Symmorphosis and skeletal muscle : <i>in vivo</i> and <i>in vitro</i> measures reveal differing constraints in the exercise‐trained and untrained human

Gifford, Jayson R.; Garten, Ryan S.; Nelson, Ashley D.; Trinity, Joel D.; Layec, Gwenael; Witman, Melissa A. H.; Weavil, Joshua C.; Mangum, Tyler S.; Hart, Corey R.; Etheredge, Cory; Jessop, Jake; Bledsoe, Amber D.; Morgan, David; Wray, D. Walter; Rossman, Matthew J.; Richardson, Russell S.

doi:10.1113/jp271229

Cited by 85 publications

(113 citation statements)

References 41 publications

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“…The observed dysmorphosis in trained subjects by Gifford et al (2) was not confirmed in our larger sample containing a wider range of V O 2 max (5). We did not intend to suggest that Gifford et al (2) based their results, challenging symmorphosis, on only four subjects.…”

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confidence: 92%

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Reply to Gifford et al.: Symmorphosis in chronic heart failure patients?

Zwaard

Ruiter

Noordhof

et al. 2016

Journal of Applied Physiology

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TO THE EDITOR: We thank Gifford and colleagues for their comment (3) and agree that the correlation between mitochondrial oxidative capacity and V O 2 max among our chronic heart failure (CHF) patients is not significant [r ϭ 0.47, P ϭ 0.11 (5)]. However, we disagree with their conclusion that the slope is "effectively 0/1" and that V O 2 max and mitochondrial oxidative capacity are dissociated in CHF patients. The fact that significance was not reached in this subgroup may also be due to insufficient statistical power, which appears to be the case. In the dissertation of Bekedam (1), group data of 18 CHF patients (including our CHF subgroup) showed that significance was reached (r ϭ 0.53, P Ͻ 0.05). Note that in this thesis individual data were not presented (1) and therefore were not included in our analysis (5). Hence, similar to controls and cyclists, CHF patients also conform to the concept of symmorphosis. Therefore, impaired peripheral oxygen supply in CHF not only reduces V O 2 max but also leads to a similar reduction in mitochondrial oxidative capacity.The observed dysmorphosis in trained subjects by Gifford et al. (2) was not confirmed in our larger sample containing a wider range of V O 2 max (5). We did not intend to suggest that Gifford et al. (2) based their results, challenging symmorphosis, on only four subjects. In our view, six of the trained subjects fitted the (extrapolated) relationship between V O 2 max and mitochondrial capacity of the untrained subjects rather well (cf. Fig. 4 in Ref.2). There are many possible explanations for this discrepancy in results (2, 5); however, a comparison of the reported data does not allow conclusions in this respect.Muscle fiber SDH activity does not explain all the variance in V O 2 max , indicating that other determinants of V O 2 max are also important. Note that the correlation between SDH activity and V O 2 max in single muscle fibers is very strong under well-controlled hyperoxic experimental conditions [r ϭ 0.98, P Ͻ 0.001 (4)]. Therefore, differences in oxygen supply related to the O 2 cascade from atmosphere to mitochondria may add to the unexplained variance in V O 2 max . In the CHF patients, 62% of the variance in V O 2 max is explained by a combination of SDH activity, myocardial ejection fraction and lung diffusion capacity [r 2 ϭ 0.62, P Ͻ 0.01 (1)]. Hence, the factors contributing to the unexplained variance in the relationship between mitochondrial oxidative capacity of skeletal muscle and V O 2 max are important both clinically as well as in sports science and warrant further research. Maximal oxygen uptake is proportional to muscle fiber oxidative capacity, from chronic heart failure patients to professional cyclists.

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confidence: 92%

“…We did not intend to suggest that Gifford et al (2) based their results, challenging symmorphosis, on only four subjects. In our view, six of the trained subjects fitted the (extrapolated) relationship between V O 2 max and mitochondrial capacity of the untrained subjects rather well (cf.…”

mentioning

confidence: 99%

Reply to Gifford et al.: Symmorphosis in chronic heart failure patients?

Zwaard

Ruiter

Noordhof

et al. 2016

Journal of Applied Physiology

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“…Estimation of peak quadriceps muscle O 2 utilization (Gifford et al . ), from in vitro mitochondrial respiration data, in patients with COPD is markedly greater (>0.40 l min −1 ) than the

{\dot{V}}_{normalM O_{2} normalpeak}

in the current patients with COPD (Gifford et al . , ).…”

Section: Discussionmentioning

confidence: 80%

Determinants of the diminished exercise capacity in patients with chronic obstructive pulmonary disease: looking beyond the lungs

Broxterman

Hoff

Wagner

et al. 2020

The Journal of Physiology

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Key pointsr Peak oxygen uptake, a primary determinant of prognosis, mortality and quality of life, is diminished in patients with chronic obstructive pulmonary disease (COPD), with mounting evidence supporting an important role for peripheral dysfunction, particularly within skeletal muscle.r In patients with severe COPD and activity-matched controls, muscle oxygen transport and utilization were assessed at peak effort during single-leg knee-extensor exercise (KE), where ventilation is assumed to be submaximal. This strategy removes ventilation as the major constraint to exercise capacity in COPD, allowing maximal muscle function to be attained and evaluated.r During maximal KE, both convective arterial oxygen delivery to the skeletal muscle microvasculature and subsequent diffusive oxygen delivery to the mitochondria were diminished in patients with COPD compared to control subjects.r These findings emphasize the importance of factors, beyond the lungs, that influence exercise capacity in this patient population and may, ultimately, influence the prognosis, mortality and quality of life for patients with COPD.Abstract Peak oxygen uptake (V O 2 peak ), a primary determinant of prognosis, mortality and quality of life, is diminished in patients with chronic obstructive pulmonary disease (COPD). Mounting evidence supports an important role of the periphery, particularly skeletal muscle, in the diminishedV O 2 peak with COPD. However, the peripheral determinants ofV O 2 peak have not been comprehensively assessed in this cohort. Thus, the hypothesis was tested that both muscle 600 R. M. Broxterman and others J Physiol 598.3convective and diffusive oxygen (O 2 ) transport, and therefore skeletal muscle peak O 2 uptake (V MO 2 peak ), are diminished in patients with COPD compared to matched healthy controls, even when ventilatory limitations (i.e. attainment of maximal ventilation) are minimized by using small muscle mass exercise. Muscle O 2 transport and utilization were assessed at peak exercise from femoral arterial and venous blood samples and leg blood flow (by thermodilution) in eight patients with severe COPD (forced expiratory volume in 1s (FEV 1 ) ± SEM = 0.9 ± 0.1 l, 30% of predicted) and eight controls during single-leg knee-extensor exercise. Both muscle convective O 2 delivery (0.44 ± 0.06 vs. 0.69 ± 0.07 l min −1 , P < 0.05) and muscle diffusive O 2 conductance (6.6 ± 0.8 vs. 10.4 ± 0.9 ml min −1 mmHg −1 , P < 0.05) were ß1/3 lower in patients with COPD than controls, resulting in an attenuatedV MO 2 peak in the patients (0.27 ± 0.04 vs. 0.42 ± 0.05 l min −1 , P < 0.05). When cardiopulmonary limitations to exercise are minimized, the convective and diffusive determinants ofV MO 2 peak , at the level of the skeletal muscle, are greatly attenuated in patients with COPD. These findings emphasize the importance of factors, beyond the lungs, that may ultimately influence this population's prognosis, mortality and quality of life.We are indebted to all of the participants for their time and effort expended to...

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“…Participants were grouped into those with low aerobic capacity (LO: n = 8, ≤45 mL kg −1 min −1 ), mid‐range (MID, n = 9, 46–55 mL kg −1 min −1 ) and those with high aerobic capacity (HI, n = 7, ≥56 mL kg −1 min −1 ) using similar reference ranges as in a previous study (Gifford et al. ). Analysis of deoxy‐ and total[Hb+Mb] was performed after correction for ATT to a thickness of 0 mm using linear regression of the relationship between total[Hb+Mb] and ATT at rest (Bowen et al.…”

Section: Methodsmentioning

confidence: 99%

“…; Gifford et al. ) and therefore the muscle deoxygenation/fractional O 2 extraction will reach a greater peak in fitter individuals (Ferreira et al. ; Gifford et al.…”

Section: Introductionmentioning

confidence: 99%

GreaterV̇O_2peakis correlated with greater skeletal muscle deoxygenation amplitude and hemoglobin concentration within individual muscles during ramp-incremental cycle exercise

et al. 2016

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It is axiomatic that greater aerobic fitness (trueV˙O2peak) derives from enhanced perfusive and diffusive O2 conductances across active muscles. However, it remains unknown how these conductances might be reflected by regional differences in fractional O2 extraction (i.e., deoxy [Hb+Mb] and tissue O2 saturation [StO2]) and diffusive O2 potential (i.e., total[Hb+Mb]) among muscles spatially heterogeneous in blood flow, fiber type, and recruitment (vastus lateralis, VL; rectus femoris, RF). Using quantitative time‐resolved near‐infrared spectroscopy during ramp cycling in 24 young participants (trueV˙O2peak range: ~37.4–66.4 mL kg−1 min−1), we tested the hypotheses that (1) deoxy[Hb+Mb] and total[Hb+Mb] at trueV˙O2peak would be positively correlated with trueV˙O2peak in both VL and RF muscles; (2) the pattern of deoxygenation (the deoxy[Hb+Mb] slopes) during submaximal exercise would not differ among subjects differing in trueV˙O2peak. Peak deoxy [Hb+Mb] and StO2 correlated with trueV˙O2peak for both VL (r = 0.44 and −0.51) and RF (r = 0.49 and −0.49), whereas for total[Hb+Mb] this was true only for RF (r = 0.45). Baseline deoxy[Hb+Mb] and StO2 correlated with trueV˙O2peak only for RF (r = −0.50 and 0.54). In addition, the deoxy[Hb+Mb] slopes were not affected by aerobic fitness. In conclusion, while the pattern of deoxygenation (the deoxy[Hb+Mb] slopes) did not differ between fitness groups the capacity to deoxygenate [Hb+Mb] (index of maximal fractional O2 extraction) correlated significantly with trueV˙O2peak in both RF and VL muscles. However, only in the RF did total[Hb+Mb] (index of diffusive O2 potential) relate to fitness.

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Symmorphosis and skeletal muscle : in vivo and in vitro measures reveal differing constraints in the exercise‐trained and untrained human

Cited by 85 publications

References 41 publications

Reply to Gifford et al.: Symmorphosis in chronic heart failure patients?

Reply to Gifford et al.: Symmorphosis in chronic heart failure patients?

Determinants of the diminished exercise capacity in patients with chronic obstructive pulmonary disease: looking beyond the lungs

GreaterV̇O_2peakis correlated with greater skeletal muscle deoxygenation amplitude and hemoglobin concentration within individual muscles during ramp-incremental cycle exercise

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Symmorphosis and skeletal muscle : in vivo and in vitro measures reveal differing constraints in the exercise‐trained and untrained human

Cited by 85 publications

References 41 publications

Reply to Gifford et al.: Symmorphosis in chronic heart failure patients?

Reply to Gifford et al.: Symmorphosis in chronic heart failure patients?

Determinants of the diminished exercise capacity in patients with chronic obstructive pulmonary disease: looking beyond the lungs

GreaterV̇O2peakis correlated with greater skeletal muscle deoxygenation amplitude and hemoglobin concentration within individual muscles during ramp-incremental cycle exercise

Contact Info

Product

Resources

About

GreaterV̇O_2peakis correlated with greater skeletal muscle deoxygenation amplitude and hemoglobin concentration within individual muscles during ramp-incremental cycle exercise