The crucial role of diverse animal models to investigate cochlear aging and hearing loss

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Karen Castaño-González , Christine Köppl , Sonja J. Pyott
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Abstract

Age-related hearing loss affects a large and growing segment of the population, with profound impacts on quality of life. Age-related pathology of the cochlea—the mammalian hearing organ—underlies age-related hearing loss. Because investigating age-related changes in the cochlea in humans is challenging and often impossible, animal models are indispensable to investigate these mechanisms as well as the complex consequences of age-related hearing loss on the brain and behavior. In this review, we advocate for a comparative and interdisciplinary approach while also addressing the challenges of comparing age-related hearing loss across species with varying lifespans. We describe the experimental advantages and limitations as well as areas for future research in well-established models of age-related hearing loss, including mice, rats, gerbils, chinchillas, and birds. We also indicate the need to expand characterization of age-related hearing loss in other established animal models, especially guinea pigs, cats, and non-human primates, in which auditory function is well characterized but age-related cochlear pathology is understudied. Finally, we highlight the potential of emerging animal models for advancing our understanding of age-related hearing loss, including deer mice, with their notably extended lifespans and preserved hearing, naked mole rats, with their exceptional longevity and extensive vocal communications, as well as zebrafish, which offer genetic tractability and suitability for drug screening. Ultimately, a comparative and interdisciplinary approach in auditory research, combining insights from various animal models with human studies, is key to robust and reliable research outcomes that better advance our understanding and treatment of age-related hearing loss.

多种动物模型在研究耳蜗老化和听力损失方面的关键作用
与年龄相关的听力损失影响着大量且日益增长的人口,对生活质量造成了深远的影响。哺乳动物听觉器官--耳蜗与年龄相关的病变是老年性听力损失的根源。由于研究人类耳蜗中与年龄相关的变化具有挑战性,而且往往是不可能的,因此动物模型对于研究这些机制以及与年龄相关的听力损失对大脑和行为的复杂影响是不可或缺的。在这篇综述中,我们主张采用比较和跨学科的方法,同时也探讨了在不同寿命的物种间比较年龄相关性听力损失所面临的挑战。我们介绍了小鼠、大鼠、沙鼠、龙猫和鸟类等成熟的老年性听力损失模型的实验优势和局限性,以及未来的研究领域。我们还指出有必要扩大对其他已建立的动物模型,特别是豚鼠、猫和非人灵长类动物的年龄相关性听力损失的描述,这些动物的听觉功能已得到很好的描述,但对年龄相关性耳蜗病理学的研究却不足。最后,我们强调了新出现的动物模型在促进我们对老年性听力损失的了解方面所具有的潜力,这些动物模型包括鹿小鼠(其寿命明显延长且听力得以保存)、裸鼹鼠(其寿命超长且具有广泛的发声交流能力)以及斑马鱼(其遗传易感性和适合药物筛选)。归根结底,在听觉研究中采用比较和跨学科的方法,将各种动物模型的见解与人类研究相结合,是取得稳健可靠的研究成果,更好地促进我们对老年性听力损失的理解和治疗的关键。
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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