scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1040531126 |
P356 | DOI | 10.1007/S11884-015-0327-2 |
P932 | PMC publication ID | 4689598 |
P698 | PubMed publication ID | 26709356 |
P2093 | author name string | Margot S Damaser | |
Bradley C Gill | |||
Christopher J Chermansky | |||
P2860 | cites work | Tissue-engineered autologous bladders for patients needing cystoplasty | Q28235998 |
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Detrusor underactivity: Pathophysiological considerations, models and proposals for future research. ICI-RS 2013. | Q34074251 | ||
Lamina propria: the functional center of the bladder? | Q34357069 | ||
Urinary diversion results in marked decreases in proliferation and apoptosis in fetal bladder. | Q34383551 | ||
Neurotrophin/receptor expression in urinary bladder of mice with overexpression of NGF in urothelium | Q34599842 | ||
Principals of neovascularization for tissue engineering | Q34973747 | ||
Application of bladder acellular matrix in urinary bladder regeneration: the state of the art and future directions | Q35155950 | ||
Expression of brain derived-neurotrophic factor and granulocyte-colony stimulating factor in the urothelium: relation with voiding function. | Q35620417 | ||
Inosculation of blood vessels allows early perfusion and vitality of bladder grafts--implications for bioengineered bladder wall | Q35667326 | ||
Aerosol transfer of bladder urothelial and smooth muscle cells onto demucosalized colonic segments for bladder augmentation: in vivo, long term, and functional pilot study | Q36217878 | ||
Bladder filling and voiding affect umbrella cell tight junction organization and function | Q37234730 | ||
Age-related alterations in regeneration of the urinary bladder after subtotal cystectomy | Q37271897 | ||
Engineering functional bladder tissues. | Q37995984 | ||
Neurotrophins as regulators of urinary bladder function | Q38050405 | ||
Bladder acellular matrix and its application in bladder augmentation | Q38124912 | ||
Continence and micturition: an anatomical basis | Q38194978 | ||
Production of urothelium from pluripotent stem cells for regenerative applications | Q38268939 | ||
Biomatrices for bladder reconstruction. | Q38283499 | ||
Implantation in vivo and retrieval of artificial structures consisting of rabbit and human urothelium and human bladder muscle | Q38567119 | ||
Experimental urinary bladder reconstruction using a synthetic poly(alpha-amino acids) membrane | Q38580020 | ||
The role of polymer nanosurface roughness and submicron pores in improving bladder urothelial cell density and inhibiting calcium oxalate stone formation | Q39856293 | ||
Supportive features of a new hybrid scaffold for urothelium engineering | Q40429027 | ||
Diffusion limits of an in vitro thick prevascularized tissue. | Q40452544 | ||
Smooth-muscle physiology | Q41003343 | ||
VEGF-Loaded Nanoparticle-Modified BAMAs Enhance Angiogenesis and Inhibit Graft Shrinkage in Tissue-Engineered Bladder | Q41358222 | ||
Is a functional urinary bladder attainable through current regenerative medicine strategies? | Q41981139 | ||
A comparison of postoperative complications in open versus robotic cystectomy | Q42625975 | ||
Constructive remodeling of biologic scaffolds is dependent on early exposure to physiologic bladder filling in a canine partial cystectomy model. | Q42796305 | ||
Bioengineered Bladder Tissue--Close but Yet So Far! | Q44206138 | ||
Bladder reconstruction with adipose-derived stem cell-seeded bladder acellular matrix grafts improve morphology composition | Q44510360 | ||
Autologous cell seeded biodegradable scaffold for augmentation cystoplasty: phase II study in children and adolescents with spina bifida | Q44789099 | ||
Effect of vascular endothelial growth factor on regeneration of bladder acellular matrix graft: histologic and functional evaluation. | Q45982063 | ||
Polymers with nano‐dimensional surface features enhance bladder smooth muscle cell adhesion | Q51796201 | ||
Time-dependent bladder tissue regeneration using bilayer bladder acellular matrix graft-silk fibroin scaffolds in a rat bladder augmentation model. | Q53476162 | ||
A Novel and Faster Method to Obtain a Differentiated 3-Dimensional Tissue Engineered Bladder. | Q53583080 | ||
The subcellular basis of damage to the human urinary bladder induced by irradiation | Q71397024 | ||
Molecular analysis of collagens in bladder fibrosis | Q77342554 | ||
Urothelial ingrowth over demucosalized gastrocystoplasty: an experimental study | Q78596848 | ||
Bladder augmentation using acellular collagen biomatrix: a pilot experience in exstrophic patients | Q83475965 | ||
Tissue engineering of diseased bladder using a collagen scaffold in a bladder exstrophy model | Q85741231 | ||
Regenerative bladder augmentation using autologous tissue-when will we get there? | Q87357428 | ||
P433 | issue | 4 | |
P921 | main subject | tissue engineering | Q1540285 |
P304 | page(s) | 443-448 | |
P577 | publication date | 2014-12-01 | |
P1433 | published in | Current bladder dysfunction reports | Q27723561 |
P1476 | title | Future Perspectives in Bladder Tissue Engineering | |
P478 | volume | 10 |
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Q58120574 | Engineering molecular imaging strategies for regenerative medicine |
Q56221435 | Folding artificial mucosa with cell-laden hydrogels guided by mechanics models |
Q28076967 | The Management of the Pediatric Neurogenic Bladder |
Q64102522 | Tissue Engineering in Pediatric Bladder Reconstruction-The Road to Success |
Q26753052 | Whyever bladder tissue engineering clinical applications still remain unusual even though many intriguing technological advances have been reached? |
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