K. Schunk et al., DYNAMIC (31)PHOSPHORUS MAGNETIC-RESONANCE SPECTROSCOPY OF THE QUADRICEPS MUSCLE - METABOLIC CHANGES RESULTING FROM 2 DIFFERENT FORMS OF EXERCISE, RoFo. Fortschritte auf dem Gebiete der Rontgenstrahlen und der neuenbildgebenden Verfahren, 166(4), 1997, pp. 317-323
Purpose: The aim of the present investigation was to examine the metab
olism of the quadriceps muscles of normal young individuals using dyna
mic (31)phosphorus magnetic resonance spectroscopy. Methods: 22 normal
individuals were examined in a 1.5 T-MRT using a 6 cm surface coil. T
he metabolic changes in the quadriceps muscle as shown by the phosphor
us spectrum were evaluated during rest, exercise (isometric and isoton
ic exercise) and during a 36-second period of recovery. Results: The P
-i/PCr quotient rose from its resting value of 0.11 +/- 0.02 following
exercise to a maximum of 0.83 +/- 0.47 (isometric) or 1.40 +/- 0.59 (
isotonic) (difference p=0.0001). Half-time recovery of P-i/PCr was 35
+/- 11 s or 31 +/- 10 s, respectively (p=0.13). During the recovery ph
ase P-i/ PCr fell briefly but significantly below its rest value. Foll
owing an initial rise in pH, there was a continual fall. Minimum pH (6
.68 +/- 0.21 and 6.53 +/- 0.27 respectively; p=0.01) occurred in the e
arly recovery phase. The recovery process of pH values lasted longer f
ollowing isotonic than after isometric exercise (half-value recovery t
ime 229 +/- 72 s and 146 +/- 55 s, respectively; p=0.001). Conclusion:
Compared with isometric exercise, isotonic stress is more expensive i
n terms of metabolism. Dynamic (31)phosphorus MRT spectroscopy can dif
ferentiate changes in muscle metabolism during different forms of exer
cise.