Effect of arterial blood perfusion pressure on vascular conductance and muscle blood flow at rest and exercise

Villar, Rodrigo

January 2012

The adaptations of vessel diameter represented by vascular conductance (VC), muscle blood flow (MBF) and oxygen delivery (DO2est) were investigated during rest and exercise using the effects of gravity to manipulate muscle perfusion pressure (MPP) by placing the heart above (head-up tilt) and below (head-down tilt) the level of the muscle. This experimental paradigm was used to explore VC and MBF regulation and related control mechanisms during rest and exercise. Study 1 tested the repeatability of Doppler ultra- sound measurements of muscle blood flow velocity (MBV), arterial diameter, MBF and VC. The adaptations in VC and MBF (Study 2) and changes in anterograde and retro- grade MBV patterns (Study 3) were investigated during postural challenges at rest. Study 4, determined the peak VC and its fractional recruitment during transitions from rest to lower (LPO) and higher power output (HPO) calf muscle exercise in HDT and HUT. Study 5 investigated the combined effects of altered MPP and hypoxia during exercise. During rest-HDT, increases in VC compensated for the MPP reduction to maintain MBF, while in rest-HUT, MBF was reduced. Following the start of LPO and HPO exercises, MBF and VC responses were delayed in HDT and accelerated in HUT. During LPO, MBF steady- state was reduced in HUT compared to horizontal (HOR), while the greater increase in VC during HDT maintained MBF at a similar level as HUT. Post-exercise MBF recovered rapidly in all positions after LPO exercise but did not after HPOHDT. During HPOHDT, MBF was reduced despite the increase in VC, while in HPOHUT MBF was similar to that in HPOHOR. The hypoxic challenge added in exercise was met during LPOHDT by in- creased VC to compensate reduced MPP and O2 availability such that MBF maintained DO2est. However, during HPOHDT in hypoxia, VC reached maximal vasodilatory capacity, compromising MBF and DO2est. Together, these findings indicate that LPOHDT in nor- moxia or hypoxia VC increased to maintain MBF and DO2est, but during HPO functional limitation for recruitment of VC constrained MBF and DO2 in normoxia and hypoxia. Elevated muscle electromyograpic signals in HPOHDT were consistent with challenged aer- obic metabolism. MPP reduction in HDT caused slower adaptation of MBF limiting O2 availability would result in a greater O2 deficit that could contribute to an increase in the relative stress of the exercise challenge and advance the onset of muscle fatigue.

vascular conductance

muscle blood flow

muscle perfusion pressure

exercise

hypoxia

Kinesiology

Three-dimensional Vision-based Nail-fold Morphological and Hemodynamic Analysis

Cai, Yu-shan

25 July 2011

Nailfold capillary microscopy is simple, non-invasive, no injuries and easy to observe human`s microcirculation and micro blood stream directly. Due to these advantages, it plays a significant role in diseases diagnoses, treatments and prognosis. The observation of microcirculation focuses on hand, foot naildfold, conjunctival, lingual surface and lips. Nailfold microcirculation is usually performed on the ring finger. However, when measuring the speed of blood flow, difficulty to stabilize the region of interest (ROI) is often encountered. This problem becomes more serious when the magnification of microscope increases. Fixture to stabilize finger will inevitably affect the speed of blood flow under observation. The Laser Doppler blood flow velocimetry method, is expensive, only can be used in bigger capillary or to measure the average flow velocity of lager observed area, lacking of diversified morphological features of capillary, it¡¦s precision is worse than microscopy image capture method, and because of the regular contraction and relaxation of arterioles it can only measure the local blood flow velocity, cannot describe whole details of capillary blood flow velocity, some important information of microcirculation will be ignored easily. This thesis employs computer vision technique to operate displacement compensation of microscopy image sequence to stabilize observed area and extract area of capillary. Then the morphological and hemodynamic pathology features will be derived and analyzed to evaluate the status of a person¡¦s health. Not only morphological features, e.g., length, density and color, but also hemodynamic features, e.g., blood flow velocity will be measured to assess the microcirculation in end capillary. The most significant characteristic of this project is to combine three-dimensional models reconstruction technology of computer graphic to reconstruct three-dimensional capillary models and perform the three-dimensional dynamic blood flow visualization. Thus, the capillary blood flow can be adjusted and observed in the desired orientation, magnification and viewpoint. A variety of pathologically significant features of nailfold microcirculation will be extracted in the project proposed. These features can be classified into morphological and hemodynamic features. The morphological features extracted include the number, width/height, density, arteriolar limb caliber, curved segment caliber, venular limb caliber, blood color, tortuosity, and width of the curved segment of capillaries. On the other hand, hemodynamic features including velocity, direction of blood flow will also be extracted. By integrating both morphological and hemodynamic features, the status of a person¡¦s health can be evaluated by the doctor. The novel system proposed is not only easy to operate, low-cost but also has the great potential to be utilized clinically.

nailfold

morphological features

hemodynamic features

microcirculation

three-dimensional capillary models

dynamic blood flow visualization

The implementation of visualization tool for dynamic 4D flow-sensitive MR data

Lai, Zhong-De

19 June 2012

Based on many studies and experiments, blood flow patterns are associated with cardiovascular diseases and it usually is a sign of cardiovascular disease when the blood flow becomes unusual. Magnetic resonance (MR) imaging is a non-invasive medical technique and the characteristic of phase contrast can use to measure the flow velocity and patterns in vivo. As far as we know, for the cardiovascular of region of interest, 4D Flow-sensitive MRI technology is good at spatial coverage and temporal resolutions.It is easier for the researcher to analyze blood flow patterns in the clinical diagnosis by visualization processing. EnSight (CEI, USA), a kind of commercial software, is often used to do visualization processing of data of 4D Flow-sensitive MRI. However, before visualization of the data, several actions must be completed, such as ROI selection, correction or conversion of data, and etc. Therefore, our thesis hopes to develop a simple but practical user interface tool for 4D Flow-sensitive MRI data. From reading the file and ROI selection to correction and conversion of data as well as the visualization processing are completed by this tool. It provides researchers a rapid examination of data and analysis of blood flow patterns in the diagnosis.

Phase Contrast

Magnetic Resonance Imaging

4D Flow-sensitive MRI

Visualization

Blood Flow Pattern

Investigation Of Fluid Structure Interaction In Cardiovascular System From Diagnostic And Pathological Perspective

Salman, Huseyin Enes

01 June 2012

Atherosclerosis is a disease of the cardiovascular system where a stenosis may develop in an artery which is an abnormal narrowing in the blood vessel that adversely affects the blood flow. Due to the constriction of the blood vessel, the flow is disturbed, forming a jet and recirculation downstream of the stenosis. Dynamic pressure fluctuations on the inner wall of the blood vessel leads to the vibration of the vessel structure and acoustic energy is propagated through the surrounding tissue that can be detected on the skin surface. Acoustic energy radiating from the interaction of blood flow and stenotic blood vessel carries valuable information from a diagnostic perspective. In this study, a constricted blood flow is modeled by using ADINA finite element analysis software together with the blood vessel in the form of a thin cylindrical shell with an idealized blunt constriction. The flow is considered as incompressible and Newtonian. Water properties at indoor temperature are used for the fluid model. The diameter of the modeled vessel is 6.4 mm with 87% area reduction at the throat of the stenosis. The flow is investigated for Reynolds numbers 1000 and 2000. The problem is handled in three parts which are rigid wall Computational Fluid Dynamics (CFD) solution, structural analysis of fluid filled cylindrical shell, and Fluid Structure Interaction (FSI) solutions of fluid flow and vessel structure. The pressure fluctuations and consequential vessel wall vibrations display broadband spectral content over a range of several hundred Hz with strong fluid-structural coupling. Maximum dynamic pressure and vibration amplitudes are observed around the reattachment point of the flow near the exit of the stenosis and this effect gradually decreases along downstream of flow. Results obtained by the numerical simulations are compared with relevant studies in the literature and it is concluded that ADINA can be used to investigate these types of problems involving high frequency pressure fluctuations of the fluid and the resulting vibratory motion of the surrounding blood vessel structure.

TJ Mechanical Engineering. 1-1570

Correlation between Myocardial Blood Flow and Tissue Succinate during Acute Ischemia

SAKAMOTO, NOBUO, MATSUBARA, TATSUAKI, KATO, KYOJI

25 March 1994

名古屋大学博士学位論文 学位の種類 : 博士(医学)(論文) 学位授与年月日:平成5年9月14日 加藤亨嗣氏の博士論文として提出された

Gas chromatograpfy-mass spectrometry

Myocardial blood flow

Lactate

Succinate

Myocardial ischemia

Sympathetically induced paradoxical increases of the cutaneous blood flow in chronically inflamed rats

Kumazawa, Takao, Suzuki, Shigeyuki, Sato, Jun, Koeda, Tomoko, Tsujii, Yoichiro

05 July 1996

名古屋大学博士学位論文 学位の種類 : 博士(医学)(論文) 学位授与年月日:平成8年3月8日 辻井洋一郎氏の博士論文として提出された

Nitric oxide

Inflammation

Adjuvant arthritic rat

Laser-Doppler flowmeter

Blood flow

Vasodilatation

Sympathetic nerve

Simulation of Phase Contrast MRI Measurements from Numerical Flow Data / Simulering av faskontrast-MRT mätningar från numeriska flödesdata

Petersson, Sven

January 2008

<p>Phase-contrast magnetic resonance imaging (PC-MRI) is a powerful tool for measuring blood flow and has a wide range of cardiovascular applications. Simulation of PC-MRI from numerical flow data would be useful for addressing the data quality of PC-MRI measurements and to study and understand different artifacts. It would also make it possible to optimize imaging parameters prior to the PC-MRI measurements and to evaluate different methods for measuring wall shear stress.</p><p>Based on previous studies a PC-MRI simulation tool was developed. An Eulerian-Lagrangian approach was used to solve the problem. Computational fluid dynamics (CFD) data calculated on a fix structured mesh (Eulerian point of view) were used as input. From the CFD data spin particle trajectories were computed. The magnetization of the spin particle is then evaluated as the particle travels along its trajectory (Lagrangian point of view).</p><p>The simulated PC-MRI data were evaluated by comparison with PC-MRI measurements on an in vitro phantom. Results indicate that the PC-MRI simulation tool functions well. However, further development is required to include some of the artifacts. Decreasing the computation time will make more accurate and powerful simulations possible. Several suggestions for improvements are presented in this report.</p>

MRI

phase contrast

blood flow

simulation

stenosis

CFD

wall shear stress

turbulence

Medical technology

Medicinsk teknik

Characterization of blood flow in a capillary tube

Ladner, Tammy Lynn,

January 2007

Thesis (M.S.)--Mississippi State University. Computational Engineering Program. / Title from title screen. Includes bibliographical references.

Vasomotor responses of rat skeletal muscle arterioles to norepinephrine and adenosine

Aaker, Aaron Paul,

January 2001

Thesis (Ph. D.)--University of Missouri--Columbia, 2001. / Typescript. Vita. Includes bibliographical references (leaves 122-137). Also available on the Internet.

Tissue blood flow responses to external pressure using LDF and PPG : testing a system developed for pressure ulcer research /

Bergstrand, Sara,

January 2009

Licentiatavhandling (sammanfattning) Linköping : Linköpings universitet, 2009. / Härtill 2 uppsatser.