酒精摄入对前瞻记忆的损伤：影响因素及作用机制

辛聪; 汪浩远; 张歆瑜; 卢东峰

doi:10.16719/j.cnki.1671-6981.20240202

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心理科学 ›› 2024, Vol. 47 ›› Issue (2) : 267-273. DOI: 10.16719/j.cnki.1671-6981.20240202

基础、实验与工效

酒精摄入对前瞻记忆的损伤：影响因素及作用机制

辛聪^*1, 汪浩远², 张歆瑜¹, 卢东峰¹

作者信息 +

The Impairment of Prospective Memory by Alcohol Use: Antecedents and Mechanisms

Xin Cong¹, Wang Haoyuan², Zhang Xinyu¹, Lu Dongfeng¹

Author information +

文章历史 +

摘要

日常生活中绝大多数活动的完成都与前瞻记忆存在密切联系。酒精摄入会损伤大脑结构和认知功能,降低个体前瞻记忆表现。酒精摄入与前瞻记忆的关系受诸多因素影响,主要包括酒精摄入模式和剂量、其他物质滥用、测量方式以及前瞻记忆类型。酒精摄入影响前瞻记忆的认知机制主要涉及执行功能和注意系统。神经机制方面,酒精摄入影响前瞻记忆的脑区包括前额叶、顶枕叶、边缘系统（海马、前扣带回、上丘脑）、大脑皮质和髓质等。未来研究可进一步揭示酒精摄入对前瞻记忆成分及各加工阶段的影响,重视研究方法的差异和改进,关注改善临床酒精摄入人群前瞻记忆的因素。

Abstract

Prospective memory refers to the ability to remember to perform a delayed intention at an appropriate time or situation in the future, such as remembering to return a book to the library tomorrow morning or to take a daily medication. Memory failures that occur in the future generate more problems in daily life than memory failures that occur in the past. It has been found that 50~70 percent of real-life memory failures can be attributed to failures in prospective memory. The completion of most activities in daily life is closely related to prospective memory. Previous studies have typically investigated prospective memory using a dual-task paradigm, which included both prospective memory and ongoing tasks. Alcohol is one of the most widely used drugs and has been shown to play a complicated role in mental health and society. The association between alcohol use and cognitive function has drawn attention, and the adverse effects of alcohol use on cognitive function are well-documented. Alcohol use can damage the brain structure and cognitive function, and reduce the individual’s prospective memory performance. More generally, the study of prospective memory failures under alcohol is important to health behavior since many interventions targeted at non-dependent drinkers rely, to some extent, on prospective memory.
The relation between alcohol use and prospective memory is influenced by many factors, including alcohol use patterns and doses, other substance abuse, differences in research measures, and types of prospective memory. Successful completion of prospective memory relies on the coordinated functioning of the subcomponents of executive function (working memory, inhibitory control, cognitive flexibility). Individuals firstly encode and store prospective memory intentions. When prospective memory cues appear, individuals need to retrieve prospective memory intentions, inhibit the ongoing task, remember the task rules and the responses, and flexibly switch from the ongoing task to the prospective memory task. The cognitive mechanisms through which alcohol use affects prospective memory are mainly related to executive function and attentional systems. In terms of neurological mechanisms, where alcohol use affects prospective memory involves the prefrontal and parieto-occipital cortex, the limbic system (hippocampus, anterior cingulate gyrus, and superior colliculus), cerebral cortical, and medullary substance. A systematic analysis of the factors influencing the relation between alcohol use and prospective memory and a summary of the mechanisms through which alcohol use affects prospective memory is of great value. It may inform interventions efforts that aim to improve the performance of prospective memory in clinical samples of alcohol use in the future.
Future research can investigate the effects of alcohol use on prospective memory components by experimental isolation and the separation of prospective memory processing phases in combination with functional magnetic resonance imaging (fMRI) and functional near-infrared spectroscopy (fNIRS) brain imaging techniques to understand the specific mechanisms of alcohol use on different prospective memory processing phases. In addition, future research should focus on the differences and improvements in research methods and on factors that improve prospective memory in clinical samples of alcohol use.

导出引用

辛聪, 汪浩远, 张歆瑜, 卢东峰. 酒精摄入对前瞻记忆的损伤：影响因素及作用机制[J]. 心理科学. 2024, 47(2): 267-273 https://doi.org/10.16719/j.cnki.1671-6981.20240202

Xin Cong, Wang Haoyuan, Zhang Xinyu, Lu Dongfeng. The Impairment of Prospective Memory by Alcohol Use: Antecedents and Mechanisms[J]. Journal of Psychological Science. 2024, 47(2): 267-273 https://doi.org/10.16719/j.cnki.1671-6981.20240202

参考文献

[1] 干加裙, 张曼曼, 胡锦慧, 郭云飞, 陈幼贞. (2020). 执行意向影响事件性前瞻记忆的加工机制. 心理与行为研究, 18(1), 53-59.
[2] 吴庆, 王克永, 张志华, 庞良俊, 汪咏梅, 黄豹, 刘旺发. (2013). 男性酒依赖患者戒断期前瞻记忆研究. 中华行为医学与脑科学杂志, 22(2), 134-136.
[3] Bartholomew J., Holroyd S., & Heffernan T. M. (2010). Does cannabis use affect prospective memory in young adults? Journal of Psychopharmacology, 24(2), 241-246.
[4] Becker, H. C. (2008). Alcohol dependence, withdrawal, and relapse. Alcohol Research and Health, 31(4), 348-361.
[5] Carbia C., López-Caneda E., Corral M., & Cadaveira F. (2018). A systematic review of neuropsychological studies involving young binge drinkers. Neuroscience and Biobehavioral Reviews, 90, 332-349.
[6] Chan, C. C. (2018). Influence of alcohol on time-based prospective memory and electrophysiological measures in college-aged individuals (Unpublished bachelor dissertation). Trinity College, Hartford.
[7] Cona G., Scarpazza C., Sartori G., Moscovitch M., & Bisiacchi P. S. (2015). Neural bases of prospective memory: A meta-analysis and the “Attention to Delayed Intention” (AtoDI) model. Neuroscience and Biobehavioral Reviews, 52, 21-37.
[8] Curtin, J. J., & Fairchild, B. A. (2003). Alcohol and cognitive control: Implications for regulation of behavior during response conflict. Journal of Abnormal Psychology, 112(3), 424-436.
[9] Defranco C., Tarbox A. R., & McLaughlin E. J. (1985). Cognitive deficits as a function of years of alcohol abuse. The American Journal of Drug and Alcohol Abuse, 11(3-4), 279-293.
[10] Einstein, G. O., & McDaniel, M. A. (1990). Normal aging and prospective memory. Journal of Experimental Psychology: Learning, Memory, and Cognition, 16(4), 717-726.
[11] Elliott M., Terrett G., Curran H. V., De Bono N., Rendell P. G., & Henry J. D. (2021). Prospective memory deficits following acute alcohol consumption. Journal of Psychopharmacology, 35(11), 1386-1397.
[12] Galandra C., Basso G., Cappa S., & Canessa N. (2018). The alcoholic brain: Neural bases of impaired reward-based decision-making in alcohol use disorders. Neurological Sciences, 39(3), 423-435.
[13] Griffiths A., Hill R., Morgan C., Rendell P. G., Karimi K., Wanagaratne S., & Curran H. V. (2012). Prospective memory and future event simulation in individuals with alcohol dependence. Addiction, 107(10), 1809-1816.
[14] Hadjiefthyvoulou F., Fisk J. E., Montgomery C., & Bridges N. (2011). Everyday and prospective memory deficits in ecstasy/polydrug users. Journal of Psychopharmacology, 25(4), 453-464.
[15] Heffernan, T. (2018). A state of alcohol hangover impedes everyday prospective memory. Frontiers in Human Neuroscience, 12, Article 348.
[16] Heffernan T., Clark R., Bartholomew J., Ling J., & Stephens S. (2010). Does binge drinking in teenagers affect their everyday prospective memory? Drug and Alcohol Dependence, 109(1-3), 73-78.
[17] Heffernan T., Ling J., & Bartholomew J. (2004). Self-rated prospective memory and central executive deficits in excessive alcohol users. Irish Journal of Psychological Medicine, 21(4), 122-124.
[18] Heffernan, T., & O’Neill, T. (2012). Time based prospective memory deficits associated with binge drinking: Evidence from the Cambridge Prospective Memory Test (CAMPROMPT). Drug and Alcohol Dependence, 123(1-3), 207-212.
[19] Heffernan T., O’Neill T., Ling J., Holroyd S., Bartholomew J., & Betney G. (2006). Does excessive alcohol use in teenagers affect their everyday prospective memory? Clinical Effectiveness in Nursing, 9, e302-e307.
[20] Heffernan T., Samuels A., Hamilton C., & McGrath-Brookes M. (2019). Alcohol hangover has detrimental impact upon both executive function and prospective memory. Frontiers in Psychiatry, 10, Article 282.
[21] Heffernan, T. M. (2008). The impact of excessive alcohol use on prospective memory: A brief review. Current Drug Abuse Reviews, 1(1), 36-41.
[22] Heffernan T. M., Moss M., & Ling J. (2002). Subjective ratings of prospective memory deficits in chronic heavy alcohol users. Alcohol and Alcoholism, 37(3), 269-271.
[23] Kliegel M., Mackinlay R., & Jäger T. (2008). Complex prospective memory: Development across the lifespan and the role of task interruption. Developmental Psychology, 44(2), 612-617.
[24] Kyriacou A., Smith-Spark J. H., Senar J., Moss A. C., & Dyer K. R. (2021). The effects of alcohol use on prospective memory: A systematic literature review. Substance Use and Misuse, 56(3), 359-369.
[25] Leitz J. R., Morgan C. J. A., Bisby J. A., Rendell P. G., & Curran H. V. (2009). Global impairment of prospective memory following acute alcohol. Psychopharmacology, 205(3), 379-387.
[26] Levent, A., & Davelaar, E. J. (2019). Illegal drug use and prospective memory: A systematic review. Drug and Alcohol Dependence, 204, Article 107478.
[27] Mahedy L., Suddell S., Skirrow C., Fernandes G. S., Field M., Heron J., & Munafò M. R. (2021). Alcohol use and cognitive functioning in young adults: Improving causal inference. Addiction, 116(2), 292-302.
[28] Mahy C. E. V., Moses L. J., & Kliegel M. (2014). The development of prospective memory in children: An executive framework. Developmental Review, 34(4), 305-326.
[29] Marshall A. M., Heffernan T., & Hamilton C. (2016). The synergistic impact of excessive alcohol drinking and cigarette smoking upon prospective memory. Frontiers in Psychiatry, 7, Article 75.
[30] Meier, B., & Zimmermann, T. D. (2015). Loads and loads and loads: The influence of prospective load, retrospective load, and ongoing task load in prospective memory. Frontiers in Human Neuroscience, 9, Article 322.
[31] Mioni, G., & Stablum, F. (2014). Monitoring behaviour in a time-based prospective memory task: The involvement of executive functions and time perception. Memory, 22(5), 536-552.
[32] Okuda J., Fujii T., Ohtake H., Tsukiura T., Yamadori A., Frith C. D., & Burgess P. W. (2007). Differential involvement of regions of rostral prefrontal cortex (Brodmann area 10) in time- and event-based prospective memory. International Journal of Psychophysiology, 64(3), 233-246.
[33] Oscar-Berman, M., & Marinković, K. (2007). Alcohol: Effects on neurobehavioral functions and the brain. Neuropsychology Review, 17(3), 239-257.
[34] Paraskevaides T., Morgan C. J. A., Leitz J. R., Bisby J. A., Rendell P. G., & Curran H. V. (2010). Drinking and future thinking: Acute effects of alcohol on prospective memory and future simulation. Psychopharmacology, 208(2), 301-308.
[35] Parsons, O. A., & Nixon, S. J. (1998). Cognitive functioning in sober social drinkers: A review of the research since 1986. Journal of Studies on Alcohol, 59(2), 180-190.
[36] Platt B., Kamboj S. K., Italiano T., Rendell P. G., & Curran H. V. (2016). Prospective memory impairments in heavy social drinkers are partially overcome by future event simulation. Psychopharmacology, 233(3), 499-506.
[37] Posner, M. I., & Petersen, S. E. (1990). The attention system of the human brain. Annual Review of Neuroscience, 13(1), 25-42.
[38] Schulte T., Oberlin B. G., Kareken D. A., Marinkovic K., Müller-Oehring E. M., Meyerhoff D. J., & Tapert S. (2012). How acute and chronic alcohol consumption affects brain networks: Insights from multimodal neuroimaging. Alcoholism: Clinical and Experimental Research, 36(12), 2017-2027.
[39] Shelton, J. T., & Scullin, M. K. (2017). The dynamic interplay between bottom-up and top-down processes supporting prospective remembering. Current Directions in Psychological Science, 26(4), 352-358.
[40] Sheppard D. P., Matchanova A., Sullivan K. L., Kazimi S. I., & Woods S. P. (2020). Prospective memory partially mediates the association between aging and everyday functioning. The Clinical Neuropsychologist, 34(4), 755-774.
[41] Smith, R. E., & Bayen, U. J. (2004). A multinomial model of event-based prospective memory. Journal of Experimental Psychology: Learning, Memory, and Cognition, 30(4), 756-777.
[42] Smith-Spark J. H., Moss A. C., & Dyer K. R. (2016). Do baseline executive functions mediate prospective memory performance under a moderate dose of alcohol? Frontiers in Psychology, 7, Article 1325.
[43] Squeglia L. M., Sorg S. F., Schweinsburg A. D., Wetherill R. R., Pulido C., & Tapert S. F. (2012). Binge drinking differentially affects adolescent male and female brain morphometry. Psychopharmacology, 220(3), 529-539.
[44] Steele, C. M., & Josephs, R. A. (1990). Alcohol myopia: Its prized and dangerous effects. American Psychologist, 45(8), 921-933.
[45] Van Skike C. E., Goodlett C., & Matthews D. B. (2019). Acute alcohol and cognition: Remembering what it causes us to forget. Alcohol, 79, 105-125.
[46] Walter, N. T., & Bayen, U. J. (2016). Selective effects of acute alcohol intake on the prospective and retrospective components of a prospective-memory task with emotional targets. Psychopharmacology, 233(2), 325-339.
[47] Winward J. L., Bekman N. M., Hanson K. L., Lejuez C. W., & Brown S. A. (2014). Changes in emotional reactivity and distress tolerance among heavy drinking adolescents during sustained abstinence. Alcoholism: Clinical and Experimental Research, 38(6), 1761-1769.
[48] Zamroziewicz M., Raskin S. A., Tennen H., Austad C. S., Wood R. M., Fallahi C. R., & Pearlson G. D. (2017). Effects of drinking patterns on prospective memory performance in college students. Neuropsychology, 31(2), 191-199.