从颅内神经活动解码抑郁严重程度。

Decoding Depression Severity From Intracranial Neural Activity.

机构信息

Department of Neurosurgery, Baylor College of Medicine, Houston, Texas; Department of Neuroscience, Baylor College of Medicine, Houston, Texas.

Department of Neurosurgery, Baylor College of Medicine, Houston, Texas.

出版信息

Biol Psychiatry. 2023 Sep 15;94(6):445-453. doi: 10.1016/j.biopsych.2023.01.020. Epub 2023 Feb 2.

DOI:10.1016/j.biopsych.2023.01.020

PMID:36736418

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10394110/

Abstract

BACKGROUND

Disorders of mood and cognition are prevalent, disabling, and notoriously difficult to treat. Fueling this challenge in treatment is a significant gap in our understanding of their neurophysiological basis.

METHODS

We recorded high-density neural activity from intracranial electrodes implanted in depression-relevant prefrontal cortical regions in 3 human subjects with severe depression. Neural recordings were labeled with depression severity scores across a wide dynamic range using an adaptive assessment that allowed sampling with a temporal frequency greater than that possible with typical rating scales. We modeled these data using regularized regression techniques with region selection to decode depression severity from the prefrontal recordings.

RESULTS

Across prefrontal regions, we found that reduced depression severity is associated with decreased low-frequency neural activity and increased high-frequency activity. When constraining our model to decode using a single region, spectral changes in the anterior cingulate cortex best predicted depression severity in all 3 subjects. Relaxing this constraint revealed unique, individual-specific sets of spatiospectral features predictive of symptom severity, reflecting the heterogeneous nature of depression.

CONCLUSIONS

The ability to decode depression severity from neural activity increases our fundamental understanding of how depression manifests in the human brain and provides a target neural signature for personalized neuromodulation therapies.

摘要

背景

情绪和认知障碍普遍存在，且具有致残性，治疗难度极大。治疗上的这一挑战主要源于我们对其神经生理学基础的理解存在显著差距。

方法

我们对 3 名重度抑郁症患者的与抑郁相关的前额皮质区域内的颅内电极记录了高密度神经活动。使用自适应评估方法，通过一种可实现比典型评分量表更高时间频率采样的方式，在广泛的动态范围内，根据抑郁严重程度对神经记录进行标记。我们使用正则化回归技术和区域选择对这些数据进行建模，以从前额皮质记录中解码抑郁严重程度。

结果

在前额皮质区域中，我们发现，抑郁严重程度降低与低频神经活动减少和高频活动增加有关。当我们的模型限制为仅使用一个区域进行解码时，前扣带皮质的频谱变化可在所有 3 名患者中最佳地预测抑郁严重程度。放宽此限制可揭示出反映抑郁异质性的、具有个体特异性的、可预测症状严重程度的独特时空频谱特征。

结论

从神经活动中解码抑郁严重程度的能力提高了我们对抑郁在人类大脑中表现形式的基本理解，并为个性化神经调节治疗提供了靶向神经特征。

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