{"title":"在三种小鼠品系中验证雷马唑仑、美托咪定和丁吗啡醇混合物的麻醉效果。","authors":"Masaki Watanabe, Yuko Nikaido, Nobuya Sasaki","doi":"10.1538/expanim.23-0158","DOIUrl":null,"url":null,"abstract":"<p><p>Proper administration of anesthesia is indispensable for the ethical treatment of lab animals in biomedical research. Therefore, selecting an effective anesthesia protocol is pivotal for the design and success of experiments. Hence, continuous development and refinement of anesthetic agents are imperative to improve research outcomes and elevate animal welfare. \"Balanced anesthesia\" involves using multiple drugs to optimize efficacy while minimizing side effects. The medetomidine, midazolam, and butorphanol, called MMB, and medetomidine, alfaxalone, and butorphanol, called MAB, are popular in Japan. However, the drawbacks of midazolam, including its extended recovery time, and the narrow safety margin of MAB, have prompted research for suitable alternatives. This study replaced midazolam in the MMB combination with remimazolam (RMZ), which is noted for its ultra-short half-life. The resulting combination, called MRB, was effective in providing a wider safety margin compared to MAB while maintaining an anesthesia depth equivalent level to that of MMB in mice. Notably, MRB consistently exhibited better recovery scores after antagonist administration in contrast to MMB. Furthermore, the re-sedation phenomenon observed with MMB was not observed with MRB. The rapid metabolism of RMZ enables reliable anesthesia induction, circumventing the complications linked to MAB. Overall, MRB excelled in providing extended surgical anesthesia and swift post-antagonist recovery. These results highlight the potential of RMZ for broader animal research applications.</p>","PeriodicalId":12102,"journal":{"name":"Experimental Animals","volume":" ","pages":"223-232"},"PeriodicalIF":2.2000,"publicationDate":"2024-05-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11091355/pdf/","citationCount":"0","resultStr":"{\"title\":\"Validation of the anesthetic effect of a mixture of remimazolam, medetomidine, and butorphanol in three mouse strains.\",\"authors\":\"Masaki Watanabe, Yuko Nikaido, Nobuya Sasaki\",\"doi\":\"10.1538/expanim.23-0158\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Proper administration of anesthesia is indispensable for the ethical treatment of lab animals in biomedical research. Therefore, selecting an effective anesthesia protocol is pivotal for the design and success of experiments. Hence, continuous development and refinement of anesthetic agents are imperative to improve research outcomes and elevate animal welfare. \\\"Balanced anesthesia\\\" involves using multiple drugs to optimize efficacy while minimizing side effects. The medetomidine, midazolam, and butorphanol, called MMB, and medetomidine, alfaxalone, and butorphanol, called MAB, are popular in Japan. However, the drawbacks of midazolam, including its extended recovery time, and the narrow safety margin of MAB, have prompted research for suitable alternatives. This study replaced midazolam in the MMB combination with remimazolam (RMZ), which is noted for its ultra-short half-life. The resulting combination, called MRB, was effective in providing a wider safety margin compared to MAB while maintaining an anesthesia depth equivalent level to that of MMB in mice. Notably, MRB consistently exhibited better recovery scores after antagonist administration in contrast to MMB. Furthermore, the re-sedation phenomenon observed with MMB was not observed with MRB. The rapid metabolism of RMZ enables reliable anesthesia induction, circumventing the complications linked to MAB. Overall, MRB excelled in providing extended surgical anesthesia and swift post-antagonist recovery. 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引用次数: 0
摘要
在生物医学研究中,正确实施麻醉对于合乎道德地对待实验动物是不可或缺的。因此,选择有效的麻醉方案对实验的设计和成功至关重要。因此,不断开发和改进麻醉剂对改善研究成果和提高动物福利至关重要。"平衡麻醉 "是指使用多种药物,在优化药效的同时将副作用降至最低。在日本,美托咪定、咪达唑仑和丁吗啡醇(称为 MMB)以及美托咪定、阿法沙隆和丁吗啡醇(称为 MAB)很受欢迎。然而,咪达唑仑的缺点(包括恢复时间较长)和 MAB 的安全范围较窄,促使人们研究合适的替代品。这项研究将 MMB 组合中的咪达唑仑替换为瑞咪唑仑(RMZ),后者以其超短的半衰期而著称。由此产生的组合称为 MRB,与 MAB 相比,它能有效提供更宽的安全范围,同时在小鼠体内保持与 MMB 相当的麻醉深度。值得注意的是,与 MMB 相比,MRB 在施用拮抗剂后始终表现出更好的恢复评分。此外,在使用 MMB 时观察到的重新镇静现象在 MRB 上没有观察到。RMZ 的快速新陈代谢实现了可靠的麻醉诱导,避免了与 MAB 相关的并发症。总体而言,MRB 在延长手术麻醉时间和麻醉后迅速恢复方面表现出色。这些结果凸显了 RMZ 在更广泛的动物研究应用中的潜力。
Validation of the anesthetic effect of a mixture of remimazolam, medetomidine, and butorphanol in three mouse strains.
Proper administration of anesthesia is indispensable for the ethical treatment of lab animals in biomedical research. Therefore, selecting an effective anesthesia protocol is pivotal for the design and success of experiments. Hence, continuous development and refinement of anesthetic agents are imperative to improve research outcomes and elevate animal welfare. "Balanced anesthesia" involves using multiple drugs to optimize efficacy while minimizing side effects. The medetomidine, midazolam, and butorphanol, called MMB, and medetomidine, alfaxalone, and butorphanol, called MAB, are popular in Japan. However, the drawbacks of midazolam, including its extended recovery time, and the narrow safety margin of MAB, have prompted research for suitable alternatives. This study replaced midazolam in the MMB combination with remimazolam (RMZ), which is noted for its ultra-short half-life. The resulting combination, called MRB, was effective in providing a wider safety margin compared to MAB while maintaining an anesthesia depth equivalent level to that of MMB in mice. Notably, MRB consistently exhibited better recovery scores after antagonist administration in contrast to MMB. Furthermore, the re-sedation phenomenon observed with MMB was not observed with MRB. The rapid metabolism of RMZ enables reliable anesthesia induction, circumventing the complications linked to MAB. Overall, MRB excelled in providing extended surgical anesthesia and swift post-antagonist recovery. These results highlight the potential of RMZ for broader animal research applications.
期刊介绍:
The aim of this international journal is to accelerate progress in laboratory animal experimentation and disseminate relevant information in related areas through publication of peer reviewed Original papers and Review articles. The journal covers basic to applied biomedical research centering around use of experimental animals and also covers topics related to experimental animals such as technology, management, and animal welfare.