多巴胺/脑源性神经营养因子缺失强调潜水员麻醉认知障碍：干条件下的概念验证。

Dopamine/BDNF loss underscores narcosis cognitive impairment in divers: a proof of concept in a dry condition.

机构信息

Department of Biomedical Sciences, University of Padova, 35131, Padova, Italy.

Division of Cardiology, Johns Hopkins Medical Institutions, Baltimore, MD, USA.

出版信息

Eur J Appl Physiol. 2023 Jan;123(1):143-158. doi: 10.1007/s00421-022-05055-6. Epub 2022 Oct 10.

DOI:10.1007/s00421-022-05055-6

PMID:36214902

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9813116/

Abstract

PURPOSE

Divers can experience cognitive impairment due to inert gas narcosis (IGN) at depth. Brain-derived neurotrophic factor (BDNF) rules neuronal connectivity/metabolism to maintain cognitive function and protect tissues against oxidative stress (OxS). Dopamine and glutamate enhance BDNF bioavailability. Thus, we hypothesized that lower circulating BDNF levels (via lessened dopamine and/or glutamate release) underpin IGN in divers, while testing if BDNF loss is associated with increased OxS.

METHODS

To mimic IGN, we administered a deep narcosis test via a dry dive test (DDT) at 48 msw in a multiplace hyperbaric chamber to six well-trained divers. We collected: (1) saliva samples before DDT (T0), 25 msw (descending, T1), 48 msw (depth, T2), 25 msw (ascending, T3), 10 min after decompression (T4) to dopamine and/or reactive oxygen species (ROS) levels; (2) blood and urine samples at T0 and T4 for OxS too. We administered cognitive tests at T0, T2, and re-evaluated the divers at T4.

RESULTS

At 48 msw, all subjects experienced IGN, as revealed by the cognitive test failure. Dopamine and total antioxidant capacity (TAC) reached a nadir at T2 when ROS emission was maximal. At decompression (T4), a marked drop of BDNF/glutamate content was evidenced, coinciding with a persisting decline in dopamine and cognitive capacity.

CONCLUSIONS

Divers encounter IGN at - 48 msw, exhibiting a marked loss in circulating dopamine levels, likely accounting for BDNF-dependent impairment of mental capacity and heightened OxS. The decline in dopamine and BDNF appears to persist at decompression; thus, boosting dopamine/BDNF signaling via pharmacological or other intervention types might attenuate IGN in deep dives.

摘要

目的

潜水员在深海中会因惰性气体麻醉（IGN）而出现认知障碍。脑源性神经营养因子（BDNF）调节神经元的连接/代谢，以维持认知功能并保护组织免受氧化应激（OxS）的影响。多巴胺和谷氨酸能增强 BDNF 的生物利用度。因此，我们假设潜水员的 IGN 是由于循环 BDNF 水平降低（通过减少多巴胺和/或谷氨酸的释放）引起的，同时测试 BDNF 的损失是否与 OxS 的增加有关。

方法

为了模拟 IGN，我们在多座位高压舱中通过干式潜水测试（DDT）在 48 msw 下对六名训练有素的潜水员进行了深度麻醉测试。我们采集了：（1）DDT 前的唾液样本（T0）、25 msw（下降，T1）、48 msw（深度，T2）、25 msw（上升，T3）、减压后 10 分钟（T4）的多巴胺和/或活性氧（ROS）水平；（2）T0 和 T4 时的血液和尿液样本以检测 OxS。我们在 T0、T2 时进行了认知测试，并在 T4 时重新评估了潜水员。

结果

在 48 msw 时，所有受试者都经历了 IGN，这从认知测试失败中可以看出。多巴胺和总抗氧化能力（TAC）在 T2 时达到最低点，此时 ROS 释放达到最大值。在减压（T4）时，BDNF/谷氨酸含量明显下降，同时多巴胺和认知能力持续下降。

结论

潜水员在-48 msw 时会出现 IGN，表现为循环多巴胺水平明显下降，这可能是 BDNF 依赖性的认知能力下降和 OxS 增加的原因。多巴胺和 BDNF 的下降似乎在减压时仍在持续；因此，通过药理学或其他干预类型增强多巴胺/BDNF 信号可能会减轻深潜中的 IGN。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3eec/9813116/3a1948874e21/421_2022_5055_Fig1_HTML.jpg

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多巴胺/脑源性神经营养因子缺失强调潜水员麻醉认知障碍：干条件下的概念验证。

Dopamine/BDNF loss underscores narcosis cognitive impairment in divers: a proof of concept in a dry condition.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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