The capillary supply of human skeletal muscle in health and disease

Kadyan, Mamta.

January 1900

Thesis (M.S.)--Brock University, 2006. / Includes bibliographical references (leaves 83-112).

Muscles Capillaries Microcirculation.

A Model for the Flow of Blood in Capillaries

Choksi, Armeane

10 1900

A new constitutive equation has been developed for the flow of blood through capillaries. Pressure drop and volume flow data of Haynes and Burton and Merrill et al. have beer utilized in this development for a range of radii from 57.04 micra to 747.4 micra and a hematocrit range of 8.8% to 82.5%. A comparison has been made with the Casson equation used by Merrill and Pelletier and the advantage of this new equation over the Casson equation has been verified. The usual assumption of no-slip-at-the-wall has been verified to be valid, up to a hematocrit level of 39.3%. / Thesis / Master of Engineering (ME)

model

blood flow

capillaries

Theoretical Predictions of Flow Profiles in Capillary Blood Vessels

Hallman, Eileen

01 January 1972

The purpose of this thesis is to illustrate the nature of blood flow within capillaries by using familiar mathematical techniques. Because the circulatory system is so complex, the fluid dynamics of the system is prefaced by a discussion of the circulatory physiology in terms of geometry and physics. The understanding of the basic structures and functions of the circulatory components necessarily precedes the justification of assumptions. Several mathematical models which attempt to describe the fluid dynamics of blood flow phenomena are presented and discussed. The results of these models are correlated with existing experimental data in order to determine which mathematical models best predict the fluid dynamic behavior within the capillaries. The significance of this behavior is then noted with respect to diffusion within capillaries. It is noted that bolus flow offers the greatest rate of exchange of the models discussed. Conclusions are discussed and related to further applications and research.

Blood flow

Capillaries

Engineering

The influence of short-term aerobic training on muscle hypertrophy and satellite cell content following resistance training in healthy young men and women.

Thomas, Aaron

January 2019

Resistance exercise training is the most effective and accepted strategy for increasing skeletal muscle mass and strength. There is tremendous individual variability in the adaptive response to exercise and the source(s) contributing to this variability are largely unknown. Recent evidence in the literature supports the notion that capillaries may be a potential target for improving outcomes to chronic resistance exercise. Aerobic exercise training is a proven stimulus for eliciting angiogenesis and increasing capillary content. Therefore, we hypothesize that completing a period of aerobic training prior to resistance training will result in a greater increase in fibre cross sectional area (CSA) compared to resistance training alone. Fourteen participants (8M, 6F) completed 6 weeks of unilateral single leg aerobic training prior to undergoing 10 weeks of bilateral lower body resistance exercise training. Performance and anthropometric measures were completed at baseline, post aerobic training and post resistance training. Skeletal muscle biopsies were obtained from the vastus lateralis and immunofluorescent staining of muscle cross sections was completed to determine fibre CSA and satellite cell content. Following unilateral aerobic training, single leg VO2 work peak (Watts) (p<0.001), and oxygen consumption (O2 mL  min-1) (p=.0033) was significantly higher in the aerobically trained limb (EX) versus the control (CTL) limb. Capillary to perimeter fibre exchange index (CFPE) (p<0.05), a measure of microvascular perfusion, was significantly higher in the EX versus CTL limb following unilateral aerobic training. Resistance training resulted in increases in 1-repetition maximum of both squat (p<0.0001) and leg press (p<0.0001). A main effect of time was observed for limb fat free mass (p<0.0001) as determined via DEXA. Type-II fibre CSA of the EX limb was greater (p<0.05) versus CTL limb following resistance exercise training. Type-II fibre associated satellite cell content of the CTL limb was elevated (p<0.01) following resistance training. Results suggest that a period of unilateral aerobic training elevates the aerobic capacity and relative microvascular perfusion of the trained leg significantly in comparison to the non-aerobically conditioned limb. Subsequent resistance training, bilateral leg strength increased post resistance training while type II CSA increased in the aerobically pre-conditioned limb following resistance training. Collectively, these results suggest that a period of aerobic preconditioning may augment the muscle’s ability to respond to a hypertrophic stimulus. / Thesis / Master of Science (MSc) / Resistance exercise training is the most effective and accepted strategy for increasing skeletal muscle mass and strength. Yet, there is tremendous individual variability in the adaptive response to exercise and the source(s) contributing to this variability are largely unknown. Recently, evidence has emerged suggesting that capillaries may be a potential target for enhancing the adaptive response to chronic resistance exercise training. Research has only begun to characterize the extent to which microvascular perfusion (capillarization and blood flow to the muscle) plays a role in muscle health and resistance training outcomes. Currently, it is unknown if elevating microvascular perfusion is enough to facilitate greater accretion (hypertrophy) of muscle mass and strength following resistance training. Therefore, the current study hypothesized that increased microvascular perfusion induced by a pre-conditioning period of aerobic training, lasting 6-weeks, would be sufficient to enhance muscle accretion (hypertrophy) and elevate muscle stem cell content following resistance exercise training. To examine this, a cohort of young men and women performed 6 weeks of unilateral (single-leg) cycling following by 10 weeks of bilateral (both legs) resistance exercise training. Results demonstrated an increased oxidative capacity and capillary perfusion in the aerobically-trained limb following single-leg cycling, as expected. Consistent with our initial hypothesis, we observed superior muscle hypertrophy of type-II muscle fibres (increased fibre cross-sectional area), in the aerobically-conditioned limb following resistance training. The results suggest that muscle capillarization may be a determinant and facilitator of adaptation to resistance training and its outcomes.

Satellite cells

Hypertrophy

Capillaries

Quantitative aspects of blood vessels and perineurium in diabetic neuropathy

Bradley, Jane Louise

January 1995

No description available.

610

The use of Matrigel for in vitro studies of basement membrane permeability under static and dynamic pressures

Klaentschi, Karel

January 1997

No description available.

571.4

Mathematical analysis of multicapillary supply region

Sun, Liang.

January 2008

Thesis (PH.D.)--Michigan State University. Applied Mathematics, 2008. / Title from PDF t.p. (viewed on Aug. 11, 2009) Includes bibliographical references (p. 97-101). Also issued in print.

Observations on human peripheral microvascular function in cardiac disease

Mahy, Ian Richard John

January 1996

No description available.

610

Mechanisms by which some inflammatory mediators increase cerebral microvascular permeability

Sarker, Md Mosharraf Hossain

January 1995

No description available.

612

Capillary perfusion kinematics in lungs of oxygen-tolerant rats

Ramakrishna, Madhavi.

January 2009

Thesis (M.S.)--Marquette University, 2009. / Said H. Audi, Anne V. Clough, Robert Molthen, Advisors. Available for download on June 07, 2010.