Effects of low oxygen intervals during exercise on human body function

Effects of intermittent hypoxia recovery on molecular, metabolic and neuromuscular variables

Status

Recruiting

Phases

Unknown

Study type

Interventional

Source

REBEC

Registry ID

RBR-2xq4vw4

Enrollment

Unknown

Registered

2024-08-27

Start date

2022-01-01

Completion date

Unknown

Last updated

2025-10-27

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Physical Functional Performance

Interventions

This is a randomized controlled clinical study involving a total of seventy healthy men. Three experiments will be conducted, with Experiment One including twenty participants, Experiment Two includin

G11.427.410.698.277.311.250

C23.888.852.079

Eligibility

Sex/Gender

Male

Age

18 Years to 35 Years

Inclusion criteria

Inclusion criteria: Man; healthy; aged 18 to 35 years old

Exclusion criteria

Exclusion criteria: History of anemia in the last six months; history of lower limb injury in the last six months; and presented low ferritin levels at the beginning of the experiment

Design outcomes

Primary

Measure	Time frame
It is expected that hypoxia during recovery will improve performance more than the other conditions	—

Secondary

Measure	Time frame
Establishing the temporal course of physiological responses and gene expression associated with muscular adaptations from various hypoxia exposure models combined with a HIIT model;Quantifying metabolic involvement and modulating fatigue arising from hypoxia exposure, focusing on the shift from aerobic to anaerobic metabolism and mitigating central and peripheral fatigue effects;Developing an optimized monitoring model for hypoxia training to enhance muscular reoxygenation and anaerobic participation while maintaining training quality;Find chronic benefits of different training models combined with hypoxia exposure, potentially benefiting both sports performance and health by exploring applications in conditions such as obesity, cardiovascular diseases, diabetes, and neurodegenerative disorders	—

Measure

Time frame

Establishing the temporal course of physiological responses and gene expression associated with muscular adaptations from various hypoxia exposure models combined with a HIIT model;Quantifying metabolic involvement and modulating fatigue arising from hypoxia exposure, focusing on the shift from aerobic to anaerobic metabolism and mitigating central and peripheral fatigue effects;Developing an optimized monitoring model for hypoxia training to enhance muscular reoxygenation and anaerobic participation while maintaining training quality;Find chronic benefits of different training models combined with hypoxia exposure, potentially benefiting both sports performance and health by exploring applications in conditions such as obesity, cardiovascular diseases, diabetes, and neurodegenerative disorders

—

Countries

Brazil

Contacts

Public ContactMatheus Norberto

Universidade de São Paulo

matheus.norberto@usp.br+55 (019) 999557080

Outcome results

None listed

Source: REBEC (via WHO ICTRP)

Effects of low oxygen intervals during exercise on human body function

Conditions

Related papers

Interventions

Sponsors

Eligibility

Inclusion criteria

Exclusion criteria

Design outcomes

Primary

Secondary

Countries

Contacts

Outcome results