pathology, Gene Expression drug effects, Neurons metabolism, Neurons pathology, Rats, Sprague-Dawley, Time Factors, Brain drug effects, Central Nervous System Stimulants administration & dosage, Dopamine metabolism, Methamphetamine administration & dosage, Neurons drug effects, Tyrosine 3-Monooxygenase metabolism

Abstract

Methamphetamine, an amphetamine derivative, is a powerful psychomotor stimulant and commonly used drug of abuse. This study examined the effect of binge-like methamphetamine (MA) dosing (4 × 4 mg/kg, s.c., 2 h apart) on regional dopamine and dopaminergic metabolite levels in rat brain at a range of early time points after final dose (2-48 h). Body temperature was elevated when measured 2 h after the last dose. MA increased dopamine levels in the frontal cortex 2 and 24 h after the last dose. The dopamine level was also increased in the amygdala at 24 h. No change was observed in the striatum at any time point, but levels of the dopamine metabolite DOPAC were markedly reduced at 24 and 48 h. Tyrosine hydroxylase expression is induced downstream of dopamine activity, and it is the rate limiting enzyme in dopamine synthesis. The effect of MA binge-like dosing on the volume of tyrosine hydroxylase containing cell bodies and the area fraction of tyrosine hydroxylase containing fibres was also assessed. MA increased the area fraction of tyrosine hydroxylase fibres in the frontal cortex and reduced the volume of tyrosine hydroxylase containing cell bodies 2 h after last dose in the ventral tegmental area and the substantia nigra. An increase in cell body volume in the substantia nigra was observed 48 h after treatment. These findings collectively highlight the importance of the dopaminergic system in methamphetamine induced effects, identify the frontal cortex, amygdala and striatum as key regions that undergo early changes in response to binge-like methamphetamine dosing and provide evidence of time-dependent effects on the cell bodies and fibres of tyrosine hydroxylase expressing neurons., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

18. Amphetamine Self-Administration and Its Extinction Alter the 5-HT 1B Receptor Protein Levels in Designated Structures of the Rat Brain.

Author

Miszkiel J, Jastrzębska J, Filip M, and Przegaliński E

Subjects

Amphetamine-Related Disorders pathology, Animals, Brain metabolism, Brain pathology, Disease Models, Animal, Male, Rats, Wistar, Self Administration, Amphetamine administration & dosage, Amphetamine-Related Disorders metabolism, Brain drug effects, Central Nervous System Stimulants administration & dosage, Extinction, Psychological physiology, Receptor, Serotonin, 5-HT1B metabolism

Abstract

Manipulation of the serotonin (5-HT) 1B receptors can modify the behavioral effects of amphetamine including its reinforcing properties. Focus of this study was to examine changes in 5-HT 1B receptor protein expression in several brain structures linked to substance drug disorder in different stages of amphetamine addiction-single session of amphetamine self-administration, 20 consecutive days of amphetamine self-administration, and 3 and 14 days of extinction from chronic drug intake. "Yoked" procedure was employed to set apart pharmacological and motivational effects of amphetamine intoxication. Immunohistofluorescence was performed on brain slices containing the following regions: nucleus accumbens (NAc) shell and core, globus pallidum (GP) lateral and ventral, hippocampus (HIP), substantia nigra (SN), and ventral tegmental area (VTA). Single amphetamine session decreased the amount of 5-HT 1B receptors in SN, VTA, and HIP in active and yoked rats. On the contrary, 20 days of chronic amphetamine exposure triggered elevation of 5-HT 1B receptors exclusively in animals that voluntarily administered the drug in NAc core, GP ventral, and HIP. Furthermore, 14-day (but not 3-day) extinction from amphetamine increased the 5-HT 1B receptor expression in ventral and lateral GP, HIP, and SN. This study is the first to demonstrate that exposure to amphetamine and its extinction alter the expression of 5-HT 1B receptors in various rat brain regions, and those changes seem to be transient and region specific. Importantly, since increased expression of 5-HT 1B receptor after chronic amphetamine self-administration was limited only to active group of animals, we suggest that 5-HT 1B receptor is linked to motivational aspect of addiction.

Published

2019

19. Developmental perspectives on methamphetamine abuse: Exploring adolescent vulnerabilities on brain and behavior.

Author

Luikinga SJ, Kim JH, and Perry CJ

Subjects

Adolescent, Animals, Behavior, Addictive pathology, Humans, Amphetamine-Related Disorders pathology, Amphetamine-Related Disorders physiopathology, Behavior, Addictive physiopathology, Brain drug effects, Methamphetamine administration & dosage, Reinforcement, Psychology

Abstract

Most people that experience illicit drugs do so for the first time during adolescence, and methamphetamine (meth) is no exception. Therefore, research into the effects of meth should highlight the adolescent period. Despite this, the vast majority of current literature has mainly focused on meth exposure during adulthood. In this review, we first describe existing literature that compares the behavioral effects of meth where exposure occurs in adolescence compared to adulthood. Given that there are actually very few such studies, we also look at what is known about neural effects of meth in the adult brain, and relate these to normal neural development occurring during the adolescent period to establish how meth may target maturing regions and related neurochemistry. What emerges overall is that adolescents appear to be more vulnerable to the rewarding and reinforcing effects of meth, and that meth indeed has effects on areas that are in flux during adolescence. However, there is some evidence for a paradoxical resistance to the neurotoxic effects during this period. We highlight the need for further age-related research to better understand, treat, and prevent meth use disorders and addiction in general., (Copyright © 2017. Published by Elsevier Inc.)

Published

2018

20. Toxicity of new synthetic amphetamine drug mephedrone On Rat Heart mitochondria: a warning for its abuse.

Author

Naserzadeh P, Jokar F, Vafaei F, Seydi E, and Pourahmad J

Subjects

Amphetamine-Related Disorders pathology, Animals, Caspase 3 metabolism, Cytochromes c metabolism, Electron Transport drug effects, Male, Methamphetamine adverse effects, Methamphetamine pharmacology, Mitochondria, Heart pathology, Mitochondrial Proteins metabolism, Myocytes, Cardiac pathology, Rats, Rats, Wistar, Reactive Oxygen Species metabolism, Amphetamine-Related Disorders metabolism, Methamphetamine analogs & derivatives, Mitochondria, Heart metabolism, Myocytes, Cardiac metabolism

Abstract

1. Mephedrone, a new and popular amphetamine drug, is widely abused and is still legal in some parts around the world. Little data on mechanisms involved in mephedrone induced cardiotoxicity are available. 2. Therefore, we decided to explain the mechanisms of mephedrone cardiotoxicity by using mitochondria isolated from rat heart. The isolated heart mitochondria were incubated with different concentrations of mephedrone (5, 10 and 20 µM). 3. Results showed that mephedrone induced mitochondrial dysfunction via an increase in mitochondrial reactive oxygen species (ROS) production, mitochondrial membrane potential (MMP) collapse, mitochondrial swelling and damage in the mitochondrial outer membrane (MOM) which is associated with the cytochrome c release. Our results showed that decrease of ATP levels is an indicator of disturbance in oxidative phosphorylation. Also, mephedrone increased the caspase-3 activity. 4. According to the results, we suggest that mephedrone induced cardiotoxicity is the result of a disruptive effect on the mitochondrial respiratory chain and induction of ROS-mediated apoptosis signaling in heart cardiomyocytes.

Published

2018

21. Age- and sex-dependent effects of methamphetamine on cognitive flexibility and 5-HT 2C receptor localization in the orbitofrontal cortex of Sprague-Dawley rats.

Author

Hankosky ER, Westbrook SR, Haake RM, Willing J, Raetzman LT, Juraska JM, and Gulley JM

Subjects

Administration, Intravesical, Aging drug effects, Aging metabolism, Aging pathology, Amphetamine-Related Disorders pathology, Amphetamine-Related Disorders psychology, Animals, Discrimination, Psychological drug effects, Discrimination, Psychological physiology, Executive Function physiology, Female, Interneurons drug effects, Interneurons metabolism, Interneurons pathology, Male, Prefrontal Cortex growth & development, Prefrontal Cortex metabolism, Prefrontal Cortex pathology, Rats, Sprague-Dawley, Reversal Learning drug effects, Reversal Learning physiology, Self Administration, Sex Characteristics, Sexual Maturation, Amphetamine-Related Disorders metabolism, Central Nervous System Stimulants administration & dosage, Executive Function drug effects, Methamphetamine administration & dosage, Prefrontal Cortex drug effects, Receptor, Serotonin, 5-HT2C metabolism

Abstract

Adolescents and females experience worse outcomes of drug use compared to adults and males. This could result from age- and sex-specific consequences of drug exposure on brain function and cognitive behavior. In the current study, we examined whether a history of intravenous methamphetamine (METH) self-administration impacted cognitive flexibility and 5-HT 2C R localization in the orbitofrontal cortex (OFC) in an age- and sex-dependent manner. Strategy shifting was assessed in male and female Sprague-Dawley rats that had self-administered METH (0.08 mg/kg/inf) or received non-contingent infusions of saline during periadolescence or young adulthood. After all rats reached adulthood, they were tested in an operant strategy shifting task and their brains were subsequently analyzed using immunofluorescence to quantify co-localization of 5-HT 2C receptors with parvalbumin interneurons in the OFC. We found that adolescent-onset females were the only group impaired during discrimination and reversal learning, but they did not exhibit changes in localization of 5-HT 2C receptors. In contrast, adult-onset males exhibited a significant increase in co-localization of 5-HT 2C receptors within parvalbumin interneurons in the left hemisphere of the OFC. These studies reveal that age and sex differences in drug-induced deficits in reversal learning and 5-HT 2C R co-localization with parvalbumin interneurons are dissociable and can manifest independently. In addition, these data highlight the potential for certain treatment approaches to be more suitable in some populations compared to others, such as alleviating drug-induced cognitive deficits as a focus for treatment in adolescent females., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

22. Methamphetamine Induces Apoptosis of Microglia via the Intrinsic Mitochondrial-Dependent Pathway.

Author

Sharikova AV, Quaye E, Park JY, Maloney MC, Desta H, Thiyagarajan R, Seldeen KL, Parikh NU, Sandhu P, Khmaladze A, Troen BR, Schwartz SA, and Mahajan SD

Subjects

Amphetamine-Related Disorders metabolism, Amphetamine-Related Disorders pathology, Apoptosis Regulatory Proteins biosynthesis, Caspase 3 biosynthesis, Caspase 7 biosynthesis, Cell Line, Cell Survival drug effects, DNA, Mitochondrial biosynthesis, Humans, Receptors, sigma biosynthesis, Sigma-1 Receptor, Apoptosis drug effects, Central Nervous System Stimulants toxicity, Methamphetamine toxicity, Microglia drug effects, Mitochondria drug effects

Abstract

Methamphetamine (METH) is a drug of abuse, the acute and chronic use of which induces neurotoxic responses in the human brain, ultimately leading to neurocognitive disorders. Our goals were to understand the impact of METH on microglial mitochondrial respiration and to determine whether METH induces the activation of the mitochondrial-dependent intrinsic apoptosis pathway in microglia. We assessed the expression of pro- apoptosis genes using qPCR of RNA extracted from a human microglial cell line (HTHU). We examined the apoptosis-inducing effects of METH on microglial cells using digital holographic microscopy (DHM) to quantify real-time apoptotic volume decrease (AVD) in microglia in a noninvasive manner. METH treatment significantly increased AVD, activated Caspase 3/7, increased the gene expression levels of the pro- apoptosis proteins, APAF-1 and BAX, and decreased mitochondrial DNA content. Using immunofluorescence analysis, we found that METH increased the expression of the mitochondrial proteins cytochrome c and MCL-1, supporting the activation of mitochondrion-dependent (intrinsic) apoptosis pathway. Cellular bio-energetic flux analysis by Agilent Seahorse XF Analyzer revealed that METH treatment increased both oxidative and glycolytic respiration after 3 h, which was sustained for at least 24 h. Several events, such as oxidative stress, neuro-inflammatory responses, and mitochondrial dysfunction, may converge to mediate METH-induced apoptosis of microglia that may contribute to neurotoxicity of the CNS. Our study has important implications for therapeutic strategies aimed at preserving mitochondrial function in METH abusing patients.

Published

2018

23. Methamphetamine-Induced Brain Injury and Alcohol Drinking.

Author

Blaker AL and Yamamoto BK

Subjects

Animals, Brain pathology, Inflammation pathology, Male, Rats, Rats, Sprague-Dawley, Alcoholism pathology, Amphetamine-Related Disorders pathology, Brain drug effects, Inflammation chemically induced

Abstract

A majority of methamphetamine (Meth) abusers also abuse alcohol but the neurochemical consequences of this co-abuse are unknown. Individually, alcohol and Meth cause inflammation and long-term alterations in dopamine and serotonin signaling within the brain. Experiments were conducted to identify if serial exposure to alcohol and Meth has neurochemical consequences that are greater than after either drug alone. Male Sprague Dawley rats voluntarily drank 10% ethanol (EtOH) every other day for 4 weeks and were then exposed to a binge injection regimen of Meth (10 mg/kg injected every 2 h, for a total of 4 injections). EtOH drinking and preference increased over the 4 weeks and caused inflammation evidenced by increases in serum and brain lipopolysaccharide (LPS) and brain cyclooxygenase-2 (COX-2) 24 h after the last day of drinking. Meth alone depleted dopamine and serotonin in the striatum, as well as serotonin in the prefrontal cortex when measured 1 week later. In contrast, EtOH drinking alone did not affect dopamine and serotonin content in the striatum and prefrontal cortex, but prior EtOH drinking followed by injections of Meth enhanced Meth-induced depletions of dopamine, serotonin, as well as dopamine and serotonin transporter immunoreactivities in a manner that was correlated with the degree of EtOH consumption. Cyclooxygenase inhibition by ketoprofen during EtOH drinking blocked the increases in LPS and COX-2 and the enhanced decreases in dopamine and serotonin produced by Meth. Therefore, prior EtOH drinking causes an increase in inflammatory mediators that mediate a synergistic interaction with Meth to cause an enhanced neurotoxicity.

Published

2018

24. [Change of brain structure imaging of long-term withdrawal of methamphetamine-dependent patients].

Author

Zhang Z, Li P, Fan L, Tao F, Li Y, Jiang B, Liu J, and Kou Z

Subjects

Age Factors, Amphetamine-Related Disorders diagnostic imaging, Brain diagnostic imaging, Case-Control Studies, Central Nervous System Stimulants, Cerebellum diagnostic imaging, Cerebellum pathology, Educational Status, Humans, Magnetic Resonance Imaging, Magnetic Resonance Spectroscopy, Methamphetamine, Temporal Lobe diagnostic imaging, Temporal Lobe pathology, Time Factors, Amphetamine-Related Disorders pathology, Brain pathology, Temperance

Abstract

Objective: To explore the characteristics of brain structure in patients with long-term withdrawal of methamphetamine-dependence.
 Methods: A total of 44 patients with withdrawal of methamphetamine-dependent for more than 14 months were recruited, who met the diagnostic criteria for substance dependence in the fifth edition of the American Mental Disorders Diagnostic and Statistical Manual (DSM-V), and 40 healthy subjects were used as the control. In addition to the general scale of drug-relevant survey, the subjects received the 3.0T magnetic resonance high-resolution scan. The voxel-based morphometric measurements for the subject's brain gray volume were conducted.
 Results: There was no significant difference in age, education, smoking and alcohol consumption between the methamphetamine-dependent withdrawal group and the control group (P>0.05). The volumes for the bilateral cerebellum, the left side of temporal gyrus and the right side of the lingual gyrus in the methamphetamine-dependent withdrawal group were increased than those in the control group. The volumes for the bilateral lingual gyrus and bilateral cuneus in the methamphetamine-dependent withdrawal group were decreased than those in the control group. The volumes of left of cuneus and cerebellum were positively correlated with the duration of abstinence.
 Conclusion: After long-term abstinence, although the patients still show abnormal brain structure, their behavior and cognitive function is improved. The cerebral nerve structural is recovered from long-term abstinence.

Published

2018

25. Methamphetamine dependence with and without psychotic symptoms: A multi-modal brain imaging study.

Author

Vuletic D, Dupont P, Robertson F, Warwick J, Zeevaart JR, and Stein DJ

Subjects

Adult, Amphetamine-Related Disorders physiopathology, Brain physiopathology, Brain Mapping, Female, Humans, Magnetic Resonance Imaging methods, Male, Young Adult, Amphetamine-Related Disorders pathology, Brain pathology, Methamphetamine pharmacology, Neuroimaging methods

Abstract

Objective: Methamphetamine dependence can lead to psychotic symptoms which may be mediated by frontal, striatal, limbic, and thalamic regions. There are few neuroimaging data that allow comparison of individuals with methamphetamine dependence who do, and do not, have psychosis. Two complementary imaging techniques were employed to investigate neurocircuitry associated with methamphetamine dependence with and without psychotic symptoms., Methods: Three groups of participants were recruited: methamphetamine dependent (MAA) (N = 11), methamphetamine dependent with psychotic symptoms (MAP) (N = 14), and controls (N = 14). Resting brain glucose metabolism was measured using [ 18 F]fluorodeoxyglucose (FDG) positron emission tomography (PET) and cerebral perfusion was assessed using arterial spin labelling (ASL) magnetic resonance imaging., Results: Methamphetamine abusers (MAA and MAP groups) had decreased glucose metabolism compared to healthy controls in the left insula, left precentral gyrus, and the anterior cingulate cortex. Compared to MAA participants, MAP participants had 1) decreased glucose metabolism in the left precentral gyrus and the left inferior frontal gyrus and 2) increased glucose metabolism in the putamen and pallidum. MAP participants also had increased cerebral perfusion in the right putamen and right pallidum compared to MAA., Conclusion: Findings support the involvement of frontal, striatal, and limbic regions in methamphetamine dependence. Furthermore, they indicate that glucose metabolism and cerebral perfusion in these regions are disrupted in methamphetamine dependent individuals with psychotic symptoms., (Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2018

26. Prevalence and nature of cardiovascular disease in methamphetamine-related death: A national study.

Author

Darke S, Duflou J, and Kaye S

Subjects

Amphetamine-Related Disorders complications, Australia, Female, Humans, Male, Myocardium, Prevalence, Amphetamine-Related Disorders pathology, Coronary Disease complications, Coronary Vessels physiopathology, Hypertension complications, Methamphetamine adverse effects

Abstract

Background: Methamphetamine dependence is a major public health problem. This study examined the nature, and extent, of cardiovascular disease amongst cases of methamphetamine-related death in Australia, 2009-2015., Methods: Analysis of 894 cases of methamphetamine-related death with full autopsy reports retrieved from the National Coronial Information System., Results: The mean age was 37.9yrs (range 15-69yrs) and 78.5% were male. A quarter (26.3%) of cases had enlarged hearts and left ventricular hypertrophy was diagnosed in 18.9%. Severe coronary artery disease was present in 19.0%, the left coronary artery being the vessel most frequently stenosed (16.6%). Replacement fibrosis (evidence of earlier ischaemic events) in the heart muscle was observed in 19.8% of cases, and cardiomyopathy was diagnosed in 5.5%. Histological evidence of hypertension was observed in 32.7% of cases. With the exception of cardiomyopathy, equally common amongst both sexes, cardiovascular disease was more common amongst males, and those aged >35yrs. Clinically significant levels of cardiovascular disease were also observed amongst cases where the cause of death was not attributed to cardiovascular disease: cardiomegaly (19.3%), left ventricular hypertrophy (14.6%), severe coronary artery disease (9.4%), replacement fibrosis (14.4%), cardiomyopathy (3.3%)., Conclusions: Cardiovascular disease was highly prevalent, despite the relatively young age of cases. With methamphetamine use increasing rapidly in major regions, cardiovascular disease and cardiovascular-related death will likely increase amongst methamphetamine users., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

27. Decreased subcortical volumes in alcohol dependent individuals: effect of polysubstance use disorder.

Author

Grodin EN and Momenan R

Subjects

Adult, Alcoholism epidemiology, Alcoholism pathology, Amphetamine-Related Disorders pathology, Amygdala diagnostic imaging, Amygdala pathology, Brain pathology, Case-Control Studies, Caudate Nucleus diagnostic imaging, Caudate Nucleus pathology, Cocaine-Related Disorders pathology, Comorbidity, Female, Globus Pallidus diagnostic imaging, Globus Pallidus pathology, Hippocampus diagnostic imaging, Hippocampus pathology, Humans, Magnetic Resonance Imaging, Male, Marijuana Abuse pathology, Middle Aged, Nucleus Accumbens diagnostic imaging, Nucleus Accumbens pathology, Opioid-Related Disorders pathology, Organ Size, Putamen diagnostic imaging, Putamen pathology, Substance-Related Disorders diagnostic imaging, Substance-Related Disorders epidemiology, Substance-Related Disorders pathology, Thalamus diagnostic imaging, Thalamus pathology, Tobacco Use Disorder pathology, Young Adult, Alcoholism diagnostic imaging, Amphetamine-Related Disorders diagnostic imaging, Brain diagnostic imaging, Cocaine-Related Disorders diagnostic imaging, Marijuana Abuse diagnostic imaging, Opioid-Related Disorders diagnostic imaging, Tobacco Use Disorder diagnostic imaging

Abstract

Chronic alcohol use has widespread effects on brain morphometry. Alcohol dependent individuals are often diagnosed with comorbid substance use disorders. Alterations in brain morphometry may be different in individuals that are dependent on alcohol alone and individuals dependent on alcohol and other substances. We examined subcortical brain volumes in 37 individuals with alcohol dependence only (ADO), 37 individuals with polysubstance use disorder (PS) and 37 healthy control participants (HC). Participants underwent a structural MR scan and a model-based segmentation tool was used to measure the volume of 14 subcortical regions (bilateral thalamus, caudate, putamen, globus pallidus, hippocampus, amygdala and nucleus accumbens). Compared to HC, ADO had smaller volume in the bilateral hippocampus, right nucleus accumbens and right thalamus. PS only had volume reductions in the bilateral thalamus compared to HC. PS had a larger right caudate compared to ADO. Subcortical volume was negatively associated with drinking measures only in the ADO group. This study confirms the association between alcohol dependence and reductions in subcortical brain volume. It also suggests that polysubstance use interacts with alcohol use to produce limited subcortical volume reduction and at least one region of subcortical volume increase. These findings indicate that additional substance use may mask damage through inflammation or may function in a protective manner, shielding subcortical regions from alcohol-induced damage., (Published 2016. This article is a U.S. Government work and is in the public domain in the USA.)

Published

2017

28. Clinical Characteristics, Histopathological Features, and Clinical Outcome of Methamphetamine-Associated Cardiomyopathy.

Author

Schürer S, Klingel K, Sandri M, Majunke N, Besler C, Kandolf R, Lurz P, Luck M, Hertel P, Schuler G, Linke A, and Mangner N

Subjects

Adult, Aftercare, Amphetamine-Related Disorders pathology, Biopsy, Cardiomyopathy, Dilated pathology, Female, Heart Failure chemically induced, Humans, Male, Myocarditis pathology, Patient Readmission, Prognosis, Prospective Studies, Stroke chemically induced, Stroke Volume physiology, Amphetamine-Related Disorders complications, Cardiomyopathy, Dilated chemically induced, Methamphetamine adverse effects, Myocardium pathology

Abstract

Objectives: This study aimed to assess characteristics including endomyocardial biopsy and outcome of patients with methamphetamine (MA)-associated cardiomyopathy in a series of patients treated in Germany., Background: MA abuse is an increasing problem worldwide., Methods: The cases of 30 consecutive MA-abusing patients with a left ventricular (LV) ejection fraction of <40% and endomyocardial biopsy performed at initial diagnosis were analyzed. Baseline characteristics were collected retrospectively, whereas follow-up was prospective. The primary endpoint was a composite of death, nonfatal stroke, and rehospitalization for heart failure., Results: Patients were 30.3 ± 1.9 years of age, predominantly male (93.3%), and highly symptomatic; 83.3% had New York Heart Association functional class III or IV dyspnea. Echocardiography revealed marked LV dilatation (mean LV end-diastolic diameter 67.1 ± 7.4 mm) and impaired LV ejection fraction (mean 19 ± 6%). One-third of the patients had intraventricular thrombi. Endomyocardial biopsy revealed markers of inflammation and fibrosis; the fibrosis correlated with the duration of MA abuse. At follow-up, discontinuation of MA abuse together with medical therapy partially improved cardiac function (LV ejection fraction, 19 ± 6 vs. 43 ± 13; p < 0.001) and symptoms (p = 0.056), whereas patients with continued abuse did not show any improvement. The improvement in cardiac function was independently associated with the extent of fibrosis. The primary endpoint occurred more often in patients with continued MA abuse (57.1% vs. 13.0%; p = 0.037)., Conclusions: MA-associated cardiomyopathy is characterized by severe heart failure and depressed cardiac function. The extent of myocardial fibrosis seems to predict the recoverability of LV function. Cessation of MA abuse is associated with improvement in cardiac function and symptoms, whereas continued MA abuse leads to ongoing heart failure and worse outcome., (Copyright © 2017 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)

Published

2017

29. Sex differences in impulsivity and brain morphometry in methamphetamine users.

Author

Kogachi S, Chang L, Alicata D, Cunningham E, and Ernst T

Subjects

Adult, Brain drug effects, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Personality Inventory, Young Adult, Amphetamine-Related Disorders pathology, Amphetamine-Related Disorders psychology, Brain pathology, Impulsive Behavior drug effects, Impulsive Behavior physiology, Methamphetamine adverse effects, Sex Characteristics

Abstract

Methamphetamine (METH) is an addictive stimulant, and METH users have abnormal brain structures and function. The aims of this study were to investigate the relationships between impulsivity, brain structures, and possible sex-specific differences between METH users and non-drug using Controls. Structural MRI and the Barratt Impulsiveness Scale (BIS) questionnaire were completed in 124 subjects: 62 METH (ages 41.2 ± 1.4 years, 34 males) and 62 Controls (ages 43.3 ± 2.3 years, 36 males). Independent and interactive effects of METH use status and sex were evaluated. Relationships between METH usage characteristics, brain morphometry, and impulsivity scores were examined. METH users had higher impulsivity scores, on both the Cognitive and Behavioral Factors from the BIS (p < 0.0001-0.0001). Compared with same-sex Controls, male METH users had larger, while female METH users had smaller, right superior frontal cortex (interaction-p = 0.0005). The male METH users with larger frontal volumes and female METH users with smaller or thinner frontal cortices had greater Cognitive impulsivity (interaction-p ≤ 0.05). Only female METH users showed relatively larger nucleus accumbens (interaction-p = 0.03). Greater impulsivity and thinner frontal cortices in METH users are validated. Larger superior frontal cortex in male METH users with greater cognitive impulsivity suggest decreased dendritic pruning during adolescence might have contributed to their impulsive and drug use behaviors. In the female METH users, smaller frontal cortices and the associated greater impulsivity suggest greater neurotoxicity to these brain regions, while their relatively larger nucleus accumbens suggest an estrogen-mediated neuroprotective glial response. Men and women may be affected differently by METH use., Competing Interests: The authors declare that they have no conflict of interest.

Published

2017

30. Heightened Dopaminergic Response to Amphetamine at the D 3 Dopamine Receptor in Methamphetamine Users.

Author

Boileau I, Payer D, Rusjan PM, Houle S, Tong J, McCluskey T, Wilson AA, and Kish SJ

Subjects

Adult, Amphetamine adverse effects, Amphetamine pharmacology, Amphetamine-Related Disorders diagnostic imaging, Amphetamine-Related Disorders etiology, Analysis of Variance, Brain diagnostic imaging, Central Nervous System Stimulants adverse effects, Dopamine Agonists metabolism, Female, Humans, Male, Middle Aged, Oxazines metabolism, Positron-Emission Tomography, Protein Binding drug effects, Young Adult, Amphetamine-Related Disorders pathology, Brain drug effects, Receptors, Dopamine D3 metabolism

Abstract

Neuroimaging studies in stimulant use (eg, cocaine, methamphetamine) disorders show that diminished dopamine release by dopamine-elevating drugs is a potential marker of relapse and suggest that increasing dopamine at the D 2/3 receptors may be therapeutically beneficial. In contrast, recent investigations indicate heightened D 3 receptor levels in stimulant users prompting the view that D 3 antagonism may help prevent relapse. Here we tested whether a 'blunted' response to amphetamine in methamphetamine (MA) users extends to D 3 -rich brain areas. Fourteen MA users and 15 healthy controls completed two positron emission tomographic scans with a D 3 -preferring probe [ 11 C]-(+)-PHNO at baseline and after amphetamine (0.4 mg/kg). Relative to healthy controls, MA users had greater decreases in [ 11 C]-(+)-PHNO binding (increased dopamine release) after amphetamine in D 3 -rich substantia nigra (36 vs 20%, p=0.03) and globus pallidus (30 vs 17%, p=0.06), which correlated with self-reported 'drug wanting'. We did not observe a 'blunted' dopamine response to amphetamine in D 2 -rich striatum; however, drug use severity was negatively associated with amphetamine-induced striatal changes in [ 11 C]-(+)-PHNO binding. Our study provides evidence that dopamine transmission in extrastriatal 'D 3 -areas' is not blunted but rather increased in MA users. Together with our previous finding of elevated D 3 receptor level in MA users, the current observation suggests that greater dopaminergic transmission at the D 3 dopamine receptor may contribute to motivation to use drugs and argues in favor of D 3 antagonism as a possible therapeutic tool to reduce craving and relapse in MA addiction.

Published

2016

31. Selective Enhancement of Dopamine Release in the Ventral Pallidum of Methamphetamine-Sensitized Mice.

Author

Stout KA, Dunn AR, Lohr KM, Alter SP, Cliburn RA, Guillot TS, and Miller GW

Subjects

Amphetamine-Related Disorders pathology, Animals, Central Nervous System Stimulants pharmacology, Disease Models, Animal, Globus Pallidus pathology, Immunohistochemistry, Male, Mice, Inbred C57BL, Motor Activity drug effects, Motor Activity physiology, Neuronal Plasticity drug effects, Neuronal Plasticity physiology, Presynaptic Terminals drug effects, Presynaptic Terminals metabolism, Presynaptic Terminals pathology, Amphetamine-Related Disorders metabolism, Dopamine metabolism, Dopamine Agents pharmacology, Globus Pallidus drug effects, Globus Pallidus metabolism, Methamphetamine pharmacology

Abstract

Drugs of abuse induce sensitization, which is defined as enhanced response to additional drug following a period of withdrawal. Sensitization occurs in both humans and animal models of drug reinforcement and contributes substantially to the addictive nature of drugs of abuse, because it is thought to represent enhanced motivational wanting for drug. The ventral pallidum, a key member of the reward pathway, contributes to behaviors associated with reward, such as sensitization. Dopamine inputs to the ventral pallidum have not been directly characterized. Here we provide anatomical, neurochemical, and behavioral evidence demonstrating that dopamine terminals in the ventral pallidum contribute to reward in mice. We report subregional differences in dopamine release, measured by ex vivo fast-scan cyclic voltammetry: rostral ventral pallidum exhibits increased dopamine release and uptake compared with caudal ventral pallidum, which is correlated with tissue expression of dopaminergic proteins. We then subjected mice to a methamphetamine-sensitization protocol to investigate the contribution of dopaminergic projections to the region in reward related behavior. Methamphetamine-sensitized animals displayed a 508% and 307% increase in baseline dopamine release in the rostral and caudal ventral pallidum, respectively. Augmented dopamine release in the rostral ventral pallidum was significantly correlated with sensitized locomotor activity. Moreover, this presynaptic dopaminergic plasticity occurred only in the ventral pallidum and not in the ventral or dorsal striatum, suggesting that dopamine release in the ventral pallidum may be integrally important to drug-induced sensitization.

Published

2016

32. Lifetime methamphetamine dependence is associated with cerebral microgliosis in HIV-1-infected adults.

Author

Soontornniyomkij V, Umlauf A, Soontornniyomkij B, Batki IB, Moore DJ, Masliah E, and Achim CL

Subjects

Adult, Aged, Alcoholism complications, Alcoholism genetics, Alcoholism pathology, Amphetamine-Related Disorders complications, Amphetamine-Related Disorders genetics, Amphetamine-Related Disorders pathology, Amyloid beta-Peptides genetics, Amyloid beta-Peptides metabolism, Autopsy, Calcium-Binding Proteins, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Female, Frontal Lobe metabolism, Frontal Lobe pathology, Frontal Lobe physiopathology, Gene Expression, Glial Fibrillary Acidic Protein genetics, Glial Fibrillary Acidic Protein metabolism, Gliosis complications, Gliosis genetics, Gliosis pathology, HIV Infections complications, HIV Infections genetics, HIV Infections pathology, Humans, Male, Microfilament Proteins, Microtubule-Associated Proteins genetics, Microtubule-Associated Proteins metabolism, Middle Aged, Opioid-Related Disorders complications, Opioid-Related Disorders genetics, Opioid-Related Disorders pathology, Parietal Lobe metabolism, Parietal Lobe pathology, Parietal Lobe physiopathology, Prosencephalon metabolism, Prosencephalon pathology, Prosencephalon physiopathology, Putamen metabolism, Putamen pathology, Putamen physiopathology, Synaptophysin genetics, Synaptophysin metabolism, Temporal Lobe metabolism, Temporal Lobe pathology, Temporal Lobe physiopathology, White Matter metabolism, White Matter pathology, White Matter physiopathology, Alcoholism physiopathology, Amphetamine-Related Disorders physiopathology, Gliosis physiopathology, HIV Infections physiopathology, Opioid-Related Disorders physiopathology

Abstract

Methamphetamine (Meth) use is common among HIV-infected persons. It remains unclear whether Meth dependence is associated with long-lasting degenerative changes in the brain parenchyma and microvasculature of HIV-infected individuals. We examined the postmortem brains of 78 HIV-infected adults, twenty of whom were diagnosed with lifetime Meth dependence (18 past and two current at the final follow-up visit). Using logistic regression models, we analyzed associations of Meth with cerebral gliosis (immunohistochemistry for ionized calcium-binding adapter molecule-1 (Iba1) and glial fibrillary acidic protein (GFAP) in frontal, temporo-parietal, and putamen-internal capsule regions), synaptodendritic loss (confocal microscopy for synaptophysin (SYP) and microtubule-associated protein-2 (MAP2) in frontal cortex), β-amyloid plaque deposition (immunohistochemistry in frontal and temporo-parietal cortex and putamen), and arteriolosclerosis (histopathology in forebrain white matter). We found that Meth was associated with marked Iba1 gliosis in the temporo-parietal region (odds ratio, 4.42 (95 % confidence interval, 1.36, 14.39), p = 0.014, n = 62), which remained statistically significant after adjusting for HIV encephalitis, white matter lesions, and opportunistic diseases (n = 61); hepatitis C virus seropositivity (n = 54); and lifetime dependence on alcohol, opiates, and cannabis (n = 62). There was no significant association of Meth with GFAP gliosis, SYP or MAP2 loss, β-amyloid plaque deposition, or arteriolosclerosis. In conclusion, we found lifetime Meth dependence to be associated with focal cerebral microgliosis among HIV-infected adults, but not with other brain degenerative changes examined. Some of the changes in select brain regions might be reversible following extended Meth abstinence or, alternatively, might have not been induced by Meth initially., Competing Interests: The authors declare that they have no conflict of interest.

Published

2016

33. Effect of Methamphetamine Exposure on Expression of Calcium Binding Proteins in Rat Frontal Cortex and Hippocampus.

Author

Veerasakul S, Thanoi S, Reynolds GP, and Nudmamud-Thanoi S

Subjects

Amphetamine-Related Disorders pathology, Animals, Calbindin 2 metabolism, Calbindins metabolism, Disease Models, Animal, Frontal Lobe metabolism, Frontal Lobe pathology, GABAergic Neurons metabolism, GABAergic Neurons pathology, Gene Expression drug effects, Hippocampus metabolism, Hippocampus pathology, Immunohistochemistry, Male, Parvalbumins metabolism, Rats, Sprague-Dawley, Amphetamine-Related Disorders metabolism, Central Nervous System Stimulants toxicity, Frontal Lobe drug effects, GABAergic Neurons drug effects, Hippocampus drug effects, Methamphetamine toxicity

Abstract

Methamphetamine (METH) is a psychostimulant drug with potent effects on the central nervous system that can cause psychotic symptoms similar to those of schizophrenia. Specific alterations in GABAergic neuronal markers have been reported in schizophrenia and animal models of psychotic illness. The aim of this study was to determine whether there are changes in subpopulations of GABAergic neurons, defined by the presence of calcium binding proteins (CBPs), in animal models of METH abuse. Rats received acute (Binge) doses of 4 × 6 mg/kg, a chronic escalating dose regime (0.1-4 mg/kg over 14 days) or a combination of the two and were compared with a vehicle-administered control group. Brains were taken and sections of frontal cortex (Cg1) and hippocampus (dentate gyrus and CA1-3 regions) underwent immunostaining for three CBPs [parvalbumin (PV), calbindin (CB), and calretinin (CR)]. Significant decreases in PV-immunoreactive (IR) neurons in each METH group and all regions were observed. Smaller METH-induced deficits in CB-IR cells were observed, reaching significance primarily following chronic METH regimes, while CR-IR was significantly reduced only in frontal cortex following chronic administration. These results suggest that METH regimes in rats can induce selective deficits in GABAergic neuronal subtypes similar to those seen in schizophrenia and may underlie the psychosis and/or cognitive impairment that can occur in METH abuse and dependence.

Published

2016

34. Methamphetamine reduces expression of caveolin-1 in the dorsal striatum: Implication for dysregulation of neuronal function.

Author

Somkuwar SS, Fannon MJ, Head BP, and Mandyam CD

Subjects

Amphetamine-Related Disorders pathology, Animals, Central Nervous System Stimulants toxicity, Conditioning, Operant drug effects, Conditioning, Operant physiology, Corpus Striatum pathology, Disease Models, Animal, Dose-Response Relationship, Drug, Gene Expression drug effects, Male, Methamphetamine toxicity, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinase 3 metabolism, Neurons drug effects, Neurons metabolism, Neurons pathology, Phosphorylation drug effects, Rats, Wistar, Receptors, Dopamine D1 metabolism, Reinforcement, Psychology, Self Administration, Amphetamine-Related Disorders metabolism, Caveolin 1 metabolism, Central Nervous System Stimulants administration & dosage, Corpus Striatum diagnostic imaging, Corpus Striatum metabolism, Methamphetamine administration & dosage

Abstract

Role of striatal dopamine D1 receptors (D1Rs) in methamphetamine (Meth) taking and seeking is recognized from contingent Meth self-administration studies. For example, Meth increases levels of D1Rs in the dorsal striatum in animal models of Meth addiction, and blockade of striatal D1Rs decreased responding for Meth and reduced Meth priming-induced drug seeking. However, the mechanism underlying enhanced expression of striatal D1Rs in animals self-administering Meth is unknown and is hypothesized to involve maladaptive intracellular signal transduction mechanism via hyperphosphorylation of extracellular signal-regulated kinase 1/2 (ERK1/2). D1Rs are predominantly localized to detergent-resistant membrane/lipid raft fractions (MLR fraction), and in vitro studies indicate that D1R signaling and recycling is regulated by the MLR-resident protein caveolin-1 (Cav-1), in an endocytotic-dependent manner. Notably, expression of Cav-1 is inversely regulated by ERK1/2 activation, suggesting a signaling interplay among D1Rs, ERK1/2 and Cav-1. We therefore evaluated the effects of extended access Meth self-administration on expression of striatal D1Rs, activated ERK1/2 and Cav-1. We first report that Cav-1 is heavily expressed in neurons located in the dorsal striatum. We also report that extended access Meth produces compulsive-like unregulated intake of the drug, and these behavioral outcomes are associated with enhanced expression of D1Rs, increased activity of ERK1/2, and reduced Cav-1 expression in the dorsal striatum. These data suggest a possible cellular mechanism that involves Cav-1 regulation of D1R expression in response to escalated Meth intake, and how this response of altered D1Rs and enhanced ERK1/2 activation to Meth self-administration contributes to contingent-related processes such as addiction., (Copyright © 2016 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2016

35. Methamphetamine abstinence induces changes in μ-opioid receptor, oxytocin and CRF systems: Association with an anxiogenic phenotype.

Author

Georgiou P, Zanos P, Garcia-Carmona JA, Hourani S, Kitchen I, Laorden ML, and Bailey A

Subjects

Amphetamine-Related Disorders complications, Amphetamine-Related Disorders pathology, Amygdala drug effects, Amygdala metabolism, Amygdala pathology, Animals, Anxiety etiology, Anxiety metabolism, Anxiety pathology, Central Nervous System Stimulants administration & dosage, Central Nervous System Stimulants adverse effects, Corpus Striatum drug effects, Corpus Striatum metabolism, Corpus Striatum pathology, Corticosterone blood, Disease Models, Animal, Male, Methamphetamine administration & dosage, Methamphetamine adverse effects, Mice, Inbred C57BL, Neurons drug effects, Neurons metabolism, Neurons pathology, Proto-Oncogene Proteins c-fos metabolism, Random Allocation, Septum of Brain drug effects, Septum of Brain metabolism, Septum of Brain pathology, Substance Withdrawal Syndrome pathology, Substance Withdrawal Syndrome psychology, Amphetamine-Related Disorders metabolism, Corticotropin-Releasing Hormone metabolism, Receptors, Dopamine D2 metabolism, Receptors, Opioid, mu metabolism, Receptors, Oxytocin metabolism, Substance Withdrawal Syndrome metabolism

Abstract

The major challenge in treating methamphetamine addicts is the maintenance of a drug free-state since they experience negative emotional symptoms during abstinence, which may trigger relapse. The neuronal mechanisms underlying long-term withdrawal and relapse are currently not well-understood. There is evidence suggesting a role of the oxytocin (OTR), μ-opioid receptor (MOPr), dopamine D2 receptor (D2R), corticotropin-releasing factor (CRF) systems and the hypothalamic-pituitary-adrenal (HPA)-axis in the different stages of methamphetamine addiction. In this study, we aimed to characterize the behavioral effects of methamphetamine withdrawal in mice and to assess the modulation of the OTR, MOPr, D2R, CRF and HPA-axis following chronic methamphetamine administration and withdrawal. Ten-day methamphetamine administration (2 mg/kg) increased OTR binding in the amygdala, whilst 7 days of withdrawal induced an upregulation of this receptor in the lateral septum. Chronic methamphetamine treatment increased plasma OT levels that returned to control levels following withdrawal. In addition, methamphetamine administration and withdrawal increased striatal MOPr binding, as well as c-Fos(+)/CRF(+) neuronal expression in the amygdala, whereas an increase in plasma corticosterone levels was observed following METH administration, but not withdrawal. No differences were observed in the D2R binding following METH administration and withdrawal. The alterations in the OTR, MOPr and CRF systems occurred concomitantly with the emergence of anxiety-related symptoms and the development of psychomotor sensitization during withdrawal. Collectively, our findings indicate that chronic methamphetamine use and abstinence can induce brain-region specific neuroadaptations of the OTR, MOPr and CRF systems, which may, at least, partly explain the withdrawal-related anxiogenic effects., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

36. Nonmuscle myosin IIB as a therapeutic target for the prevention of relapse to methamphetamine use.

Author

Young EJ, Blouin AM, Briggs SB, Sillivan SE, Lin L, Cameron MD, Rumbaugh G, and Miller CA

Subjects

Amphetamine-Related Disorders pathology, Amygdala metabolism, Animals, Conditioning, Psychological drug effects, Conditioning, Psychological physiology, Disease Models, Animal, Drug-Seeking Behavior drug effects, Drug-Seeking Behavior physiology, Exploratory Behavior drug effects, Exploratory Behavior physiology, Fear drug effects, Fear physiology, Gene Knockdown Techniques, Heterocyclic Compounds, 4 or More Rings pharmacology, Male, Memory drug effects, Memory physiology, Mice, Motor Activity drug effects, Motor Activity physiology, Nonmuscle Myosin Type IIB genetics, Nonmuscle Myosin Type IIB metabolism, Rats, Secondary Prevention, Self Administration, Spatial Behavior drug effects, Spatial Behavior physiology, Amphetamine-Related Disorders drug therapy, Amphetamine-Related Disorders metabolism, Amygdala drug effects, Central Nervous System Agents administration & dosage, Methamphetamine administration & dosage, Nonmuscle Myosin Type IIB antagonists & inhibitors

Abstract

Memories associated with drug use increase vulnerability to relapse in substance use disorder (SUD), and there are no pharmacotherapies for the prevention of relapse. Previously, we reported a promising finding that storage of memories associated with methamphetamine (METH), but not memories for fear or food reward, is vulnerable to disruption by actin depolymerization in the basolateral amygdala complex (BLC). However, actin is not a viable therapeutic target because of its numerous functions throughout the body. Here we report the discovery of a viable therapeutic target, nonmuscle myosin IIB (NMIIB), a molecular motor that supports memory by directly driving synaptic actin polymerization. A single intra-BLC treatment with Blebbistatin (Blebb), a small-molecule inhibitor of class II myosin isoforms, including NMIIB, produced a long-lasting disruption of context-induced drug seeking (at least 30 days). Further, postconsolidation genetic knockdown of Myh10, the heavy chain of the most highly expressed NMII in the BLC, was sufficient to produce METH-associated memory loss. Blebb was found to be highly brain penetrant. A single systemic injection of the compound selectively disrupted the storage of METH-associated memory and reversed the accompanying increase in BLC spine density. This effect was specific to METH-associated memory, as it had no effect on an auditory fear memory. The effect was also independent of retrieval, as METH-associated memory was disrupted 24 h after a single systemic injection of Blebb delivered in the home cage. Together, these results argue for the further development of small-molecule inhibitors of NMII as potential therapeutics for the prevention of SUD relapse triggered by drug associations.

Published

2016

37. Fronto-temporal alterations and affect regulation in methamphetamine dependence with and without a history of psychosis.

Author

Uhlmann A, Fouche JP, Koen N, Meintjes EM, Wilson D, and Stein DJ

Subjects

Adolescent, Adult, Diagnosis, Dual (Psychiatry), Female, Humans, Magnetic Resonance Imaging, Male, Young Adult, Amphetamine-Related Disorders pathology, Amphetamine-Related Disorders physiopathology, Central Nervous System Stimulants toxicity, Cerebral Cortex pathology, Emotions physiology, Methamphetamine toxicity, Psychotic Disorders pathology, Psychotic Disorders physiopathology, Self-Control

Abstract

Methamphetamine (MA) has been shown to have neurotoxic effects associated with brain structure changes and schizophrenia-like psychotic symptoms. Although these abnormalities may in turn be related to cognitive impairment and increased aggression, their association with affect dysregulation is less well studied. We investigated cortical thickness and subcortical volumes in 21 participants with MA dependence, 19 patients with MA-associated psychosis (MAP), and 19 healthy controls. Participants' affect regulation abilities were assessed through self-report scales on emotion reactivity (ERS) and difficulties in emotion regulation (DERS) and correlated with differences in cortical thickness. MAP patients showed thinner cortices in the fusiform and inferior temporal gyrus (ITG), orbitofrontal (OFC) and inferior frontal gyrus (IFG), and insula, compared to the MA group. MAP also showed significantly lower hippocampal volumes relative to MA and CTRL. Both clinical groups showed impairment in affect regulation, but only in MAP was this dysfunction associated with thinner cortices in ITG, OFC and IFG. Our findings suggest significant differences in cortical thickness in MA dependence with and without psychosis. Lower fronto-temporal cortical thickness and smaller hippocampal volumes in MAP are consistent with neuroimaging findings in other psychotic disorders, supporting the notion of MAP being a useful model of psychosis., (Copyright © 2016 Elsevier Ireland Ltd. All rights reserved.)

Published

2016

38. Frontal white matter changes and aggression in methamphetamine dependence.

Author

Lederer K, Fouche JP, Wilson D, Stein DJ, and Uhlmann A

Subjects

Adolescent, Adult, Aggression drug effects, Anger drug effects, Corpus Callosum pathology, Diagnostic and Statistical Manual of Mental Disorders, Diffusion Tensor Imaging, Female, Frontal Lobe drug effects, Humans, Male, White Matter drug effects, Young Adult, Aggression psychology, Amphetamine-Related Disorders pathology, Amphetamine-Related Disorders psychology, Central Nervous System Stimulants, Frontal Lobe pathology, Methamphetamine, White Matter pathology

Abstract

Chronic methamphetamine (MA) use can lead to white matter (WM) changes and increased levels of aggression. While previous studies have examined WM abnormalities relating to cognitive impairment, associations between WM integrity and aggression in MA dependence remain unclear. Diffusion Tensor Imaging (DTI) was used to investigate WM changes in 40 individuals with MA dependence and 40 matched healthy controls. A region of interest (ROI) approach using tract based spatial statistics (TBSS) in FSL was performed. We compared fractional anisotropy (FA), mean diffusivity (MD), parallel diffusivity (λ║) and perpendicular diffusivity (λ┴) in WM tracts of the frontal brain. A relationship of WM with aggression scores from the Buss & Perry Questionnaire was investigated. Mean scores for anger (p < 0.001), physical aggression (p = 0.032) and total aggression (p = 0.021) were significantly higher in the MA group relative to controls. ROI analysis showed increased MD (U = 439.5, p = 0.001) and λ┴ (U = 561.5, p = 0.021) values in the genu of the corpus callosum, and increased MD (U = 541.5, p = 0.012) values in the right cingulum in MA dependence. None of the WM changes were significantly associated with aggression scores. This study provides evidence of frontal WM changes and increased levels of aggression in individuals with MA dependence. The lack of significant associations between WM and aggressive behaviour may reflect methodological issues in measuring such behaviour, or may indicate that the neurobiology of aggression is not simply correlated with WM damage but is more complex.

Published

2016

39. Chronic methamphetamine abuse and corticostriatal deficits revealed by neuroimaging.

Author

London ED, Kohno M, Morales AM, and Ballard ME

Subjects

Amphetamine-Related Disorders psychology, Amphetamine-Related Disorders therapy, Animals, Brain pathology, Brain physiopathology, Humans, Neuroimaging, Amphetamine-Related Disorders pathology, Amphetamine-Related Disorders physiopathology, Brain drug effects, Central Nervous System Stimulants administration & dosage, Methamphetamine administration & dosage

Abstract

Despite aggressive efforts to contain it, methamphetamine use disorder continues to be major public health problem; and with generic behavioral therapies still the mainstay of treatment for methamphetamine abuse, rates of attrition and relapse remain high. This review summarizes the findings of structural, molecular, and functional neuroimaging studies of methamphetamine abusers, focusing on cortical and striatal abnormalities and their potential contributions to cognitive and behavioral phenotypes that can serve to promote compulsive drug use. These studies indicate that individuals with a history of chronic methamphetamine abuse often display several signs of corticostriatal dysfunction, including abnormal gray- and white-matter integrity, monoamine neurotransmitter system deficiencies, neuroinflammation, poor neuronal integrity, and aberrant patterns of brain connectivity and function, both when engaged in cognitive tasks and at rest. More importantly, many of these neural abnormalities were found to be linked with certain addiction-related phenotypes that may influence treatment response (e.g., poor self-control, cognitive inflexibility, maladaptive decision-making), raising the possibility that they may represent novel therapeutic targets., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

40. Predisposition to and effects of methamphetamine use on the adolescent brain.

Author

Lyoo IK, Yoon S, Kim TS, Lim SM, Choi Y, Kim JE, Hwang J, Jeong HS, Cho HB, Chung YA, and Renshaw PF

Subjects

Adolescent, Adult, Age of Onset, Brain pathology, Disease Susceptibility, Executive Function drug effects, Female, Gray Matter drug effects, Gray Matter pathology, Humans, Male, Neuropsychological Tests, White Matter drug effects, White Matter pathology, Amphetamine-Related Disorders pathology, Brain drug effects, Methamphetamine adverse effects

Abstract

Adolescence is a period of heightened vulnerability both to addictive behaviors and drug-induced brain damage. Yet, only limited information exists on the brain mechanisms underlying these adolescent-specific characteristics. Moreover, distinctions in brain correlates between predisposition to drug use and effects of drugs in adolescents are unclear. Using cortical thickness and diffusion tensor image analyses, we found greater and more widespread gray and white matter alterations, particularly affecting the frontostriatal system, in adolescent methamphetamine (MA) users compared with adult users. Among adolescent-specific gray matter alterations related to MA use, smaller cortical thickness in the orbitofrontal cortex was associated with family history of drug use. Our findings highlight that the adolescent brain, which undergoes active myelination and maturation, is more vulnerable to MA-related alterations than the adult brain. Furthermore, MA-use-related executive dysfunction was greater in adolescent MA users than in adult users. These findings may provide explanation for the severe behavioral complications and relapses that are common in adolescent-onset drug addiction. Additionally, these results may provide insights into distinguishing the neural mechanisms that underlie the predisposition to drug addiction from effects of drugs in adolescents.

Published

2015

41. D-Amphetamine withdrawal-induced decreases in brain-derived neurotrophic factor in sprague-dawley rats are reversed by treatment with ketamine.

Author

Fuller JJ, Murray RC, and Horner KA

Subjects

Amphetamine-Related Disorders pathology, Amphetamine-Related Disorders physiopathology, Animals, Central Nervous System Stimulants adverse effects, Central Nervous System Stimulants pharmacology, Dextroamphetamine adverse effects, Dextroamphetamine pharmacology, Disease Models, Animal, Immunohistochemistry, Limbic System metabolism, Limbic System pathology, Male, Photomicrography, Rats, Sprague-Dawley, Substance Withdrawal Syndrome pathology, Substance Withdrawal Syndrome physiopathology, Time Factors, Treatment Outcome, Amphetamine-Related Disorders drug therapy, Brain-Derived Neurotrophic Factor metabolism, Excitatory Amino Acid Antagonists pharmacology, Ketamine pharmacology, Limbic System drug effects, Substance Withdrawal Syndrome drug therapy

Abstract

Withdrawal from chronic D-amphetamine (D-AMPH) can induce negative emotional states, which may contribute to relapse and the maintenance of addiction. Diminished levels of brain-derived neurotrophic factor (BDNF), particularly in the hippocampus has been observed after exposure to stress, and recent data indicate that treatment with the N-methyl-D-aspartate (NMDA) receptor antagonist, ketamine may reverse these changes. However, it is unclear whether BDNF levels in the hippocampus or other regions of the limbic system are altered following the stress of D-AMPH withdrawal and it is not currently known if treatment with ketamine has any effect on these changes. The goals of this study were to examine BDNF levels throughout the limbic system following D-AMPH withdrawal and determine whether ketamine treatment would alter D-AMPH-induced changes in BDNF. Sprague-Dawley rats were treated with D-AMPH and BDNF protein examined in the prefrontal cortex, nucleus accumbens, amygdala and hippocampus at 24 h and 4 days of withdrawal. Our data show that at 24 h post-D-AMPH, BDNF levels were increased in the nucleus accumbens and decreased in the hippocampus. At 4 d post-D-AMPH, BDNF protein levels were decreased in all areas examined, and these decreases were reversed by treatment with ketamine. These data suggest that diminished BDNF may contribute to the negative affect seen following D-AMPH withdrawal, and that ketamine treatment could offer relief from these symptoms., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

42. Protective effects of cholecystokinin-8 on methamphetamine-induced behavioral changes and dopaminergic neurodegeneration in mice.

Author

Gou H, Wen D, Ma C, Li M, Li Y, Zhang W, Liu L, and Cong B

Subjects

Amphetamine-Related Disorders drug therapy, Amphetamine-Related Disorders pathology, Amphetamine-Related Disorders physiopathology, Animals, Body Temperature drug effects, Corpus Striatum drug effects, Corpus Striatum pathology, Corpus Striatum physiopathology, Dopamine Plasma Membrane Transport Proteins metabolism, Dopaminergic Neurons pathology, Dopaminergic Neurons physiology, Dose-Response Relationship, Drug, Dyskinesia, Drug-Induced drug therapy, Dyskinesia, Drug-Induced physiopathology, Male, Mice, Inbred C57BL, Motor Activity drug effects, Motor Activity physiology, Neurodegenerative Diseases chemically induced, Neurodegenerative Diseases pathology, Neurodegenerative Diseases physiopathology, Random Allocation, Stereotyped Behavior drug effects, Stereotyped Behavior physiology, Substantia Nigra drug effects, Substantia Nigra pathology, Substantia Nigra physiopathology, Tyrosine 3-Monooxygenase metabolism, Cholecystokinin pharmacology, Dopamine Agents toxicity, Dopaminergic Neurons drug effects, Methamphetamine toxicity, Neurodegenerative Diseases drug therapy, Neuroprotective Agents pharmacology, Peptide Fragments pharmacology

Abstract

We investigated whether pretreatment with the neuropeptide cholecystokinin-8 affected methamphetamine (METH)-induced behavioral changes and dopaminergic neurodegeneration in male C57/BL6 mice. CCK-8 pretreatment alone had no effect on locomotion and stereotypic behavior and could not induce behavioral sensitization; however, it attenuated, in a dose-dependent manner, hyperlocomotion and behavioral sensitization induced by a low dose of METH (1mg/kg). CCK-8 attenuated METH-induced stereotypic behavior at a dose of 3mg/kg but not at 10mg/kg. CCK-8 pretreatment attenuated METH (10mg/kg)-induced hyperthermia, the decrease of tyrosine hydroxylase (TH) and dopamine transporter (DAT) in the striatum, and TH in the substantia nigra. CCK-8 alone had no effect on rectal temperature, TH and DAT expression in the nigrostriatal region. In conclusion, our study demonstrated that pretreatment with CCK-8 inhibited changes typically induced by repeated exposure to METH, such as hyperlocomotion, behavioral sensitization, stereotypic behavior, and dopaminergic neurotoxicity. These findings make CCK-8 a potential therapeutic agent for the treatment of multiple symptoms associated with METH abuse., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

43. Investigating the microstructural and neurochemical environment within the basal ganglia of current methamphetamine abusers.

Author

Lin JC, Jan RK, Kydd RR, and Russell BR

Subjects

Adolescent, Adult, Basal Ganglia chemistry, Diagnostic and Statistical Manual of Mental Disorders, Diffusion Tensor Imaging, Female, Humans, Magnetic Resonance Spectroscopy, Male, Middle Aged, Putamen pathology, Young Adult, Amphetamine-Related Disorders metabolism, Amphetamine-Related Disorders pathology, Basal Ganglia metabolism, Basal Ganglia pathology, Central Nervous System Stimulants pharmacokinetics, Methamphetamine pharmacokinetics

Abstract

Background: Methamphetamine is a highly addictive psychostimulant and the medical, social, and economic consequences associated with its use have become a major international problem. Current evidence has shown methamphetamine to be particularly neurotoxic to dopamine neurons and striatal structures within the basal ganglia. A previous study from our laboratory demonstrated larger putamen volumes in actively using methamphetamine-dependent participants. The purpose of this current study was to determine whether striatal structures in the same sample of participants also exhibit pathology on the microstructural and molecular level., Methods: Diffusion tensor imaging (DTI) and magnetic resonance spectroscopy (MRS) were carried out in current methamphetamine users (n = 18) and healthy controls (n = 22) to investigate diffusion indices and neurometabolite levels in the basal ganglia., Results: Contrary to findings from previous DTI and MRS studies, no significant differences in diffusion indices or metabolite levels were observed in the basal ganglia regions of current methamphetamine users., Conclusions: These findings differ from those reported in abstinent users and the absence of diffusion and neurochemical abnormalities may suggest that striatal enlargement in current methamphetamine use may be due to mechanisms other than edema and glial proliferation., (Copyright © 2015 Elsevier Ireland Ltd. All rights reserved.)

Published

2015

44. Ultimate mimicry: methamphetamine-induced pseudovasculitis.

Author

Fowler AH and Majithia V

Subjects

Adult, Amphetamine-Related Disorders pathology, Amphetamine-Related Disorders physiopathology, Central Nervous System drug effects, Central Nervous System physiopathology, Cerebral Angiography, Diagnosis, Differential, Female, Humans, Kidney drug effects, Kidney physiopathology, Lung diagnostic imaging, Lung drug effects, Lung pathology, Sympathomimetics toxicity, Tomography, X-Ray Computed, Amphetamine-Related Disorders complications, Amphetamine-Related Disorders diagnosis, Methamphetamine toxicity, Vasculitis chemically induced, Vasculitis diagnosis

Published

2015

45. [Death after the intake of amphetamine/ecstasy: two case reports].

Author

Wöllner K, Stockhausen S, Mußhoff F, and Madea B

Subjects

Adult, Autopsy, Cause of Death, Chemical and Drug Induced Liver Injury pathology, Humans, Liver drug effects, Liver pathology, Liver Failure chemically induced, Liver Failure pathology, Male, Young Adult, Amphetamine-Related Disorders pathology, Expert Testimony legislation & jurisprudence, N-Methyl-3,4-methylenedioxyamphetamine toxicity

Abstract

Synthetic amphetamines such as 3,4-methylenedioxy-N-methylamphetamine (MDMA, Ecstasy) have become recreational drugs in German discotheques because of their euphoric and mood-brightening effects. However, their consumption involves considerable risks, which may even be lethal under certain circumstances. A 19-year-old man was taken to a university hospital for suspected intoxication with a narcotic drug, where he died the next day. As cause of death "fulminant liver failure" was diagnosed. In blood from the femoral vein, MDMA was found in a concentration of 4.27 mg/l. Histological examination showed acute necrosis of the liver and parenchymatous bleeding. The second case is that of a 39-year-old man who collapsed at his workplace and died in hospital shortly afterwards. In his rucksack, a small bag with 1.6 g of amphetamine was found. Analysis of blood from the femoral vein showed an amphetamine concentration of 1.08 mg/l.

Published

2015

46. Gray matter abnormalities in cocaine versus methamphetamine-dependent patients: a neuroimaging meta-analysis.

Author

Hall MG, Alhassoon OM, Stern MJ, Wollman SC, Kimmel CL, Perez-Figueroa A, and Radua J

Subjects

Adult, Brain drug effects, Female, Humans, Magnetic Resonance Imaging, Male, Neuroimaging, Parietal Lobe drug effects, Parietal Lobe pathology, Prefrontal Cortex drug effects, Prefrontal Cortex pathology, Temporal Lobe drug effects, Temporal Lobe pathology, Amphetamine-Related Disorders pathology, Brain pathology, Cocaine adverse effects, Cocaine-Related Disorders pathology, Methamphetamine adverse effects

Abstract

Background: Voxel-based morphometry has been used to explore gray matter alterations in cocaine and methamphetamine dependence. However, the results of this research are inconsistent., Objectives: The current study meta-analytically examined neuroimaging findings of all studies published before 2014 using the Anisotropic Effect-Size Signed Differential Mapping (ES-SDM)., Methods: Independent investigators searched four major databases for relevant neuroimaging studies involving cocaine and methamphetamine dependence. Nine cocaine and four methamphetamine studies met inclusion criteria., Results: Results indicated that cocaine- and methamphetamine-dependent patients share overlapping regional gray matter abnormalities compared to healthy controls. However, subgroup analysis showed some regional differences; with methamphetamine showing more prominent reductions in the left superior temporal gyrus and the right inferior parietal lobe. Reductions in the right insula and the left superior frontal gyrus were more prominent in cocaine dependence. Moderator analyses indicated that with longer use, cocaine is associated with reductions in the right hippocampus, right middle temporal gyrus, and right inferior frontal gyrus, while methamphetamine is associated with reductions in the left precentral gyrus and the right supramarginal gyrus., Conclusion: These findings indicate that cocaine and methamphetamine dependence are significantly and differentially associated with gray matter abnormalities. Results also point to possible gray matter recovery after abstinence from methamphetamine. Although the sample size was adequate, these findings should be considered preliminary and analyses should be revisited with additional primary research focusing on long or short-term duration of use, as well as the length of abstinence.

Published

2015

47. Amphetamine-related myocardial infarction in a 42-year old man.

Author

Smędra A, Szustowski S, and Berent J

Subjects

Adult, Amphetamine-Related Disorders pathology, Fatal Outcome, Humans, Male, Myocardial Infarction pathology, Amphetamine poisoning, Amphetamine-Related Disorders complications, Illicit Drugs poisoning, Myocardial Infarction chemically induced

Abstract

Myocardial infarction is an infrequent condition in young adults. In most cases, it occurs due to causes other than atherosclerosis of the coronary arteries, including blood hypercoagulability, congenital anomalies of the coronary arteries, their inflammation or spasm induced by amphetamine or cocaine use. Amphetamine and its derivatives, via increasing the levels of epinephrine, serotonin and dopamine in the central nervous system, exert their effect also on the cardiovascular system, causing coronary spasm, enhancing platelet aggregation and inducing tachyarrhythmias. The paper presents a case of a 42-year-old man admitted to the emergency department because of emaciation and dehydration. The man was conscious, without contact, with a significant elevation of body temperature and tachycardia. On the basis of examinations, a fresh infarction of the anterolateral wall of the heart was diagnosed and the patient was transferred to a cardiac intensive care unit. There, laboratory tests revealed significantly elevated markers of myocardial necrosis and the presence of amphetamine in blood and urine. In spite of the institution of treatment the patient developed cardiorespiratory arrest. Advanced resuscitation procedures were undertaken, however, they proved unsuccessful. The presence of an infarction focus was confirmed in autopsy. Toxicological analysis of the blood for the presence of alcohol-like substances detected amphetamine at a concentration of 269.5 ng/ml. After examining the complete body of evidence it was established that the patient had died of acute cardiorespiratory failure secondary to an extensive fresh myocardial infarction. As indicated by the accumulated data, the most probable cause of myocardial infarction was amphetamine poisoning.

Published

2015

48. [Toxic phosphorus osteonecrosis of facial bones among drug addicts to desomorphine and pervitin. Part I].

Author

Basin EM and Medvedev YA

Subjects

Amphetamine-Related Disorders complications, Codeine toxicity, Drug Users, Humans, Morphine Dependence complications, Osteonecrosis chemically induced, Osteonecrosis surgery, Amphetamine-Related Disorders pathology, Codeine analogs & derivatives, Facial Bones pathology, Methamphetamine toxicity, Morphine Dependence pathology, Osteonecrosis pathology, Phosphorus toxicity, Skull pathology

Published

2015

49. Chronic stress may facilitate the recruitment of habit- and addiction-related neurocircuitries through neuronal restructuring of the striatum.

Author

Taylor SB, Anglin JM, Paode PR, Riggert AG, Olive MF, and Conrad CD

Subjects

Amphetamine-Related Disorders pathology, Animals, Behavior, Addictive pathology, Behavior, Addictive physiopathology, Central Nervous System Stimulants toxicity, Chronic Disease, Corpus Striatum drug effects, Corpus Striatum pathology, Dendrites drug effects, Dendrites pathology, Disease Models, Animal, Learning drug effects, Learning physiology, Male, Methamphetamine toxicity, Motor Activity drug effects, Motor Activity physiology, Neural Pathways pathology, Neural Pathways physiopathology, Neuronal Plasticity drug effects, Neuronal Plasticity physiology, Neurons drug effects, Neurons pathology, Neurons physiology, Nucleus Accumbens drug effects, Nucleus Accumbens pathology, Nucleus Accumbens physiopathology, Rats, Sprague-Dawley, Stress, Psychological pathology, Amphetamine-Related Disorders physiopathology, Corpus Striatum physiopathology, Dendrites physiology, Habits, Stress, Psychological physiopathology

Abstract

Chronic stress is an established risk factor in the development of addiction. Addiction is characterized by a progressive transition from casual drug use to habitual and compulsive drug use. The ability of chronic stress to facilitate the transition to addiction may be mediated by increased engagement of the neurocircuitries underlying habitual behavior and addiction. In the present study, striatal morphology was evaluated after 2 weeks of chronic variable stress in male Sprague-Dawley rats. Dendritic complexity of medium spiny neurons was visualized and quantified with Golgi staining in the dorsolateral and dorsomedial striatum, as well as in the nucleus accumbens core and shell. In separate cohorts, the effects of chronic stress on habitual behavior and the acute locomotor response to methamphetamine were also assessed. Chronic stress resulted in increased dendritic complexity in the dorsolateral striatum and nucleus accumbens core, regions implicated in habitual behavior and addiction, while decreased complexity was found in the nucleus accumbens shell, a region critical for the initial rewarding effects of drugs of abuse. Chronic stress did not affect dendritic complexity in the dorsomedial striatum. A parallel shift toward habitual learning strategies following chronic stress was also identified. There was an initial reduction in acute locomotor response to methamphetamine, but no lasting effect as a result of chronic stress exposure. These findings suggest that chronic stress may facilitate the recruitment of habit- and addiction-related neurocircuitries through neuronal restructuring in the striatum., (Copyright © 2014 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2014

50. Crystal amphetamine smoking-induced acute eosinophilic pneumonia and diffuse alveolar damage: a case report and literature review.

Author

Lin SS, Chen YC, Chang YL, Yeh DY, and Lin CC

Subjects

Acute Disease, Adult, Amphetamines administration & dosage, Central Nervous System Stimulants administration & dosage, Central Nervous System Stimulants adverse effects, Free Radicals metabolism, Humans, Male, Pulmonary Alveoli diagnostic imaging, Pulmonary Alveoli metabolism, Pulmonary Eosinophilia diagnostic imaging, Radiography, Smoking pathology, Amphetamine-Related Disorders complications, Amphetamine-Related Disorders pathology, Amphetamines adverse effects, Pulmonary Alveoli pathology, Pulmonary Eosinophilia chemically induced, Pulmonary Eosinophilia pathology

Abstract

Eosinophilic pneumonia (EP) is a disease characterized by prominent infiltration of lung structures by eosinophils. The lung interstitium is infiltrated by eosinophils, and essentially the alveolar spaces are filled with eosinophils and a fibrinous exudate, with conservation of the global architecture of the lung. Diagnosis of EP relies on pathological demonstration of alveolar eosinophilia along with characteristic clinical manifestations of nonproductive cough, dyspnea, chest pain and/or unique imaging features. EP may be categorized according to the origin: EP of undetermined origin may overlap with well-individualized syndromes, while EP with a definite cause are mainly due to infections or drug abuse. Here, we report a case of an amphetamine abuser who developed acute EP and acute respiratory distress syndrome after amphetamine inhalation. Related studies on the pathogenesis of stimulant-related lung injury and treatment strategies are also discussed.

Published

2014