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Studies on the connective tissue components of retinal microvesselsCanfield, A. E. January 1984 (has links)
No description available.
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Engineering the Endothelial MicroenvironmentJanuary 2013 (has links)
abstract: Changes to the microenvironment of the endothelium can produce significant changes in the response of endothelial cells to stimuli. Human Aortic Endothelial Cells (HAECs) are tested in vitro for their fluid shear stress response when their substrates, and the solute concentrations of the fluids to which they are exposed, are modulated, and for their nitric oxide expression when they are exposed to hyperglycemic conditions. ImageJ is used to quantify either the degree of cellular alignment and elongation with the direction of flow, or the relative NO expression using the fluorochrome DAF-2. First, the results of Brower, et.al. are replicated: HAECs under normal glucose (4mM) conditions align and elongate with flow (p<<0.05), while high glucose (30.5mM) conditions negate this effect (p<<0.05) and is likely the result of Advanced Glycation End-products (AGEs). Then, in this study it is found that substitution of fibronectin for gelatin substrates does not impair flow (p<<0.05), indicating that fibronectin likely does not participate in the initiation of vascular lesions. High palmitic acid also does not prevent HAEC shear response (p<<0.05), which is consistent with Brower's predictions that AGEs are responsible for impaired elongation and alignment. NO production is significantly increased (p<<0.025) in HAECs cultured 24 hours under high glucose (30.5mM) conditions compared with normal glucose (4mM) conditions, indicating the presence of inducible nitric oxide as part of an inflammatory response. Aminoguanidine (5mM) added to high glucose concentrations reduces, but does not eliminate NO production (p<<0.05), likely due to insufficient concentration. Modulation of the endothelial microenvironment leads to pronounced changes in HAEC behavior with regards to NO production under hyperglycemic conditions. Diabetic model rat aortas are explanted and imaged for the purpose of detecting aortic endothelial cell alignment and elongation; improvements in this method are discussed. A microvessel chamber used with explanted human tissue is re-fit to reduce required volumes of solutions and allow more effective experimentation. / Dissertation/Thesis / M.S. Bioengineering 2013
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Biophysical study of the extracellular matrix for vascular physiology and cancer biology applicationsCortes Medina, Marcos G. January 2022 (has links)
No description available.
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Angiogenesis Related Markers In Non-Small Cell Lung CancerBrattström, Daniel January 2003 (has links)
<p>This thesis investigated the predictive and the prognostic powers of angiogenesis related markers in both operable and inoperable non-small cell lung cancer (NSCLC) patients.</p><p>In the first and second study, we investigated the serological fractions of vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF) in 2 cohorts of patients with either operable or inoperable NSCLC. </p><p>Regarding operable NSCLC, we demonstrated significant correlations between VEGF and tumour volume and overall survival. Regarding bFGF, significant correlations with recurrent disease and survival were demonstrated. VEGF and bFGF correlated to each other and with platelet counts. In multivariate analysis, bFGF proved to be a significantly independent prognostic factor.</p><p>Regarding inoperable NSCLC, we demonstrated that patients with elevated bFGF levels before any treatment and during chemotherapy had a significantly poorer survival. During chemotherapy, each rise of one unit of bFGF (ng/L) corresponded to a 4 times increased risk of death. Regarding VEGF, elevated levels after radiotherapy corresponded with better survival. All prognostic information demonstrated in this study concerned patients with a, co-sampled, normal platelet count.</p><p>In the third study, three putative markers, HER-2, EGFR and COX-2, suitable for targeted therapies in resected NSCLC were investigated in a panel of 53 tumours and further investigated for a possible correlation with microvessel density. We demonstrated that HER-2 and COX-2 were mainly expressed in adenocarcinomas, whereas EGFR was only expressed in squamous cell carcinomas. COX-2 showed a trend towards a correlation with microvesssel density. The expression profile, HER-2+/EGFR-, was significantly correlated to poorer survival. </p><p>In the fourth study, a predictive model for recurrences consisting of p53, CD34 and CD105, and circulating serum fractions of VEGF and bFGF, was investigated. The two endothelial markers correlated with each other. CD105 expression correlated with p53 expression. No other significant correlations between markers could be demonstrated. A significant correlation between p53 overexpression and recurrent disease was demonstrated. The mutational status could not confirm the immunohistochemical correlation between p53 and recurrences. </p><p> In conclusion, the present thesis demonstrates that the angiogenic factors VEGF and bFGF analysed in sera have both predictive and prognostic information when measured in operable and inoperable NSCLC. Since HER-2 is overexpressed in NSCLC and linked with prognostic information, this marker might be a suitable target for therapy in NSCLC. Furthermore, in patients with operable NSCLC, p53 expression status was linked with recurrent disease and mean MVD. </p>
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Angiogenesis Related Markers In Non-Small Cell Lung CancerBrattström, Daniel January 2003 (has links)
This thesis investigated the predictive and the prognostic powers of angiogenesis related markers in both operable and inoperable non-small cell lung cancer (NSCLC) patients. In the first and second study, we investigated the serological fractions of vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF) in 2 cohorts of patients with either operable or inoperable NSCLC. Regarding operable NSCLC, we demonstrated significant correlations between VEGF and tumour volume and overall survival. Regarding bFGF, significant correlations with recurrent disease and survival were demonstrated. VEGF and bFGF correlated to each other and with platelet counts. In multivariate analysis, bFGF proved to be a significantly independent prognostic factor. Regarding inoperable NSCLC, we demonstrated that patients with elevated bFGF levels before any treatment and during chemotherapy had a significantly poorer survival. During chemotherapy, each rise of one unit of bFGF (ng/L) corresponded to a 4 times increased risk of death. Regarding VEGF, elevated levels after radiotherapy corresponded with better survival. All prognostic information demonstrated in this study concerned patients with a, co-sampled, normal platelet count. In the third study, three putative markers, HER-2, EGFR and COX-2, suitable for targeted therapies in resected NSCLC were investigated in a panel of 53 tumours and further investigated for a possible correlation with microvessel density. We demonstrated that HER-2 and COX-2 were mainly expressed in adenocarcinomas, whereas EGFR was only expressed in squamous cell carcinomas. COX-2 showed a trend towards a correlation with microvesssel density. The expression profile, HER-2+/EGFR-, was significantly correlated to poorer survival. In the fourth study, a predictive model for recurrences consisting of p53, CD34 and CD105, and circulating serum fractions of VEGF and bFGF, was investigated. The two endothelial markers correlated with each other. CD105 expression correlated with p53 expression. No other significant correlations between markers could be demonstrated. A significant correlation between p53 overexpression and recurrent disease was demonstrated. The mutational status could not confirm the immunohistochemical correlation between p53 and recurrences. In conclusion, the present thesis demonstrates that the angiogenic factors VEGF and bFGF analysed in sera have both predictive and prognostic information when measured in operable and inoperable NSCLC. Since HER-2 is overexpressed in NSCLC and linked with prognostic information, this marker might be a suitable target for therapy in NSCLC. Furthermore, in patients with operable NSCLC, p53 expression status was linked with recurrent disease and mean MVD.
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Microvascular Permeability to Macromolecules and Its Dynamic Modulation.Joyner, William L., Kern, David F. 01 January 1990 (has links)
This article presents current aspects of transvascular exchange for solutes and water in the microcirculation. Also discussed are various concepts concerning the modulation of the barrier in inflammatory-like states, as well as information describing the receptor-operated channels in endothelial cells and their processing.
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Bradykinin and Tumor Necrosis Factor-α Alter Albumin Transport in Vivo: A Comparative StudySaulpaw, Charles E., Joyner, William L. 01 November 1997 (has links)
These studies indicate that tumor necrosis factor-α (TNFα) alters albumin permeability and unlike bradykinin (BK) the increased albumin permeability lasts for the duration of the application. Neither agonist requires the presence of white blood cells or other blood-borne substances to produce this inflammatory response. These experiments were completed in the in situ, microcannulated, perfused venules of the mesentery in the anesthetized hamster. Albumin transport was measured using intravital fluorescence microscopy, TRITC-labeled albumin, and densitometric tracking. Further, by varying the intravascular pressure, the hydraulic (L(p)(1 - σ)) and diffusive permeability (P0) coefficients of these microvessels were determined. Both BK and TNFα produced an increase in albumin flux, which was dependent upon the dose and time domains. This response was present when the agonists were given by either intra- or extravascular presentation. Both hydraulic coupling and microvascular permeability were increased by BK and TNFα. TNFα increased albumin permeability rapidly and its effect lasted as long as TNFα was present, whereas the increased albumin transport by BK was biphasic. The results implicate a dynamic modification in the microvascular wall to these inflammatory agonists and the mechanism(s) for transduction in the endothelium are quite different.
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The Effects of the Endothelial Surface Layer on Red Blood Cell Dynamics in Microvessel BifurcationsCarlson Bernard Triebold (11198889) 28 July 2021 (has links)
<div>Red blood cells (RBCs) make up 40-45% of blood and play an important role in oxygen transport. That transport depends on the RBC distribution throughout the body, which is highly heterogeneous. That distribution, in turn, depends on how RBCs are distributed or partitioned at diverging vessel bifurcations where one vessel flows into two. Several studies have used mathematical modeling to consider RBC partitioning at such bifurcations in order to produce useful insights. However, these studies assume that the vessel wall is a flat impenetrable homogeneous surface. While this is a good first approximation, especially for larger vessels, the vessel wall is typically coated by a flexible, porous endothelial surface layer (ESL) that is 0.5-1 microns thick. To better understand the possible effects of this layer on RBC partitioning, a diverging capillary bifurcation is analyzed using a flexible, two-dimensional RBC model. The model is also used to investigate RBC deformation and penetration of the ESL region when ESL properties are varied. The RBC is represented using interconnected viscoelastic elements. Stokes flow equations (viscous flow) model the surrounding fluid. The flow in the ESL is modeled using the Brinkman approximation for porous media with a corresponding hydraulic resistivity. The resistance of the ESL to compression is modeled using an osmotic pressure difference. The study includes isolated cells that pass through the bifurcation one at a time with no cell-cell interactions and two cells that pass through the bifurcation at the same time and interact with each other. A range of physiologically relevant hydraulic resistivities and osmotic pressure differences are explored.</div><div><br></div><div>For isolated cell simulations, decreasing hydraulic resistivity and/or decreasing osmotic pressure difference produced four behaviors: 1) RBC distribution nonuniformity increased; 2) RBC deformation decreased; 3) RBCs slowed down slightly; and 4) RBCs penetrated more deeply into the ESL. The presence of an altered flow profile and the ESL's resistance to penetration were primary factors responsible for these behaviors. In certain scenarios, ESL penetration was deep enough to present a possibility of cell adhesion, as can occur in pathological situations.</div><div><br></div><div>For paired cell simulations, more significant and complex changes were observed. Three types of effects that alter partitioning as hydraulic resistivity is changed are identified. Decreasing hydraulic resistivity in the ESL produced lower RBC deformation. Including cell-cell interactions tended to increase deformation sharply compared to isolated cell scenarios. ESL penetration generally decreased for lower hydraulic resistivities except in scenarios with significant cell-cell interactions. This was primarily due to changes in flow profiles induced by the altered hydraulic resistivity levels.</div>
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Vascular density and bone marrow fibrosis in childhood acute lymphoblastic leukemiaNorén Nyström, Ulrika January 2008 (has links)
Background: In childhood acute lymphoblastic leukemia (ALL), the cure rate has now reached 80% in the western world. Even so, 15¬–20% will die from the disease or treatment-related causes, among them children who did not present any known unfavorable features at diagnosis. Treatment of childhood ALL is risk-adapted, meaning that certain factors that are related to the child or the leukemic blasts stratifies to more or less intensive treatment. In this thesis, characteristics of the bone marrow (BM) stroma, reflecting the interaction between the leukemic cells and their microenvironment, were evaluated. The aims were to investigate these factors in relation to other known data in order to further understand the biology of leukemia, and to suggest additional risk factors that would further improve decision making for the treatment of individual children diagnosed with ALL. Methods: We retrospectively investigated microvessel density (MVD), blast-congested vessel fraction (BCVF), and degree of fibrosis – reticulin fiber density (RFD) – in sections from diagnostic BM biopsies from children diagnosed in Umeå, Uppsala, and Stockholm. RFD was also studied in BM sections from treatment day 29. Results: RFD had prognostic impact in patients with high-hyperdiploid (HeH) leukemia. Moreover, rapid reduction of RFD during induction treatment was associated with a favorable prognosis compared to slow reduction, in B-cell precursor (BCP) ALL patients. There was also a correlation between RFD at diagnosis and minimal residual disease (MRD) measured by flow cytometry on treatment day 29 in BCP patients. BCP patients with high RFD and high MVD had an unfavorable outcome compared to all other BCP patients. In addition, MVD and RFD were both associated with immunophenotype, and MVD with cytogenetic aberrations. There was a correlation between MVD and WBC count in BCP high-risk patients. There was also a strong correlation between BCVF and WBC count in all BCP patients, but not between BCVF and MVD or RFD. There was a negative correlation between MVD and in vitro cellular resistance to several drugs in BCP patients. A drug-resistance score combining the drugs most strongly correlated to MVD – cytarabine, doxorubicin, and dexametasone (ADD score) – identified the prognostic potential of ADD score in HeH patients with no unfavorable features. Conclusions: Taken together, these studies indicate that stroma factors in leukemia are related to both phenotypic and genotypic features of acute leukemia. Stroma factors also seem to influence the response to induction treatment, in vitro drug resistance, and outcome in certain subgroups of childhood ALL patients. The results emphasize the importance of BM stroma in leukemia and the need for greater use of BM biopsy at diagnosis.
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Regulation of permeability of human brain microvessel endothelial cells by polyunsaturated fatty acidsDalvi, Siddhartha 04 July 2013 (has links)
The blood-brain barrier, formed by brain microvessel endothelial cells, is the restrictive barrier between the brain parenchyma and the circulating blood. It was previously demonstrated in our laboratory that knock down of fatty acid transport proteins FATP-1 and CD36 attenuated apical to basolateral monounsaturated fatty acid transport across human brain microvessel endothelial cells (HBMEC). Arachidonic acid (AA; 5,8,11,14 - cis-eicosatetraenoic acid) is a conditionally essential, polyunsaturated fatty acid [20:4(n-6)] and a major constituent of brain lipids. We examined transport of AA across confluent monolayers of HBMEC. Control cells or HBMEC with knock down of FATP-1 or CD36 were cultured on Transwell® plates and incubated apically with [3H]AA and incorporation of [3H]AA into the basolateral medium was determined temporally. [3H]AA was rapidly incorporated into the basolateral medium with time in control cells. Surprisingly, knock down of FATP-1 or CD36 did not alter [3H]AA movement into the basolateral medium. The increased permeability mediated by AA was likely caused by a metabolite of AA produced de novo and was confirmed by an increased movement of fluorescent dextran from apical to basolateral medium. HBMECs expressed PGE2 synthase, cyclooxygenase-1 and -2, PGE2 receptors, tight junction proteins and prostaglandin transporters. The AA-mediated increase in membrane permeability was not attenuated by cyclooxygenase inhibitor drugs (NSAIDs). Incubation of the HBMEC monolayers with exogenous PGE2 resulted in attenuation of the AA-mediated permeability increases. The results indicate that AA increases the permeability of the HBMEC monolayer likely via increased production of metabolites or by-products of the lipoxygenase or epoxygenase pathways. These observations may explain the rapid influx of AA into the brain previously observed upon plasma infusion with AA.
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