Heart and breathing rate variability in the avian perinatal period: The chicken embryo as a model

IF 0.5 4区 农林科学 Q4 AGRICULTURE, DAIRY & ANIMAL SCIENCE Avian Biology Research Pub Date : 2019-01-01 DOI:10.1177/1758155919832137
Satoko T Tomi, Ryoji Ide, J. Mortola
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引用次数: 3

Abstract

We used the chicken embryo at the internal pipping phase (just after the onset of pulmonary ventilation) as a model to quantify the changes in heart rate (fH), breathing frequency (fB) and their variabilities (heart rate variability and breathing rate variability) during air breathing (21% O2) and successive 20-min periods of 15%, 10% and 5% O2 and post-hypoxic recovery. For each condition, and for both fH and fB, variability was quantified by time-domain analysis with five standard criteria; these produced qualitatively similar results, which were combined into a single variability index. In normoxia, breathing rate variability was about five times higher than heart rate variability. With 10% O2, the embryo’s oxygen consumption ( V . O 2 ) and breathing rate variability decreased while heart rate variability increased. In normoxia, respiratory sinus arrhythmia was recognisable in a minority of embryos; its average value was low (~2%) and decreased further with hypoxia. With very severe hypoxia (5% O2), in some cases, breathing stopped; when it did not, breathing rate variability was high. Within the 20-min post-hypoxia, all embryos recovered, and almost all parameters (fH, heart rate variability, fB, respiratory sinus arrhythmia and V . O 2 ) were at the pre-hypoxic values; only breathing rate variability remained low. The possibility of simultaneous measurements of fB and fH makes the avian embryo, close to hatching, a suitable model for the investigations of heart rate variability and breathing rate variability in response to hypoxia during the transition from prenatal to postnatal life.
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家禽围产期心脏和呼吸速率变异性:以鸡胚为模型
我们使用处于内插管阶段(肺通气刚开始后)的鸡胚作为模型来量化空气呼吸(21%O2)和15%、10%和5%O2的连续20分钟以及缺氧后恢复期间心率(fH)、呼吸频率(fB)及其变异性(心率变异性和呼吸率变异性)的变化。对于每种情况,以及fH和fB,通过五个标准的时域分析来量化变异性;这些结果在质量上相似,并合并为一个单一的变异性指数。在常氧状态下,呼吸频率变异性大约是心率变异性的五倍。当氧气浓度为10%时,胚胎的耗氧量(V2)和呼吸频率变异性降低,而心率变异性增加。在常氧状态下,少数胚胎可识别出呼吸窦性心律失常;其平均值较低(~2%),并随着缺氧而进一步降低。在非常严重的缺氧(5%O2)的情况下,在某些情况下,呼吸停止;如果没有,呼吸频率的变异性很高。在缺氧后20分钟内,所有胚胎都恢复了,几乎所有参数(fH、心率变异性、fB、呼吸窦性心律失常和V2)都处于缺氧前的值;只有呼吸频率变异性保持较低。同时测量fB和fH的可能性使接近孵化的禽胚胎成为研究从产前到产后生活过渡期间缺氧时心率变异性和呼吸频率变异性的合适模型。
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来源期刊
Avian Biology Research
Avian Biology Research 农林科学-奶制品与动物科学
CiteScore
1.50
自引率
0.00%
发文量
17
审稿时长
2 months
期刊介绍: Avian Biology Research provides a forum for the publication of research in every field of ornithology. It covers all aspects of pure and applied ornithology for wild or captive species as well as research that does not readily fit within the publication objectives of other ornithological journals. By considering a wide range of research fields for publication, Avian Biology Research provides a forum for people working in every field of ornithology.
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