Different narcotic gases and concentrations for immobilization of ostrich embryos for in-ovo imaging

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
O. Perkas, A. Schmidt, C. Kuehnel, J. Greiser, H. Hermeyer, C. Klingner, M. Freesmeyer, T. Winkens
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Abstract

In-ovo imaging using avian eggs has been described as a potential alternative to animal testing using rodents. However, imaging studies are hampered by embryonal motion producing artifacts. This study aims at systematically comparing isoflurane, desflurane and sevoflurane in three different concentrations in ostrich embryos. Biomagnetic signals of ostrich embryos were recorded analyzing cardiac action and motion. Ten groups comprising eight ostrich embryos each were investigated: Control, isoflurane (2%, 4%, and 6%), desflurane (6%, 12%, and 18%) and sevoflurane (3%, 5%, and 8%). Each ostrich egg was exposed to the same narcotic gas and concentration on development day (DD) 31 and 34. Narcotic gas exposure was upheld for 90 min and embryos were monitored for additional 75 min. Toxicity was evaluated by verifying embryo viability 24 h after the experiments. Initial heart rate of mean 148 beats/min (DD 31) and 136 beats/min (DD 34) decreased over time by 44–48 beats/minute. No significant differences were observed between groups. All narcotic gases led to distinct movement reduction after mean 8 min. Embryos exposed to desflurane 6% showed residual movements. Isoflurane 6% and sevoflurane 8% produced motion-free time intervals of mean 70 min after discontinuation of narcotic gas exposure. Only one embryo death occurred after narcotic gas exposure with desflurane 6%. This study shows that isoflurane, desflurane and sevoflurane are suitable for ostrich embryo immobilization, which is a prerequisite for motion-artifact free imaging. Application of isoflurane 6% and sevoflurane 8% is a) safe as no embryonal deaths occurred after exposure and b) effective as immobilization was observed for approx. 70 min after the end of narcotic gas exposure. These results should be interpreted with caution regarding transferability to other avian species as differences in embryo size and incubation duration exist.
用于固定鸵鸟胚胎以进行体内成像的不同麻醉气体和浓度
使用禽蛋进行体内成像被认为是使用啮齿类动物进行动物试验的潜在替代方法。然而,成像研究受到胚胎运动产生的伪影的影响。本研究旨在对鸵鸟胚胎中三种不同浓度的异氟醚、地氟醚和七氟醚进行系统比较。研究人员记录了鸵鸟胚胎的生物磁信号,分析其心脏运动和运动情况。研究共分十组,每组八只鸵鸟胚胎:对照组、异氟烷(2%、4% 和 6%)、地氟烷(6%、12% 和 18%)和七氟烷(3%、5% 和 8%)。每枚鸵鸟蛋在发育第 31 天和第 34 天暴露于相同浓度的麻醉气体中。麻醉气体暴露持续 90 分钟,并对胚胎进行额外 75 分钟的监测。通过验证实验后 24 小时的胚胎存活率来评估毒性。初始心率平均为 148 次/分钟(DD 31)和 136 次/分钟(DD 34),随着时间的推移下降了 44-48 次/分钟。各组之间无明显差异。平均 8 分钟后,所有麻醉气体都会导致运动明显减少。暴露于 6% 地氟醚的胚胎显示出剩余运动。6% 的异氟烷和 8% 的七氟烷在停止麻醉气体接触后产生的无运动时间间隔平均为 70 分钟。只有一个胚胎在地氟醚 6% 麻醉气体暴露后死亡。这项研究表明,异氟醚、地氟醚和七氟醚都适用于鸵鸟胚胎固定,这是无运动伪影成像的先决条件。使用 6% 的异氟醚和 8% 的七氟醚 a) 安全,因为接触后没有胚胎死亡;b) 有效,因为在麻醉气体接触结束后约 70 分钟内都能观察到固定情况。由于胚胎大小和孵化时间存在差异,因此在解释这些结果时应注意是否可用于其他禽类物种。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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