Metabolic Phenotyping from Whole-Blood Responses to a Standardized Exercise Test May Discriminate for Physiological, Performance, and Illness Outcomes: A Pilot Study in Highly-Trained Cross-Country Skiers

IF 4.1 2区 医学 Q1 SPORT SCIENCES Sports Medicine - Open Pub Date : 2024-09-18 DOI:10.1186/s40798-024-00770-0
Øyvind Karlsson, Andrew D. Govus, Kerry McGawley, Helen G. Hanstock
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Abstract

This study used metabolic phenotyping to explore the responses of highly-trained cross-country skiers to a standardized exercise test, which was part of the athletes’ routine testing, and determine whether metabolic phenotyping could discriminate specific physiological, performance, and illness characteristics. Twenty-three highly-trained cross-country skiers (10 women and 13 men) participated in this study. Capillary whole-blood samples were collected before (at rest) and 2.5 min after (post-exercise) a roller-ski treadmill test consisting of 5–6 × 4-min submaximal stages followed by a self-paced time trial (~ 3 min) and analyzed using mass spectrometry. Performance level was defined by International Ski Federation distance and sprint rankings. Illness data were collected prospectively for 33 weeks using the Oslo Sports Trauma Research Center Questionnaire on Health Problems. Orthogonal partial least squares-discriminant analyses (OPLS-DA) followed by enrichment analyses were used to identify metabolic phenotypes of athlete groups with specific physiological, performance, and illness characteristics. Blood metabolite phenotypes were significantly different after the standardized exercise test compared to rest for metabolites involved in energy, purine, and nucleotide metabolism (all OPLS-DA p < 0.001). Acute changes in the metabolic phenotype from rest to post-exercise could discriminate athletes with: (1) higher vs. lower peak blood lactate concentrations; (2) superior vs. inferior performance levels in sprint skiing, and (3) ≥ 2 vs. ≤ 1 self-reported illness episodes in the 33-week study period (all p < 0.05). The most important metabolites contributing to the distinction of groups according to (1) post-exercise blood lactate concentrations, (2) sprint performance, and (3) illness frequency were: (1) inosine, hypoxanthine, and deoxycholic acid, (2) sorbitol, adenosine monophosphate, and 2-hydroxyleuroylcarnitine, and (3) glucose-6-phosphate, squalene, and deoxycholic acid, respectively. Metabolic phenotyping discriminated between athlete groups with higher vs. lower post-exercise blood lactate concentrations, superior vs. inferior sprint skiing performance, and more vs. less self-reported illnesses. While the biological relevance of the identified biomarkers requires validation in future research, metabolic phenotyping shows promise as a tool for routine monitoring of highly-trained endurance athletes. • The standardized exercise test led to alterations in metabolites primarily involved in carbohydrate metabolism and the tricarboxylic acid cycle, purine/pyrimidines, and nucleoside/nucleotides. • Acute changes in metabolic phenotypes could differentiate athletes with higher vs. lower [La-]peak and superior vs. inferior sprint skiers, and between athletes who were susceptible vs. non-susceptible to illness. • Metabolic phenotyping shows promise as a tool for routine monitoring of endurance athletes if cost and turnaround time is improved.
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根据标准化运动测试的全血反应进行代谢表型分析可区分生理、运动表现和疾病结果:一项针对训练有素的越野滑雪者的试点研究
本研究使用代谢表型分析法来探讨训练有素的越野滑雪运动员对标准化运动测试(运动员常规测试的一部分)的反应,并确定代谢表型分析法是否能区分特定的生理、运动表现和疾病特征。23 名训练有素的越野滑雪运动员(10 名女性和 13 名男性)参加了这项研究。在滚轴滑雪跑步机测试前(休息时)和测试后 2.5 分钟(运动后)采集毛细血管全血样本,该测试包括 5-6 × 4 分钟的亚极速阶段,然后进行自定步调计时测试(约 3 分钟),并使用质谱法进行分析。成绩水平根据国际滑雪联合会的距离和冲刺排名确定。采用奥斯陆运动创伤研究中心的健康问题问卷调查法,前瞻性地收集了 33 周的疾病数据。采用正交偏最小二乘判别分析(OPLS-DA)和富集分析来确定具有特定生理、成绩和疾病特征的运动员群体的代谢表型。标准化运动测试后,血液中能量、嘌呤和核苷酸代谢的代谢物表型与静息时相比有显著差异(所有 OPLS-DA p < 0.001)。从静息到运动后代谢表型的急性变化可以区分出以下运动员:(1)血乳酸峰值浓度较高与较低;(2)短跑滑雪成绩较好与较差;(3)在 33 周的研究期间,自我报告的疾病发作次数≥ 2 次与≤ 1 次(均 p < 0.05)。根据(1)运动后血液乳酸浓度、(2)短跑成绩和(3)患病频率来区分组别,最重要的代谢物是(1)肌苷、次黄嘌呤和脱氧胆酸;(2)山梨醇、单磷酸腺苷和 2-羟基神经酰肉碱;(3)葡萄糖-6-磷酸、角鲨烯和脱氧胆酸。代谢表型可区分运动后血液乳酸浓度高与低的运动员组别、短跑滑雪成绩优与劣的运动员组别以及自我报告疾病多与少的运动员组别。虽然已确定的生物标志物的生物学相关性需要在未来的研究中进行验证,但代谢表型技术有望成为对训练有素的耐力运动员进行常规监测的工具。- 标准化运动测试导致主要涉及碳水化合物代谢和三羧酸循环、嘌呤/嘧啶和核苷/核苷酸的代谢物发生变化。- 新陈代谢表型的急性变化可区分[La-]峰值较高和较低的运动员,以及短跑滑雪运动员的优劣,还可区分易患病和不易患病的运动员。- 如果成本和周转时间得到改善,代谢表型有望成为对耐力运动员进行常规监测的一种工具。
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来源期刊
Sports Medicine - Open
Sports Medicine - Open SPORT SCIENCES-
CiteScore
7.00
自引率
4.30%
发文量
142
审稿时长
13 weeks
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