时间分辨和光谱分辨光学成像研究鸣禽脑血流动力学

S. Mottin, B. Montcel, H. G. D. Chatellus, S. Ramstein, C. Vignal
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引用次数: 0

摘要

与关于哺乳动物脑氧动力学及其解耦的激烈争论相反,对鸟类的了解很少。在斑胸草雀中,皮秒光学断层扫描(POT)与白色激光和条纹相机可以测量生理刺激(熟悉的叫声和歌声)后体内氧血红蛋白(HbO2)和脱氧血红蛋白(Hb)浓度的变化。POT具有足够的亚微摩尔灵敏度,能够以250µm的分辨率分辨海马和前脑听觉区的快速变化。时间过程由(i)早期2s事件组成,Hb和HbO2分别显著下降,分别为-0.7µmol /L和-0.9µmol /L; (ii)随后血氧可用性增加,HbO2平台(+0.3µmol /L); (iii)刺激结束后立即发生明显的血管扩张事件。我们工作的发现之一是先前在鸟类中发表的血氧水平依赖(BOLD)信号与我们的结果之间的直接联系。此外,早期血管收缩事件和刺激后振铃似乎在鸟类中比在哺乳动物中更明显。鸟类是一种快速代谢的脊椎动物,寿命长,这些结果可能会产生新的见解,例如大脑衰老。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Time-resolved and spectral-resolved optical imaging to study brain hemodynamics in songbirds
Contrary to the intense debate about brain oxygen dynamics and its uncoupling in mammals, very little is known in birds. In zebra finches, picosecond optical tomography (POT) with a white laser and a streak camera can measure in vivo oxy-hemoglobin (HbO2) and deoxy-hemoglobin (Hb) concentration changes following physiological stimulation (familiar calls and songs). POT demonstrated sufficient sub-micromolar sensitivity to resolve the fast changes in hippocampus and auditory forebrain areas with 250 µm resolution. The time-course is composed of (i) an early 2s-long event with a significant decrease in Hb and HbO2, respectively -0.7 µMoles/L and -0.9 µMoles/L (ii) a subsequent increase in blood oxygen availability with a plateau of HbO2 (+0.3µMoles/L) and (iii) pronounced vasodilatation events immediately following the end of the stimulus. One of the findings of our work is the direct link between the blood oxygen level-dependent (BOLD) signals previously published in birds and our results. Furthermore, the early vasoconstriction event and post-stimulus ringing seem to be more pronounced in birds than in mammals. These results in bird, a tachymetabolic vertebrate with a long lifespan, can potentially yield new insights for example in brain aging.
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