TY - JOUR
T1 - Skeletal muscle deoxygenation abnormalities in early post-myocardial infarction
AU - Takagi, Shun
AU - Murase, Norio
AU - Kime, Ryotaro
AU - Niwayama, Masatsugu
AU - Osada, Takuya
AU - Katsumura, Toshihito
PY - 2014/11/10
Y1 - 2014/11/10
N2 - Purpose: Reduced peak aerobic capacity in chronic heart failure can be partly explained by impaired peripheral factors. However, skeletal muscle deoxygenation responses during exercise and their relation to peak aerobic capacity have not been fully established in early post-myocardial infarction (MI) patients.Methods: Patients early post-MI (age, 61 ± 9 yr; n = 16; 21 ± 8 d after the first MI) and age-, height-, and weight-matched control participants (age, 61 ± 9 yr; n = 18) performed a ramp cycling exercise until exhaustion. Near-infrared spectroscopy at the belly of the vastus lateralis muscle in the left leg was recorded continuously for measurement of skeletal muscle deoxygenation responses during exercise.Results: Peak oxygen uptake (18.4 ± 3.5 vs 28.2 ± 10.7 mL·kg-1Imin-1, P < 0.01) was significantly lower in MI. Change in muscle oxygen saturation from rest to peak exercise (ΔSmO2) was significantly greater in MI than that in controls (2.5% ± 5.6% vs -7.4% ± 3.4%, P < 0.01). Relative change in deoxygenated hemoglobin/myoglobin concentration from rest to peak exercise (Δdeoxy- Hb/Mb) was significantly lower in MI than that in controls (0.1 ± 3.6 vs 8.7 ± 6.4 KM, P < 0.01). In contrast, change in total hemoglobin/ myoglobin, which is an indicator of blood volume, was not significantly different between groups. Peak oxygen uptake was negatively correlated with ΔSmO2 (r = -0.53, P < 0.05) and positively associated with Δdeoxy-Hb/Mb at peak exercise (r = 0.65, P < 0.01) in MI.Conclusions: Skeletal muscle deoxygenation abnormalities were observed during dynamic cycling exercise in early post-MI patients. These abnormalities were related to impaired peak aerobic capacity in early post-MI patients.
AB - Purpose: Reduced peak aerobic capacity in chronic heart failure can be partly explained by impaired peripheral factors. However, skeletal muscle deoxygenation responses during exercise and their relation to peak aerobic capacity have not been fully established in early post-myocardial infarction (MI) patients.Methods: Patients early post-MI (age, 61 ± 9 yr; n = 16; 21 ± 8 d after the first MI) and age-, height-, and weight-matched control participants (age, 61 ± 9 yr; n = 18) performed a ramp cycling exercise until exhaustion. Near-infrared spectroscopy at the belly of the vastus lateralis muscle in the left leg was recorded continuously for measurement of skeletal muscle deoxygenation responses during exercise.Results: Peak oxygen uptake (18.4 ± 3.5 vs 28.2 ± 10.7 mL·kg-1Imin-1, P < 0.01) was significantly lower in MI. Change in muscle oxygen saturation from rest to peak exercise (ΔSmO2) was significantly greater in MI than that in controls (2.5% ± 5.6% vs -7.4% ± 3.4%, P < 0.01). Relative change in deoxygenated hemoglobin/myoglobin concentration from rest to peak exercise (Δdeoxy- Hb/Mb) was significantly lower in MI than that in controls (0.1 ± 3.6 vs 8.7 ± 6.4 KM, P < 0.01). In contrast, change in total hemoglobin/ myoglobin, which is an indicator of blood volume, was not significantly different between groups. Peak oxygen uptake was negatively correlated with ΔSmO2 (r = -0.53, P < 0.05) and positively associated with Δdeoxy-Hb/Mb at peak exercise (r = 0.65, P < 0.01) in MI.Conclusions: Skeletal muscle deoxygenation abnormalities were observed during dynamic cycling exercise in early post-MI patients. These abnormalities were related to impaired peak aerobic capacity in early post-MI patients.
KW - Cycling exercise
KW - Heart disease
KW - Microcirculation
KW - Near infrared spectroscopy
KW - Oxygen transport
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U2 - 10.1249/MSS.0000000000000334
DO - 10.1249/MSS.0000000000000334
M3 - Article
C2 - 24621961
AN - SCOPUS:84916930700
SN - 0195-9131
VL - 46
SP - 2062
EP - 2069
JO - Medicine and Science in Sports and Exercise
JF - Medicine and Science in Sports and Exercise
IS - 11
ER -