Chronic heart failure significantly reduced capillary red blood cell velocity during muscle contractions in rats compared to controls (222 vs 428 microm/s, P<0.05).
Absolute Event Rate: 222% vs 428%
p-value: p=<0.05
Chronic heart failure (CHF) reduces muscle blood flow at rest and during exercise and impairs muscle function. Using intravital microscopy techniques, we tested the hypothesis that the speed and amplitude of the capillary red blood cell (RBC) velocity (VRBC) and flux (FRBC) response to contractions would be reduced in CHF compared with control (C) spinotrapezius muscle. The proportion of capillaries supporting continuous RBC flow was less (P 0.05) between CHF and C. Thus CHF impairs diffusive and conductive O2 delivery across the rest-to-contractions transition in rat skeletal muscle, which may help explain the slowed O2 uptake on-kinetics manifested in CHF patients at exercise onset.
Building similarity graph...
Analyzing shared references across papers
Loading...
Journal of Applied Physiology
Kansas State University
Add This Paper to Your Research Feed
Any time a new paper drops it will be there.
Richardson et al. (Mon,) conducted a other in Chronic heart failure. Chronic heart failure (disease model) vs. Healthy control was evaluated on Capillary red blood cell velocity (VRBC) during contractions (p=<0.05). Chronic heart failure significantly reduced capillary red blood cell velocity during muscle contractions in rats compared to controls (222 vs 428 microm/s, P<0.05).
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: