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Conduit Arteries (conduit + artery)
Selected AbstractsRole of shear stress on nitrite and NOS protein content in different size conduit arteries of swineACTA PHYSIOLOGICA, Issue 2 2009X. Guo Abstract Aim:, Inherent fundamental difference exists among arteries of different sizes. The purpose of this study was to evaluate the relation between regional difference of wall shear stress (WSS) in various sizes arteries and contents of nitrite and NO synthase (NOS) isoforms. Methods:, Five different conduit arteries in a wide range of diameter (1,8 mm) were examined in the hind limbs of 13 pigs. Blood flow rate and outer diameter were measured in vivo to determine WSS. Arterial tissues were harvested for the measurement of nitrite and NOS protein contents. The concentration of nitrite, a product of NO synthesis, was determined by high-performance liquid chromatography method. Western blot analysis was used to assess the protein contents of endothelial NOS (eNOS), inducible NOS (iNOS) and neuronal NOS (nNOS). Results:, Our data show that WSS increases with a decrease in artery diameter. Nitrite level increases with increasing WSS and hence decreases with artery diameter. The eNOS protein contents decrease with an increase in diameter. No significant difference for iNOS and nNOS protein contents was found with different artery diameter. A significant positive correlation between tissue nitrite and eNOS protein contents was also observed. Finally, the WSS-normalized eNOS is not significantly different in various size vessels. Conclusion:, Regional difference in blood flow has no effect on iNOS and nNOS protein contents in these conduit arteries. Regional difference in eNOS expression and nitrite contents may be related to the WSS-induced NO by the endothelium under normal physiological conditions. [source] Arterial structural and functional alterations in uraemiaEUROPEAN JOURNAL OF CLINICAL INVESTIGATION, Issue 2005A. P. Guérin Abstract Epidemiological and clinical studies have shown that cardiovascular disease in patients with end-stage renal disease (ESRD) is frequently related to damage of large conduit arteries. Arterial disease is responsible for the high incidence of ischaemic heart disease, peripheral artery diseases, left ventricular hypertrophy and congestive heart failure. The vascular complications in ESRD are ascribed to two different but associated mechanisms, namely atherosclerosis and arteriosclerosis. Whereas the former principally affects the conduit function with ischaemic lesions being the most characteristic consequence, the latter primarily disturbs the dampening function of large arteries. Arteriosclerosis in ESRD patients is characterized by diffuse dilation and wall hypertrophy of large conduit arteries and stiffening of arterial walls. These changes represent a clinical form of an accelerated ageing process. The main clinical characteristics due to arterial stiffening are isolated increase in systolic blood pressure with normal or lower diastolic pressure resulting in an increased pulse pressure. The consequences of these alterations are: (i) an increased left ventricular afterload with development of left ventricular hypertrophy and increased myocardial oxygen demand; and (ii) altered coronary perfusion and subendocardial blood flow distribution. Epidemiological studies have identified arterial remodelling and stiffening as independent predictors of overall and cardiac mortality in ESRD patients. [source] Contribution of endothelium-derived hyperpolarizing factors to the regulation of vascular tone in humansFUNDAMENTAL & CLINICAL PHARMACOLOGY, Issue 4 2008Jeremy Bellien Abstract Endothelium plays a crucial role in the regulation of cardiovascular homeostasis through the release of vasoactive factors. Besides nitric oxide (NO) and prostacyclin, increasing evidences show that endothelium-derived hyperpolarizing factors (EDHF) participate in the control of vasomotor tone through the activation of calcium-activated potassium channels. In humans, the role of EDHF has been demonstrated in various vascular beds including coronary, peripheral, skin and venous vessels. The mechanisms of EDHF-type relaxations identified in humans involved the release by the endothelium of hydrogen peroxide, epoxyeicosatrienoic acids (EETs), potassium ions and electronical communication through the gap junctions. The role of EETs could be particularly important because, in addition contributing to the maintenance of the basal tone and endothelium-dependent dilation of conduit arteries, these factors share many vascular protective properties of NO. The alteration of which might be involved in the physiopathology of cardiovascular diseases. The evolution of EDHF availability in human pathology is currently under investigation with some results demonstrating an increase in EDHF release to compensate the loss of NO synthesis and to maintain the endothelial vasomotor function whereas others reported a parallel decrease in NO and EDHF-mediated relaxations. Thus, the modulation of EDHF activity emerges as a new pharmacological target and some existing therapies in particular those affecting the renin,angiotensin system have already been shown to improve endothelial function through hyperpolarizing mechanisms. In this context, the development of new specific pharmacological agents especially those increasing EETs availability may help to prevent endothelial dysfunction and therefore enhance cardiovascular protection in patients. [source] Clinical methods for the evaluation of endothelial function , a focus on resistance arteriesFUNDAMENTAL & CLINICAL PHARMACOLOGY, Issue 3 2006Robinson Joannides Abstract Endothelial dysfunction is a key event in the pathophysiology of cardiovascular diseases and appears as a strong independent predictor of cardiovascular events. In this context, biological evaluation of endothelial circulating markers can be helpful. However, functional tests using pharmacological stimuli appear more specific for the study of resistance arteries. These methods consist in the evaluation of the endothelium-dependent changes in regional vascular flow in response to local infusion of substances that act through endothelial receptors without modification of systemic arterial pressure and in comparison with a non endothelium-dependent relaxation. Flow is measured by Doppler and intravascular ultrasound in coronary circulation, laser Doppler in skin and by venous occlusion plethysmography in peripheral muscular arteries. Similar studies can be performed ex vivo using isolated resistance arteries obtained from fat subcutaneous biopsies. In addition, other information can be obtained from reactive hyperemia and the study of the flow-mediated dilatation of conduit arteries to enable a selective and comprehensive approach of the heterogeneity of endothelial function in pathophysiology. [source] Regenerative medicine in the treatment of peripheral arterial diseaseJOURNAL OF CELLULAR BIOCHEMISTRY, Issue 4 2009Erica B. Sneider Abstract The last decade has witnessed a dramatic increase in the mechanistic understanding of angiogenesis and arteriogenesis, the two processes by which the body responds to obstruction of large conduit arteries. This knowledge has been translated into novel therapeutic approaches to the treatment of peripheral arterial disease, a condition characterized by progressive narrowing of lower extremity arteries and heretofore solely amenable to surgical revascularization. Clinical trials of molecular, genetic, and cell-based treatments for peripheral artery obstruction have generally provided encouraging results. J. Cell. Biochem. 108: 753,761, 2009. © 2009 Wiley-Liss, Inc. [source] Circumferential strain in the wall of the common carotid artery: Comparing displacement-encoded and cine MRI in volunteersMAGNETIC RESONANCE IN MEDICINE, Issue 1 2008Alexander P. Lin The walls of conduit arteries undergo cyclic stretching from the periodic fluctuation of arterial pressure. Atherosclerotic lesions have been shown to localize to regions of excessive stretching of the arterial wall. We employed a displacement encoding with stimulated echoes (DENSE) sequence to image the motion of the common carotid artery wall and map the two-dimensional (2D) circumferential strain. The sequence utilizes a fully-balanced steady-state free-precession (SSFP) readout with 0.60 mm in-plane resolution. Preliminary results in volunteers at 1.5T (N = 4) and 3.0T (N = 17) are compared to measurements of the lumen circumference from cine images. The agreement between the two independent measurements at both field strengths (P , 0.001) supports the use of DENSE as a means to map the pulsatile strain in the carotid artery wall. Magn Reson Med 60:8,13, 2008. © 2008 Wiley-Liss, Inc. [source] ENDOTHELIAL FUNCTION OF CONDUIT AND RESISTANCE ARTERIES IN NEPHROTIC RANGE PROTEINURIANEPHROLOGY, Issue 3 2000G. Dogra OBJECTIVE: To test the hypothesis that endothelial dysfunction occurs in nephrotic range proteinuria primarily as a consequence of dyslipidaemia. METHODS: Brachial artery and forearm microcirculatory endothelial function was compared among patients with nephrotic range proteinuria (NRP, n = 14 ), primary hyperlipidaemia (HL, n = 15) and normal controls (NC, n = 16). Endothelial function was studied by measuring post-ischaemic flow-mediated dilatation (FMD) of the brachial artery using high resolution ultrasonography. Endothelium-independent, glyceryl trinitrate (GTN) mediated brachial artery vasodilatation was also measured. Basal and post-ischaemic blood flow of the forearm microcirculation was measured using venous-occlusion strain gauge plethysmography. RESULTS: Serum creatinine was similar among groups. The proteinuric group had a mean albumin of 27.6g/L(1.8) and 24-hour urinary protein excretion of 6.3g(1.3). Plasma lipids and lipoproteins were not statistically different between the NRP and HL groups. Brachial artery FMD was significantly lower in the NRP and HL groups compared with the controls (NRP 4.7%(1.3)*, HL 4.9%(0.7)* and NC 8.3%(0.6), *p = 0.012 vs. NC); GTN mediated dilatation and basal and post-ischaemic forearm blood flow were not statistically different among the three groups. CONCLUSION: Patients with nephrotic range proteinuria have endothelial dysfunction of conduit arteries in the peripheral circulation, similar to that observed in patients with primary hyperlipidaemia. This suggests dyslipoproteinaemia is the principal cause of endothelial dysfunction of conduit arteries in nephrotic range proteinuria. Confirmation of this should be sought with an intervention trial of lipid-regulating therapy. [source] Recruitment of CXCR3+ and CCR5+ T Cells and Production of Interferon-,-Inducible Chemokines in Rejecting Human ArteriesAMERICAN JOURNAL OF TRANSPLANTATION, Issue 6 2005William R. Burns Chemokine receptors preferentially expressed by Th1 cells and their IFN-,-inducible ligands predominate in experimental and clinical allograft rejection. Previous chemokine-related transplantation studies have focused on parenchymal and microvascular inflammation which are of importance in acute rejection, but are not necessarily relevant in immune-mediated injury of conduit arteries. We have recently described a model of progressive human T cell-mediated infiltration and injury of allogeneic coronary artery segments using immunodeficient mouse hosts. In the present study, we investigated if recruitment of allogeneic T cells to different vascular compartments correlated with the expression of chemokines and their receptors. Transcripts were quantified by laser capture microdissection/real-time RT-PCR and their distribution was correlated to the corresponding protein expression detected by immunohistochemistry. Infiltrating T cells, confined to the adventitia and intima, expressed CXCR3 and CCR5, but were not recruited into the media despite production by vascular smooth muscle cells of IP-10, Mig, I-TAC, RANTES and MIP-1,. Chemokine mRNA was detected primarily in vascular cells, although chemokine protein largely localized to infiltrating leukocytes which uniquely expressed their cognate receptors. These data explain the recruitment of IFN-,-secreting T cells to the vessel wall, and reinforce the suggestion that the arterial media may be a site of immunological privilege. [source] A Review of HNS-32: A Novel Azulene-l-Carboxamidine Derivative with Multiple Cardiovascular Protective ActionsCARDIOVASCULAR THERAPEUTICS, Issue 4 2001Yoshio Tanaka ABSTRACT HNS-32 [N1,N1 -dimethyl- N2 -(2-pyridylmethyl)-5-isopropyl-3,8-dimethylazulene-1-carboxamidine] (CAS Registry Number: 186086-10-2) is a newly synthesized azulene derivative. Computer simulation showed that its three dimensional structure is similar to that of the class Ib antiarrhythmic drugs, e.g., lidocaine or mexiletine. HNS-32 potently suppressed ventricular arrhythmias induced by ischemia due to coronary ligation and/or ischemia-reperfusion in dogs and rats. In the isolated dog and guinea pig cardiac tissues, HNS-32 had negative inotropic and chronotropic actions, prolonged atrial-His and His-ventricular conduction time and increased coronary blood flow. In the isolated guinea pig ventricular papillary muscle, HNS-32 decreased maximal rate of action potential upstroke (V,max) and shortened action potential duration (APD). These findings suggest that HNS-32 inhibits inward Na+ and Ca2+ channel currents. In the isolated pig coronary and rabbit conduit arteries, HNS-32 inhibited both Ca2+ channel-dependent and -independent contractions induced by a wide variety of chemical stimuli. HNS-32 is a potent inhibitor of protein kinase C (PKC)-mediated constriction of cerebral arteries. It is likely to block both, Na+ and Ca2+ channels expressed in cardiac and vascular smooth muscles. These multiple ion channel blocking effects are largely responsible for the antiarrhythmic and vasorelaxant actions of HNS-32. This drug may represent a novel approach to the treatment of arrhythmias. [source] Acute And Chronic Sympathoinhibition On Carotid Artery Diameter Of Spontaneously Hypertensive Rats: Effects Of Clonidine And FlesinoxanCLINICAL AND EXPERIMENTAL PHARMACOLOGY AND PHYSIOLOGY, Issue 9 2000H Dabiré SUMMARY 1. Hypertensive conduit arteries are thicker and stiffer than those of normotensive controls. Whether they are specifically sensitive to central sympathoinhibition has never been investigated. 2. The effects of acute (24 h infusion) and chronic (4 week infusion) treatments with clonidine (0.01 and 0.1 mg/kg per day) and flesinoxan (1 and 3 mg/kg per day) on carotid artery diameter were investigated in spontaneously hypertensive rats. At the end of treatment, blood pressure (BP) was recorded in the rats while they were conscious. Rats were then anaesthetized for carotid artery diameter measurements using an ultrasonic echo-tracking device. 3. In conscious rats, clonidine significantly decreased BP and heart rate (HR) following acute but not chronic treatment. In contrast, flesinoxan significantly decreased BP following both the acute and chronic treatment. In anaesthetized animals, the two agents have opposite effects on isobaric carotid artery diameter, with a decrease under clonidine and an increase under flesinoxan. After 4 weeks infusion, the reactivity of aortic rings was studied in organ chambers. Flesinoxan, but not clonidine, caused the relaxation of potassium chloride precontracted aortic segments. 4. The results indicate that although clonidine and flesinoxan are centrally acting antihypertensive agents, the drug-induced changes in isobaric carotid diameter may be influenced by local factors independent of the central action of the two drugs. [source] | |||||||||||||