about
C-reactive protein can upregulate VEGF expression to promote ADSC-induced angiogenesis by activating HIF-1α via CD64/PI3k/Akt and MAPK/ERK signaling pathways.Non-invasive imaging of vascular inflammation.Molecular imaging of inflammation and intraplaque vasa vasorum: a step forward to identification of vulnerable plaques?Chronic iliac vein occlusion and painful nonhealing ulcer induced by high venous pressures from an arteriovenous malformation.Diabetic retinopathy, its progression, and incident cardiovascular events in the ACCORD trial.Features of atherosclerosis in the tunica adventitia of coronary and carotid arteries in a black kenyan population.Developing cross-correlation as a method for microvessel imaging using clinical intravascular optical coherence tomography systemsGiant cell arteritis: immune and vascular aging as disease risk factors.Identification of a monocyte-predisposed hierarchy of hematopoietic progenitor cells in the adventitia of postnatal murine aorta.The vascular neural network--a new paradigm in stroke pathophysiologyUnilateral rete mirabile as a result of segmental agenesis of the ascending petrous segment of the internal carotid artery: embryology, differential diagnosis and clinical implicationsSelective inactivation of NADPH oxidase 2 causes regression of vascularization and the size and stability of atherosclerotic plaquesThe complementary role of microCT and histopathology in characterizing the natural history of stented arteries.Towards the therapeutic use of vascular smooth muscle progenitor cells.Imaging macrophage development and fate in atherosclerosis and myocardial infarctionAnti-angiogenic activity of rPAI-1(23) and vasa vasorum regression.Role of the vasa vasorum and vascular resident stem cells in atherosclerosis.Contribution of neovascularization and intraplaque haemorrhage to atherosclerotic plaque progression and instability.Thalidomide influences atherogenesis in aortas of ApoE(-/-)/LDLR (-/-) double knockout mice: a nano-CT study.The involvement of the vasa vasorum in the development of vasculitis in animal model of Kawasaki disease.Delivery of bevacizumab to atheromatous porcine carotid tissue using echogenic liposomes.Contrast-Enhanced Ultrasound Imaging Quantification of Adventitial Vasa Vasorum in a Rabbit Model of Varying Degrees of AtherosclerosisEx Vivo Porcine Arterial and Chorioallantoic Membrane Acoustic Angiography Using Dual-Frequency Intravascular Ultrasound ProbesAsymptomatic abdominal aortic aneurysms show histological signs of progression: a quantitative histochemical analysis.How many Layers has the Adventitia? - Structure of the Arterial Tunica Externa Revisited.Vascular histopathologic reaction to pulmonary artery banding in an in vivo growing porcine model.Comparative Ultrastructural and Stereological Analyses of Unruptured and Ruptured Saccular Intracranial Aneurysms.Role of lipids and intraplaque hypoxia in the formation of neovascularization in atherosclerosis.Immortalized multipotent pericytes derived from the vasa vasorum in the injured vasculature. A cellular tool for studies of vascular remodeling and regeneration.The secretion pattern of perivascular fat cells is different from that of subcutaneous and visceral fat cells.C-Reactive Protein in Atherothrombosis and Angiogenesis.Vasa Vasorum Angiogenesis: Key Player in the Initiation and Progression of Atherosclerosis and Potential Target for the Treatment of Cardiovascular Disease.Medial Hypoxia and Adventitial Vasa Vasorum Remodeling in Human Ascending Aortic AneurysmLong noncoding RNA TCONS_00024652 regulates vascular endothelial cell proliferation and angiogenesis via microRNA-21
P2860
Q30276116-FF941F01-6248-49EA-965B-9FAB3E39B969Q30431621-BFBAB2CD-0698-4251-A3C7-8C0E82EADC0FQ30479243-6F1F6C5C-3F00-4A79-98D0-07FD1FEDB1C1Q34274027-A1A09DC3-A6E1-4307-8E89-786CA0159EBBQ34511885-714C0903-31D7-4784-8D12-830E5AF9C95EQ35159213-10DB0CBE-7D1C-4A2B-9E62-0CB3348D412FQ35181745-3ADB48AA-27FB-4CE1-A97D-1CA787ABC2DAQ35617577-6FBFA0F3-3764-4E96-8EAC-83F4BA391529Q35723318-F587376D-15BD-42D3-AD39-2F7857E41665Q36676983-6F51F4B0-0A18-480D-8D10-2A584C94FBA1Q36696424-44555030-EA93-4098-A246-5E75F95DF0A4Q36758833-2D5C734C-9640-4D7B-BA8A-E91A5FC9FA0AQ37910218-D10DE42C-6482-4B50-952C-F9B434FA1B04Q37987098-A1AD0E02-15B1-41E1-9951-CBEF316011D4Q38064660-3CB8DFE8-AA0F-4765-8129-8AA81262B4E8Q38073476-325FB172-5C52-44C9-A71A-24B9CAF63023Q38203884-3E1327CE-0B91-4D53-802C-345F2F5F2027Q38290992-8BEF8E4C-EE34-4B90-A2E7-C5A7691820FAQ38640747-DDEA9A2E-7A9C-4106-9545-844E5D984A35Q38752315-88D08F44-D6EA-4F7D-85EA-341B512BDD22Q38816063-341123C0-0068-450B-BF3A-9CE7E62BBFF5Q41204183-B7DCC2EA-36ED-42D1-BF69-68C24AD302A0Q42644235-C18545FC-83CE-4D1F-8219-0F780938B51DQ43509058-9402DE74-A223-4F94-9D7D-3C16A4E17CC2Q46535020-206125B4-0C3F-46D3-B0ED-7B5A8A3E4C44Q46538588-81FA61CC-2A9D-4B0F-A393-39E56D8F5426Q48107698-E71353DE-F3E3-4840-9F54-348A5283B156Q48257479-4F3FD05C-A8BA-4D9A-B94E-09A9BF669E9BQ51689685-742C857A-41FA-42D2-829E-D517116A98C5Q53186169-38200FB8-9467-42DB-B296-2AEAA9FD3218Q54946647-CD2C0E54-9572-48F9-9111-38D356D63C2FQ55087013-8AAA17BC-0865-4802-8836-E2036E4D2F39Q57074352-E617DBDA-4FBA-4F52-98B4-56ECF3F58FBBQ58788879-D91FF0E3-DF62-43C1-BAD5-6647C33F1E58
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
The vasa vasorum in diseased and nondiseased arteries
@ast
The vasa vasorum in diseased and nondiseased arteries
@en
type
label
The vasa vasorum in diseased and nondiseased arteries
@ast
The vasa vasorum in diseased and nondiseased arteries
@en
prefLabel
The vasa vasorum in diseased and nondiseased arteries
@ast
The vasa vasorum in diseased and nondiseased arteries
@en
P2860
P1476
The vasa vasorum in diseased and nondiseased arteries
@en
P2093
Mary Jo Mulligan-Kehoe
P2860
P304
P356
10.1152/AJPHEART.00884.2009
P577
2009-11-25T00:00:00Z