Paradoxical arterial wall shrinkage may contribute to luminal narrowing of human atherosclerotic femoral arteries.
about
Atherosclerotic coronary lesions with inadequate compensatory enlargement have smaller plaque and vessel volumes: observations with three dimensional intravascular ultrasound in vivo.Preintervention lesion remodelling affects operative mechanisms of balloon optimised directional coronary atherectomy procedures: a volumetric study with three dimensional intravascular ultrasound.Relation between coronary artery remodelling (compensatory dilatation) and stenosis in human native coronary arteriesCoronary artery compliance and adaptive vessel remodelling in patients with stable and unstable coronary artery disease.Understanding coronary artery disease: tomographic imaging with intravascular ultrasound.Saline flush during excimer laser angioplasty: short and long term effects in the rabbit femoral artery.The fat-fed apolipoprotein E knockout mouse brachiocephalic artery in the study of atherosclerotic plaque ruptureFemoropopliteal artery obstructions: from the balloon to the stent-graft.Intracoronary ultrasound in acute coronary syndromes: from characterization of vulnerable plaques to guidance of percutaneous treatment of complex stenoses.Coronary arterial remodeling: from bench to bedside.Shrinkage of human coronary arteries is an important determinant of de novo atherosclerotic luminal stenosis: an in vivo intravascular ultrasound study.Arterial remodelling of native human coronary arteries in patients with unstable angina pectoris: a prospective intravascular ultrasound studySize of emptied plaque cavity following spontaneous rupture is related to coronary dimensions, not to the degree of lumen narrowing. A study with intravascular ultrasound in vivoCoronary artery disease: arterial remodelling and clinical presentationEvaluation of intracoronary stenting by intravascular optical coherence tomography.Intravascular ultrasound assessment of atherosclerosis.Coronary artery remodelling is related to plaque composition.Chronic total artery occlusions in noninfarct-related coronary arteries.High-resolution MRI of intracranial atherosclerotic diseaseThe role of intravascular ultrasound in the determination of progression and regression of coronary artery disease.Non-invasive assessment of vulnerable plaque.Molecular Cardiovascular Magnetic Resonance: Current Status and Future Prospects.Intracranial Vessel Wall MRI: Principles and Expert Consensus Recommendations of the American Society of Neuroradiology.Biomechanical factors in atherosclerosis: mechanisms and clinical implications.Past, current and future concepts in atherosclerotic biobanking.Contribution of adventitial myofibroblasts to vascular remodeling and lesion formation after experimental angioplasty in pig coronary arteries.Smaller outer diameter of atherosclerotic middle cerebral artery associated with RNF213 c.14576G>A Variant (rs112735431).Imaging of coronary atherosclerosis and identification of the vulnerable plaque.Adventitia as a target for intravascular local drug delivery.Coating of intravascular balloon with paclitaxel prevents constrictive remodeling of the dilated porcine femoral artery due to inhibition of intimal and media fibrosis.Effect of coronary risk factors on arterial compensatory enlargement in japanese middle-aged patients with de novo single-vessel disease--an intravascular ultrasound study.Angiographic distribution of lower extremity atherosclerosis in patients with and without diabetes.Intravascular ultrasound and quantitative coronary angiography.Carotid artery wall hypertrophy in children with metabolic syndrome.Remodeling of coronary arteries in diabetic patients-an intravascular ultrasound study.Redefining the normal angiogram using population-derived ranges for coronary size and shape: validation using intravascular ultrasound and applications in diverse patient cohorts.Association of carotid atherosclerosis and stiffness with abdominal aortic aneurysm: The atherosclerosis risk in communities (ARIC) study.A biochemical and mechanical model of injury-induced intimal thickening.Atherosclerosis Imaging with Intravascular UltrasoundIntravascular ultrasound observations of atherosclerotic lesion formation and restenosis in patients with diabetes mellitus
P2860
Q30542131-46D9DFE7-4D6C-4F18-99EA-D48CA440522EQ30542162-79ED0A8E-9646-4D61-8117-C36166DED8E1Q30542198-6489518E-CB2F-446F-97A3-C7BF378B40A0Q30542329-1E163B1D-521A-4284-A3BD-D00AF1851022Q30542456-D4BD8A56-B29C-43FC-995B-55021EACAD54Q31996513-AB259685-7518-4B64-9804-C09871F598EBQ34289373-FE18BDD2-C5AC-4672-8097-B18748E74634Q34302138-1EFF2719-95BF-40F1-B675-E7B8951BBEB6Q35022881-71CC0B64-61F1-4296-9ACA-D4E319458CABQ35062347-772562D7-EE3C-4964-A5ED-E9B6A63C97F7Q35366688-5A42D3F2-0682-450D-9D3F-EED779854FD8Q35372635-21C287DA-0DD3-4AAA-8121-B56ABCAEB014Q35376940-84796817-FBDA-4182-8C09-B0FF22840B88Q35565863-5490DE45-DBC4-4C00-A9AD-70DF967FD506Q35580966-221FC304-5D70-4EC4-A38A-0B3AD3059171Q35739807-D8423610-8833-4B09-9160-58A6D71E654CQ35771328-ACBD658E-1FBB-4031-A8DB-5759325343C2Q37600928-BE4BD4A7-AB60-4ABF-A679-F41DD7EC5E93Q37640215-AFA39100-7C65-4D18-9B9A-079062AD6AA6Q37982642-41BB993A-A560-40E0-A2A8-451CC4F003AAQ38089812-819AA6D9-9CE2-4EAA-AB21-8528D6BAECC3Q38796404-E0D17A93-9143-48F3-AD0A-6AAA628F656EQ38911681-A0DEDF8F-ED00-427F-B67D-F1C7E1BF84A1Q39127509-67D046DB-5BAB-4C47-9017-6E221BE01675Q39941609-8A34A90D-9CC8-49A7-949D-F513168FE108Q41500728-5251DC26-26F1-4ACD-BC88-C556CC5B1512Q41994227-CDD80505-8AA2-495D-9EFD-88797CA8D81EQ42331742-525AE6D6-4263-45B1-BB31-F9E99C89E80CQ42391720-48861E5E-267C-42C2-AD50-7FB10BA3F8F2Q42428651-1C240ED5-E5BE-4BB9-BDEC-AA15C5D44493Q43637991-0DA9D734-A0B3-4393-B269-01AE657081AAQ44004484-0426F862-81D7-4675-B124-A0D3348C218EQ46005325-19062928-C735-46D5-963A-B81071407D8FQ46956234-10F48D8C-C8D5-4798-B818-1030B2C1FB20Q47206964-151CC18E-4D0D-48BA-BC35-2F23838F94D4Q47306204-690C181E-9459-4351-A3EA-6455F7C433B5Q50172177-0C492A3B-63FA-4D7F-A452-9B2C922DB002Q50751294-216CE178-3065-4414-B4A8-7084E4EA4783Q57740256-46C9A9C2-4A79-416E-A795-6E2FCFC38D6EQ58145267-79C990CE-037F-48D8-A1AD-D7CBE5BD6BD2
P2860
Paradoxical arterial wall shrinkage may contribute to luminal narrowing of human atherosclerotic femoral arteries.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年学术文章
@wuu
1995年学术文章
@zh
1995年学术文章
@zh-cn
1995年学术文章
@zh-hans
1995年学术文章
@zh-my
1995年学术文章
@zh-sg
1995年學術文章
@yue
1995年學術文章
@zh-hant
name
Paradoxical arterial wall shri ...... erosclerotic femoral arteries.
@en
Paradoxical arterial wall shri ...... erosclerotic femoral arteries.
@nl
type
label
Paradoxical arterial wall shri ...... erosclerotic femoral arteries.
@en
Paradoxical arterial wall shri ...... erosclerotic femoral arteries.
@nl
prefLabel
Paradoxical arterial wall shri ...... erosclerotic femoral arteries.
@en
Paradoxical arterial wall shri ...... erosclerotic femoral arteries.
@nl
P2093
P356
P1433
P1476
Paradoxical arterial wall shri ...... erosclerotic femoral arteries.
@en
P2093
P304
P356
10.1161/01.CIR.91.5.1444
P407
P577
1995-03-01T00:00:00Z