Neurocognitive interventions based on network neuroscience may break the cycle of drug addiction relapse

Q4 Neuroscience Neuroscience Research Notes Pub Date : 2020-05-30 DOI:10.31117/neuroscirn.v3i2.48
Kavinash Loganathan, Eric Tatt Wei Ho
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Abstract

In Malaysia, abstinence-centric programs failed to reduce drug use and stem the spread of HIV. The Malaysian government shifted its focus to implement harm reduction strategies with methadone maintenance therapy (MMT), in particular proving to be effective in improving the overall health and well-being of people who inject drugs (PWIDs). Despite this success, MMT retention rates remain low, as methadone is only able to stall drug consumption, but not stop it completely. Neuroimaging research revealed that PWIDs enrolled in MMT still display addictive behavior, including drug cue sensitivity, craving, and withdrawal, despite treatment adherence. Brain activity amongst treated PWIDs continues to bear similarities to untreated individuals, as they struggle with cognitive impairments and poor self-control. Findings from the emerging field of network neuroscience could provide fresh insight into the mechanics of addiction, especially the impact of substance abuse on brain-wide cognitive networks. Concurrently, the development of non-intrusive cognitive interventions, such as neurofeedback and transcranial magnetic stimulation, shows promise to reprogram a person's patterns of brain activity, including those regulated by large-scale networks, to a state resembling normalcy. We highlight the importance of relapse in the life-long rehabilitation of substance abuse. The lack of treatment options to handle relapse after successful harm-reduction policies is due to the absence of a conceptual framework to reason about interventions. We review recent research in the new field of network neuroscience, which suggests that altered brain activity due to drug addiction underlies the propensity for relapse and that this dysfunction is not addressed in drug rehabilitation programs. We hypothesize that non-invasive, non-pharmacological cognitive interventions based on network neuroscience to correct brain activity dysfunction associated with addiction are potential therapies to treat drug addiction relapse. In complement with medicine-substitution-based therapies, we hope this approach will finally break the cycle of addiction.
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基于网络神经科学的神经认知干预可能打破毒瘾复发的循环
在马来西亚,以禁欲为中心的项目未能减少毒品使用并阻止艾滋病毒的传播。马来西亚政府将重点转移到实施美沙酮维持疗法(MMT)的减少伤害战略上,特别是事实证明,美沙酮在改善注射毒品者的整体健康和福祉方面是有效的。尽管取得了成功,但MMT的保留率仍然很低,因为美沙酮只能阻止药物消费,但不能完全阻止药物消费。神经影像学研究表明,尽管坚持治疗,参与MMT的PWID仍表现出成瘾行为,包括药物线索敏感性、渴望和戒断。接受治疗的PWID的大脑活动仍然与未接受治疗的个体相似,因为他们正在与认知障碍和自制力差作斗争。新兴网络神经科学领域的发现可以为成瘾的机制,特别是药物滥用对全脑认知网络的影响提供新的见解。与此同时,非侵入性认知干预措施的发展,如神经反馈和经颅磁刺激,有望将一个人的大脑活动模式(包括由大规模网络调节的模式)重新编程为类似正常的状态。我们强调复发在药物滥用终身康复中的重要性。在成功实施减少伤害政策后,缺乏治疗复发的选择,这是由于缺乏一个概念框架来解释干预措施。我们回顾了网络神经科学新领域的最新研究,该研究表明,毒瘾导致的大脑活动改变是复发倾向的基础,而这种功能障碍在药物康复计划中没有得到解决。我们假设,基于网络神经科学的非侵入性、非药物认知干预是治疗毒瘾复发的潜在疗法,以纠正与成瘾相关的大脑活动功能障碍。与基于药物替代的疗法相补充,我们希望这种方法最终能打破成瘾的循环。
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来源期刊
Neuroscience Research Notes
Neuroscience Research Notes Neuroscience-Neurology
CiteScore
1.00
自引率
0.00%
发文量
21
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