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.

Theoretical Models for Blood Flow Regulation in Heterogeneous Microvascular Networks

Fry, Brendan

January 2013

Proper distribution of blood flow in the microcirculation is necessary to match changing oxygen demands in various tissues. How this coordination of perfusion and consumption occurs in heterogeneous microvascular networks remains incompletely understood. Theoretical models are powerful tools that can help bridge this knowledge gap by simulating a range of conditions difficult to obtain experimentally. Here, an algorithm is first developed to estimate blood flow rates in large microvascular networks. Then, a theoretical model is presented for metabolic blood flow regulation in a realistic heterogeneous network structure, derived from experimental results from hamster cremaster muscle in control and dilated states. The model is based on modulation of arteriolar diameters according to the length-tension characteristics of vascular smooth muscle. Responses of smooth muscle cell tone to myogenic, shear-dependent, and metabolic stimuli are included. Blood flow is simulated including unequal hematocrit partition at diverging vessel bifurcations. Convective and diffusive oxygen transport in the network is simulated, and oxygen-dependent metabolic signals are assumed to be conducted upstream from distal vessels to arterioles. Simulations are carried out over a range of tissue oxygen demand. With increasing demand, arterioles dilate, blood flow increases, and the numbers of flowing arterioles and capillaries, as defined by red-blood-cell flux above a small threshold value, increase. Unequal hematocrit partition at diverging bifurcations contributes to capillary recruitment and enhances tissue oxygenation. The results imply that microvessel recruitment can occur as a consequence of local control of arteriolar tone. The effectiveness of red-blood-cell-dependent and independent mechanisms for the metabolic response of local blood flow regulation is examined over a range of tissue oxygen demands. Model results suggest that although a red-blood-cell-independent mechanism is most effective in increasing flow and preventing hypoxia, the addition of a red-blood-cell-dependent mechanism leads to a higher median tissue oxygen level, indicating distinct roles for the two mechanisms. In summary, flow rates in large microvessel networks can be estimated with the proposed algorithm, and the theoretical model for flow regulation predicts a mechanism for capillary recruitment, as well as roles for red-blood-cell-dependent and independent mechanisms in the metabolic regulation of blood flow in heterogeneous microvascular networks.

capillary recruitment

flow estimation

microcirculation

oxygen transport

theoretical model

Applied Mathematics

blood flow

Development of an Improved Bedside Methodology for Measurement of Cerebrovascular Reactivity

Da Costa, Leodante

18 March 2014

Changes in cerebrovascular reactivity (CVR) to carbon dioxide (CO2) are reported in many neurological conditions. My aim was to validate a method for computerized prospective targeting of CO2 levels (RespiractTM) as a bedside tool for impaired CVR. I hypothesized that 1) The RespiractTM and TCD method can be used to detect impairment of CVR after SAH and that 2) CVR is impaired in SAH patients. In 18 SAH patients and 26 controls CVR index was calculated dividing the percentage change in middle cerebral artery blood flow velocity (MCAv) by the change in PETCO2. The absolute MCAv values were similar in both groups, but CVR was significantly different (hypercapnia: 0.044 ± 0.076 - controls; 0.014 ± 0.037 - SAH; p=0.0007). I showed that impaired CVR can be detected at the bedside using TCD and CO2 challenge with the RespiractTM, control of CO2 is precise and minimal changes are required.

cerebral blood flow

cerebrovascular reactivity

carbon dioxide challenge

Transcranial Doppler

0564

Development of an Improved Bedside Methodology for Measurement of Cerebrovascular Reactivity

Da Costa, Leodante

18 March 2014

Changes in cerebrovascular reactivity (CVR) to carbon dioxide (CO2) are reported in many neurological conditions. My aim was to validate a method for computerized prospective targeting of CO2 levels (RespiractTM) as a bedside tool for impaired CVR. I hypothesized that 1) The RespiractTM and TCD method can be used to detect impairment of CVR after SAH and that 2) CVR is impaired in SAH patients. In 18 SAH patients and 26 controls CVR index was calculated dividing the percentage change in middle cerebral artery blood flow velocity (MCAv) by the change in PETCO2. The absolute MCAv values were similar in both groups, but CVR was significantly different (hypercapnia: 0.044 ± 0.076 - controls; 0.014 ± 0.037 - SAH; p=0.0007). I showed that impaired CVR can be detected at the bedside using TCD and CO2 challenge with the RespiractTM, control of CO2 is precise and minimal changes are required.

cerebral blood flow

cerebrovascular reactivity

carbon dioxide challenge

Transcranial Doppler

0564

Cerebral blood flow in the non-human primate : an in vivo model and drug interventions / Douglas W. Oliver

Oliver, Douglas William

January 2003

Cerebral blood flow dynamics is an essential component for preserving cerebral integrity. Cerebral blood flow abnormalities are often seen in patients with central nervous system pathologies such as epilepsy, migraine, Alzheimer's Disease, vascular dementia, stroke, and even HIV/AIDS. There is increasing clinical and experimental evidence implicating cerebral hypoperfusion during ageing. The determination of cerebral perfusion has therefore become an important objective in physiological, pathological, pharmacological, and clinical investigations. The knowledge of regional cerebral blood flow further provides useful diagnostic information and/or data for a better understanding of the complex clinical presentations in patients with neurological and psychiatric disorders. Several cerebrovasoactive drugs have found application in the clinical setting of cerebrovascular diseases such as migraine and dementia. Due to the similarities between humans and non-human primates with respect to their brains, both structurally and behaviourally, numerous studies have been conducted and several non-human primate models have been developed for physiological, pathological, pharmacological, and clinical studies, amongst others in Parkinson's disease and diabetes. The relatively large size of the Cape baboon Papio Ursinus with a weight of 27-30 kg for a large male, makes this primate especially suitable for in vivo brain studies using radiotracers and Single Photon Emission Computed Tomography (SPECT). The main aim of the current study was therefore to develop a suitable radiotracer (99m Tc-hexamethylpropylene amine oxime (HMPAO) or 99m Tc_ethyl_cysteinatedimer (ECD) or 123l-iodoamphetamine (IMP)) for adapted in vivo cerebral blood flow measurements in a non-human primate (Papio ursinus) as an investigative model. The model was to be validated and applied in various drug studies for the evaluation of pharmacological interventions. The study design made use of split-dose methodology, whereby the radiopharmaceutical (radiotracer) was administered twice during each study. The first administration was injected soon after the induction of the anaesthesia, and was followed by the first SPECT data acquisition. The second administration of the radioligand, a double dose of radioactivity with respect to the first radioligand injection, was done at a specific time during the study, which took into account the pharmacodynamics of the drug. A second SPECT data acquisition followed subsequently. The drugs that were included in the study were acetazolamide, a carbonic acid anhydrase inhibitor (often used in nuclear medicine to determine cerebral reserve); sumaptriptan, a 5-HT (serotonin) agonist used for treatment of migraine; sodium valproate (an anti-epileptic drug); nimodipine, a calcium channel blocker and nitro-glycerine, a vasodilator used for angina. Arterial blood pressures were recorded from a catheter in the femoral artery and heart rates were concurrently monitored. The split-dose method was successfully applied to develop a non-human primate cerebral blood flow model under anaesthesia. The model showed differences in cerebral perfusion of the different anaesthesia regimes. These anaesthesia data sets were suitable as control/baseline results for drug intervention studies. Acetazolamide evaluation through the split-dose method in the baboon confirmed the sensitivity of the model by presenting comparable perfusion. This result compared to those already familiar prompted the model to be applied in pharmacological intervention studies. Subsequent results of these investigations showed increases in perfusion for single drug nimodipine treatment (25%). However, nimodipine attenuated the increases in perfusion when administered in combination with acetazolamide. Sumatriptan was able to decrease and normalise the increased perfusion after long duration anaesthesia. Decreased cerebral blood flow was observed for combinations of nimodipine with sodium valproate suggesting drug-drug interaction with important clinical implications. Similar decreases were found also for sumatriptan and nitro-glycerine when administered in combination with nimodipine. Studies with the various tracers (99m Tc_HMPAO or 99m Tc_ECD or 123l_IMP) showed clear differences in the perfusion data, confirming variation in the biochemical performance of the tracers. These differences, if not taken into consideration, caution for inappropriate clinical conclusions and subsequent erroneous therapeutic decisions. Improvement of radiotracer efficacy was subsequently attempted through application of the cyclodextrine complexation approach. Although cyciodextrine technology did not markedly improve the brain disposition of the 99m Tc-ECD, protection of the tracer against degradation was demonstrated. This study encouraged further exploration of this method for protection of the tracer against chemical and metabolic degradation. The current study was aimed to develop and effectively apply a non-human primate model with nuclear medicine technology for cerebral blood flow determinations after pharmacological interventions. This was achieved through the split-dose method and dedicated computer programming, which yielded a successful model with the non-human primate under anaesthesia. The model was validated with the application of acetazolamide to confirm familiar cerebrovascular reserve results, indicating that the model is sensitive to CBF changes. The model was also effectively applied in several pharmacological intervention studies, whereby cerebropharmacodynamics of selected drugs were investigated and established. This unique model of a non-human primate, Papio ursinus for cerebral blood flow determinations has served pharmacological research successfully during the past 12 years and could do so in the future, with scope to investigate new frontiers with improved technologies. / Thesis (Ph.D. (Pharmacology))--North-West University, Potchefstroom Campus, 2004.

Central blood flow

Split-dose method

Cerebrovascular diseases

Non-human primate model

Pharmacological interventions

Anaesthesia

Radiopharmaceuticals

Retinal Blood Flow and Markers of Vascular Inflammation and Endothelial Dysfunction in Type 2 Diabetes

Khuu, Lee-Anne

January 2010

Abnormal leukocyte adhesion (i.e. leukostasis) to retinal vascular endothelial cells occurs in early diabetes. The processes of leukostasis have been clearly demonstrated in the vascular endothelium of patients with diabetes. In non-proliferative DR, clinical outcomes are manifested by excessive permeability from inflammatory progression leading to inner blood retinal barrier disruption, endothelial cell damage and widespread capillary nonperfusion. Diabetes promotes vascular leakage in DR by upregulation of adhesion molecules. Moreover, many of the pathological changes in NPDR are related to abnormalities in retinal blood flow. Studies have shown that specific circulating markers of inflammatory activity and endothelial dysfunction are associated with clinical signs of diabetic retinopathy. However, few have found an association between circulating levels of inflammatory and endothelial dysfunctional markers and abnormal retinal hemodynamics in patients with non-proliferative DR. The specific aims of this thesis are as follows: (Chapter 3)To correlate baseline levels of inflammatory and endothelial dysfunction markers and 1) baseline retinal arteriolar hemodynamics and 2) any disturbance in retinal hemodynamics over 6-month time in terms of vessel diameter, blood velocity, maximum-to-minimum velocity ratio and volumetric flow. In Chapter 4: To correlate circulating levels of inflammatory and endothelial dysfunction markers and 1) baseline vascular reactivity and 2) any disturbance in vascular reactivity after 6-month time in terms of vessel diameter, blood velocity, maximum-to-minimum velocity ratio and volumetric flow in patients with increasing non-proliferative diabetic retinopathy (NPDR) severity. Methods for Chapter 3: Diabetes subjects were stratified into either mild-to-moderate (Group 2) or moderate-to-severe (Group 3) NPDR based on their retinopathy status. Age-matched non-diabetics were recruited as controls (Group 1). Forearm blood sample was collected to determine baseline levels of inflammatory and endothelial dysfunctional markers. At visit 1, baseline retinal hemodynamics was acquired using Canon Laser Blood Flowmeter. Patients returned for a visit 2 (6 month follow-up visit) and retinal hemodynamics was reassessed. Baseline levels of inflammatory and endothelial dysfunctional markers compared between groups and correlated with both baseline and change in retinal hemodynamic parameters over 6-month time. For Chapter 4: Diabetes subjects were stratified into either mild-to-moderate NPDR or moderate-to-severe NPDR based on their retinopathy status. Age-matched non-diabetics were recruited as controls. At visit 1, forearm blood sample was collected to determine levels of inflammatory and endothelial dysfunctional markers and baseline vascular reactivity response was acquired. Retinal blood flow data was acquired while subjects breathed air. Retinal blood flow measurements were then acquired after exposure to isocapnic hyperoxic stimuli. At visit 2 (6 month follow-up), retinal vascular reactivity was reassessed. Baseline levels of inflammatory and endothelial dysfunctional markers compared between groups and correlated with both magnitude of baseline and change in vascular reactivity in terms of retinal hemodynamics. Results of Chapter 3: Maximum-to-minimum velocity ratio (max: min) was found to be significantly elevated in the group 3 compared to group 1 at baseline (0.72 vs. 0.49, after Bonferroni correction P<0.01). Both sICAM-1 and sE-selectin were significantly elevated as a function of group (ANOVA p=0.02 and p=0.04). A post hoc Bonferroni test showed that Group 3 had significantly higher in both sICAM-1 and sE-selectin levels compared to Group 1 (234.0 vs. 151.5 ng/ml, P=0.02 and 53.4 vs. 27.6 ng/ml, P<0.01, respectively). Hemoglobin A1c was significantly elevated across the groups (ANOVA p<0.01). A post hoc Bonferroni test showed that Group 3 had significantly higher hemoglobin A1c level compared to Group 1 (7.9 vs. 5.6 % , P<0.01). There were no significant associations found between baseline markers of inflammation and baseline retinal hemodynamics across all groups. The Δ velocity was correlated with the baseline sICAM-1 (r=0.42, p=0.02) and A1c levels (r=0.37, p=0.04) in patients with NPDR. After adjustment for all other variables (A1c, hsCRP and vWF), Δ velocity, sICAM-1 and A1c were found not to be reliable predictors of baseline retinal hemodynamics. For Chapter 4: There were no significant differences in magnitude of retinal vascular reactivity in hemodynamic parameters between groups at visit 1 or visit 2. Over 6 months time, compliance was found to be significantly reduced in patients of Group 3 compared to Group 2 (-0.4 vs. 0.1, t-test p<0.01). Both sICAM-1 and sE-selectin were significantly elevated as a function of group (ANOVA p=0.02 and p<0.01). A post hoc Bonferroni test showed that Group 3 had significantly higher in both sICAM-1 and sE-selectin levels compared to Group 1 (243.4 vs. 157.3ngml, P<0.01 and 57.0 vs. 29.3 ng/ml, P<0.01, respectively). Hemoglobin A1c was significantly elevated across the groups (ANOVA p<0.01). A post hoc Bonferroni test showed that Group 3 had significantly higher hemoglobin A1c level compared to Group 1 (8.8 vs. 5.6 % , P<0.01). Baseline VR in blood velocity weakly correlates with sE-selectin (r=0.31, p=0.04) across all groups while sVCAM-1 was associated with VR in terms of blood flow (r=-0.62, p<0.01) in patients with mild-to-moderate NPDR. The ∆ blood flow after 6 months was found to be weakly associated with sE-selectin (r=0.46, p=0.03) across all groups. Finally, the ∆ blood velocity after 6 month time was found to be moderately correlated with baseline vWF Ag level (r=-0.78, p=0.02). Multiple regression analysis found that vascular inflammatory and endothelial function markers had weak predictive power for Δ hemodynamic parameters. Conclusions Chapter 3: We found weak associations between circulating markers and baseline or the disturbance in retinal hemodynamics after 6 months time. Overall, we found both an increase in rigidity of the arteriolar circulation and elevated inflammatory adhesion markers (sICAM-1 and sE-selectin) within the same population sample. Change in velocity over the follow-up period was correlated with sICAM-1 and A1c levels in patients with NPDR but the level of association was such that neither sICAM-1 nor A1c proved to reliably predict retinal hemodynamics. Finally, in Chapter 4 we demonstrated two important characteristics in early NPDR; 1) a disturbance in vascular reactivity in terms of compliance and 2) an increase in systemic markers of inflammation were found in patients with NPDR. Although systemic markers of vascular inflammation and endothelial dysfunction are not predictive of hemodynamic parameters, our study found moderate associations between baseline and disturbances in VR after 6 months time. Therefore, there is evidence that inflammation and vascular function may be related with respect to their development in NPDR.

Retina

Diabetes

Vascular inflammation

Endothelial Dysfunction

Blood Flow

Leukostasis

Vision Science

Research of blood flow and stresses in the pathological blood vessels / Kraujo tėkmės ir įtempių pažeistose kraujagyslėse tyrimas

Kuzborska, Zyta

31 January 2012

Physical load, age and gender influence to blood pressure and maximal stresses in the pathological blood vessel palaces was studies in this work. The main research subject – pathological blood vessel and its blood flow processes that depend on physical load, pathology degree and type, age, gender and blood vessels stress characteristics. The main aim of this work – to examine blood flow characteristics, local blood pressure, stress distribution in the pathological blood vessels dependent physical load assessing blood vessels mechanical properties variations due to age, gender, blood vessel pathology type; to make simplified human efficiency evaluation methodology. The paper analyse a few main tasks: to explore physical load, blood vessels pathology degree, age and gender influence to blood pressure and tensions increase in the pathological blood vessels locations; experimentally determine blood flow rates changes in pathological blood vessels assessing; additionally investigate blood pressure and heart rate characteristics variations during set physical load and human working age range. This paper consists of introduction, four chapters, summary, literature and authors publications theses lists and two annexes. Introductory chapter discusses the test problem, work topicality, research subject, also formulates work subject and tasks, and describes research methodology, work scientific novelty, practical value of the work results, defended propositions. In the introduction end... [to full text] / Disertacijoje nagrinėjama fizinio krūvio, amžiaus bei lyties įtaka kraujo spaudimui ir didžiausiems įtempiams pažeistoje kraujagyslės vietoje. Pagrindinis tyrimo objektas – ligos pažeista kraujagyslė ir joje vykstantys kraujo tėkmės procesai, priklausantys nuo fizinio krūvio dydžio, pažeidimo laipsnio ir rūšies, amžiaus, lyties, bei šių veiksnių įtaka didžiausiems įtempiams ir spaudimui pažeistose vietose. Pagrindinis disertacijos tikslas – ištirti kraujo tėkmės charakteristikas, lokalinį kraujo spaudimą, įtempių pasiskirstymą pažeistose kraujagyslėse priklausomai nuo fizinio krūvio, įvertinant kraujagyslių mechaninių savybių pokytį dėl amžiaus, lyties, kraujagyslės pažeidimo rūšies, ir sudaryti supaprastintą darbingumo verti-nimo metodiką. Darbe sprendžiami keli uždaviniai: ištirti fizinės apkrovos dydžio, kraujagyslių pažeidimų laipsnio, amžiaus ir lyties įtaką kraujo spaudimui ir įtempių padidėjimui pažeistose kraujagyslių vietose; ekspe-rimentiniu būdu nustatyti kraujo tėkmės rodiklių pokyčius pažeistose kraujagyslėse; ištirti kraujo spaudimo ir širdies susitraukimų dažnio charakteristikų pokyčius nustatytame fizinio krūvio ir žmogaus darbingo amžiaus intervale. Disertaciją sudaro įvadas, keturi skyriai, rezultatų apibendrinimas, naudotos literatūros ir autorės publikacijų disertacijos tema sąrašai ir du priedai. Įvadiniame skyriuje aptariama tiriamoji problema, darbo aktualumas, aprašomas tyrimų objektas, formuluojamas darbo tikslas bei uždaviniai, aprašoma tyrimų... [toliau žr. visą tekstą]

Mechanical Engineering

Blood vessels

Blood flow

Pathological

Kraujogyslė

Kraujo tėkmė

Patologija

Influence of Caffeine on Exercising Muscle Blood Flow and Exercise Tolerance in Type II Diabetes

POITRAS, VERONICA

17 September 2009

BACKGROUND: Exercise is a critical treatment modality in persons with Type II Diabetes Mellitus (T2DM), however people with this disease experience chronic fatigue and a decreased exercise capacity, which affects their ability or willingness to participate in physical activity. Studies suggest that this exercise intolerance may be partly due to a reduced exercising muscle blood flow (MBF), and in particular to a reduced ability of red blood cells (RBCs) to evoke ATP-mediated vasodilation and an increase in MBF as they traverse areas of high O2 demand. Additional evidence suggests that caffeine may attenuate this impairment by enhancing the release of ATP from RBCs. HYPOTHESIS: Persons with T2DM would have reduced Forearm Blood Flow (FBF), oxygen consumption (VO2), and exercise tolerance responses to exercise compared to control (CON) subjects, and caffeine would attenuate these impairments. METHODS: T2DM (n = 4) and CON (n = 4) participants performed rhythmic forearm handgrip exercise at an intensity equivalent to 17.5 kg until “task failure” or 20 minutes of exercise was reached, after having consumed either a caffeine (5mg/kg; Caff) or placebo (Pl) capsule. FBF (Doppler and Echo ultrasound of the brachial artery), VO2 and lactate efflux (deep venous blood sampling), forearm vascular conductance (FVK), mean arterial pressure (MAP) and heart rate (HR) were quantified for each minute of exercise. RESULTS: Steady state FBF was similar across groups and treatment conditions (mean ± SE ml/min; CONCaff 553.80 ± 82.35, CONPl 583.42 ± 112.62, T2DMCaff 523.33 ± 105.39, T2DMPl 569.08 ± 134.20, NS), and this was due to similar MAP and FVK (across groups and treatment conditions, NS). VO2 and Time to Task Failure (TTF) were not different between groups and treatment conditions (NS), although TTF tended to be improved with caffeine versus placebo (10.00 ± 2.02 vs 8.24 ± 1.79 min, P=0.295). There was a strong positive relationship between FBF and TTF (r2=0.763; P=0.005). CONCLUSIONS: In the exercise model utilized, persons with T2DM do not have impaired cardiovascular responsiveness or reduced exercise tolerance, and caffeine does not provide any benefit. Differences in exercising MBF may be an underlying mechanism regarding differences in exercise tolerance. / Thesis (Master, Kinesiology & Health Studies) -- Queen's University, 2009-09-16 16:19:42.537

caffeine

muscle blood flow

Type II Diabetes

red blood cell

oxygen delivery

forearm exercise