Search Results - Hamalainen, I.
- Showing 1 - 9 results of 9
-
1
-
2
Comparison of maximal anaerobic running tests on a treadmill and track
Nummela, A., Hämäläinen, I., Rusko, H.Published in Journal of Sports Sciences (2007)“…Hämäläinen, I.…”
-
3
Effect of hyperoxia on metabolic responses and recovery in intermittent exercise
Nummela, A., Hämäläinen, I., Rusko, H.Published in Scandinavian Journal of Medicine & Science in Sports (2002)“…Hämäläinen, I.…”
-
4
Effect of hyperoxia on metabolic responses and recovery in intermittent exercise
Nummela, A., Hamalainen, I., Rusko, H.Published in Scandinavian Journal of Medicine & Science in Sports (2002)“…Hamalainen, I.…”
-
5
Effect of hyperoxia on SaO2, blood pH and heart rate recovery during intermittent exercise
Nummela, A. T., Hämäläinen, I. T., Rusko, H. K.Published in Medicine & Science in Sports & Exercise (2000)“…Hämäläinen, I. T.…”
-
6
Training in hyperoxia improves 3000-m-running performance in national level athletes
Hämäläinen, I. T., Nummela, . T., Rusko, H. K.Published in Medicine & Science in Sports & Exercise (2000)“…Hämäläinen, I. T.…”
-
7
Explosive-strength training improves 5-km running time by improving running economy and muscle power
Paavolainen, L., Hakkinen, K., Hamalainen, I., Nummela, A., Rusko, H.Published in Journal of Applied Physiology (1999)“…Hamalainen, I.…”
-
8
SaO2, blood pH and lactate responses to intermittent exercise in normoxia and hyperoxia
Nummela, A. T., Hämäläinen, I. T., Rusko, H. K.Published in Medicine & Science in Sports & Exercise (1999)“…Hämäläinen, I. T.…”
-
9
Search Tools:
Related Subjects
short-distance running
anaerobic
blood
intermittent
load
long distance running
performance
recovery
O2
hypoxia
interval method
performance capacity
relation
sprint
test
track and field
training
O2-uptake
aerobic
biochemistry
carbohydrate
efficiency
endurance
ergometry
field test
heart rate
high-altitude training
immunity
lactate
load intensity