Keywords: هیپرپلازی Neointimal; PTCA; Percutaneous transluminal coronary angioplasty; VEGF; Vascular endothelial growth factor; TNF-α; Tumor necrosis factor-α; ELISA; Enzyme-linked immunosorbent assay; RT-PCR; Real-time reverse transcriptase polymerase chain reaction; DES; Drug-elutin
مقالات ISI هیپرپلازی Neointimal (ترجمه نشده)
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Keywords: هیپرپلازی Neointimal; biodegradable polymers; bioresorbable vascular scaffold; bleeding; drug-eluting stent; percutaneous coronary intervention; stent restenosis; stent thrombosis; 1G-DES; first-generation drug-eluting stent(s); 2G-DES; second-generation drug-eluting stent(s);
Keywords: هیپرپلازی Neointimal; Heparin; Magnetic nanoparticles; Vascular cells; Endothelial cells; Neointimal hyperplasia;
Keywords: هیپرپلازی Neointimal; Coronary artery disease; Tissue prolapse; Neointimal hyperplasia; Optical coherence tomography;
Keywords: هیپرپلازی Neointimal; Resolution; Specialized pro-resolving mediators; Resolvins; Omega-3 fatty acids; Vascular injury; Neointimal hyperplasia; Restenosis;
Keywords: هیپرپلازی Neointimal; Neointimal hyperplasia; Nitric oxide; Periadventitial adipose tissue; Adipokines
Keywords: هیپرپلازی Neointimal; Myeloperoxidase; Atherosclerosis; 4-ABAH; Cardiovascular disease; Neointimal hyperplasia
Keywords: هیپرپلازی Neointimal; Proteasome; Diabetes; Nitric oxide; Neointimal hyperplasia
Keywords: هیپرپلازی Neointimal; Percutaneous coronary intervention; In-stent restenosis; Neointimal hyperplasia; Target vessel revascularization; Target lesion revascularization;
Keywords: هیپرپلازی Neointimal; Restenosis; Coronary arteries; Neointimal hyperplasia; Progressive narrowing;
Keywords: هیپرپلازی Neointimal; Thrombosis; Platelet aggregation; Neointimal hyperplasia; Prasugrel; Thienopyridine; P2Y12 receptor;
Keywords: هیپرپلازی Neointimal; Neointimal hyperplasia; Superoxide; Nitric oxide; Vascular; Sex differences
Keywords: هیپرپلازی Neointimal; Nitric oxide; Neointimal hyperplasia; Insulin; Diabetes;
Keywords: هیپرپلازی Neointimal; TNF-α; PDGF; MMPs; Neointimal hyperplasia; Femoral artery wire injury
Keywords: هیپرپلازی Neointimal; Balloon injury; Endothelial dysfunction; Hypertension; Neointimal hyperplasia; Nitric oxide; SHR;
Proresolving lipid mediators resolvin D1 and protectin D1 isomer attenuate neointimal hyperplasia in the rat carotid artery balloon injury model
Keywords: هیپرپلازی Neointimal; Atherosclerosis; Inflammation; Neointimal hyperplasia; Ï-3 fatty acid; Resolvin D1; Protectin D1 isomer;
MicroRNA-24 regulates vascular remodeling via inhibiting PDGF-BB pathway in diabetic rat model
Keywords: هیپرپلازی Neointimal; Diabetes mellitus; DM; vascular smooth muscle cells; VSMCs; percutaneous coronary intervention; PCI; MicroRNA; miR; platelet-derived growth factor; PDGF; proliferating cell nuclear antigen; PCNA; Sprague-Dawley; SD; green fluorescent protein; GFP; 4â²,6â
Cholinergic anti-inflammatory pathway inhibits neointimal hyperplasia by suppressing inflammation and oxidative stress
Keywords: هیپرپلازی Neointimal; 3-NT; 3-nitrotyrosine; α7nAChR; α7 nicotinic acetylcholine receptor; α-SMA; α-smooth muscle actin; CAP; cholinergic anti-inflammatory pathway; CCL2; chemokines chemokine (C-C motif) ligand 2; CNS; central nervous system; CXCL2; chemokine (CXC motif) l
RING finger protein 10 prevents neointimal hyperplasia by promoting apoptosis in vitro and in vivo
Keywords: هیپرپلازی Neointimal; MetS; metabolic syndrome; CHD; coronary heart disease; VSMC; vascular smooth muscle cell; UPS; ubiquitin-proteasome system; RNF10; RING finger protein 10; HF; high-fat; FBG; fasting blood glucose; FSI; fasting serum insulin; HOMA-IR; homeostatic model a
Tacrolimus-Eluting Suture Inhibits Neointimal Hyperplasia: An Experimental In Vivo Study in Rats
Keywords: هیپرپلازی Neointimal; Eluting suture; Endothelialisation and anastomosis; Neointimal hyperplasia; Tacrolimus-chitosan;
Wedelolactone, a plant coumarin, prevents vascular smooth muscle cell proliferation and injury-induced neointimal hyperplasia through Akt and AMPK signaling
Keywords: هیپرپلازی Neointimal; Vascular remodeling; Neointimal hyperplasia; Wedelolactone; Vascular smooth muscle cells; Cell proliferation;
The effects of a growth hormone-releasing hormone antagonist and a gastrin-releasing peptide antagonist on intimal hyperplasia of the carotid artery after balloon injury in a diabetic rat model
Keywords: هیپرپلازی Neointimal; Neointimal hyperplasia; Growth hormone-releasing hormone antagonist; Gastrin-releasing peptide antagonist; Arterial restenosis; Diabetes mellitus;
Difference in vascular response between sirolimus-eluting- and everolimus-eluting stents in ostial left circumflex artery after unprotected left main as observed by optical coherence tomography
Keywords: هیپرپلازی Neointimal; AO; adjacent to the ostium; DES; drug eluting stents; EES; everolimus-eluting stents; EF; ejection fraction; KBT; kissing-balloon technique; LAD; left anterior descending artery; LCx; left circumflex artery; NIH; neointimal hyperplasia; OCT; optical coher
A predictive framework to elucidate venous stenosis: CFD & shape optimization
Keywords: هیپرپلازی Neointimal; CFD; Hemodynamics; Shape optimization; Neointimal hyperplasia; Vascular access; Arteriovenous fistula;
Ozonetherapy protects from in-stent coronary neointimal proliferation. Role of redoxins
Keywords: هیپرپلازی Neointimal; Coronary angioplasty; Ozonetherapy; Thioredoxin-1; Neointimal hyperplasia; Restenosis; Endothelization;
Atherosclerotic plaque behind the stent changes after bare-metal and drug-eluting stent implantation in humans: Implications for late stent failure?
Keywords: هیپرپلازی Neointimal; Atherosclerosis; Plaque; Neointimal hyperplasia; Neoatherosclerosis; In-stent restenosis; Stent thrombosis;
Increased intermediate CD14++CD16++ monocyte subset levels associate with restenosis after peripheral percutaneous transluminal angioplasty
Keywords: هیپرپلازی Neointimal; Angioplasty; Peripheral artery occlusive disease; Restenosis; Monocyte; Neointimal hyperplasia;
VascularMicroparticle levels after arterial injury and NO therapy in diabetes
Keywords: هیپرپلازی Neointimal; Microparticles; Diabetes; Insulin; Neointimal hyperplasia; Nitric oxide;
Long-term effect of PROLI/NO on cellular proliferation and phenotype after arterial injury
Keywords: هیپرپلازی Neointimal; α-SMA; alpha smooth muscle actin; BrdU; bromodeoxyuridine; cGMP; cyclic guanosine monophosphate; MAP; mean arterial pressure; NMMHC; non-muscle myosin heavy chain; NO; nitric oxide; NOâ2; nitrite; PROLI/NO; 1-[2-(carboxylato)pyrrolidin-1-yl]diazen-1-iu
Drug-eluting versus plain balloon angioplasty for the treatment of failing dialysis access: Final results and cost-effectiveness analysis from a prospective randomized controlled trial (NCT01174472)
Keywords: هیپرپلازی Neointimal; Drug-eluting balloons; Dialysis; Restenosis; Neointimal hyperplasia;
New Developments in Our Understanding of Neointimal Hyperplasia
Keywords: هیپرپلازی Neointimal; Neointimal hyperplasia; Vascular remodeling; Arteriovenous accesses; Novel therapies; Cannulation;
ImagingDual role of circulating endothelial progenitor cells in stent struts endothelialisation and neointimal regrowth: A substudy of the IN-PACT CORO trial
Keywords: هیپرپلازی Neointimal; BMS; bare metal stent; CAD; coronary artery disease; DCB; drug coated balloon; DES; drug-eluting stent; EPC; endothelial progenitor cells; FD-OCT; frequency domain optical coherence tomography; ISR; instent restenosis; NIH; neointimal hyperplasia; NIHV; n
Nitric oxide affects UbcH10 levels differently in type 1 and type 2 diabetic rats
Keywords: هیپرپلازی Neointimal; Diabetes; Neointimal hyperplasia; UbcH10; Ubiquitin; Artery
The microRNA miR-34c inhibits vascular smooth muscle cell proliferation and neointimal hyperplasia by targeting stem cell factor
Keywords: هیپرپلازی Neointimal; miR-34c; Stem cell factor; Vascular smooth muscle cells; Neointimal hyperplasia; Atherosclerosis;
DNA aptamer raised against advanced glycation end products inhibits neointimal hyperplasia in balloon-injured rat carotid arteries
Keywords: هیپرپلازی Neointimal; AGE-aptamer; Balloon injury; RAGE; Neointimal hyperplasia;
Perivascular biodegradable microneedle cuff for reduction of neointima formation after vascular injury
Keywords: هیپرپلازی Neointimal; Microneedles; Neointimal hyperplasia; Drug delivery; Restenosis; Grafting surgery
Paclitaxel-Coated Balloon Angioplasty Versus Drug-Eluting Stenting for the Treatment of Infrapopliteal Long-Segment Arterial Occlusive Disease : The IDEAS Randomized Controlled Trial
Keywords: هیپرپلازی Neointimal; drug-eluting stents; infrapopliteal lesions; neointimal hyperplasia; paclitaxel-coated balloons; restenosisCLI, critical limb ischemia; CTO, chronic total occlusion(s); DES, drug-eluting stent(s); IQR, interquartile range(s); ITT, intention-to-treat; LLL,
Exendin-4, a glucagon-like peptide-1 receptor agonist, attenuates neointimal hyperplasia after vascular injury
Keywords: هیپرپلازی Neointimal; Exendin-4; GLP-1; Endovascular injury; Neointimal hyperplasia; Diabetes mellitus;
The microRNA miR-132 targets Lrrfip1 to block vascular smooth muscle cell proliferation and neointimal hyperplasia
Keywords: هیپرپلازی Neointimal; miR-132; Leucine-rich repeat (in flightless 1) interacting protein-1; Vascular smooth muscle cells; Neointimal hyperplasia; Atherosclerosis;
ReviewTargeting smooth muscle microRNAs for therapeutic benefit in vascular disease
Keywords: هیپرپلازی Neointimal; MicroRNA; Vascular smooth muscle; Neointimal hyperplasia; Pulmonary arterial hypertension; Atherosclerosis; Aneurysm;
Endogenous CGRP protects against neointimal hyperplasia following wire-induced vascular injury
Keywords: هیپرپلازی Neointimal; CGRP; Calcitonin gene-related peptide; VSMC; Vascular smooth muscle cell; EC; Endothelial cell; ROS; Reactive oxygen species; AM; Adrenomedullin; BMT; Bone marrow transplantation; Calcitonin gene-related peptide (CGRP); Neointimal hyperplasia; Vascular sm
Sequestosome1/p62: A regulator of redox-sensitive voltage-activated potassium channels, arterial remodeling, inflammation, and neurite outgrowth
Keywords: هیپرپلازی Neointimal; AP-1; activator protein-1; ARE; antioxidant response element; CDK; cyclin-dependent kinase; EGF; epidermal growth factor; ERK1/2; extracellular regulated kinase 1/2; HNE; 4-hydroxynonenal; HO-1; heme oxygenase-1; IL-1; interleukin-1; Keap1; Kelch-like ECH
Nitric oxide delivery via a permeable balloon catheter inhibits neointimal growth after arterial injury
Keywords: هیپرپلازی Neointimal; Neointimal hyperplasia; Restenosis; Nitric oxide; Adventitia; Media; Intima; Inflammation; Macrophage; Endoluminal
Nitric oxide differentially affects ERK and Akt in type 1 and type 2 diabetic rats
Keywords: هیپرپلازی Neointimal; Nitric oxide; Akt; ERK; Neointimal hyperplasia; Type 1 diabetes; Type 2 diabetes; Metabolic environment
Nitric oxide decreases activity and levels of the 11S proteasome activator PA28 in the vasculature
Keywords: هیپرپلازی Neointimal; Arterial injury; Neointimal hyperplasia; Nitric oxide; Proteasome activator; PA28; Vascular smooth muscle cells;
RAGE signaling mediates post-injury arterial neointima formation by suppression of liver kinase B1 and AMPK activity
Keywords: هیپرپلازی Neointimal; RAGE; AMPK; LKB1; Arterial restenosis; Neointimal hyperplasia;
The Role of Estrogen Receptor α and β in Regulating Vascular Smooth Muscle Cell Proliferation is Based on Sex1
Keywords: هیپرپلازی Neointimal; neointimal hyperplasia; vascular smooth muscle; nitric oxide; hormones; estrogen receptors
Pigment epithelium-derived factor reduces the PDGF-induced migration and proliferation of human aortic smooth muscle cells through PPARγ activation
Keywords: هیپرپلازی Neointimal; PEDF; PPARγ; Neointimal hyperplasia; Cell cycle; Proliferation;
Role of Endothelial Shear Stress in Stent Restenosis and Thrombosis: Pathophysiologic Mechanisms and Implications for Clinical Translation
Keywords: هیپرپلازی Neointimal; hemodynamics; in-stent restenosis; shear stress; thrombosis; BMS; bare-metal stent(s); DES; drug-eluting stent(s); ESS; endothelial shear stress; ISR; in-stent restenosis; MB; main branch; NIH; neointimal hyperplasia; SB; side branch; SMC; smooth muscle c
Effect of recombinant human SDF-1a on re-endothelialization after sirolimus-eluting stent implantation in rabbit aorta abdominalis
Keywords: هیپرپلازی Neointimal; Stromal cell derived factor 1a; Re-endothelialization; Sirolimus-eluting stent; Stent thrombosis; Neointimal hyperplasia;