Maliszewski Kevin, Feldmann Andri, McCully Kevin K, Julian Ross
Department of Neuromotor Behavior and Exercise, Institute of Sport and Exercise Sciences, University of Münster, Münster, 48149, Germany.
Institute of Sport Science, University of Bern, Bern, Switzerland.
BMC Sports Sci Med Rehabil. 2024 Jan 20;16(1):25. doi: 10.1186/s13102-024-00809-5.
Phosphocreatine dynamics provide the gold standard evaluation of in-vivo mitochondrial function and is tightly coupled with oxygen availability. Low mitochondrial oxidative capacity has been associated with health issues and low exercise performance.
To evaluate the relationship between near-infrared spectroscopy-based muscle oxygen dynamics and magnetic resonance spectroscopy-based energy-rich phosphates, a systematic review of the literature related to muscle oxygen dynamics and energy-rich phosphates was conducted. PRISMA guidelines were followed to perform a comprehensive and systematic search of four databases on 02-11-2021 (PubMed, MEDLINE, Scopus and Web of Science). Beforehand pre-registration with the Open Science Framework was performed. Studies had to include healthy humans aged 18-55, measures related to NIRS-based muscle oxygen measures in combination with energy-rich phosphates. Exclusion criteria were clinical populations, laboratory animals, acutely injured subjects, data that only assessed oxygen dynamics or energy-rich phosphates, or grey literature. The Effective Public Health Practice Project Quality Assessment Tool was used to assess methodological quality, and data extraction was presented in a table.
Out of 1483 records, 28 were eligible. All included studies were rated moderate. The studies suggest muscle oxygen dynamics could indicate energy-rich phosphates under appropriate protocol settings.
Arterial occlusion and exercise intensity might be important factors to control if NIRS application should be used to examine energetics. However, more research needs to be conducted without arterial occlusion and with high-intensity exercises to support the applicability of NIRS and provide an agreement level in the concurrent course of muscle oxygen kinetics and muscle energetics.
磷酸肌酸动力学为体内线粒体功能提供了金标准评估,并且与氧供应紧密相关。线粒体氧化能力低与健康问题及运动表现差有关。
为评估基于近红外光谱的肌肉氧动力学与基于磁共振波谱的富含能量的磷酸盐之间的关系,对与肌肉氧动力学和富含能量的磷酸盐相关的文献进行了系统综述。遵循PRISMA指南于2021年11月2日对四个数据库(PubMed、MEDLINE、Scopus和Web of Science)进行全面系统的检索。事先在开放科学框架进行了预注册。研究必须纳入年龄在18 - 55岁的健康人,涉及基于近红外光谱的肌肉氧测量与富含能量的磷酸盐相关的测量。排除标准为临床人群、实验动物、急性受伤受试者、仅评估氧动力学或富含能量的磷酸盐的数据,或灰色文献。使用有效公共卫生实践项目质量评估工具评估方法学质量,并以表格形式呈现数据提取情况。
在1483条记录中,28条符合要求。所有纳入研究的评分均为中等。这些研究表明,在适当的方案设置下,肌肉氧动力学可以指示富含能量的磷酸盐情况。
如果应用近红外光谱来检查能量学,动脉闭塞和运动强度可能是需要控制的重要因素。然而,需要在无动脉闭塞和高强度运动的情况下进行更多研究,以支持近红外光谱法的适用性,并在肌肉氧动力学和肌肉能量学的同步过程中提供一致水平。
