The Effect of Hypoxic Exercise Combined with Crocodile Blood Supplementation on Aerobic Capacity and Hematological Variables in Athletes

Physical Education Theory and Methodology Pub Date : 2024-02-29 DOI:10.17309/tmfv.2024.1.12

Worrawut Thuwakum, Apiwan Manimmanakorn, W. Chaeychomsri, Jindawan Siruntawineti, Sasithorn Sukjit

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Abstract

Study purpose. This study aimed to compare the effects of hypoxic exercise combined with crocodile blood supplementation on hematological and maximum oxygen consumption parameters in soccer players. Materials and methods. This study included 39 male soccer players aged 21.69 ± 1.98 years who were randomized to three groups. All groups performed the same training program, which comprised treadmill exercise at 70%–75% of maximum heart rate for 7 weeks with sessions of 30 min/day and 3 days per week. The first group was the control placebo group (CG, n = 13), the second group received one capsule per day (60 mg) of a freeze-dried crocodile blood supplement (SUP, n = 13), and the third group received the freeze-dried crocodile blood supplement and performed the training program under hypoxic conditions (H-SUP, n = 13, FiO2 = 16.3%). A hematological evaluation was conducted and maximal oxygen uptake (VO2max) was measured using the Bruce protocol treadmill test. Results. The H-SUP group demonstrated significantly higher erythropoietin (EPO) levels (14.40 ± 2.41 mIU/mL) compared to the SUP group (11.50 ± 2.08 mIU/mL) and CG (12.01 mIU/mL) after the intervention. From pre- to post-intervention, VO2max significantly increased in the H-SUP (Pre: 45.63 ± 4.75, Post: 49.33 ± 5.81) and SUP groups (Pre: 44.59 ± 4.75, Post: 47.30 ± 5.68) but not in the CG. Conclusions. This study reveals that a combination of freeze-dried crocodile blood supplementation and hypoxic exercise causes hematological alterations, particularly the activation of EPO secretion, and increases VO2max in soccer players.

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低氧运动结合鳄鱼血补充剂对运动员有氧能力和血液学变量的影响

研究目的本研究旨在比较缺氧运动结合鳄鱼血补充剂对足球运动员血液学和最大耗氧量参数的影响。材料和方法。本研究包括 39 名男性足球运动员，年龄为 21.69 ± 1.98 岁，他们被随机分为三组。所有组别均进行相同的训练计划，即以最大心率的 70%-75% 进行跑步机运动，为期 7 周，每天 30 分钟，每周 3 天。第一组为安慰剂对照组（CG，n = 13），第二组每天服用一粒（60 毫克）冻干鳄鱼血补充剂（SUP，n = 13），第三组服用冻干鳄鱼血补充剂并在缺氧条件下进行训练（H-SUP，n = 13，FiO2 = 16.3%）。进行了血液学评估，并使用布鲁斯方案跑步机测试测量了最大摄氧量（VO2max）。结果显示干预后，H-SUP 组的红细胞生成素（EPO）水平（14.40 ± 2.41 mIU/mL）明显高于 SUP 组（11.50 ± 2.08 mIU/mL）和 CG 组（12.01 mIU/mL）。从干预前到干预后，H-SUP 组（干预前：45.63 ± 4.75，干预后：49.33 ± 5.81）和 SUP 组（干预前：44.59 ± 4.75，干预后：47.30 ± 5.68）的 VO2max 显著增加，但 CG 组没有增加。结论本研究揭示了冻干鳄鱼血补充剂与低氧运动相结合会导致血液学改变，特别是激活 EPO 分泌，并提高足球运动员的 VO2max。

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Physical Education Theory and Methodology

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