Computational Modeling Reveals Distinct Effects of HIV and History of Drug Use on Decision-Making Processes in Women

Objective Drug users and HIV-seropositive individuals often show deficits in decision-making; however the nature of these deficits is not well understood. Recent studies have employed computational modeling approaches to disentangle the psychological processes involved in decision-making. Although such approaches have been used successfully with a number of clinical groups including drug users, no study to date has used computational modeling to examine the effects of HIV on decision-making. In this study, we use this approach to investigate the effects of HIV and drug use on decision-making processes in women, who remain a relatively understudied population. Method Fifty-seven women enrolled in the Women's Interagency HIV Study (WIHS) were classified into one of four groups based on their HIV status and history of crack cocaine and/or heroin drug use (DU): HIV+/DU+ (n = 14); HIV+/DU− (n = 17); HIV−/DU+ (n = 14); and HIV−/DU− (n = 12). We measured decision-making with the Iowa Gambling Task (IGT) and examined behavioral performance and model parameters derived from the best-fitting computational model of the IGT. Results Although groups showed similar behavioral performance, HIV and DU exhibited differential relationship to model parameters. Specifically, DU was associated with compromised learning/memory and reduced loss aversion, whereas HIV was associated with reduced loss aversion, but was not related to other model parameters. Conclusions Results reveal that HIV and DU have differential associations with distinct decision-making processes in women. This study contributes to a growing line of literature which shows that different psychological processes may underlie similar behavioral performance in various clinical groups and may be associated with distinct functional outcomes.

[1]  Rita Z. Goldstein,et al.  Role of Dopamine, the Frontal Cortex and Memory Circuits in Drug Addiction: Insight from Imaging Studies , 2002, Neurobiology of Learning and Memory.

[2]  N M White,et al.  Addictive drugs as reinforcers: multiple partial actions on memory systems. , 1996, Addiction.

[3]  I. Grant,et al.  Risky decision-making in HIV-associated neurocognitive disorders (HAND) , 2013, The Clinical neuropsychologist.

[4]  Scott D. Lane,et al.  Relationship between impulsivity and decision making in cocaine dependence , 2010, Psychiatry Research.

[5]  Jean-Marie Annoni,et al.  Cognitive dysfunction in HIV patients despite long-standing suppression of viremia , 2009, AIDS.

[6]  A. Bechara,et al.  The influence of executive functions, sensation seeking, and HIV serostatus on the risky sexual practices of substance-dependent individuals , 2005, Journal of the International Neuropsychological Society.

[7]  B. Bradley,et al.  Substance Use Disorders Assessed Using the Kreek–McHugh–Schluger–Kellogg (KMSK) Scale in an Urban Low-Income and Predominantly African American Sample of Primary Care Patients , 2011, The American journal on addictions.

[8]  W. Overman,et al.  Effects of dilemmas and aromas on performance of the Iowa Gambling Task , 2011, Behavioural Brain Research.

[9]  Jerome R Busemeyer,et al.  Psychological processes underlying risky decisions in drug abusers. , 2005, Psychology of addictive behaviors : journal of the Society of Psychologists in Addictive Behaviors.

[10]  R. Bornstein,et al.  Effects of Immunosuppression and Disease Severity Upon Neuropsychological Function in HIV Infection , 2000, Journal of clinical and experimental neuropsychology.

[11]  S. Hyman Addiction: a disease of learning and memory. , 2005, The American journal of psychiatry.

[12]  R. Rescorla,et al.  A theory of Pavlovian conditioning : Variations in the effectiveness of reinforcement and nonreinforcement , 1972 .

[13]  Daniel Tranel,et al.  Executive control deficits in substance-dependent individuals: A comparison of alcohol, cocaine, and methamphetamine and of men and women , 2009, Journal of clinical and experimental neuropsychology.

[14]  E. Wagenmakers A practical solution to the pervasive problems ofp values , 2007, Psychonomic bulletin & review.

[15]  C. Hinkin,et al.  The role of HIV infection, cognition, and depression in risky decision-making. , 2012, The Journal of neuropsychiatry and clinical neurosciences.

[16]  J. Kruschke Doing Bayesian Data Analysis: A Tutorial with R and BUGS , 2010 .

[17]  M. Kreek,et al.  The Kreek-McHugh-Schluger-Kellogg scale: a new, rapid method for quantifying substance abuse and its possible applications. , 2003, Drug and alcohol dependence.

[18]  J. Busemeyer,et al.  A contribution of cognitive decision models to clinical assessment: decomposing performance on the Bechara gambling task. , 2002, Psychological assessment.

[19]  Simone G. Shamay-Tsoory,et al.  Adapted to explore: Reinforcement learning in Autistic Spectrum Conditions , 2010, Brain and Cognition.

[20]  Jerome R. Busemeyer,et al.  Comparison of Decision Learning Models Using the Generalization Criterion Method , 2008, Cogn. Sci..

[21]  N. Ciccarelli,et al.  Efavirenz associated with cognitive disorders in otherwise asymptomatic HIV-infected patients , 2011, Neurology.

[22]  D. Clifford,et al.  Impact of combination antiretroviral therapy on cerebrospinal fluid HIV RNA and neurocognitive performance , 2009, AIDS.

[23]  T. Robbins,et al.  Drug Addiction and the Memory Systems of the Brain , 2008, Annals of the New York Academy of Sciences.

[24]  P. Maruff,et al.  Variable benefit in neuropsychological function in HIV-infected HAART-treated patients , 2006, Neurology.

[25]  Jerome R Busemeyer,et al.  Cognitive modeling analysis of decision-making processes in cocaine abusers , 2004, Psychonomic bulletin & review.

[26]  J. Becker,et al.  Psychosocial Risk Factors of HIV Morbidity and Mortality: Findings from the Multicenter AIDS Cohort Study (MACS) , 2003, Journal of clinical and experimental neuropsychology.

[27]  A. Nath,et al.  Molecular Basis for Interactions of HIV and Drugs of Abuse , 2002, Journal of acquired immune deficiency syndromes.

[28]  Terry L. Jernigan,et al.  HIV-associated neurocognitive disorders before and during the era of combination antiretroviral therapy: differences in rates, nature, and predictors , 2010, Journal of NeuroVirology.

[29]  A. Bechara,et al.  Cognitive impulsivity and HIV serostatus in substance dependent males , 2004, Journal of the International Neuropsychological Society.

[30]  E. Siemers,et al.  Risky decision making in Huntington's disease , 2001, Journal of the International Neuropsychological Society.

[31]  M. Young,et al.  The Women's Interagency HIV Study: an Observational Cohort Brings Clinical Sciences to the Bench , 2005, Clinical Diagnostic Laboratory Immunology.

[32]  P. C. Fletcher,et al.  Abnormal frontal activations related to decision-making in current and former amphetamine and opiate dependent individuals , 2005, Psychopharmacology.

[33]  E. Claus,et al.  Prefrontal cortex activity is reduced in gambling and nongambling substance users during decision‐making , 2007, Human brain mapping.

[34]  W. Overman,et al.  Sex differences in early childhood, adolescence, and adulthood on cognitive tasks that rely on orbital prefrontal cortex , 2004, Brain and Cognition.

[35]  P. Maki,et al.  HIV, Cognition and Women , 2009, Neuropsychology Review.

[36]  Kent A. Kiehl,et al.  Orbitofrontal cortex dysfunction in abstinent cocaine abusers performing a decision-making task , 2003, NeuroImage.

[37]  A. Levine,et al.  Risky decision making assessed with the gambling task in adults with HIV. , 2006, Neuropsychology.

[38]  L. Kalish,et al.  The Women's Interagency HIV Study. WIHS Collaborative Study Group. , 1998, Epidemiology.

[39]  I. Grant,et al.  Validation of the CNS Penetration-Effectiveness rank for quantifying antiretroviral penetration into the central nervous system. , 2008, Archives of neurology.

[40]  Woojae Kim,et al.  Cognitive Mechanisms Underlying Risky Decision-Making in Chronic Cannabis Users. , 2010, Journal of mathematical psychology.

[41]  Antoine Bechara,et al.  Impaired decision making related to working memory deficits in individuals with substance addictions. , 2004, Neuropsychology.

[42]  F. Vaida,et al.  Dynamics of cognitive change in impaired HIV-positive patients initiating antiretroviral therapy , 2009, Neurology.

[43]  Eldad Yechiam,et al.  Application of a computational decision model to examine acute drug effects on human risk taking. , 2006, Experimental and clinical psychopharmacology.

[44]  W. F. Prokasy,et al.  Classical conditioning II: Current research and theory. , 1972 .

[45]  I. Grant,et al.  Enhancing antiretroviral therapy for human immunodeficiency virus cognitive disorders , 2004, Annals of neurology.

[46]  A. Bechara,et al.  Do individual differences in Iowa Gambling Task performance predict adaptive decision making for risky gains and losses? , 2010, Journal of clinical and experimental neuropsychology.

[47]  Lee T Copping,et al.  Sex differences in impulsivity: a meta-analysis. , 2011, Psychological bulletin.

[48]  Steven W Anderson,et al.  Decision-making deficits, linked to a dysfunctional ventromedial prefrontal cortex, revealed in alcohol and stimulant abusers , 2001, Neuropsychologia.

[49]  Joseph Feldman,et al.  The Women's Interagency HIV Study , 1998 .

[50]  A. Roth,et al.  Predicting How People Play Games: Reinforcement Learning in Experimental Games with Unique, Mixed Strategy Equilibria , 1998 .

[51]  Trevor Coward,et al.  Nova Science Publishers , 2013 .

[52]  Gregory P. Lee,et al.  Different Contributions of the Human Amygdala and Ventromedial Prefrontal Cortex to Decision-Making , 1999, The Journal of Neuroscience.

[53]  Carlo Contoreggi,et al.  Drug abusers show impaired performance in a laboratory test of decision making , 2000, Neuropsychologia.

[54]  Antoine Bechara,et al.  Are all drug addicts impulsive? Effects of antisociality and extent of multidrug use on cognitive and motor impulsivity. , 2007, Addictive behaviors.

[55]  R. Duncan Luce,et al.  Individual Choice Behavior , 1959 .

[56]  A. Damasio,et al.  Insensitivity to future consequences following damage to human prefrontal cortex , 1994, Cognition.

[57]  T. Robbins,et al.  Dissociable Deficits in the Decision-Making Cognition of Chronic Amphetamine Abusers, Opiate Abusers, Patients with Focal Damage to Prefrontal Cortex, and Tryptophan-Depleted Normal Volunteers: Evidence for Monoaminergic Mechanisms , 1999, Neuropsychopharmacology.

[58]  K I Bolla,et al.  Cerebral Cortex Advance Access published May 13, 2004 Sex-related Differences in a Gambling Task and Its Neurological Correlates , 2022 .

[59]  Carla J. Reicks,et al.  The impact of HIV-associated neuropsychological impairment on everyday functioning , 2004, Journal of the International Neuropsychological Society.

[60]  Eldad Yechiam,et al.  Decision-making impairments in adolescents with early-onset schizophrenia , 2006, Schizophrenia Research.

[61]  A. Bechara,et al.  Executive functions among individuals with methamphetamine or alcohol as drugs of choice: Preliminary observations , 2007, Journal of clinical and experimental neuropsychology.

[62]  W. Overman,et al.  Adult sex differences on a decision-making task previously shown to depend on the orbital prefrontal cortex. , 2001, Behavioral neuroscience.

[63]  Eldad Yechiam,et al.  Decision making in bipolar disorder: A cognitive modeling approach , 2008, Psychiatry Research.

[64]  G. Woody,et al.  Preparations for AIDS vaccine trials. An automated version of the Risk Assessment Battery (RAB): enhancing the assessment of risk behaviors. , 1994, AIDS research and human retroviruses.

[65]  Jane S. Paulsen,et al.  Neurocognitive deficits related to poor decision making in people behind bars , 2008, Psychonomic bulletin & review.