治疗性低温能否减轻创伤性脑损伤对黑腹果蝇的影响？

Journal of Experimental Neuroscience Pub Date : 2019-01-21 eCollection Date: 2019-01-01 DOI:10.1177/1179069518824852

Shan Lateef, Aubrie Holman, Jessica Carpenter, Jennifer James

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摘要

背景/主要目标：外伤性脑损伤（TBI）和慢性外伤性脑病（CTE）是公认的破坏性影响，而慢性外伤性脑病可能是由反复的头部外伤引起的脑退化所致，目前尚无有效的治疗策略。本项目的目标是：（1）研究单次和复发性创伤性脑损伤（rTBI）对黑腹果蝇（a）寿命、（b）对镇静剂的反应以及（c）对光线和重力的行为反应的影响；（2）确定治疗性低温是否能减轻创伤性脑损伤的有害影响：设立了五个实验组：（1）对照组；（2）单一创伤性脑损伤或脑震荡组；（3）脑震荡+低体温组；（4）急性创伤性脑损伤组；（5）急性创伤性脑损伤+低体温组。研究人员制作了一个 "高冲击力创伤"（HIT）装置，利用弹簧装置将苍蝇推向瓶壁，对大脑造成机械损伤。低温组被冷却至 15°C 3 分钟。对分类变量进行卡方检验，对连续变量进行方差分析：结果：生存曲线分析表明，急性创伤性脑损伤会缩短果蝇的寿命，而低体温会减少这种影响。对照组 vs 脑震荡组 vs 脑震荡+低体温组的平均镇静时间分别为 78 秒 vs 52 秒 vs 61 秒（P P P P P 结论：低体温成功地减轻了果蝇的许多症状，并延长了它们的寿命：低温疗法成功地减轻了果蝇单次创伤性脑损伤和急性创伤性脑损伤的许多有害影响，可能是治疗人类创伤性脑损伤的一个有希望的突破。

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Can Therapeutic Hypothermia Diminish the Impact of Traumatic Brain Injury in Drosophila melanogaster?

Background/main objectives: No effective strategy exists to treat the well-recognized, devastating impact of traumatic brain injury (TBI) and chronic traumatic encephalopathy (CTE), which is the brain degeneration likely caused by repeated head trauma. The goals of this project were (1) to study the effects of single and recurrent TBI (rTBI) on Drosophila melanogaster's (a) life span, (b) response to sedatives, and (c) behavioral responses to light and gravity and (2) to determine whether therapeutic hypothermia can mitigate the deleterious effects of TBI.

Methods: Five experimental groups were created: (1) control, (2) single TBI or concussion; (3) concussion + hypothermia, (4) rTBI, and (5) rTBI + hypothermia. A "high-impact trauma" (HIT) device was built, which used a spring-based mechanism to propel flies against the wall of a vial, causing mechanical damage to the brain. Hypothermia groups were cooled to 15°C for 3 minutes. Group differences were analyzed with chi-square tests for the categorical variables and with ANOVA tests for the continuous variables.

Results: Survival curve analysis showed that rTBI can decrease Drosophila lifespan and hypothermia diminished this impact. Average sedation time for control vs concussion vs concussion + hypothermia was 78 vs 52 vs 61 seconds (P < .0001). Similarly, rTBI vs rTBI/hypothermia groups took 43 vs 59 seconds (P < .0001). Concussed flies preferred dark environments compared with control flies (risk ratio 3.3, P < .01) while flies who were concussed and cooled had a risk ratio of 2.7 (P < .01). Flies with rTBI were almost 4 times likely to prefer the dark environment but only 3 times as likely if they were cooled, compared with controls. Geotaxis was significantly affected by rTBI only and yet less so if rTBI flies were cooled.

Conclusions: Hypothermia successfully mitigated many deleterious effects of single TBI and rTBI in Drosophila and may represent a promising breakthrough in the treatment of human TBI.

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