Abstract
Compromised limb blood flow in aging may contribute to the development of sarcopenia, frailty, and the metabolic syndrome. We developed a novel contrast-enhanced ultrasound technique using Sonovue™ to characterize muscle microvasculature responses to an oral feeding stimulus (15 g essential amino acids) in young (∼20 years) and older (∼70 years) men. Intensity-time replenishment curves were made via an ultrasound probe “fixed” over the quadriceps, with intermittent high mechanical index destruction of microbubbles within muscle vasculature. This permitted real-time measures of microvascular blood volume (MBV), microvascular flow velocity (MFV) and their product, microvascular blood flow (MBF). Leg blood flow (LBF) was measured by Doppler and insulin by enzyme-linked immunosorbent assay. Steady-state contrast concentrations needed for comparison between different physiological states were achieved <150 sec from commencing Sonovue™ infusion, and MFV and MBV measurements were completed <120 sec thereafter. Interindividual coefficients of variation in MBV and MFV were 35–40%, (N = 36). Younger men (N = 6) exhibited biphasic vascular responses to feeding with early increases in MBV (+36%, P < 0.008 45 min post feed) reflecting capillary recruitment, and late increases in MFV (+77%, P < 0.008) and MBF (+130%, P < 0.007 195 min post feed) reflecting more proximal vessel dilatation. Early MBV responses were synchronized with peak insulin but not increased LBF, while later changes in MFV and MBF occurred with insulin at post absorptive values but alongside increased LBF. All circulatory responses were absent in old men (N = 7). Thus, impaired postprandial circulation could impact age-related declines in muscle glucose disposal, protein anabolism, and muscle mass.
Highlights
Aging is the main risk factor for cardiovascular disease (Hayflick 2007) and age-related declines in blood flow to limbs could play a substantial role in a number of non-communicable diseases, for example, the metabolic syndrome (Lind and Lithell 1993; Goodwill and Frisbee 2012) and sarcopenia/frailty (Mitchell et al 2012)
We have developed and validated a novel short recording protocol using a widely available and clinically safe contrast agent, and revealed application in detecting subtle and temporal changes seen in muscle microvascular flow; we provide specific details of an important physiological phenomenon, viz, an age-related blunted microvascular recruitment in response to a feeding stimulus, that is, oral 15 g EAA, which acts to stimulate physiological insulinemia
We have provided the first description of the time course of muscle microvascular responses to feeding
Summary
Aging is the main risk factor for cardiovascular disease (Hayflick 2007) and age-related declines in blood flow to limbs could play a substantial role in a number of non-communicable diseases, for example, the metabolic syndrome (Lind and Lithell 1993; Goodwill and Frisbee 2012) and sarcopenia/frailty (Mitchell et al 2012). Whole-limb blood flow, adjusted for lean mass, is reduced (Dinenno et al 1999), due to both a decrease in capillary numbers (Coggan et al 1992) and increased sensitivity to vasoconstrictors, that is, a-adrenergic innervation and the renin-angiotensin aldosterone systems (Barrett-O’Keefe et al, 2013b). Exercise-associated increases in limb blood flow are diminished in older age (Donato et al 2006), potentially compromising O2 delivery, metabolite clearance and performance. Physiological Reports published by Wiley Periodicals, Inc. on behalf of the American Physiological Society and The Physiological Society.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
