William & Mary

Arts & Sciences

Publications

Abstracts

Harris, M. B., Swierbut, C. A., Cipolla, S. A., Krekstein, R. N., Srinvasan, S. R., & Kambis, K. W. (2023). Increased Oxygen Desaturation During Acute Hypoxia In Individuals With High Heart Rate Variability: 827. Medicine & Science in Sports & Exercise, 55(9S), 290.
Short, K. J., Roarty, M. C., Amaya, J., Kodali, S., Nylund, Z. J., Jackson, J. T., ... & Kambis, K. W. (2020). Resting Heart Rate Variability at Sea Level Predicts Arterial Desaturation during Acute Exercise in Hypoxia. The FASEB Journal, 34(S1), 1-1.
Becker, G. K., Embry, T. H., Short, K. J., Kambis, K. W., & Harris, M. B. (2019). Resting Heart Rate Variability at Sea Level does not Predict Arterial Desaturation or Ventilatory Responses to Acute Hypoxia Exposure. Medicine & Science in Sports & Exercise, 51(6S), 158-159.
Embry, T. H., Becker, G. K., Short, K. J., Kambis, K. W., & Harris, M. B. (2019). Arterial Desaturation during Moderate Aerobic Exercise in Hypoxia is Positively Correlated to VO2 Peak at Sea Level in Men and Women. Medicine & Science in Sports & Exercise, 51(6S), 159.
Yasukawa, M., Degarmo, A., Quiroga, L., Muza, S., & Kambis, K. (2018). PETCO2 in Women at Sea‐Level and Upon Acute Exposure to a Normobaric Hypoxic Environment Simulating 3,500 m. The FASEB Journal, 32, 909-1.
Kambis, K., Yasukawa, M., Degarmo, A., Quiroga, L., Barbour, V., Muza, S., & Looft‐Wilson, R. (2017). Effect of normobaric hypoxia simulating 3,500 m on SpO2 and workload in women during exercise at 65% VO2peak. The FASEB Journal, 31, 841-12.
Kambis, K. W., Yasukawa, M., Moran, T., & Sobel, B. (2012). Thirteen days of normobaric intermittent hypoxia increases SpO2 in a 71‐year‐old male. The FASEB Journal, 31 (S1), 841.12.