Christopher S Apfelbach, Lady Catherine Cantor-Cutiva, Adrián Castillo-Allendes, Eric J Hunter
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引用次数: 0
摘要
喉部肌肉的生理机能是许多语言、声音、吞咽和呼吸功能的组成部分。肌肉收缩特性的关键决定因素,包括其疲劳特征和力量产生能力,是肌球蛋白重链(MyHC)同种异构体,在肌肉中占主导地位。本研究调查了有关哺乳动物喉内骨骼肌MyHC组成的文献,以说明喉肌纤维分型技术、模型和概念的趋势和差距。方法:系统检索Embase、Scopus、Medline、Web of Science、Cochrane等数据库,检索哺乳动物喉内肌MyHC组成的相关研究。根据系统评价的首选报告项目和荟萃分析(PRISMA)指南,确定了1531篇非重复论文;选取146份进行全文筛选。120篇论文被纳入最后的文献计量学分析,其目的是突出文献中的关键概念。结果:喉部MyHC研究的发表在21世纪初达到顶峰,此后开始下降。虽然早期的研究主要使用组织化学技术和大型哺乳动物模型(牛、羊、狗、马等),但实践已经发展到专注于大鼠和人类的电泳、免疫组织化学和转录组纤维分型技术。相对较少的研究考察了实验操作如何影响喉肌MyHC组成。讨论:喉肌生理学的三个领域缺乏大量的支持文献:(1)MyHC对训练和疾病等刺激的反应,(2)MyHC在整个生命周期中的可塑性,以及(3)肌纤维内MyHC的异质性(MyHC多态性)和跨肌纤维(MyHC的地形分布)。我们为这三个子领域的研究、教育和讨论提出了新的途径。
Techniques, Models, and Variables of Interest in Studies of Intrinsic Laryngeal Muscle Fiber Types: A Bibliometric Analysis.
Introduction: Laryngeal muscle physiology is integral to many speech, voice, swallowing, and respiratory functions. A key determinant of a muscle's contractile properties, including its fatigue profile and capacity for force production, is the myosin heavy chain (MyHC) isoform that predominates in the muscle. This study surveys literature on the MyHC compositions of mammalian intrinsic laryngeal skeletal muscle to illustrate trends and gaps in laryngeal muscle fiber typing techniques, models, and concepts.
Methods: The Embase, Scopus, Medline, Web of Science, and Cochrane databases were systematically searched for studies of mammalian intrinsic laryngeal muscle MyHC composition. Following Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines for systematic reviews, 1531 non-duplicate papers were identified; 146 were selected for full-text screening. One hundred twenty papers were included in the final bibliometric analysis, which aimed to highlight key concepts in the literature.
Results: Publication of intrinsic laryngeal MyHC studies peaked in the early 2000s and has since declined. Although early research predominantly used histochemical techniques and large mammalian models (cow, sheep, dog, horse, etc), practice has evolved to focus on electrophoretic, immunohistochemical, and transcriptomic fiber typing techniques in rats and humans. Comparatively few studies have examined how experimental manipulations affect laryngeal muscle MyHC composition.
Discussion: Three areas of laryngeal muscle physiology lack a large body of supporting literature: (1) MyHC responses to stimuli such as training and disease, (2) MyHC plasticity across the lifespan, and (3) MyHC heterogeneity within muscle fibers (MyHC polymorphisms) and across muscle fibers (topographical MyHC distribution). We propose new avenues for research, education, and discussion in these three subdomains.
期刊介绍:
The Journal of Voice is widely regarded as the world''s premiere journal for voice medicine and research. This peer-reviewed publication is listed in Index Medicus and is indexed by the Institute for Scientific Information. The journal contains articles written by experts throughout the world on all topics in voice sciences, voice medicine and surgery, and speech-language pathologists'' management of voice-related problems. The journal includes clinical articles, clinical research, and laboratory research. Members of the Foundation receive the journal as a benefit of membership.
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