Amygdala self-neuromodulation capacity as a window for process-related network recruitment.

IF 5.4 2区 生物学 Q1 BIOLOGY
Guy Gurevitch, Nitzan Lubianiker, Taly Markovits, Ayelet Or-Borichev, Haggai Sharon, Naomi B Fine, Tom Fruchtman-Steinbok, Jacob N Keynan, Moni Shahar, Alon Friedman, Neomi Singer, Talma Hendler
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Abstract

Neurofeedback (NF) has emerged as a promising avenue for demonstrating process-related neuroplasticity, enabling self-regulation of brain function. NF targeting the amygdala has drawn attention to therapeutic potential in psychiatry, by potentially harnessing emotion-regulation processes. However, not all individuals respond equally to NF training, possibly owing to varying self-regulation abilities. This underscores the importance of understanding the mechanisms behind successful neuromodulation (i.e. capacity). This study aimed to investigate the establishment and neural correlates of neuromodulation capacity using data from repeated sessions of amygdala electrical fingerprint (Amyg-EFP)-NF and post-training functional magnetic resonance imaging (fMRI)-NF sessions. Results from 97 participants (healthy controls and post-traumatic stress disorder and fibromyalgia patients) revealed increased Amyg-EFP neuromodulation capacity over training, associated with post-training amygdala-fMRI modulation capacity and improvements in alexithymia. Individual differenaces in this capacity were associated with pre-training amygdala reactivity and initial neuromodulation success. Additionally, amygdala downregulation during fMRI-NF co-modulated with other regions such as the posterior insula and parahippocampal gyrus. This combined modulation better explained EFP-modulation capacity and improvement in alexithymia than the amygdala modulation alone, suggesting the relevance of this broader network to gained capacity. These findings support a network-based approach for NF and highlight the need to consider individual differences in brain function and modulation capacity to optimize NF interventions. This article is part of the theme issue 'Neurofeedback: new territories and neurocognitive mechanisms of endogenous neuromodulation'.

杏仁核自我神经调节能力是过程相关网络招募的窗口
神经反馈(NF)已成为展示与过程相关的神经可塑性、实现大脑功能自我调节的一种前景广阔的途径。以杏仁核为目标的神经反馈疗法通过潜在地利用情绪调节过程,在精神病学方面的治疗潜力引起了人们的关注。然而,可能由于自我调节能力的不同,并非所有人都能对 NF 训练做出同样的反应。这凸显了了解成功神经调控(即能力)背后机制的重要性。本研究旨在利用杏仁核电指纹(Amyg-EFP)-神经调控重复训练和训练后功能磁共振成像(fMRI)-神经调控训练的数据,研究神经调控能力的建立和神经相关性。97 名参与者(健康对照组、创伤后应激障碍和纤维肌痛患者)的研究结果表明,杏仁核电指纹神经调控能力在训练中得到了提高,这与训练后杏仁核-FMRI 调控能力和条件反射症状的改善有关。这种能力的个体差异与训练前的杏仁核反应性和最初的神经调节成功率有关。此外,fMRI-NF 期间的杏仁核下调与其他区域(如后岛叶和海马旁回)共同调节。与单独的杏仁核调节相比,这种联合调节能更好地解释EFP调节能力和反射性癔症的改善,表明这一更广泛的网络与获得能力相关。这些发现支持以网络为基础的 NF 方法,并强调需要考虑大脑功能和调节能力的个体差异,以优化 NF 干预措施。本文是 "神经反馈:内源性神经调节的新领域和神经认知机制 "主题期刊的一部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
11.80
自引率
1.60%
发文量
365
审稿时长
3 months
期刊介绍: The journal publishes topics across the life sciences. As long as the core subject lies within the biological sciences, some issues may also include content crossing into other areas such as the physical sciences, social sciences, biophysics, policy, economics etc. Issues generally sit within four broad areas (although many issues sit across these areas): Organismal, environmental and evolutionary biology Neuroscience and cognition Cellular, molecular and developmental biology Health and disease.
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