CENTRAL FATIGUE DURING CONSTANT CADENCE PEDALING FOR 60 SECONDS-A TRANSCRANIAL MAGNETIC STIMULATION STUDY
- VernacularTitle:経頭蓋的磁気刺激による60秒間の定常的なペダリング運動時の中枢性疲労の検討
- Author:
TAKASHI ENDOH
;
MASASHI MITAMURA
;
REI TAKAHASHI
;
TOMOYOSHI KOMIYAMA
- Publication Type:Journal Article
- Keywords:
leg cycling;
fatigue;
MEP;
EMG;
silent period
- From:Japanese Journal of Physical Fitness and Sports Medicine
2003;52(5):565-574
- CountryJapan
- Language:Japanese
-
Abstract:
Changes in the motor evoked potential (MEP) evoked by transcranial magnetic motor cortex stimulation (TMS) of rectos femoris (RF) and vastus lateralis (VL) was examined during constant cadence cycling tasks for 60 sec. Subjects were 11 normal male volunteers aged between 19 and 25 years. Pedaling load was set at 100% and 80% of the estimated optimal value for maximum anaerobic power output. For the low load task (LL task), the pedaling rate was set at half the value of the maximum pedaling rate with the load set at 80% of the optimal for maximum anaerobic power output. For the high load task (HL task), the pedaling rate was set such that the power was equivalent to the LL task.
The route mean square of the electromyographic (EMG) activity amplitude tended to steeply increase during the latter half of the task. The magnitude of the increase in the RMS was significantly larger in the HL task than the LL task. The area of the MEP also tended to increase in both tasks, though the degree of the increase was significantly larger in the LL task than the HL task. The EMG silent period (SP) after the MEP tended to steeply increase just after the task initiation and to decrease in the latter half of the task in the HL task. However, in the LL task the facilitation of MEP was not found, but it showed a gradual decrease while performing the task. The duration of the MEP tended to increase in both tasks, though the degree of the increase in the VL was significantly larger in the LL task than the HL task. The linear regression analysis between the size of the MEP and the background EMG shows a significant positive correlation coefficient during isometric contraction, but not during the two types of cycling tasks.
These results suggest that the neural circuit responsible for the MEP was controlled differentially during isometric contraction and constant cadence pedaling. Also it is likely that the mechanism of central fatigue differed depending on the cadence and or load in a task-dependent fashion irrespective of the same power output.
