Impact of cannabis use on prefrontal and parietal cortex gyrification and surface area in adolescents and emerging adults

Impact of cannabis use on prefrontal and parietal cortex gyrification and surface area in adolescents and emerging adults

Background: Regions undergoing maturation with CB1 receptors may be at increased risk for cannabis-induced alterations. Here, we examine the relationships between cannabis use and prefrontal (PFC) and inferior parietal gyrification and surface area (SA) in youth. Methods: Participants included 33 ca...

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Bibliographic Details
Main Authors: Skyler G. Shollenbarger, Jenessa Price, Jon Wieser, Krista Lisdahl
Format: Article
Language:English
Published: Elsevier 2015-12-01
Series:Developmental Cognitive Neuroscience
Subjects:
Cannabis
Marijuana
Gyrification
Prefrontal and parietal cortex
Emerging adults
Cognition
Online Access:http://www.sciencedirect.com/science/article/pii/S1878929315000699
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spelling doaj-76ba65a1a2264053be177d77ec6edfd62020-11-24T23:59:45ZengElsevierDevelopmental Cognitive Neuroscience1878-92931878-93072015-12-0116C465310.1016/j.dcn.2015.07.004Impact of cannabis use on prefrontal and parietal cortex gyrification and surface area in adolescents and emerging adultsSkyler G. Shollenbarger0Jenessa Price1Jon Wieser2Krista Lisdahl3Department of Psychology, University of Wisconsin-Milwaukee, Garland Hall Rm 224, 2441 East Hartford Ave, Milwaukee, WI 53211, United StatesMcLean Hospital-Harvard Medical School, 115 Mill St., Belmont, MA 02478, United StatesDepartment of Psychology, University of Wisconsin-Milwaukee, Garland Hall Rm 224, 2441 East Hartford Ave, Milwaukee, WI 53211, United StatesDepartment of Psychology, University of Wisconsin-Milwaukee, Garland Hall Rm 224, 2441 East Hartford Ave, Milwaukee, WI 53211, United StatesBackground: Regions undergoing maturation with CB1 receptors may be at increased risk for cannabis-induced alterations. Here, we examine the relationships between cannabis use and prefrontal (PFC) and inferior parietal gyrification and surface area (SA) in youth. Methods: Participants included 33 cannabis users and 35 controls (ages 18–25). Exclusions included co-morbid psychiatric/neurologic disorders and heavy other drug use. Multiple regressions and Pearson r correlations examined the effects of cannabis use on gyrification, SA and cognition. Results: Cannabis use was associated with decreased gyrification in: ventral-medial PFC (RH: [FDR corrected p = .02], LH: [FDR corrected p = .02]); medial PFC (RH: [FDR corrected p = .02], LH: [FDR corrected p = .02]); and frontal poles (RH: [FDR corrected p = .02], LH: [FDR corrected p = .02]). No differences were observed in bilateral hemispheres, PFC, dorsolateral, ventrolateral, or inferior parietal ROIs. Cannabis use was associated with marginally decreased SA in left: medial PFC [FDR corrected p = .09], and ventral lateral PFC: [FDR corrected p = .09]. In cannabis users, increased gyrification was associated with improved working-memory performance in right medial (p = .003), ventral-medial (p = .03), and frontal pole ROIs (p = .007). Conclusions: Cannabis use was associated with reduced gyrification in PFC regions implicated in self-referential thought and social cognition. Results suggest that these gyrification characteristics may have cognitive implications.http://www.sciencedirect.com/science/article/pii/S1878929315000699CannabisMarijuanaGyrificationPrefrontal and parietal cortexEmerging adultsCognition
collection DOAJ
language English
format Article
sources DOAJ
author Skyler G. Shollenbarger
Jenessa Price
Jon Wieser
Krista Lisdahl
spellingShingle Skyler G. Shollenbarger
Jenessa Price
Jon Wieser
Krista Lisdahl
Impact of cannabis use on prefrontal and parietal cortex gyrification and surface area in adolescents and emerging adults
Developmental Cognitive Neuroscience
Cannabis
Marijuana
Gyrification
Prefrontal and parietal cortex
Emerging adults
Cognition
author_facet Skyler G. Shollenbarger
Jenessa Price
Jon Wieser
Krista Lisdahl
author_sort Skyler G. Shollenbarger
title Impact of cannabis use on prefrontal and parietal cortex gyrification and surface area in adolescents and emerging adults
title_short Impact of cannabis use on prefrontal and parietal cortex gyrification and surface area in adolescents and emerging adults
title_full Impact of cannabis use on prefrontal and parietal cortex gyrification and surface area in adolescents and emerging adults
title_fullStr Impact of cannabis use on prefrontal and parietal cortex gyrification and surface area in adolescents and emerging adults
title_full_unstemmed Impact of cannabis use on prefrontal and parietal cortex gyrification and surface area in adolescents and emerging adults
title_sort impact of cannabis use on prefrontal and parietal cortex gyrification and surface area in adolescents and emerging adults
publisher Elsevier
series Developmental Cognitive Neuroscience
issn 1878-9293
1878-9307
publishDate 2015-12-01
description Background: Regions undergoing maturation with CB1 receptors may be at increased risk for cannabis-induced alterations. Here, we examine the relationships between cannabis use and prefrontal (PFC) and inferior parietal gyrification and surface area (SA) in youth. Methods: Participants included 33 cannabis users and 35 controls (ages 18–25). Exclusions included co-morbid psychiatric/neurologic disorders and heavy other drug use. Multiple regressions and Pearson r correlations examined the effects of cannabis use on gyrification, SA and cognition. Results: Cannabis use was associated with decreased gyrification in: ventral-medial PFC (RH: [FDR corrected p = .02], LH: [FDR corrected p = .02]); medial PFC (RH: [FDR corrected p = .02], LH: [FDR corrected p = .02]); and frontal poles (RH: [FDR corrected p = .02], LH: [FDR corrected p = .02]). No differences were observed in bilateral hemispheres, PFC, dorsolateral, ventrolateral, or inferior parietal ROIs. Cannabis use was associated with marginally decreased SA in left: medial PFC [FDR corrected p = .09], and ventral lateral PFC: [FDR corrected p = .09]. In cannabis users, increased gyrification was associated with improved working-memory performance in right medial (p = .003), ventral-medial (p = .03), and frontal pole ROIs (p = .007). Conclusions: Cannabis use was associated with reduced gyrification in PFC regions implicated in self-referential thought and social cognition. Results suggest that these gyrification characteristics may have cognitive implications.
topic Cannabis
Marijuana
Gyrification
Prefrontal and parietal cortex
Emerging adults
Cognition
url http://www.sciencedirect.com/science/article/pii/S1878929315000699
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