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This study aims to examine whether erythrocyte carbonic anhydrase II can be used as a biological marker of metabolic adaptation to basketball-specific high-intensity interval training. Carbonic anhydrase II is an enzyme involved in acid-base balance and carbon dioxide transport, and it may reflect physiological adaptations to intense exercise.
Healthy basketball players participated in a structured high-intensity interval training program designed to reflect the physical demands of basketball. Blood samples and performance-related measurements were collected before and after the training period to evaluate changes in erythrocyte carbonic anhydrase II levels and related metabolic responses.
The findings of this study are expected to improve the understanding of exercise-induced metabolic adaptations and to explore the potential use of erythrocyte carbonic anhydrase II as a practical biomarker for monitoring training responses in basketball players.
Full description
This study was designed to investigate erythrocyte carbonic anhydrase II as a potential biomarker of metabolic adaptation to basketball-specific high-intensity interval training. Carbonic anhydrase II plays a key role in acid-base regulation and carbon dioxide transport, which are critical physiological processes during repeated high-intensity exercise.
Participants were healthy basketball players who completed a structured high-intensity interval training program reflecting the intermittent and high-demand nature of basketball activity. The training protocol consisted of repeated bouts of intense exercise interspersed with short recovery periods, consistent with established basketball-specific conditioning practices.
Blood samples were obtained at predefined time points to assess erythrocyte carbonic anhydrase II levels. These biochemical measurements were evaluated alongside selected performance and physiological indicators to characterize training-induced metabolic adaptations. All assessments were conducted under standardized conditions to minimize variability related to diet, hydration, and recent physical activity.
The study followed an observational pre-post design without clinical intervention beyond the prescribed training program. No experimental drugs or medical devices were used. Safety monitoring was conducted throughout the study period, and no serious adverse events were anticipated given the low-risk nature of the exercise protocol and the healthy status of the participants.
This study seeks to contribute to the growing body of research on exercise-related biomarkers by examining whether erythrocyte carbonic anhydrase II may provide practical insight into metabolic adaptation to sport-specific high-intensity training.
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Inclusion criteria
Healthy male and female basketball players aged 18 years or older
Actively participating in regular basketball training at the time of the study
Free from known cardiovascular, metabolic, or respiratory diseases
No musculoskeletal injury that could limit participation in high-intensity exercise
Willingness to participate in a basketball-specific high-intensity interval training program
Ability to provide written informed consent
Exclusion criteria
Presence of any diagnosed cardiovascular, metabolic, or respiratory disease
Use of medications or supplements known to affect metabolic or acid-base balance
Acute or chronic musculoskeletal injury within the previous three months
Participation in another structured training or research intervention during the study period
Failure to comply with the training protocol or assessment procedures
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24 participants in 1 patient group
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Data sourced from clinicaltrials.gov
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