K
Kim Mason
Researcher at Royal Melbourne Hospital
Publications - 3
Citations - 277
Kim Mason is an academic researcher from Royal Melbourne Hospital. The author has contributed to research in topics: Aerobic exercise & Exercise physiology. The author has an hindex of 3, co-authored 3 publications receiving 268 citations. Previous affiliations of Kim Mason include University of Melbourne & Victoria University, Australia.
Papers
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Journal ArticleDOI
Effects of haemoglobin normalization on quality of life and cardiovascular parameters in end‐stage renal failure
Lawrence P. McMahon,Kim Mason,Sandford L. Skinner,Caroline M. Burge,Leanne E. Grigg,Gavin J. Becker +5 more
TL;DR: There may be a significant haemodynamic and symptomatic advantage in maintaining a physiological [Hb] in haemodialysis patients, and a substantially higher dose of epoetin is required to maintain this level.
Journal ArticleDOI
Physical performance and associated electrolyte changes after haemoglobin normalization: a comparative study in haemodialysis patients.
Lawrence P. McMahon,Michael J. McKenna,Termboon Sangkabutra,Kim Mason,Simon Sostaric,Sandford L. Skinner,Caroline M. Burge,Brendan Murphy,D. P. Crankshaw +8 more
TL;DR: It is demonstrated that a physiological [Hb] improves, but does not normalize, exercise performance in end-stage renal failure, and both younger and older patients appear to benefit similarly from the enhanced oxygen transport.
Journal ArticleDOI
Impaired K+ regulation contributes to exercise limitation in end-stage renal failure
Termboon Sangkabutra,D. P. Crankshaw,D. P. Crankshaw,D. P. Crankshaw,Claudia Schneider,Claudia Schneider,Claudia Schneider,Steve F. Fraser,Steve F. Fraser,Steve F. Fraser,Simon Sostaric,Simon Sostaric,Simon Sostaric,Kim Mason,Kim Mason,Kim Mason,Caroline M. Burge,Caroline M. Burge,Caroline M. Burge,Sandford L. Skinner,Sandford L. Skinner,Sandford L. Skinner,Lawrence P. McMahon,Lawrence P. McMahon,Lawrence P. McMahon,Michael J. McKenna,Michael J. McKenna,Michael J. McKenna +27 more
TL;DR: It is suggested that disturbed K+ regulation in ESRF contributes to early muscle fatigue during exercise, thus causing reduced exercise performance.