Alcohol Craving: Comparison
Please note this is a comparison between Version 2 by Alexandra Ghita and Version 1 by Olga Hernández-Serrano.

Craving is a multidimensional phenomenon involving an intense urge to consume substances. It is perceived as an individual experience of “wanting” a drug that may result in motivational and drug-seeking behavioral patterns [1,2]. Alcohol craving has been extensively studied due to its clinical implications in the development and maintenance of alcohol use disorder (AUD) [3,4]. Craving is considered one of the mechanisms that promote relapse after treatment discharge [5,6] and even after a prolonged period of abstinence [7]. To better understand the magnitude of the relationship between craving and relapse, it is fundamental to explore the individual variablefactors associated with alcohol craving as it may help in the development of more efficient treatments and strategies to prevent relapse in AUD patients.

  • alcohol use disorder
  • craving
  • virtual reality
  • cue-exposure therapy
  • predictors

1. Factors Associated with Alcohol Cravings

Among the factors associated with alcohol cravings are sociodemographic features, such as age, gender, education, socioeconomic status, and civil status, as well as individual factors emphasizing cognitive-affective-behavioral patterns, such as attentional bias, active smoking patterns, use of illicit drugs, co-occurring mental health symptoms, psychiatric comorbidities, abstinence, and AUD severity.

1.1. Sociodemographic Factors

The influence of age in the field of addictive behaviors has been extensively studied. For example, a study indicated that an early drinking age increases the risk of developing a harmful use of alcohol, including the development of AUD, thus highlighting the importance of the age at onset of drinking-related behaviors [8][1]. Interestingly, another study concluded that alcohol craving decreases with age [9][2], possibly due to self-regulatory processes and problem-solving abilities in later stages of life improving resilience and coping skills [10][3]. Regarding gender in AUD, the findings from studies are mixed. One study indicated that women experience greater and more prolonged alcohol cravings than men during detoxification [11][4]. By contrast, an earlier study found no gender differences in alcohol cravings triggered by a cue-exposure paradigm [12][5]. Another study showed higher levels of alcohol craving reported by women compared to men in a naturalistic bar environment, with the authors of the study concluding that women were at greater risk of continued alcohol use [13][6]. In terms of education, a recent study reported that a higher educational attainment may be associated with a lower risk of alcohol-related behavioral patterns. The study showed that greater educational training interfered with the future development of AUD [14][7]. However, there is insufficient evidence confirming the direct influence of education on alcohol cravings, with the focus instead being on the negative effects of problematic drinking on students’ academic performances [15][8]. Similarly, the empirical focus is on the relationship between socioeconomic/civil status and alcohol and drug use rather than alcohol craving. Specifically, having a low income and being single predict alcohol and drug use [16][9].

1.2. Individual Factors

There are several individual factors emphasizing cognitive-affective-behavioural mechanisms that are associated with alcohol craving. Studies have shown that implicit cognitive processing for alcohol-related content predict increased alcohol cravings [17,18][10][11].  In relation to psychiatric comorbidities, depressive and manic mood states [19][12], current comorbid mood and anxiety disorders [20][13], borderline personality disorder [21][14], or post-traumatic stress disorder[15] [22] have been associated with alcohol cravings. Furthermore, ecological momentary assessment (EMA) studies have found alcohol cravings to be higher after smoking [23,24][16]. In line with this, higher levels of alcohol craving were reported among individuals with active smoking patterns in a residential treatment cohort [25][17], as well as in individuals who simultaneously use alcohol and illicit drugs [26][18]. Conversely, abstinence duration has been reported to be associated with reduced alcohol cravings, suggesting that alcohol cessation as a result of treatment may help to regulate cravings [27][19]. Several studies have indicated that alcohol cravings predict abstinence and, implicitly, relapse, but less attention has been paid to the predictive role of abstinence in alcohol cravings [5,28,29][20][21]. Some studies have found alcohol craving to correlate positively with the severity of AUD [30–34][22][23][24][25][26], whereas others have not observed such a relationship [35][27]. In terms of co-occurring mental health symptoms, several studies have demonstrated a causal relationship between psychopathological symptoms and alcohol cravings. For instance, a network modeling analysis emphasized that anxiety and stress are directly involved in triggering cravings in AUD patients [36][28]. These results are supported by those of a previous study, confirming that clinical anxiety and stress-related symptoms are robust predictors of alcohol cravings [37][29].

2. Approaches Applied to Explore Alcohol Cravings

There are different approaches in the literature that have been applied to explore alcohol cravings, including the use of neurobiological and psychophysiological correlates [7,38][30][31], paper and pencil instruments [39][32], cognitive/behavioral tasks [18[11][33],40], or the cue-exposure paradigm [41][34]. Cue-exposure techniques are generally used to assess alcohol cravings and are based on in vivo, imagery or virtual exposure. This type of assessment method has been developed into a therapeutic approach: cue-exposure therapy (CET). The theoretical baseline of the CET approach relies on the principles of classical conditioning [42][35]. Transferred to AUD, alcohol-related stimuli become “highly sensitive stimuli”, as a result of systematic and repetitive alcohol consumption accompanied by positive and rewarding properties of alcohol use. The CET approach, also known as Exposure and Response Prevention (ERP), emphasizes the core mechanisms of systematic desensitization [43][36]. More specifically, CET/ERP involves repeated and prolonged exposure to alcohol-related stimuli, but individuals do not conduct any drinking behaviors. It is hypothesized that repetitive and systematic exposure will reduce the psychophysiological responses to alcohol-related stimuli, as the ultimate goal of this therapeutic approach is to extinguish initially conditioned responses to alcohol cues (e.g., craving) [44][37]. Nevertheless, there were inconsistent results regarding the effects of CET approach applied in AUD, mainly because therapy sessions involved exposure to only one cue at a time, within clinical settings, which clearly interferes with generalizing therapy effects into daily-life situations of individuals with AUD. This is one of the major limitations of the CET approach [42][35]. Technological advances have emerged into instruments that complement existing methods applied in mental health settings [45-48][38][39][40][41]. A systematic review encompassing studies using Virtual Reality (VR) as an assessment and treatment tool in individuals who misuse alcohol indicated that VR can be provided with a two-folded purpose: on the one hand, VR-alcohol related environments can elicit significant levels of alcohol craving in individuals with a problematic drinking pattern; and on the other hand, VR can add effectiveness to CET approach (VR-CET) due to its technical features [45][38]. Compared to traditional CET involving in-vivo or imagery exposure, VR can enhance the efficacy of CET through its multiple sensory inputs (e.g. visual, auditory, olfactory), and ultimately the clinician has a higher control over the exposure process [49][42]. In addition, VR facilitates simulations of real-life scenarios (including social interaction), it allows a high user-platform interaction, it can provide a fully immersive experience and, therefore, VR can enhance the sense of presence within the exposure procedure [50][43].

References

  1. Meghan E. Morean; Alexa L'insalata; Ellyn R. Butler; Avalon McKee; Suchitra Krishnan-Sarin; Age at drinking onset, age at first intoxication, and delay to first intoxication: Assessing the concurrent validity of measures of drinking initiation with alcohol use and related problems. Addictive Behaviors 2018, 79, 195-200, 10.1016/j.addbeh.2017.12.017.
  2. Annelie K. Hintzen; Julia Cramer; Deniz Karagülle; Annemarie Heberlein; Helge Frieling; Johannes Kornhuber; Stefan Bleich; Thomas Hillemacher; Does alcohol craving decrease with increasing age? Results from a cross-sectional study.. Journal of Studies on Alcohol and Drugs 2011, 72, 158-162, 10.15288/jsad.2011.72.158.
  3. Rohit, S.R.; Shwetha, R.; Bhat, S.; Factor analysis of coping strategies among subjects of alcohol dependencesyndrome: A study at tertiary care center. Journal of Alcoholism and Drug Dependence 2017, 5, 1-7.
  4. Géraldine Petit; Olivier Luminet; Mariana Cordovil De Sousa Uva; Pauline Monhonval; Sophie Leclercq; Quentin Spilliaert; François Zammit; Pierre Maurage; Philippe De Timary; Gender Differences in Affects and Craving in Alcohol-Dependence: A Study During Alcohol Detoxification. Alcoholism: Clinical and Experimental Research 2017, 41, 421-431, 10.1111/acer.13292.
  5. Devorah E. Yarmush; Linda Manchery; Peter Luehring-Jones; Joel Erblich; Gender and Impulsivity: Effects on Cue-Induced Alcohol Craving. Alcoholism: Clinical and Experimental Research 2016, 40, 1052-1057, 10.1111/acer.13030.
  6. Anne M. Day; Mark A. Celio; Stephen A. Lisman; Linda P. Spear; Gender, history of alcohol use and number of drinks consumed predict craving among drinkers in a field setting. Addictive Behaviors 2014, 39, 354-357, 10.1016/j.addbeh.2013.10.014.
  7. Daniel B. Rosoff; Toni-Kim Clarke; Mark J. Adams; Andrew M. McIntosh; George Davey Smith; Jeesun Jung; Falk W. Lohoff; Educational attainment impacts drinking behaviors and risk for alcohol dependence: results from a two-sample Mendelian randomization study with ~780,000 participants.. Molecular Psychiatry 2019, N/A, 1-19, 10.1038/s41380-019-0535-9.
  8. Cronce, J. M.; Larimer, M. E.; Individual-focused approaches to the prevention of college student drinking. Alcohol Research & Health 2011, 34(2), 210-221.
  9. Maureen A Walton; Frederic C Blow; C.Raymond Bingham; Stephen T Chermack; Individual and social/environmental predictors of alcohol and drug use 2 years following substance abuse treatment. Addictive Behaviors 2003, 28, 627-642, 10.1016/s0306-4603(01)00284-2.
  10. Mariana Cordovil De Sousa Uva; Olivier Luminet; Marie Cortesi; Eric Constant; Marc Derely; Philippe De Timary; Distinct Effects of Protracted Withdrawal on Affect, Craving, Selective Attention and Executive Functions among Alcohol-Dependent Patients. Alcohol And Alcoholism 2010, 45, 241-246, 10.1093/alcalc/agq012.
  11. Linda Manchery; Devorah E. Yarmush; Peter Luehring-Jones; Joel Erblich; Attentional bias to alcohol stimuli predicts elevated cue-induced craving in young adult social drinkers. Addictive Behaviors 2017, 70, 14-17, 10.1016/j.addbeh.2017.01.035.
  12. Dalia N. Balsamo; Antoine Douaihy; Jack R. Cornelius; Dennis C. Daley; Levent Kirisci; Scott M. Hyman; Ihsan M. Salloum; Differential Impact of Depressive and Manic Mood States on Alcohol Craving in Comorbid Bipolar Alcoholism. Addictive Disorders & Their Treatment 2016, 15, 107-110, 10.1097/adt.0000000000000080.
  13. Melina Fatseas; Fuschia Serre; Joel Swendsen; Marc Auriacombe; Effects of anxiety and mood disorders on craving and substance use among patients with substance use disorder: An ecological momentary assessment study. Drug and Alcohol Dependence 2018, 187, 242-248, 10.1016/j.drugalcdep.2018.03.008.
  14. Sean P. Lane; Ryan W. Carpenter; Kenneth J. Sher; Timothy J. Trull; Alcohol Craving and Consumption in Borderline Personality Disorder. Clinical Psychological Science 2016, 4, 775-792, 10.1177/2167702615616132.
  15. Tracy L. Simpson; Cynthia A. Stappenbeck; Alethea A. Varra; Sally A. Moore; Debra Kaysen; Symptoms of posttraumatic stress predict craving among alcohol treatment seekers: Results of a daily monitoring study.. Psychology of Addictive Behaviors 2012, 26, 724-733, 10.1037/a0027169.
  16. Thomas M. Piasecki; Seungmin Jahng; Phillip K. Wood; Brandon M. Robertson; Amee J. Epler; Nikole J. Cronk; John W. Rohrbaugh; Andrew C. Heath; Saul Shiffman; Kenneth J. Sher; et al. The subjective effects of alcohol–tobacco co-use: An ecological momentary assessment investigation.. Journal of Abnormal Psychology 2011, 120, 557-571, 10.1037/a0023033.
  17. Mario J. Hitschfeld; Terry D. Schneekloth; Jon O. Ebbert; Daniel Hall-Flavin; Victor M. Karpyak; Osama A Abulseoud; Christi Patten; Jennifer R. Geske; Mark A Frye; Female smokers have the highest alcohol craving in a residential alcoholism treatment cohort. Drug and Alcohol Dependence 2015, 150, 179-182, 10.1016/j.drugalcdep.2015.02.016.
  18. Katherine J. Karriker-Jaffe; Meenakshi S. Subbaraman; Thomas K. Greenfield; William C. Kerr; Contribution of alcohol and drug co-use to substance use problems: Data from a nationally-representative sample of US adults who have never been to treatment. Nordic Studies on Alcohol and Drugs 2018, 35, 428-442, 10.1177/1455072518806122.
  19. Kevin A. Hallgren; Barbara S. McCrady; Elizabeth E. Epstein; Trajectories of drinking urges and the initiation of abstinence during cognitive-behavioral alcohol treatment. Addiction 2016, 111, 854-865, 10.1111/add.13291.
  20. Bonnie Law; Matthew J. Gullo; Mark Daglish; David John Kavanagh; Gerald F. X. Feeney; Ross M. Young; Jason Paul Connor; Craving Mediates Stress in Predicting Lapse During Alcohol Dependence Treatment. Alcoholism: Clinical and Experimental Research 2016, 40, 1058-1064, 10.1111/acer.13034.
  21. Miriam Bottlender; Michael Soyka; IMPACT OF CRAVING ON ALCOHOL RELAPSE DURING, AND 12 MONTHS FOLLOWING, OUTPATIENT TREATMENT. Alcohol And Alcoholism 2004, 39, 357-361, 10.1093/alcalc/agh073.
  22. Gihyun Yoon; Suck Won Kim; Paul Thuras; Jon E. Grant; Joseph Westermeyer; Alcohol craving in outpatients with alcohol dependence: rate and clinical correlates.. Journal of Studies on Alcohol 2006, 67, 770-777, 10.15288/jsa.2006.67.770.
  23. Mark D. Litt; Ned L. Cooney; Priscilla Morse; Reactivity to alcohol-related stimuli in the laboratory and in the field: predictors of craving in treated alcoholics. Addiction 2000, 95, 889-900, 10.1046/j.1360-0443.2000.9568896.x.
  24. Spencer Bujarski; J. David Jentsch; Daniel J O Roche; Vijay A. Ramchandani; Karen Miotto; Lara A. Ray; Differences in the subjective and motivational properties of alcohol across alcohol use severity: application of a novel translational human laboratory paradigm. Neuropsychopharmacology 2018, 43, 1891-1899, 10.1038/s41386-018-0086-9.
  25. James MacKillop; Robert Miranda; Peter M. Monti; Lara A. Ray; James G. Murphy; Damaris J. Rohsenow; John E. McGeary; Robert M. Swift; Jennifer W. Tidey; Chad J. Gwaltney; et al. Alcohol demand, delayed reward discounting, and craving in relation to drinking and alcohol use disorders.. Journal of Abnormal Psychology 2010, 119, 106-114, 10.1037/a0017513.
  26. Manuela Pastore‐Wapp; Yuliya Burren; Hansjörg Znoj; Franz Moggi; Association of alcohol craving and proximal outcomes of a residential treatment program for patients with alcohol use disorders. Journal of Substance Use 2013, 20, 11-15, 10.3109/14659891.2013.858782.
  27. Jason Paul Connor; Alyssa Jack; Gerald F. X. Feeney; Ross McDonald Young; Validity of the Obsessive Compulsive Drinking Scale in a Heavy Drinking Population. Alcoholism: Clinical and Experimental Research 2008, 32, 1067-1073, 10.1111/j.1530-0277.2008.00668.x.
  28. Justin J. Anker; Erich Kummerfeld; Alexander Rix; Scott J. Burwell; Matt G. Kushner; Causal Network Modeling of the Determinants of Drinking Behavior in Comorbid Alcohol Use and Anxiety Disorder. Alcoholism: Clinical and Experimental Research 2018, 43, 91-97, 10.1111/acer.13914.
  29. Mary E. McCaul; Heidi E. Hutton; Mary Ann C. Stephens; Xiaoqiang Xu; Gary S. Wand; Anxiety, Anxiety Sensitivity, and Perceived Stress as Predictors of Recent Drinking, Alcohol Craving, and Social Stress Response in Heavy Drinkers. Alcoholism: Clinical and Experimental Research 2017, 41, 836-845, 10.1111/acer.13350.
  30. George R. Breese; Rajita Sinha; Markus Heilig; Chronic alcohol neuroadaptation and stress contribute to susceptibility for alcohol craving and relapse. Pharmacology & Therapeutics 2011, 129, 149-171, 10.1016/j.pharmthera.2010.09.007.
  31. Daniel S. Quintana; Adam J. Guastella; Iain S. McGregor; Ian B. Hickie; Andrew H. Kemp; Heart rate variability predicts alcohol craving in alcohol dependent outpatients: Further evidence for HRV as a psychophysiological marker of self-regulation. Drug and Alcohol Dependence 2013, 132, 395-398, 10.1016/j.drugalcdep.2013.02.025.
  32. David J. Kavanagh; Dixie J. Statham; Gerald F. X. Feeney; Ross McD. Young; Jon May; Jackie Andrade; Jason P. Connor; Measurement of alcohol craving. Addictive Behaviors 2013, 38, 1572-1584, 10.1016/j.addbeh.2012.08.004.
  33. Robert C. Schlauch; Daniel Gwynn-Shapiro; Paul R. Stasiewicz; Danielle S. Molnar; Alan R. Lang; Affect and craving: positive and negative affect are differentially associated with approach and avoidance inclinations.. Addictive Behaviors 2012, 38, 1970-9, 10.1016/j.addbeh.2012.12.003.
  34. Jessica Simon; Anne-Marie Etienne; Stéphane Bouchard; Etienne Quertemont; Alcohol Craving in Heavy and Occasional Alcohol Drinkers After Cue Exposure in a Virtual Environment: The Role of the Sense of Presence. Frontiers in Human Neuroscience 2020, 14, 124, 10.3389/fnhum.2020.00124.
  35. Angelina Isabella Mellentin; Lotte Skøt; Bent Nielsen; Gerard M. Schippers; Anette S. Nielsen; Elsebeth Stenager; Carsten Bogh Juhl; Cue exposure therapy for the treatment of alcohol use disorders: A meta-analytic review. Clinical Psychology Review 2017, 57, 195-207, 10.1016/j.cpr.2017.07.006.
  36. Marta Ferrer-García; José Gutiérrez-Maldonado; Joana Pla-Sanjuanelo; Ferran Vilalta-Abella; Giuseppe Riva; Massimo Clerici; Joan Ribas-Sabaté; Alexis Andreu-Gracia; Fernando Fernandez-Aranda; Laura Forcano; et al.Nadine RiescoIsabel SánchezNeli Escandón-NagelOsane Gomez-TricioVirginia TenaAntonios Dakanalis A Randomised Controlled Comparison of Second-Level Treatment Approaches for Treatment-Resistant Adults with Bulimia Nervosa and Binge Eating Disorder: Assessing the Benefits of Virtual Reality Cue Exposure Therapy. European Eating Disorders Review 2017, 25, 479-490, 10.1002/erv.2538.
  37. Angelina Isabella Mellentin; Bent Nielsen; Anette Søgaard Nielsen Ma; Fei Yu; Elsebeth Stenager; A randomized controlled study of exposure therapy as aftercare for alcohol use disorder: study protocol. BMC Psychiatry 2016, 16, 112, 10.1186/s12888-016-0795-8.
  38. Alexandra Ghiţă; José Gutiérrez‐Maldonado; Applications of virtual reality in individuals with alcohol misuse: A systematic review. Addictive Behaviors 2018, 81, 1-11, 10.1016/j.addbeh.2018.01.036.
  39. Jessica L. Maples-Keller; Brian E. Bunnell; Sae-Jin Kim; Barbara O. Rothbaum; The Use of Virtual Reality Technology in the Treatment of Anxiety and Other Psychiatric Disorders. Harvard Review of Psychiatry 2017, 25, 103-113, 10.1097/hrp.0000000000000138.
  40. Olivier Percie Du Sert; Stéphane Potvin; Olivier Lipp; Laura Dellazizzo; Mélanie Laurelli; Richard Breton; Pierre LaLonde; Kingsada Phraxayavong; Kieron O'connor; Jean-Francois Pelletier; et al.Tarik BoukhalfiPatrice RenaudAlexandre Dumais Virtual reality therapy for refractory auditory verbal hallucinations in schizophrenia: A pilot clinical trial. Schizophrenia Research 2018, 197, 176-181, 10.1016/j.schres.2018.02.031.
  41. Marta Ferrer-García; José Gutiérrez‐Maldonado; The use of virtual reality in the study, assessment, and treatment of body image in eating disorders and nonclinical samples: A review of the literature. Body Image 2012, 9, 1-11, 10.1016/j.bodyim.2011.10.001.
  42. Marta Ferrer-Garcia; Joana Pla-Sanjuanelo; Antonios Dakanalis; Ferran Vilalta-Abella; Giuseppe Riva; Fernando Fernandez-Aranda; Laura Forcano; Nadine Riesco; Isabel Sánchez; Massimo Clerici; et al.Joan Ribas-SabatéAlexis Andreu-GraciaNeli Escandón-NagelOsane Gomez-TricioVirginia TenaJosé Gutiérrez-Maldonado A Randomized Trial of Virtual Reality-Based Cue Exposure Second-Level Therapy and Cognitive Behavior Second-Level Therapy for Bulimia Nervosa and Binge-Eating Disorder: Outcome at Six-Month Followup. Cyberpsychology, Behavior, and Social Networking 2019, 22, 60-68, 10.1089/cyber.2017.0675.
  43. Tomoyuki Segawa; Thomas Baudry; Alexis Bourla; Jean-Victor Blanc; Charles-Siegfried Peretti; Stephane Mouchabac; Florian Ferreri; Virtual Reality (VR) in Assessment and Treatment of Addictive Disorders: A Systematic Review. Frontiers in Neuroscience 2020, 13, 1409, 10.3389/fnins.2019.01409.
  44. Thomas M. Piasecki; Seungmin Jahng; Phillip K. Wood; Brandon M. Robertson; Amee J. Epler; Nikole J. Cronk; John W. Rohrbaugh; Andrew C. Heath; Saul Shiffman; Kenneth J. Sher; et al. The subjective effects of alcohol–tobacco co-use: An ecological momentary assessment investigation.. Journal of Abnormal Psychology 2011, 120, 557-571, 10.1037/a0023033.
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