| scholarly article | Q13442814 |
| P50 | author | Maria B Grant | Q88523403 |
| Pui Y Lee | Q88652253 | ||
| P2093 | author name string | Li Zhang | |
| Shen-Ling Xia | |||
| Mark S Segal | |||
| Jing Xue | |||
| Yanpeng Diao | |||
| Xiaosen Ouyang | |||
| Edward Scott | |||
| Steve Guthrie | |||
| P2860 | cites work | Abundant progenitor cells in the adventitia contribute to atherosclerosis of vein grafts in ApoE-deficient mice | Q24568215 |
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| Atherosclerosis — An Inflammatory Disease | Q26776972 | ||
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| Measures of success and health-related quality of life in lower-extremity vascular surgery | Q33895988 | ||
| Contribution of adventitial fibroblasts to neointima formation and vascular remodeling: from innocent bystander to active participant | Q34460856 | ||
| Smooth muscle cells in human coronary atherosclerosis can originate from cells administered at marrow transplantation | Q34960327 | ||
| Mechanical tension controls granulation tissue contractile activity and myofibroblast differentiation | Q35746732 | ||
| Mouse model of venous bypass graft arteriosclerosis | Q35753478 | ||
| Glomerulosclerosis is transmitted by bone marrow-derived mesangial cell progenitors | Q36042776 | ||
| Gene expression profiling of human stent-induced neointima by cDNA array analysis of microscopic specimens retrieved by helix cutter atherectomy: Detection of FK506-binding protein 12 upregulation | Q38303363 | ||
| Comparison of various bone marrow fractions in the ability to participate in vascular remodeling after mechanical injury | Q39420519 | ||
| An updated meta-analysis of infrainguinal arterial reconstruction in patients with end-stage renal disease | Q40248158 | ||
| Aortocoronary bypass saphenous vein graft atherosclerosis. Anatomic study of 99 vein grafts from normal and hyperlipoproteinemic patients up to 75 months postoperatively | Q40663338 | ||
| Differential modulation of vascular cell integrin and extracellular matrix expression in vitro by TGF-beta 1 correlates with reciprocal effects on cell migration | Q41110789 | ||
| Smooth muscle myosin heavy chain exclusively marks the smooth muscle lineage during mouse embryogenesis. | Q41432018 | ||
| Aortocoronary saphenous vein graft disease: pathogenesis, predisposition, and prevention | Q41729196 | ||
| Adult hematopoietic stem cells provide functional hemangioblast activity during retinal neovascularization | Q44013450 | ||
| Characterization of neointima lesions associated with arteriovenous fistulas in a mouse model | Q45858904 | ||
| Morphologic findings in saphenous veins used as coronary arterial bypass conduits for longer than 1 year: necropsy analysis of 53 patients, 123 saphenous veins, and 1865 five-millimeter segments of veins | Q46078703 | ||
| Cytoplasmic dynamics of myosin IIA and IIB: spatial 'sorting' of isoforms in locomoting cells. | Q47847401 | ||
| Granulocyte colony-stimulating factor-mobilized circulating c-Kit+/Flk-1+ progenitor cells regenerate endothelium and inhibit neointimal hyperplasia after vascular injury. | Q50481452 | ||
| Smooth muscle cells in atherosclerosis originate from the local vessel wall and not circulating progenitor cells in ApoE knockout mice. | Q50713676 | ||
| In vivo cell seeding with anti-CD34 antibodies successfully accelerates endothelialization but stimulates intimal hyperplasia in porcine arteriovenous expanded polytetrafluoroethylene grafts. | Q51420466 | ||
| Renal dysfunction increases the risk of saphenous vein graft occlusion: results from the Post-CABG trial. | Q52572808 | ||
| Stem cell factor attenuates vascular smooth muscle apoptosis and increases intimal hyperplasia after vascular injury. | Q53579326 | ||
| A novel mouse model of autologous venous graft intimal hyperplasia. | Q53674189 | ||
| Bone marrow does not contribute substantially to endothelial-cell replacement in transplant arteriosclerosis. | Q54429740 | ||
| SDF-1α/CXCR4 Axis Is Instrumental in Neointimal Hyperplasia and Recruitment of Smooth Muscle Progenitor Cells | Q56921714 | ||
| Circulating bone marrow cells can contribute to neointimal formation | Q57221091 | ||
| End-stage renal disease causes an imbalance between endothelial and smooth muscle progenitor cells | Q60182282 | ||
| Atherosclerosis in aortocoronary bypass grafts. Morphologic study and risk factor analysis 6 to 12 years after surgery | Q68808668 | ||
| Expression of alpha-smooth-muscle actin in stromal cells of the uterine cervix during epithelial neoplastic changes | Q70128809 | ||
| Biomechanical stress-induced apoptosis in vein grafts involves p38 mitogen-activated protein kinases | Q73413683 | ||
| Venous neointimal hyperplasia in polytetrafluoroethylene dialysis grafts | Q73942922 | ||
| Host bone-marrow cells are a source of donor intimal smooth- muscle-like cells in murine aortic transplant arteriopathy | Q73954861 | ||
| Graft-extrinsic cells predominate in vein graft arterialization | Q75272979 | ||
| Ischemia- and cytokine-induced mobilization of bone marrow-derived endothelial progenitor cells for neovascularization | Q77323614 | ||
| Plasminogen is not required for neointima formation in a mouse model of vein graft stenosis | Q77381388 | ||
| Hemodialysis access failure: a call to action | Q77394370 | ||
| Hematopoietic stem cells differentiate into vascular cells that participate in the pathogenesis of atherosclerosis | Q77859042 | ||
| Both donor and recipient origins of smooth muscle cells in vein graft atherosclerotic lesions | Q78327780 | ||
| Diverse Contribution of Bone Marrow Cells to Neointimal Hyperplasia After Mechanical Vascular Injuries | Q79074162 | ||
| Origin of neointimal smooth muscle: we've come full circle | Q79365777 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | bone marrow | Q546523 |
| P304 | page(s) | 839-848 | |
| P577 | publication date | 2008-02-14 | |
| P1433 | published in | The American Journal of Pathology | Q4744259 |
| P1476 | title | Long-term engraftment of bone marrow-derived cells in the intimal hyperplasia lesion of autologous vein grafts | |
| P478 | volume | 172 |
| Q37393223 | Advances and new frontiers in the pathophysiology of venous neointimal hyperplasia and dialysis access stenosis |
| Q27330069 | Arterial grafts exhibiting unprecedented cellular infiltration and remodeling in vivo: the role of cells in the vascular wall |
| Q34821264 | Biological effects of anti-CD34-coated ePTFE vascular grafts. Early in vivo experimental results |
| Q41890855 | Characteristics of the actions by which 5-hydroxytryptamine affects electrical and mechanical activities in rabbit jugular vein graft |
| Q35021908 | Decellularized tissue-engineered blood vessel as an arterial conduit |
| Q50127096 | Inflammation in Vein Graft Disease. |
| Q33939436 | Long-term effects of daily hemodialysis on vascular access outcomes: a prospective controlled study |
| Q43131499 | Migration of smooth muscle cells from the arterial anastomosis of arteriovenous fistulas requires Notch activation to form neointima |
| Q35071270 | Mouse vein graft hemodynamic manipulations to enhance experimental utility |
| Q27005674 | Novel paradigms for dialysis vascular access: downstream vascular biology--is there a final common pathway? |
| Q36899561 | Paclitaxel-coated balloon fistuloplasty versus plain balloon fistuloplasty only to preserve the patency of arteriovenous fistulae used for haemodialysis (PAVE): study protocol for a randomised controlled trial |
| Q34031845 | Rationale and practical techniques for mouse models of early vein graft adaptations |
| Q35669250 | Relaxin increases human endothelial progenitor cell NO and migration and vasculogenesis in mice |
| Q43063451 | The source of neointimal cells in vein grafts: does the origin matter? |
| Q37678560 | Vein graft adaptation and fistula maturation in the arterial environment. |
| Q38837879 | Vein graft failure: from pathophysiology to clinical outcomes. |
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