Although muscle deconditioning appears to significantly limit peak exercise performance post-thoracic organ transplantation, few confirmatory data exist. Potassium (K+) regulation during exercise may reflect muscle deconditioning, since both peak plasma K+ concentration ([K+]) and the increase in plasma [K+] relative to energy expenditure (delta [K+]/W) are reduced in healthy individuals after training. This study compares delta [K+]/W during graded exercise and the change in [K+] (delta [K+]) during both exercise and recovery in 12 heart transplant (HT) recipients, 14 lung transplant (LT) recipients, and 7 healthy subjects. Plasma [K+] was determined from arterial blood sampled at rest; during the final 15 s of each power output; and at 1, 2, and 5 min postexercise. Peak oxygen consumption was significantly lower (P < 0.0001), whereas delta [K+]/W was significantly higher (P < 0.002) among the HT and LT groups. When delta [K+] during recovery was expressed relative to delta [K+] detected during activity, no difference at 1, 2, or 5 min postexercise was detected, although the absolute fall in plasma [K+] was greater among the healthy subjects in the 1st min (P < 0.0001). The rate of delta [K+] during recovery appears to reflect the rise seen during activity in all groups. These results suggest that [K+] regulation is altered during exercise in both HT and LT recipients and may reflect muscle deconditioning.
Is alternative cardiac surgery an option in adults with congenital heart disease referred for thoracic organ transplantation?†
