Propofol and benzocaine anesthetics responses profiles in Nile tilapia

IF 1.4 Q3 MARINE & FRESHWATER BIOLOGY International Aquatic Research Pub Date : 2020-09-01 DOI:10.22034/IAR.2020.1895923.1026
B. Gonçalves, P. Giaquinto
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引用次数: 1

Abstract

Improving welfare in fish requires avoiding pain, stress, and suffering. Propofol, 2,6-diisopropylphenol, seems to be a good candidate as a fish anaesthetic, however, no study regarding propofol influence on Nile tilapia has yet been reported. With this aim, the efficiency of propofol and benzocaine was compared as anesthetic for fish following immersion exposure. Nile tilapia (Oreochromis niloticus) was used as model due its importance in aquaculture, been the most important fish for human consumption, where 4.5 million tonnes of fish are produced worldwide. At first, determination of effective anaesthetic concentrations to induce complete anesthesia was determined, under immersion, considering time to start decubitus stage. Then the magnitude of these anesthetics was tested, measuring its effects on time remaining in decubitus, posture recovery, ventilatory frequency (VF) and latency to feed. Benzocaine induced reduction of VF under decubitus. After the anesthetic effects, VF returned quickly to basal levels. The same pattern was observed for propofol, however with no return to basal levels after recovery. Time to start decubitus was similar in both anesthetic, but time to return was higher in propofol. The latency to feed was longer in fishes submitted to propofol. Thus, propofol is a more powerful anesthetic than benzocaine in Nile tilapia, with longer duration and deeper effect. Although the common usage of propofol is by intravenous injection, here we show that immersion is efficient as an anesthetic in fish and could be adopted as a protocol in experimentation as well aquaculture management. Analgesia in fish is an area in need of significant research as only a few studies exist and they provide some contrasting results.
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尼罗罗非鱼的丙泊酚和苯佐卡因麻醉剂反应谱
改善鱼类的福利需要避免疼痛、压力和痛苦。异丙酚,2,6-二异丙基苯酚,似乎是一种很好的鱼类麻醉剂,然而,尚未报道丙泊酚对尼罗罗非鱼影响的研究。为此,比较了丙泊酚和苯佐卡因作为鱼类浸泡后麻醉剂的效果。尼罗罗非鱼(Oreochromis niloticus)因其在水产养殖中的重要性而被用作模型,是人类消费的最重要的鱼类,全球生产450万吨鱼类。首先,确定诱导完全麻醉的有效麻醉剂浓度,在浸泡条件下,考虑到开始卧位阶段的时间。然后测试这些麻醉剂的量值,测量其对卧位剩余时间、姿势恢复、通气频率(VF)和进食潜伏期的影响。苯佐卡因在卧床不起状态下诱发VF减少。麻醉作用后,VF迅速恢复到基础水平。丙泊酚也观察到了同样的模式,但在恢复后没有恢复到基础水平。两种麻醉剂开始卧床不起的时间相似,但丙泊酚的恢复时间更高。丙泊酚给药的鱼类进食潜伏期较长。因此,在尼罗罗非鱼中,丙泊酚是一种比苯佐卡因更强效的麻醉剂,持续时间更长,效果更深。尽管丙泊酚的常用方法是静脉注射,但我们在这里表明,浸泡作为鱼类的麻醉剂是有效的,可以作为实验和水产养殖管理中的一种方案。鱼类镇痛是一个需要进行重大研究的领域,因为只有少数研究存在,它们提供了一些对比的结果。
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来源期刊
International Aquatic Research
International Aquatic Research MARINE & FRESHWATER BIOLOGY-
CiteScore
2.40
自引率
7.70%
发文量
0
审稿时长
12 weeks
期刊介绍: The journal (IAR) is an international journal that publishes original research articles, short communications, and review articles in a broad range of areas relevant to all aspects of aquatic sciences (freshwater and marine). The Journal specifically strives to increase the knowledge of most aspects of applied researches in both cultivated and wild aquatic animals in the world. The journal is fully sponsored, which means it is free of charge for authors. The journal operates a single-blind peer review process. The main research areas in aquatic sciences include: -Aquaculture- Ecology- Food science and technology- Molecular biology- Nutrition- Physiology- Water quality- Climate Change
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