276P Exploring muscle endurance in a neuromuscular population: insights from the assisted 6-minute cycling test combined with cardiopulmonary exercise testing and near-infrared spectroscopy

IF 2.7 4区医学 Q2 CLINICAL NEUROLOGY Neuromuscular Disorders Pub Date : 2024-10-01 DOI:10.1016/j.nmd.2024.07.094

W. Tang, C. de Monts, S. Montalvo, S. Dunaway Young, S. Salvatore, S. Khonde, S. Smith, N. Hageman, Y. Blumberg, P. Ataide, N. Ni Ghiollagain, D. Parker, M. Wheeler, J. Day, M. Wheeler, T. Duong

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Abstract

Assessing muscle endurance in weak individuals with neuromuscular disease (NMD) is challenging given physiological limitations. By integrating Cardiopulmonary Exercise Testing (CPET) and Near-Infrared Spectroscopy (NIRS) with the Assisted 6-Minute Cycling Test (A6MCT), we can explore the interplay of muscle oxygenation dynamics and metabolic demands during exercise. We collected data from 56 individuals with SMA (n=41,73.2%) and DMD (n=15,22.8%). Patients were 15-74 years (avg=30.5±13.2) and ranged in function (non-sitters=35.7%; sitters=44.6%; walkers=19.6%). Fatigability (%fatigue) during a maximal effort A6MCT was assessed by calculating the percent change in revolutions between first and last minute, while total work was determined by total revolutions. Peak aerobic capacity (peak VO2) was measured using a metabolic cart (K5 COSMED USA), while changes in deoxygenated hemoglobin were measured by NIRS sensors placed on biceps and triceps (ΔHHbb;ΔHHbt). Perceived exertion at the end of the 6-minutes (OMNI score) was collected, as were peak heartrate (peak HR) during exercise and Forced Vital Capacity (FVC%) at rest. Baseline analysis revealed that total revolutions positively correlated with FVC% (r=0.663; p=0.003), peak VO2 (r=0.753; p<.001), and peak HR (r=0.500; p=0.008). Meanwhile, OMNI score is correlated with peak VO2 (r=0.444; p=0.034) and peak HR (r=0.700; p<0.001). When assessing NIRS, mean HHb in biceps during exercise is positively correlated with peak VO2 (r=0.537; p=0.008), while mean HHb recovery in biceps is inversely correlated with %Fatigue (r=-0.475; p=0.011). The observed correlations between ventilation and muscle oxygen uptake in individuals with NMD reveal a distinctive mechanistic relationship that potentially influences endurance and fatigability. Further exploration combining these exercise testing modalities may yield valuable insights for assessing the metabolic demands of muscle performance during aerobic exercise. In addition, these findings may provide future direction for identifying underlying causes in the mismatch between ventilatory and peripheral oxygen uptake that leads to the increased fatigability in the NMD population.

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276P 探索神经肌肉人群的肌肉耐力：辅助 6 分钟自行车测试与心肺运动测试和近红外光谱分析相结合的启示

由于生理条件的限制，评估患有神经肌肉疾病（NMD）的虚弱者的肌肉耐力具有挑战性。通过将心肺运动测试（CPET）和近红外光谱（NIRS）与辅助 6 分钟自行车测试（A6MCT）相结合，我们可以探索运动过程中肌肉氧合动力学和代谢需求的相互作用。我们收集了 56 名 SMA（41 人，占 73.2%）和 DMD（15 人，占 22.8%）患者的数据。患者年龄在 15-74 岁之间（平均值=30.5±13.2），功能各异（不坐者=35.7%；坐者=44.6%；步行者=19.6%）。通过计算第一分钟和最后一分钟之间的转数变化百分比来评估最大努力 A6MCT 期间的疲劳度（疲劳百分比），而总功则通过总转数来确定。峰值有氧能力（峰值 VO2）通过代谢车（K5 COSMED USA）进行测量，而脱氧血红蛋白的变化则通过肱二头肌和肱三头肌上的近红外传感器（ΔHHbb;ΔHHbt）进行测量。收集了 6 分钟结束时的体力消耗感知（OMNI 分数）、运动时的峰值心率（峰值 HR）和休息时的强制生命容量（FVC%）。基线分析显示，总转数与 FVC%（r=0.663；p=0.003）、VO2 峰值（r=0.753；p<.001）和 HR 峰值（r=0.500；p=0.008）呈正相关。同时，OMNI 评分与峰值 VO2（r=0.444；p=0.034）和峰值 HR（r=0.700；p<0.001）相关。在评估近红外光谱时，运动时肱二头肌的平均 HHb 与峰值 VO2 呈正相关（r=0.537；p=0.008），而肱二头肌的平均 HHb 恢复与疲劳百分比呈反相关（r=-0.475；p=0.011）。在 NMD 患者中观察到的通气和肌肉摄氧量之间的相关性揭示了一种独特的机理关系，这种关系可能会影响耐力和疲劳性。结合这些运动测试模式的进一步探索可能会为评估有氧运动期间肌肉表现的代谢需求提供有价值的见解。此外，这些发现还可能为确定导致 NMD 患者疲劳度增加的通气和外周摄氧量不匹配的根本原因提供新的方向。

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来源期刊

Neuromuscular Disorders 医学-临床神经学

CiteScore

4.60

自引率

3.60%

发文量

543

审稿时长

53 days

期刊介绍： This international, multidisciplinary journal covers all aspects of neuromuscular disorders in childhood and adult life (including the muscular dystrophies, spinal muscular atrophies, hereditary neuropathies, congenital myopathies, myasthenias, myotonic syndromes, metabolic myopathies and inflammatory myopathies). The Editors welcome original articles from all areas of the field: • Clinical aspects, such as new clinical entities, case studies of interest, treatment, management and rehabilitation (including biomechanics, orthotic design and surgery). • Basic scientific studies of relevance to the clinical syndromes, including advances in the fields of molecular biology and genetics. • Studies of animal models relevant to the human diseases. The journal is aimed at a wide range of clinicians, pathologists, associated paramedical professionals and clinical and basic scientists with an interest in the study of neuromuscular disorders.