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149 results on '"Skosnik, Patrick D."'

1. The regional pattern of age-related synaptic loss in the human brain differs from gray matter volume loss: in vivo PET measurement with [11C]UCB-J

Author

Toyonaga, Takuya, Khattar, Nikkita, Wu, Yanjun, Lu, Yihuan, Naganawa, Mika, Gallezot, Jean-Dominique, Matuskey, David, Mecca, Adam P., Pittman, Brian, Dias, Mark, Nabulsi, Nabeel B., Finnema, Sjoerd J., Chen, Ming-Kai, Arnsten, Amy, Radhakrishnan, Rajiv, Skosnik, Patrick D., D’Souza, Deepak Cyril, Esterlis, Irina, Huang, Yiyun, van Dyck, Christopher H., and Carson, Richard E.

Published
2024
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7. The Psychosis-like Effects of Δ9-Tetrahydrocannabinol Are Associated With Increased Cortical Noise in Healthy Humans

Author

Cortes-Briones, Jose A, Cahill, John D, Skosnik, Patrick D, Mathalon, Daniel H, Williams, Ashley, Sewell, R Andrew, Roach, Brian J, Ford, Judith M, Ranganathan, Mohini, and D’Souza, Deepak Cyril

Subjects
Biological Psychology, Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Psychology, Drug Abuse (NIDA only), Neurosciences, Mental Health, Clinical Trials and Supportive Activities, Substance Misuse, Serious Mental Illness, Clinical Research, Evaluation of treatments and therapeutic interventions, 6.1 Pharmaceuticals, Mental health, Adolescent, Adult, Cerebral Cortex, Dose-Response Relationship, Drug, Double-Blind Method, Dronabinol, Electroencephalography, Female, Hallucinogens, Healthy Volunteers, Humans, Male, Noise, Psychiatric Status Rating Scales, Psychotic Disorders, Young Adult, Cannabinoids, Electroencephalogram, Neural noise, Nonlinear analysis, Psychosis, Tetrahydrocannabinol, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Biological sciences, Biomedical and clinical sciences
Abstract

BackgroundDrugs that induce psychosis may do so by increasing the level of task-irrelevant random neural activity or neural noise. Increased levels of neural noise have been demonstrated in psychotic disorders. We tested the hypothesis that neural noise could also be involved in the psychotomimetic effects of delta-9-tetrahydrocannabinol (Δ(9)-THC), the principal active constituent of cannabis.MethodsNeural noise was indexed by measuring the level of randomness in the electroencephalogram during the prestimulus baseline period of an oddball task using Lempel-Ziv complexity, a nonlinear measure of signal randomness. The acute, dose-related effects of Δ(9)-THC on Lempel-Ziv complexity and signal power were studied in humans (n = 24) who completed 3 test days during which they received intravenous Δ(9)-THC (placebo, .015 and .03 mg/kg) in a double-blind, randomized, crossover, and counterbalanced design.ResultsΔ(9)-THC increased neural noise in a dose-related manner. Furthermore, there was a strong positive relationship between neural noise and the psychosis-like positive and disorganization symptoms induced by Δ(9)-THC, which was independent of total signal power. Instead, there was no relationship between noise and negative-like symptoms. In addition, Δ(9)-THC reduced total signal power during both active drug conditions compared with placebo, but no relationship was detected between signal power and psychosis-like symptoms.ConclusionsAt doses that produced psychosis-like effects, Δ(9)-THC increased neural noise in humans in a dose-dependent manner. Furthermore, increases in neural noise were related with increases in Δ(9)-THC-induced psychosis-like symptoms but not negative-like symptoms. These findings suggest that increases in neural noise may contribute to the psychotomimetic effects of Δ(9)-THC.

Published
2015

8. Δ9-THC Disrupts Gamma (γ)-Band Neural Oscillations in Humans

Author

Cortes-Briones, Jose, Skosnik, Patrick D, Mathalon, Daniel, Cahill, John, Pittman, Brian, Williams, Ashley, Sewell, R Andrew, Ranganathan, Mohini, Roach, Brian, Ford, Judith, and D'Souza, Deepak Cyril

Subjects
Biological Psychology, Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Psychology, Clinical Research, Basic Behavioral and Social Science, Behavioral and Social Science, Brain Disorders, Mental Health, Neurosciences, Clinical Trials and Supportive Activities, Mental health, Acoustic Stimulation, Adolescent, Adult, Cross-Over Studies, Dose-Response Relationship, Drug, Double-Blind Method, Dronabinol, Electroencephalography, Female, Fourier Analysis, Gamma Rhythm, Humans, Male, Psychiatric Status Rating Scales, Psychoacoustics, Psychotropic Drugs, Young Adult, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Biological psychology
Abstract

Gamma (γ)-band oscillations play a key role in perception, associative learning, and conscious awareness and have been shown to be disrupted by cannabinoids in animal studies. The goal of this study was to determine whether cannabinoids disrupt γ-oscillations in humans and whether these effects relate to their psychosis-relevant behavioral effects. The acute, dose-related effects of Δ-9-tetrahydrocannabinol (Δ(9)-THC) on the auditory steady-state response (ASSR) were studied in humans (n=20) who completed 3 test days during which they received intravenous Δ(9)-THC (placebo, 0.015, and 0.03 mg/kg) in a double-blind, randomized, crossover, and counterbalanced design. Electroencephalography (EEG) was recorded while subjects listened to auditory click trains presented at 20, 30, and 40 Hz. Psychosis-relevant effects were measured with the Positive and Negative Syndrome scale (PANSS). Δ(9)-THC (0.03 mg/kg) reduced intertrial coherence (ITC) in the 40 Hz condition compared with 0.015 mg/kg and placebo. No significant effects were detected for 30 and 20 Hz stimulation. Furthermore, there was a negative correlation between 40 Hz ITC and PANSS subscales and total scores under the influence of Δ(9)-THC. Δ(9)-THC (0.03 mg/kg) reduced evoked power during 40 Hz stimulation at a trend level. Recent users of cannabis showed blunted Δ(9)-THC effects on ITC and evoked power. We show for the first time in humans that cannabinoids disrupt γ-band neural oscillations. Furthermore, there is a relationship between disruption of γ-band neural oscillations and psychosis-relevant phenomena induced by cannabinoids. These findings add to a growing literature suggesting some overlap between the acute effects of cannabinoids and the behavioral and psychophysiological alterations observed in psychotic disorders.

Published
2015

9. Efficacy and safety of a fatty acid amide hydrolase inhibitor (PF-04457845) in the treatment of cannabis withdrawal and dependence in men: a double-blind, placebo-controlled, parallel group, phase 2a single-site randomised controlled trial

Author

D'Souza, Deepak Cyril, Cortes-Briones, Jose, Creatura, Gina, Bluez, Grai, Thurnauer, Halle, Deaso, Emma, Bielen, Kim, Surti, Toral, Radhakrishnan, Rajiv, Gupta, Aarti, Gupta, Swapnil, Cahill, John, Sherif, Mohamed A, Makriyannis, Alexandros, Morgan, Peter T, Ranganathan, Mohini, and Skosnik, Patrick D

Published
2019
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10. The regional pattern of age-related synaptic loss in the human brain differs from gray matter volume loss: in vivo PET measurement with [11C]UCB-J.

Author

Toyonaga, Takuya, Khattar, Nikkita, Wu, Yanjun, Lu, Yihuan, Naganawa, Mika, Gallezot, Jean-Dominique, Matuskey, David, Mecca, Adam P., Pittman, Brian, Dias, Mark, Nabulsi, Nabeel B., Finnema, Sjoerd J., Chen, Ming-Kai, Arnsten, Amy, Radhakrishnan, Rajiv, Skosnik, Patrick D., D'Souza, Deepak Cyril, Esterlis, Irina, Huang, Yiyun, and van Dyck, Christopher H.

Subjects
VOXEL-based morphometry, GRAY matter (Nerve tissue), POSITRON emission tomography, NEURAL circuitry, MAGNETIC resonance imaging, SYNAPTIC vesicles, NERVE endings
Abstract

Purpose: Aging is a major societal concern due to age-related functional losses. Synapses are crucial components of neural circuits, and synaptic density could be a sensitive biomarker to evaluate brain function. [11C]UCB-J is a positron emission tomography (PET) ligand targeting synaptic vesicle glycoprotein 2A (SV2A), which can be used to evaluate brain synaptic density in vivo. Methods: We evaluated age-related changes in gray matter synaptic density, volume, and blood flow using [11C]UCB-J PET and magnetic resonance imaging (MRI) in a wide age range of 80 cognitive normal subjects (21–83 years old). Partial volume correction was applied to the PET data. Results: Significant age-related decreases were found in 13, two, and nine brain regions for volume, synaptic density, and blood flow, respectively. The prefrontal cortex showed the largest volume decline (4.9% reduction per decade: RPD), while the synaptic density loss was largest in the caudate (3.6% RPD) and medial occipital cortex (3.4% RPD). The reductions in caudate are consistent with previous SV2A PET studies and likely reflect that caudate is the site of nerve terminals for multiple major tracts that undergo substantial age-related neurodegeneration. There was a non-significant negative relationship between volume and synaptic density reductions in 16 gray matter regions. Conclusion: MRI and [11]C-UCB-J PET showed age-related decreases of gray matter volume, synaptic density, and blood flow; however, the regional patterns of the reductions in volume and SV2A binding were different. Those patterns suggest that MR-based measures of GM volume may not be directly representative of synaptic density. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Sub-acute effects of psilocybin on EEG correlates of neural plasticity in major depression: Relationship to symptoms.

Author

Skosnik, Patrick D, Sloshower, Jordan, Safi-Aghdam, Hamideh, Pathania, Surbhi, Syed, Shariful, Pittman, Brian, and D'Souza, Deepak C

Subjects
*PSILOCYBIN, *NEUROPLASTICITY, *MENTAL depression, *ELECTROENCEPHALOGRAPHY, *LONG-term potentiation, *SEROTONIN, *TRANSCRANIAL magnetic stimulation
Abstract

Background: Evidence suggests that serotonergic psychedelics (e.g. psilocybin), have rapid-acting and long-lasting antidepressant effects after a single dose. However, the mechanism underlying these effects remain unclear. One proposed mechanism is that these drugs promote neuroplasticity. However, this has not been conclusively demonstrated in humans. Aims: We hypothesized that relative to placebo, psilocybin would: (1) increase electroencephalographic (EEG) correlates of neuroplasticity, (2) reduce depression symptoms, and (3) changes in EEG would correlate with improvements in depression. Methods: In this double-blind, placebo-controlled, within-subject study, individuals with major depressive disorder (MDD; n = 19) were administered placebo followed by psilocybin (0.3 mg/kg) in a fixed order (placebo, followed by psilocybin 4 weeks later). EEG indices of neuroplasticity (tetanus-induced long-term potentiation) as assessed via auditory evoked theta (4–8 Hz) power and measures of depression (GRID Hamilton Rating Scale for Depression-17 (GRID-HAM-D-17)) were measured at several time-points after placebo and psilocybin (24 h and 2 weeks after each session). Results: EEG theta power doubled in amplitude 2 weeks after a single psychedelic dose of psilocybin but not after placebo. Further, improvements in depression symptoms 2 weeks after psilocybin were correlated with increases in theta power. Conclusions: The increased theta power observed represents evidence of sustained changes in the brain following psilocybin. Given the correlation with enhancement in depressive symptoms, changes in theta may represent an EEG biomarker of the sustained effects of psilocybin, and may shed light on potential mechanisms of psilocybin's antidepressant effect. Taken together, these results complement the emerging notion that psilocybin, and perhaps other psychedelics, can produce long-term alterations in neuroplasticity. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Psilocybin-assisted therapy for major depressive disorder: An exploratory placebo-controlled, fixed-order trial.

Author

Sloshower, Jordan, Skosnik, Patrick D., Safi-Aghdam, Hamideh, Pathania, Surbhi, Syed, Shariful, Pittman, Brian, and D'Souza, Deepak Cyril

Subjects
*MENTAL depression, *DULOXETINE, *ANTIDEPRESSANTS, *PLACEBOS, *PSILOCYBIN
Abstract

Background: Several early phase studies have demonstrated that psilocybin-assisted therapy has rapid-acting and persisting antidepressant effects from just one or two doses. However, methodological limitations (e.g., placebo-control, blinding) limit interpretability of the existing literature. Methods: In an exploratory placebo-controlled, within-subject, fixed-order study, individuals with moderate to severe major depressive disorder were administered placebo (n = 19) followed by psilocybin (0.3 mg/kg) (n = 15) 4 weeks later. Dosing sessions were embedded within an manualized course of psychotherapy. Enhanced blinding procedures were used. Depression, anxiety, and quality of life were measured over a 16-week study period. Results: Depression and anxiety significantly improved following both placebo and psilocybin with no significant difference in the degree of change between the two conditions. However, antidepressant effect sizes were larger after psilocybin (d ′ = 1.02–2.27) than after placebo (d ′ = 0.65–0.99) and there were high rates of response (66.7%) and remission (46.7%) following psilocybin administration. Antidepressant effects following psilocybin persisted, on average, for 2 months and there were persisting improvements in mood-related quality of life domains. The strength of mystical-type experience during psilocybin dosing was not correlated with subsequent antidepressant effects. Conclusions: The results of this exploratory study highlight the complex interplay between expectancy, therapy effects, and drug/placebo effects in psychedelic-assisted psychotherapy studies. Nonetheless, the acute and persisting clinical improvements observed following psilocybin support further study of its potential in the treatment of major depression. Future studies should more explicitly mitigate and measure expectancy effects and assess the impact of repeated dosing and different forms of psychotherapeutic support. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Lower prefrontal cortical synaptic vesicle binding in cocaine use disorder: An exploratory 11C‐UCB‐J positron emission tomography study in humans.

Author

Angarita, Gustavo A., Worhunsky, Patrick D., Naganawa, Mika, Toyonaga, Takuya, Nabulsi, Nabeel B., Li, Chiang‐Shan R., Esterlis, Irina, Skosnik, Patrick D., Radhakrishnan, Rajiv, Pittman, Brian, Gueorguieva, Ralitza, Potenza, Marc N., Finnema, Sjoerd J., Huang, Yiyun, Carson, Richard E., and Malison, Robert T.

Subjects
COCAINE-induced disorders, POSITRON emission tomography, SYNAPTIC vesicles, CINGULATE cortex, PREFRONTAL cortex
Abstract

Preclinical studies have revealed robust and long‐lasting alterations in dendritic spines in the brain following cocaine exposure. Such alterations are hypothesized to underlie enduring maladaptive behaviours observed in cocaine use disorder (CUD). The current study explored whether synaptic density is altered in CUD. Fifteen individuals with DSM‐5 CUD and 15 demographically matched healthy control (HC) subjects participated in a single 11C‐UCB‐J positron emission tomography scan to assess density of synaptic vesicle glycoprotein 2A (SV2A). The volume of distribution (VT) and the plasma‐free fraction‐corrected form of the total volume of distribution (VT/fP) were analysed in the anterior cingulate cortex (ACC), dorsomedial and ventromedial prefrontal cortex (PFC), lateral and medial orbitofrontal cortex (OFC) and ventral striatum. A significant diagnostic‐group‐by‐region interaction was observed for VT and VT/fP. Post hoc analyses revealed no differences on VT, while for VT/fP showed lower values in CUD as compared with HC subjects in the ACC (−10.9%, p = 0.02), ventromedial PFC (−9.9%, p = 0.02) and medial OFC (−9.9%, p = 0.04). Regional VT/fP values in CUD, though unrelated to measures of lifetime cocaine use, were positively correlated with the frequency of recent cocaine use (p = 0.02–0.03) and negatively correlated with cocaine abstinence (p = 0.008–0.03). These findings provide initial preliminary in vivo evidence of altered (lower) synaptic density in the PFC of humans with CUD. Cross‐sectional variation in SV2A availability as a function of recent cocaine use and abstinence suggests that synaptic density may be dynamically and plastically regulated by acute cocaine, an observation that merits direct testing by studies using more definitive longitudinal designs. [ABSTRACT FROM AUTHOR]

Published
2022
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27. Analysis of circulating exosomes reveals a peripheral signature of astrocytic pathology in schizophrenia.

Author

Ranganathan, Mohini, Rahman, Mohamed, Ganesh, Suhas, D'Souza, Deepak C., Skosnik, Patrick D., Radhakrishnan, Rajiv, Pathania, Surbhi, and Mohanakumar, Thalachallour

Subjects
EXTRACELLULAR vesicles, WESTERN immunoblotting, SCHIZOPHRENIA, NEUROBEHAVIORAL disorders, PATHOLOGY, MICROGLIA
Abstract

Extracellular vesicles, including exosomes, cross the blood brain barrier with their contents intact and can be assayed peripherally. Circulating exosomes have been studied in other neurodegenerative disorders, but there is scarce data in schizophrenia. This study aimed to examine neuropathology-relevant protein biomarkers in circulating plasma-derived exosomes from patients with schizophrenia and age- and sex-matched healthy controls. Nanoparticle tracking analysis was used to determine the size and concentration of exosomes. Exosomal membrane marker (CD9) and specific target cargo protein (glial fibrillary acid protein[GFAP], synaptophysin, and α-II-Spectrin) immunopositivity was examined using Western blot analyses with band intensity quantified. Methods were consistent with the 'Minimal information for studies of extracellular vesicles 2018' (MISEV2018) guidelines. Exosomal GFAP concentration was significantly higher and α-II-Spectrin expression significantly lower in plasma obtained from schizophrenia patients. No group differences were observed between in plasma exosomal concentration and size or in CD9, calnexin, or synaptophysin levels. Our results demonstrate a differential pattern of exosomal protein expression in schizophrenia compared to matched healthy controls, consistent with the hypothesised astroglial pathology in this disorder. These results warrant further examination of circulating exosomes as vehicles of novel peripheral biomarkers of disease in schizophrenia and other neuropsychiatric disorders. [ABSTRACT FROM AUTHOR]

Published
2022
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31. Electroencephalographic Correlates and Predictors of Treatment Outcome in OCD: A Brief Narrative Review.

Author

Zaboski, Brian A., Stern, Elisa F., Skosnik, Patrick D., and Pittenger, Christopher

Subjects
ELECTROENCEPHALOGRAPHY, FORECASTING, TREATMENT effectiveness, EVOKED potentials (Electrophysiology), OBSESSIVE-compulsive disorder
Abstract

Electroencephalography (EEG) measures the brain's electrical activity with high temporal resolution. In comparison to neuroimaging modalities such as MRI or PET, EEG is relatively cheap, non-invasive, portable, and simple to administer, making it an attractive tool for clinical deployment. Despite this, studies utilizing EEG to investigate obsessive-compulsive disorder (OCD) are relatively sparse. This contrasts with a robust literature using other brain imaging methodologies. The present review examines studies that have used EEG to examine predictors and correlates of response in OCD and draws tentative conclusions that may guide much needed future work. Key findings include a limited literature base; few studies have attempted to predict clinical change from EEG signals, and they are confounded by the effects of both pharmacotherapy and psychotherapy. The most robust literature, consisting of several studies, has examined event-related potentials, including the P300, which several studies have reported to be abnormal at baseline in OCD and to normalize with treatment; but even here the literature is quite heterogeneous, and more work is needed. With more robust research, we suggest that the relatively low cost and convenience of EEG, especially in comparison to fMRI and PET, make it well-suited to the development of feasible personalized treatment algorithms. [ABSTRACT FROM AUTHOR]

Published
2021
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32. Decision Making and Impulsivity in Young Adult Cannabis Users.

Author

O'Donnell, Brian F., Skosnik, Patrick D., Hetrick, William P., and Fridberg, Daniel J.

Subjects
YOUNG adults, DECISION making, MARIJUANA, IMPULSIVE personality, DELAY discounting (Psychology)
Abstract

Aims: Chronic cannabis users show impairments on laboratory measures of decision making which reflect risk factors for initiation and continued use of cannabis. However, the differential sensitivity of these tasks to cannabis use has not been established. Moreover, studies to date have often lacked assessment of psychiatric histories and use of other illicit substances, both of which may influence decision making outcomes. The current study aimed to address these limitations by (1) including multiple types of decision making tasks, (2) implementing the Probabilistic Reversal Learning Task, a measure of decision making under uncertainty, for the first time in cannabis users, (3) including young adult cannabis users with no other psychiatric disorders, and (4) conducting urinalysis to exclude users of other illicit drugs. Methods: Thirty-three current cannabis users without comorbid psychiatric disorders and 35 cannabis non-users completed behavioral measures of decision-making (Iowa Gambling Task), reward discounting (Delay Discounting Task), choice-outcome learning (the Probabilistic Reversal Learning Task) and a questionnaire assessment of impulsivity (Barratt Impulsiveness Scale). Results: Relative to non-users, cannabis users demonstrated greater preference for immediate vs. delayed rewards on the Delay Discounting Task, made fewer advantageous decisions on the Iowa Gambling Task, and endorsed greater impulsivity on the Barratt Impulsiveness Scale scales. Cannabis users and non-users showed comparable performance on the Probabilistic Reversal Learning Task. Frequency of past-month cannabis use and total years of use did not predict decision making or impulsivity. Conclusions: Young adult cannabis users demonstrated higher discounting rates and impairments in learning cost-benefit contingencies, while reversal learning was unaffected. Self-reported impulsivity was elevated as well. None of these measures correlated with current or lifetime estimates of cannabis use, arguing against a dose-relationship. Interventions that target improvement in affected components of decision making may be helpful in reducing cannabis use and relapse. [ABSTRACT FROM AUTHOR]

Published
2021
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36. Psychosis-Relevant Effects of Intravenous Delta-9-Tetrahydrocannabinol: A Mega Analysis of Individual Participant-Data from Human Laboratory Studies.

Author

Ganesh, Suhas, Cortes-Briones, Jose, Ranganathan, Mohini, Radhakrishnan, Rajiv, Skosnik, Patrick D, and D'Souza, Deepak Cyril

Subjects
TETRAHYDROCANNABINOL, HUMAN experimentation, INTRAVENOUS therapy, CANNABINOIDS, MARIJUANA, MARIJUANA growing
Abstract

Introduction There is increasing interest in the relationship between cannabinoids and psychosis. While individual human laboratory studies have been critical in demonstrating that cannabinoids (e.g. delta-9-tetrahydrocannabinol [THC]) can induce acute transient psychosis-like effects in healthy human volunteers, combining data from multiple studies offers a fine-grained view of these effects. Methods THC-induced psychosis-relevant effects were examined using a data repository of 10 double-blind, randomized, placebo-controlled, crossover studies with 400 i.v. THC infusions in healthy human volunteers. The Positive and Negative Syndrome scale was used to measure psychotomimetic effects. The profile of symptoms, frequency of a response, its relationship to THC dose and substance use, latent structure in Positive and Negative Syndrome scale response, and the relationships between psychotomimetic and perceptual alteration symptoms were evaluated. Results Clinically meaningful increases in positive symptoms were noted in 44.75% infusions; conceptual disorganization, hallucinations, blunted affect, somatic concern, motor retardation, and poor attention were the items most frequently altered by THC. The increase in Positive and Negative Syndrome scale positive symptoms was positively associated with THC dose (beta = 11.13, SE = 4.94, Wald χ 2 = 19.88, P < . 001) and negatively associated with frequent cannabis use (beta = −0.575, SE = 0.14, Wald χ 2 =18.13, P < . 001). Furthermore, positive symptoms were strongly correlated with Clinician Administered Dissociative States Scale perceptual alterations score (rs = 0.514, P < . 001). Conclusion Intravenous administration of THC consistently induces psychotomimetic effects that include symptoms across Positive and Negative Syndrome scale domains. Moreover, healthy individuals who frequently use cannabis have a blunted psychotomimetic response. [ABSTRACT FROM AUTHOR]

Published
2020
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38. The dose-dependent psychomotor effects of intravenous delta-9-tetrahydrocannabinol (Δ9-THC) in humans.

Author

Boggs, Douglas L., Cortes-Briones, Jose A., Surti, Toral, Luddy, Christina, Ranganathan, Mohini, Cahill, John D., Sewell, Andrew R., D’Souza, Deepak C., Skosnik, Patrick D., and D'Souza, Deepak C

Subjects
TETRAHYDROCANNABINOL, CANNABINOID receptors, FINE motor ability, MEDICAL marijuana, NEUROPSYCHOLOGICAL tests, BASAL ganglia
Abstract

Background: Binding studies have demonstrated that levels of the cannabinoid receptor type-1 are highest in the basal ganglia and cerebellum, two areas critical for motor control. However, no studies have systematically examined the dose-related effects of intravenous delta-9-tetrahydrocannabinol, the primary cannabinoid receptor type-1 partial agonist in cannabis, on broad domains of psychomotor function in humans.Aims: Therefore, three domains of psychomotor function were assessed in former cannabis users (cannabis abstinent for a minimum of three months; n=23) in a three test-day, within-subject, double-blind, randomized, cross-over, and counterbalanced study during which they received intravenous delta-9-tetrahydrocannabinol (placebo, 0.015 mg/kg, and 0.03 mg/kg).Methods: Gross motor function was assessed via the Cambridge Neuropsychological Test Automated Battery Motor Screening Task, fine motor control via the Lafayette Instrument Grooved Pegboard task, and motor timing via a Paced Finger-Tapping Task. In addition, the Cambridge Neuropsychological Test Automated Battery Rapid Visual Processing Task was utilized to determine whether delta-9-tetrahydrocannabinol-induced motor deficits were confounded by disruptions in sustained attention.Results/outcomes: Delta-9-tetrahydrocannabinol resulted in robust dose-dependent deficits in fine motor control (Grooved Pegboard Task) and motor timing (Paced Finger-Tapping Task), while gross motor performance (Motor Screening Task) and sustained attention (Rapid Visual Processing Task) were unimpaired. Interestingly, despite the observed dose-dependent increases in motor impairment and blood levels of delta-9-tetrahydrocannabinol, subjects reported similar levels of intoxication in the two drug conditions.Conclusions/interpretation: These data suggest that while several domains of motor function are disrupted by delta-9-tetrahydrocannabinol, subjective feelings of intoxication are dissociable from cannabinoid-induced psychomotor effects. Results are discussed in terms of the potential neural mechanisms of delta-9-tetrahydrocannabinol in motor structures. [ABSTRACT FROM AUTHOR]

Published
2018
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39. Cannabinoid–glutamate interactions and neural oscillations: implications for psychosis.

Author

Sherif, Mohamed A., Cortes‐Briones, Jose A., Ranganathan, Mohini, and Skosnik, Patrick D.

Subjects
CANNABINOIDS, SCHIZOPHRENIA, CANNABIS (Genus), KETAMINE, CANNABINOID receptors, GLUTAMIC acid, METHYL aspartate receptors, NEURAL circuitry
Abstract

Preclinical and clinical data suggest that the cannabinoid and glutamatergic systems are implicated in the pathophysiology of schizophrenia (SZ), the prototypical psychotic disorder. This has led to distinct "cannabis" and "ketamine" models of SZ, respectively. However, these two models need not be mutually exclusive. Indeed, in several brain regions implicated in the putative neural circuitry of SZ (e.g., hippocampus, frontal cortex, cerebellum), cannabinoid receptor type 1 (CB1Rs) and glutamate N‐methyl‐D‐aspartate receptors (NMDARs) have direct and indirect interactions. CB1R agonists and NMDAR antagonists act upon gamma‐aminobutyric acid (GABA) interneurons to reduce GABAergic neurotransmission. This would be predicted to result in the unsynchronized activity of pyramidal neurons, disrupting neural network oscillations involved in information processing, thus leading to psychotomimetic effects. Hence, the overarching aim of the current review is to synthesize the known literature on cannabinoids and glutamate in the context of neural oscillations in SZ. First, discussion of SZ and the basic mechanisms of neural oscillations are discussed, including a summary of the role of theta (4–7 Hz) and gamma (30–80 Hz) oscillations in neurocognition. Next, a brief review of the role of the cannabinoid and glutamatergic systems in SZ is outlined, followed by discussion of the known synaptic interactions between these two systems. Finally, the potential role of CB1Rs and NMDARs, both independently and in combination, on neural oscillations in relation to psychotic symptoms is considered. It is hoped that this review will yield a series of testable hypotheses that may be used to further elucidate the pathophysiology of SZ. Data suggest that the cannabinoid and glutamatergic systems are implicated in the pathophysiology of schizophrenia (SZ). In several brain regions associated with SZ, cannabinoid receptor type 1 (CB1Rs) and glutamate N‐methyl‐D‐aspartate receptors (NMDARs) have direct and indirect interactions. CB1Rs and NMDARs act upon gamma‐aminobutyric acid (GABA) interneurons to reduce GABAergic neurotransmission, which could disrupt neural network oscillations and lead to psychotic symptoms. [ABSTRACT FROM AUTHOR]

Published
2018
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40. Cannabinoid receptor-mediated disruption of sensory gating and neural oscillations: A translational study in rats and humans.

Author

Skosnik, Patrick D., Hajós, Mihály, Cortes-Briones, Jose A., Edwards, Chad R., Pittman, Brian P., Hoffmann, William E., Sewell, Andrew R., D'Souza, Deepak C., and Ranganathan, Mohini

Subjects
*CANNABINOID receptors, *ELECTROENCEPHALOGRAPHY, *BRAIN waves, *PLACEBOS, *SENSORY stimulation
Abstract

Cannabis use has been associated with altered sensory gating and neural oscillations. However, it is unclear which constituent in cannabis is responsible for these effects, or whether these are cannabinoid receptor 1 (CB1R) mediated. Therefore, the present study in humans and rats examined whether cannabinoid administration would disrupt sensory gating and evoked oscillations utilizing electroencephalography (EEG) and local field potentials (LFPs), respectively. Human subjects (n = 15) completed four test days during which they received intravenous delta-9-tetrahydrocannabinol (Δ 9 -THC), cannabidiol (CBD), Δ 9 -THC + CBD, or placebo. Subjects engaged in a dual-click paradigm, and outcome measures included P50 gating ratio (S2/S1) and evoked power to S1 and S2. In order to examine CB1R specificity, rats (n = 6) were administered the CB1R agonist CP-55940, CP-55940+AM-251 (a CB1R antagonist), or vehicle using the same paradigm. LFPs were recorded from CA3 and entorhinal cortex. Both Δ 9 -THC (p < 0.007) and Δ 9 -THC + CBD (p < 0.004) disrupted P50 gating ratio compared to placebo, while CBD alone had no effect. Δ 9 -THC (p < 0.048) and Δ 9 -THC + CBD (p < 0.035) decreased S1 evoked theta power, and in the Δ 9 -THC condition, S1 theta negatively correlated with gating ratios (r = −0.629, p < 0.012 (p < 0.048 adjusted)). In rats, CP-55940 disrupted gating in both brain regions (p < 0.0001), and this was reversed by AM-251. Further, CP-55940 decreased evoked theta (p < 0.0077) and gamma (p < 0.011) power to S1, which was partially blocked by AM-251. These convergent human/animal data suggest that CB1R agonists disrupt sensory gating by altering neural oscillations in the theta-band. Moreover, this suggests that the endocannabinoid system mediates theta oscillations relevant to perception and cognition. [ABSTRACT FROM AUTHOR]

Published
2018
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41. It’s All in the Rhythm: The Role of Cannabinoids in Neural Oscillations and Psychosis.

Author

Skosnik, Patrick D., Cortes-Briones, Jose A., and Hajós, Mihály

Subjects
*PSYCHOSES, *CANNABINOID receptors, *PATHOLOGICAL physiology, *SCHIZOPHRENIA, *ELECTROENCEPHALOGRAPHY
Abstract

Evidence has accumulated over the past several decades suggesting that both exocannabinoids and endocannabinoids play a role in the pathophysiology of schizophrenia. The current article presents evidence suggesting that one of the mechanisms whereby cannabinoids induce psychosis is through the alteration in synchronized neural oscillations. Neural oscillations, particularly in the gamma (30–80 Hz) and theta (4–7 Hz) ranges, are disrupted in schizophrenia and are involved in various areas of perceptual and cognitive function. Regarding cannabinoids, preclinical evidence from slice and local field potential recordings has shown that central cannabinoid receptor (cannabinoid receptor type 1) agonists decrease the power of neural oscillations, particularly in the gamma and theta bands. Further, the administration of cannabinoids during critical stages of neural development has been shown to disrupt the brain’s ability to generate synchronized neural oscillations in adulthood. In humans, studies examining the effects of chronic cannabis use (utilizing electroencephalography) have shown abnormalities in neural oscillations in a pattern similar to those observed in schizophrenia. Finally, recent studies in humans have also shown disruptions in neural oscillations after the acute administration of delta-9-tetrahydrocannabinol, the primary psychoactive constituent in cannabis. Taken together, these data suggest that both acute and chronic cannabinoids can disrupt the ability of the brain to generate synchronized oscillations at functionally relevant frequencies. Hence, this may represent one of the primary mechanisms whereby cannabinoids induce disruptions in attention, working memory, sensory-motor integration, and many other psychosis-related behavioral effects. [ABSTRACT FROM AUTHOR]

Published
2016
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43. Δ9-THC Disrupts Gamma (γ)-Band Neural Oscillations in Humans.

Author

Cortes-Briones, Jose, Skosnik, Patrick D, Mathalon, Daniel, Cahill, John, Pittman, Brian, Williams, Ashley, Sewell, R Andrew, Ranganathan, Mohini, Roach, Brian, Ford, Judith, and D'Souza, Deepak Cyril

Subjects
*OSCILLATION theory of differential equations, *ARCTIC oscillation, *ELECTROENCEPHALOGRAPHY, *BIOMEDICAL signal processing, *DIAGNOSIS of brain diseases
Abstract

Gamma (γ)-band oscillations play a key role in perception, associative learning, and conscious awareness and have been shown to be disrupted by cannabinoids in animal studies. The goal of this study was to determine whether cannabinoids disrupt γ-oscillations in humans and whether these effects relate to their psychosis-relevant behavioral effects. The acute, dose-related effects of Δ-9-tetrahydrocannabinol (Δ9-THC) on the auditory steady-state response (ASSR) were studied in humans (n=20) who completed 3 test days during which they received intravenous Δ9-THC (placebo, 0.015, and 0.03 mg/kg) in a double-blind, randomized, crossover, and counterbalanced design. Electroencephalography (EEG) was recorded while subjects listened to auditory click trains presented at 20, 30, and 40 Hz. Psychosis-relevant effects were measured with the Positive and Negative Syndrome scale (PANSS). Δ9-THC (0.03 mg/kg) reduced intertrial coherence (ITC) in the 40 Hz condition compared with 0.015 mg/kg and placebo. No significant effects were detected for 30 and 20 Hz stimulation. Furthermore, there was a negative correlation between 40 Hz ITC and PANSS subscales and total scores under the influence of Δ9-THC. Δ9-THC (0.03 mg/kg) reduced evoked power during 40 Hz stimulation at a trend level. Recent users of cannabis showed blunted Δ9-THC effects on ITC and evoked power. We show for the first time in humans that cannabinoids disrupt γ-band neural oscillations. Furthermore, there is a relationship between disruption of γ-band neural oscillations and psychosis-relevant phenomena induced by cannabinoids. These findings add to a growing literature suggesting some overlap between the acute effects of cannabinoids and the behavioral and psychophysiological alterations observed in psychotic disorders. [ABSTRACT FROM AUTHOR]

Published
2015
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44. GABA Deficits Enhance the Psychotomimetic Effects of Δ9-THC.

Author

Radhakrishnan, Rajiv, Skosnik, Patrick D, Cortes-Briones, Jose, Sewell, R Andrew, Carbuto, Michelle, Schnakenberg, Ashley, Cahill, John, Bois, Fred, Gunduz-Bruce, Handan, Pittman, Brian, Ranganathan, Mohini, and D'Souza, Deepak Cyril

Subjects
*GABA, *TETRAHYDROCANNABINOL, *AMINOBUTYRIC acid, *CANNABINOIDS, *PSYCHOSES
Abstract

The article offers information on Gaba deficits that enhance the psychotomimetic effects and it will increase the psychosis-inducing effects of tetrahydrocannabinol (THC). Topics discussed includes preparation, formulation, and storage of THC solution, GABA deficit in humans and psychophysiological effects of THC in healthy humans.

Published
2015
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45. Disrupted Gamma-Band Neural Oscillations During Coherent Motion Perception in Heavy Cannabis Users.

Author

Skosnik, Patrick D, Krishnan, Giri P, D'Souza, Deepak C, Hetrick, William P, and O'Donnell, Brian F

Subjects
*CANNABIS (Genus), *PSYCHOLOGY, *TETRAHYDROCANNABINOL, *CANNABINOIDS, *CHOLECYSTOKININ, *ELECTROENCEPHALOGRAPHY, *MAGNETOENCEPHALOGRAPHY
Abstract

Previous work in animals and humans has shown that exogenous cannabinoids disrupt time-locked, evoked gamma oscillations (30-80 Hz). However, no studies to date have examined the effect of cannabis on non-time-locked, induced gamma oscillations during more complex Gestalt perception. The current study therefore utilized electroencephalography (EEG) to examine gamma oscillations during coherent motion perception in heavy cannabis users and controls. Chronic cannabis users (n=24; 12 h abstinence before study; positive 11-nor-9-carboxy-delta-9-tetrahydrocannabinol urine levels) and cannabis-naive controls (n=23) were evaluated. Stimuli consisted of random dot kinetograms (RDKs) that subjects passively viewed during three different conditions: coherent motion, incoherent motion, and static. Time × frequency analysis on EEG data was performed using Fourier-based mean trial power (MTP). Transient event-related potentials (ERPs) to stimulus onset (visual N100 and P200 components) were also evaluated. The results showed that the coherent motion condition produced a robust increase in neural activity in the gamma range (induced power from 40 to 59 Hz) as compared with the incoherent motion and static conditions. As predicted, the cannabis group showed significant reductions in induced gamma power in the coherent condition relative to healthy controls. No differences were observed between the groups in the N100 or P200 components, indicating intact primary sensory processing. Finally, cannabis users showed a trend toward increased scores on the Chapman Perceptual Aberration Scale (PAS) that was positively correlated with total years of active cannabis use. These data suggest that cannabis use may interfere with the generation of induced gamma-band neural oscillations that could in part mediate the perceptual-altering effects of exogenous cannabinoids. [ABSTRACT FROM AUTHOR]

Published
2014
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46. Neural correlates of performance monitoring in chronic cannabis users and cannabis-naive controls.

Author

Fridberg, Daniel J, Skosnik, Patrick D, Hetrick, William P, and O'Donnell, Brian F

Abstract

Chronic cannabis use is associated with residual negative effects on measures of executive functioning. However, little previous work has focused specifically on executive processes involved in performance monitoring in frequent cannabis users. The present study investigated event-related potential (ERP) correlates of performance monitoring in chronic cannabis users. The error-related negativity (ERN) and error positivity (Pe), ERPs sensitive to performance monitoring, were recorded from 30 frequent cannabis users (mean usage=5.52 days/week) and 32 cannabis-naïve control participants during a speeded stimulus discrimination task. The "oddball" P3 ERP was recorded as well. Users and controls did not differ on the amplitude or latency of the ERN; however, Pe amplitude was larger among users. Users also showed increased amplitude and reduced latency of the P3 in response to infrequent stimuli presented during the task. Among users, urinary cannabinoid metabolite levels at testing were unrelated to ERP outcomes. However, total years of cannabis use correlated negatively with P3 latency and positively with P3 amplitude, and age of first cannabis use correlated negatively with P3 amplitude. The results of this study suggest that chronic cannabis use is associated with alterations in neural activity related to the processing of motivationally-relevant stimuli (P3) and errors (Pe). [ABSTRACT FROM AUTHOR]

Published
2013
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47. Striatal D2/D3 receptor availability is inversely correlated with cannabis consumption in chronic marijuana users

Author

Albrecht, Daniel S., Skosnik, Patrick D., Vollmer, Jennifer M., Brumbaugh, Margaret S., Perry, Kevin M., Mock, Bruce H., Zheng, Qi-Huang, Federici, Lauren A., Patton, Elizabeth A., Herring, Christine M., and Yoder, Karmen K.

Subjects
*MARIJUANA abuse, *DRUG utilization, *NEUROBIOLOGY, *DRUG addiction, *METABOLITES, *NEUROCHEMISTRY, *DOPAMINE, *SUBSTANCE-induced disorders
Abstract

Abstract: Background: Although the incidence of cannabis abuse/dependence in Americans is rising, the neurobiology of cannabis addiction is not well understood. Imaging studies have demonstrated deficits in striatal D2/D3 receptor availability in several substance-dependent populations. However, this has not been studied in currently using chronic cannabis users. Objective: The purpose of this study was to compare striatal D2/D3 receptor availability between currently using chronic cannabis users and healthy controls. Methods: Eighteen right-handed males age 18–34 were studied. Ten subjects were chronic cannabis users; eight were demographically matched controls. Subjects underwent a [11C]raclopride (RAC) PET scan. Striatal RAC binding potential (BPND) was calculated on a voxel-wise basis. Prior to scanning, urine samples were obtained from cannabis users for quantification of urine Δ-9-tetrahydrocannabinol (THC) and THC metabolites (11-nor-Δ-9-THC-9-carboxylic acid; THC-COOH and 11-hydroxy-THC;OH-THC). Results: There were no differences in D2/D3 receptor availability between cannabis users and controls. Voxel-wise analyses revealed that RAC BPND values were negatively associated with both urine levels of cannabis metabolites and self-report of recent cannabis consumption. Conclusions: In this sample, current cannabis use was not associated with deficits in striatal D2/D3 receptor availability. There was an inverse relationship between chronic cannabis use and striatal RAC BPND. Additional studies are needed to identify the neurochemical consequences of chronic cannabis use on the dopamine system. [Copyright &y& Elsevier]

Published
2013
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48. The Effect of Chronic Cannabinoids on Broadband EEG Neural Oscillations in Humans.

Author

Skosnik, Patrick D, D'Souza, Deepak C, Steinmetz, Adam B, Edwards, Chad R, Vollmer, Jennifer M, Hetrick, William P, and O'Donnell, Brian F

Subjects
*CANNABINOIDS, *ELECTROENCEPHALOGRAPHY, *NEURAL stimulation, *TETRAHYDROCANNABINOL, *GABA, *SUBSTANCE abuse
Abstract

Animal and cellular work has shown that central cannabinoid-1 receptors modulate neural oscillations in the gamma range (40 Hz), which may be important for normal perceptual and cognitive processes. In order to assess the effect of cannabinoids on broadband-frequency neural oscillations in humans, the current study examined the effect of chronic cannabis use on auditory steady-state responses (ASSRs) utilizing electroencephalography (EEG). Passive ASSRs were assessed using varying rates of binaural stimulation (auditory click-trains; 10-50 Hz in increments of 5 Hz; 80 dB SPL) in carefully screened cannabis users and controls. Chronic cannabis users (n=22; 12 h abstinence before study; positive 11-nor-9-carboxy-delta-9-tetrahydrocannabinol urine levels) and cannabis naïve controls (n=24) were evaluated. Time X frequency analyses on EEG data were performed using Fourier-based mean trial power (MTP) and phase-locking (inter-trial coherence; ITC). Transient ERPs to stimulus onset (auditory N100 components) were also evaluated. As predicted, a decrease in spectral power (MTP) at 40 Hz was observed in the cannabis group (p<0.018). No effects on phase-locking (ITC) or the N100 were observed. Further, within the cannabis group, lower 40 Hz power correlated with an earlier age of onset of cannabis use (p<0.04). These data suggest that chronic exposure to exogenous cannabinoids can alter the ability to generate neural oscillations, particularly in the gamma range. This is consistent with preclinical animal and cellular data, which may have implications for understanding the short- and long-term psychopharmacological effects of cannabis. [ABSTRACT FROM AUTHOR]

Published
2012
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49. Dose-Related Modulation of Event-Related Potentials to Novel and Target Stimuli by Intravenous Δ9-THC in Humans.

Author

D'Souza, Deepak Cyril, Fridberg, Daniel J, Skosnik, Patrick D, Williams, Ashley, Roach, Brian, Singh, Nagendra, Carbuto, Michelle, Elander, Jacqueline, Schnakenberg, Ashley, Pittman, Brian, Sewell, R Andrew, Ranganathan, Mohini, and Mathalon, Daniel

Subjects
CANNABINOIDS, EVOKED potentials (Electrophysiology), HALLUCINOGENIC drugs, DRUGS of abuse, COGNITION
Abstract

Cannabinoids induce a host of perceptual alterations and cognitive deficits in humans. However, the neural correlates of these deficits have remained elusive. The current study examined the acute, dose-related effects of delta-9-tetrahydrocannabinol (Δ9-THC) on psychophysiological indices of information processing in humans. Healthy subjects (n=26) completed three test days during which they received intravenous Δ9-THC (placebo, 0.015 and 0.03 mg/kg) in a within-subject, double-blind, randomized, cross-over, and counterbalanced design. Psychophysiological data (electroencephalography) were collected before and after drug administration while subjects engaged in an event-related potential (ERP) task known to be a valid index of attention and cognition (a three-stimulus auditory 'oddball' P300 task). Δ9-THC dose-dependently reduced the amplitude of both the target P300b and the novelty P300a. Δ9-THC did not have any effect on the latency of either the P300a or P300b, or on early sensory-evoked ERP components preceding the P300 (the N100). Concomitantly, Δ9-THC induced psychotomimetic effects, perceptual alterations, and subjective 'high' in a dose-dependent manner. Δ9-THC -induced reductions in P3b amplitude correlated with Δ9-THC-induced perceptual alterations. Lastly, exploratory analyses examining cannabis use status showed that whereas recent cannabis users had blunted behavioral effects to Δ9-THC, there were no dose-related effects of Δ9-THC on P300a/b amplitude between cannabis-free and recent cannabis users. Overall, these data suggest that at doses that produce behavioral and subjective effects consistent with the known properties of cannabis, Δ9-THC reduced P300a and P300b amplitudes without altering the latency of these ERPs. Cannabinoid agonists may therefore disrupt cortical processes responsible for context updating and the automatic orientation of attention, while leaving processing speed and earlier sensory ERP components intact. Collectively, the findings suggest that CB1R systems modulate top-down and bottom-up processing. [ABSTRACT FROM AUTHOR]

Published
2012
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50. Efeitos comportamentais, cognitivos e psicofisiológicos dos canabinoides: relevância para a psicose e a esquizofrenia.

Author

Sewell, R. Andrew, Skosnik, Patrick D., Garcia-Sosa, Icelini, Ranganathan, Mohini, and D'Souza, Deepak Cyril

Subjects
*CANNABINOIDS, *PSYCHOSES, *SCHIZOPHRENIA, *CANNABIS (Genus), *PHARMACODYNAMICS
Abstract

Recent advances in knowledge about cannabinoid receptor function have renewed interest in the association between cannabis and psychosis. Converging lines of evidence suggest that cannabinoids can produce a full range of transient schizophrenia-like positive, negative and cognitive symptoms. Cannabinoids also produce some psychophysiological deficits also known to be present in schizophrenia. Also clear is that in individuals with an established psychotic disorder, cannabinoids can exacerbate symptoms, trigger relapse, and have negative consequences on the course of the illness. Increasing evidence suggests that early and heavy cannabis exposure may increase the risk of developing a psychotic disorder such as schizophrenia. The relationship between cannabis exposure and schizophrenia fulfills some, but not all, of the usual criteria for causality. However, most people who use cannabis do not develop schizophrenia, and many people diagnosed with schizophrenia have never used cannabis. Therefore, it is likely that cannabis exposure is a "component cause" that interacts with other factors to "cause" schizophrenia or other psychotic disorder, but is neither necessary nor sufficient to do so alone. In the absence of known causes of schizophrenia, however, and the implications for public health policy should such a link be established the role of component causes such as cannabinoid exposure should remain a focus of further study. Finally, further work is necessary to identify the factors that underlie individual vulnerability to cannabinoid-related psychosis and to elucidate the biological mechanisms underlying this risk. [ABSTRACT FROM AUTHOR]

Published
2010

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