scholarly article | Q13442814 |
P50 | author | Peter M Clark | Q57653822 |
P2093 | author name string | Franco M. Capaldi | |
John C. Fitzpatrick | |||
P2860 | cites work | The Annals of Thoracic Surgery | Q1939819 |
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Decellularized xenogenic heart valves reveal remodeling and growth potential in vivo. | Q51134100 | ||
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Effects of compliance mismatch on blood flow in an artery with endovascular prosthesis. | Q51377257 | ||
Sustained axial loading lengthens arteries in organ culture. | Q51382518 | ||
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Decellularized native and engineered arterial scaffolds for transplantation | Q51807329 | ||
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A blood vessel model constructed from collagen and cultured vascular cells | Q69983909 | ||
Venous reconstruction using hybrid vascular tissue composed of vascular cells and collagen: tissue regeneration process | Q71147370 | ||
Compliance and diameter mismatch affect the wall shear rate distribution near an end-to-end anastomosis | Q71636061 | ||
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Development of a pericardial acellular matrix biomaterial: biochemical and mechanical effects of cell extraction | Q72152551 | ||
Mechanical stretching of human saphenous vein grafts induces expression and activation of matrix-degrading enzymes associated with vascular tissue injury and repair | Q72989314 | ||
Remodeling of an acellular collagen graft into a physiologically responsive neovessel | Q73143428 | ||
Prevention of mechanical stretch-induced endothelial and smooth muscle cell injury in experimental vein grafts | Q73735651 | ||
A completely biological tissue-engineered human blood vessel | Q74075096 | ||
Engineering of human vascular aortic tissue based on a xenogeneic starter matrix | Q74087493 | ||
Autologous endothelialized vein allograft: a solution in the search for small-caliber grafts in coronary artery bypass graft operations | Q74541981 | ||
Compliance mismatch may promote graft-artery intimal hyperplasia by altering suture-line stresses | Q74724325 | ||
Tissue engineering of heart valves--human endothelial cell seeding of detergent acellularized porcine valves | Q77372917 | ||
Determination of layer-specific mechanical properties of human coronary arteries with nonatherosclerotic intimal thickening and related constitutive modeling | Q80351971 | ||
Determination of material models for arterial walls from uniaxial extension tests and histological structure | Q80931611 | ||
Immunological and histological evaluation of decellularized allograft in a pig model: comparison with cryopreserved allograft | Q81140307 | ||
Evaluation of a xenogeneic acellular collagen matrix as a small-diameter vascular graft in dogs--preliminary observations | Q28192586 | ||
Comparison of different decellularization procedures of porcine heart valves. | Q31147818 | ||
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Functional small-diameter neovessels created using endothelial progenitor cells expanded ex vivo | Q33640562 | ||
Functional arteries grown in vitro | Q33858809 | ||
Tissue engineering a blood vessel substitute: the role of biomechanics | Q34154977 | ||
The mechanical behavior of vascular grafts: a review | Q34191346 | ||
Decellularization of tissues and organs. | Q34499965 | ||
Collagen family of proteins | Q34927386 | ||
Toward a new blood vessel | Q35055202 | ||
Saphenous vein versus PTFE for above-knee femoropopliteal bypass. A review of the literature | Q35688498 | ||
Xenogeneic extracellular matrix as a scaffold for tissue reconstruction. | Q35781276 | ||
Characterization of mechanical behavior of a porcine pulmonary artery strip using a randomized uniaxial stretch and stretch-rate protocol | Q36484971 | ||
Achieving the ideal properties for vascular bypass grafts using a tissue engineered approach: a review | Q36752743 | ||
2005 National Hospital Discharge Survey. | Q36906786 | ||
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Tissue engineering of heart valves: decellularized porcine and human valve scaffolds differ importantly in residual potential to attract monocytic cells. | Q40418262 | ||
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Femoropopliteal bypass revisited: an analysis of 138 cases | Q41155159 | ||
Effect of compliance mismatch on vascular graft patency | Q41382648 | ||
Tissue remodeling of rat pulmonary artery in hypoxic breathing. II. Course of change of mechanical properties | Q43744491 | ||
Biaxial incremental homeostatic elastic moduli of coronary artery: two-layer model | Q44065345 | ||
Tissue engineering of cardiac valve prostheses I: development and histological characterization of an acellular porcine scaffold | Q44084149 | ||
Tissue engineering of cardiac valve prostheses II: biomechanical characterization of decellularized porcine aortic heart valves. | Q44084151 | ||
Decellularization protocols of porcine heart valves differ importantly in efficiency of cell removal and susceptibility of the matrix to recellularization with human vascular cells. | Q44755454 | ||
Recellularization of decellularized allograft scaffolds in ovine great vessel reconstructions | Q45285004 | ||
Decellularized Native and Engineered Arterial Scaffolds for Transplantation | Q46045991 | ||
Biaxial elastic material properties of porcine coronary media and adventitia | Q46270393 | ||
Does compliance mismatch alone cause neointimal hyperplasia? | Q46504508 | ||
P275 | copyright license | Creative Commons Attribution 3.0 Unported | Q14947546 |
P6216 | copyright status | copyrighted | Q50423863 |
P407 | language of work or name | English | Q1860 |
P921 | main subject | aorta | Q101004 |
P304 | page(s) | 235-244 | |
P577 | publication date | 2010-07-04 | |
P1433 | published in | International journal of biomaterials | Q26842636 |
P1476 | title | Effect of decellularization protocol on the mechanical behavior of porcine descending aorta | |
Effect of Decellularization Protocol on the Mechanical Behavior of Porcine Descending Aorta | |||
P478 | volume | 2010 |
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Q86506807 | Biomechanical properties of hybrid heart valve prosthesis utilizing the pigs that do not express the galactose-α-1,3-galactose (α-Gal) antigen derived tissue and tissue engineering technique |
Q92709606 | De-epithelialization of porcine tracheal allografts as an approach for tracheal tissue engineering |
Q27011803 | Decellularized matrices for cardiovascular tissue engineering |
Q50970925 | Determining the optimal protocol for preparing an acellular scaffold of tissue engineered small-diameter blood vessels. |
Q36982819 | Development of a bovine decellularized extracellular matrix-biomaterial for nucleus pulposus regeneration. |
Q38707928 | Engineering natural heart valves: possibilities and challenges |
Q35001490 | Mechanical evaluation of decellularized porcine thoracic aorta |
Q38384354 | Methods of tissue decellularization used for preparation of biologic scaffolds and in vivo relevance. |
Q88079907 | Morphofunctional characterization of decellularized vena cava as tissue engineering scaffolds |
Q53586662 | On the decellularization of fresh or frozen human umbilical arteries: implications for small-diameter tissue engineered vascular grafts. |
Q39945953 | Polymer mesh scaffold combined with cell-derived ECM for osteogenesis of human mesenchymal stem cells |
Q41962287 | Pressure shift freezing as potential alternative for generation of decellularized scaffolds |
Q60301808 | Systematic in vitro comparison of decellularization protocols for blood vessels |
Q53645276 | The use of sonication treatment to decellularize aortic tissues for preparation of bioscaffolds. |
Q36419601 | Tissue Engineering of Blood Vessels: Functional Requirements, Progress, and Future Challenges. |
Q47738576 | Triton X-100 combines with chymotrypsin: A more promising protocol to prepare decellularized porcine carotid arteries |
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