Elucidating the combined effect of intermittent hypoxia training and acetazolamide on hypoxia induced hematological and physiological changes

IF 2.1 Q3 PHYSIOLOGY Current research in physiology Pub Date : 2022-01-01 DOI:10.1016/j.crphys.2022.07.004
Megha A. Nimje , Himadri Patir , Rajeshkumar Tirpude , Bhuvnesh Kumar
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Abstract

As the number of people travelling to altitude increases, the risk of life threatening medical emergencies also increases. It is important that we have effective strategies to minimize the risk of altitude illness. In this study, an attempt was made to investigate the combined effect of non-pharmacological (Intermittent hypoxia training; IHT) and pharmacological (acetazolamide; ACZ) intervention as a prophylactic strategy in order to minimize the risk of high altitude hypoxic related problems using rats as an animal model. Male Sprague Dawley rats were subjected to IHT for 4 h consecutively for 5 days at 12% FiO2 under normobaric conditions with and without oral ACZ administration at 25 mg/kg body weight. Validation of the intervention was performed by exposing the rats to extreme hypoxia (EH) at 8% FiO2 to further assess the effect of IHT and ACZ on hypoxic acclimatization. The principal findings of this study is that the combined effect of IHT and ACZ improves the arterial oxygenation by alterations in hemodynamics and in blood gasometry, thereby resulting into an increase in the oxygen carrying capacity of the blood with increase in SpO2 (peripheral oxygen saturation). The present study showed that the combined effect of IHT with ACZ could be refined as a prophylactic measure for better outcomes during altitude ascent and rapid altitude acclimatization rather than IHT or ACZ alone.

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阐明间歇性缺氧训练和乙酰唑胺对缺氧引起的血液学和生理变化的联合作用
随着前往高海拔地区旅行的人数增加,危及生命的医疗紧急情况的风险也在增加。重要的是,我们有有效的策略来减少高原疾病的风险。在这项研究中,试图探讨非药物(间歇性缺氧训练;IHT)和药理学(乙酰唑胺;以大鼠为动物模型,研究ACZ干预作为一种预防策略,以尽量减少高原缺氧相关问题的风险。在正常条件下,雄性sd大鼠在12% FiO2条件下连续4 h,连续5 d,同时和不同时口服ACZ (25 mg/kg体重)。通过将大鼠暴露在8% FiO2的极端缺氧(EH)中来验证干预措施,以进一步评估IHT和ACZ对缺氧适应的影响。本研究的主要发现是IHT和ACZ的联合作用通过改变血流动力学和血气测量来改善动脉氧合,从而导致血液携氧能力随着SpO2(外周氧饱和度)的增加而增加。本研究表明,IHT和ACZ的联合作用可以作为一种预防措施,在海拔上升和快速海拔适应过程中获得更好的结果,而不是单独使用IHT或ACZ。
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CiteScore
3.20
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0.00%
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0
审稿时长
62 days
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