Reliability of Capillary Blood Gas Measurements in Paralympic Sprinters at Rest: A Pilot Study
Thiago Fernando Lourenço, Samuel Bento da Silva, Vinícius Miguel Zanetti, Ana Gabriela Almeida Maximo Pereira, João Vitor Ichikawa Quintella, Oriane Martins, Amaury Verissimo, Lazaro Alessandro Soares Nunes

TL;DR
This pilot study shows that capillary blood gas measurements are reliable for Paralympic sprinters at rest, supporting their use in athlete training.
Contribution
The study is the first to demonstrate the reliability of point-of-care blood gas measurements in high-performance Paralympic athletes.
Findings
No significant differences were found in acid-base variables across triplicate measurements.
Strong and significant relationships were observed between all analyzed variables.
Measurements showed excellent reliability with consistency ranging from 0.88 to 1.00.
Abstract
Background: Sports scientists have increasingly used point-of-care methods for training load management, and blood gas analysis has shown promise in this area. However, the reproducibility of this method in high-performance athletes remains unproven. Objective: The aim of this study was to verify the reliability of acid-base variables at rest in high-performance Paralympic sprinters. Methods: Seven athletes participated, including four with visual impairments (class T12 and T13) and three with physical impairments. Approximately 500 µL of capillary blood was obtained from the fingertip and analyzed in triplicate (Samples 1, 2, and 3) using the Epoc System® (Ottawa, ON, Canada) to measure pH, carbonic dioxide partial pressure (pCO2), bicarbonate ion (HCO3−), base excess (BE), hematocrit (Hct), hemoglobin concentration (Hb), creatinine (CRE), and urea concentration (URE). Results: No…
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Taxonomy
TopicsHigh Altitude and Hypoxia · Cardiovascular and exercise physiology · Sports Performance and Training
