Cartilage tissue engineering for laryngotracheal reconstruction: comparison of chondrocytes from three anatomic locations in the rabbit. - Wikidata - wikimedia - TriplyDB

Cartilage tissue engineering for laryngotracheal reconstruction: comparison of chondrocytes from three anatomic locations in the rabbit.

Cartilage tissue engineering for laryngotracheal reconstruction: comparison of chondrocytes from three anatomic locations in the rabbit.

http://www.wikidata.org/entity/Q43135840

about

Scaffold-free cartilage subjected to frictional shear stress demonstrates damage by cracking and surface peeling Applications of Chondrocyte-Based Cartilage Engineering: An Overview Multimodal evaluation of tissue-engineered cartilage.Xiphoid process-derived chondrocytes: a novel cell source for elastic cartilage regeneration.High-fidelity tissue engineering of patient-specific auricles for reconstruction of pediatric microtia and other auricular deformities.Optimization of the Expansion and Differentiation of Rabbit Chondrocytes In Vitro.Engineered cartilage via self-assembled hMSC sheets with incorporated biodegradable gelatin microspheres releasing transforming growth factor-β1.Coefficient of Friction Patterns Can Identify Damage in Native and Engineered Cartilage Subjected to Frictional-Shear Stress.Methods for producing scaffold-free engineered cartilage sheets from auricular and articular chondrocyte cell sources and attachment to porous tantalum High-density cell systems incorporating polymer microspheres as microenvironmental regulators in engineered cartilage tissues Hyaluronan-based scaffolds to tissue-engineer cartilage implants for laryngotracheal reconstruction.Fabrication of a neotrachea using engineered cartilage.Cartilage repair: past and future--lessons for regenerative medicine.Silk-based materials for biomedical applications.Overview of tracheal tissue engineering: clinical need drives the laboratory approach.Cell sources for trachea tissue engineering: past, present and future.Scaffold-free tissue-engineered cartilage implants for laryngotracheal reconstruction.Pediatric laryngotracheal reconstruction with tissue-engineered cartilage in a rabbit model.Low oxygen tension during incubation periods of chondrocyte expansion is sufficient to enhance postexpansion chondrogenesis.Disparate response of articular- and auricular-derived chondrocytes to oxygen tension.Optimization of a chondrogenic medium through the use of factorial design of experiments.PGA-associated heterotopic chondrocyte cocultures: implications of nasoseptal and auricular chondrocytes in articular cartilage repair.Use of autologous adipose-derived mesenchymal stem cells for creation of laryngeal cartilage.Introducing a 3-dimensionally Printed, Tissue-Engineered Graft for Airway Reconstruction: A Pilot Study.Differences in cartilage-forming capacity of expanded human chondrocytes from ear and nose and their gene expression profiles.Trophic effects of adipose-tissue-derived and bone-marrow-derived mesenchymal stem cells enhance cartilage generation by chondrocytes in co-culture.

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P2860

Cartilage tissue engineering for laryngotracheal reconstruction: comparison of chondrocytes from three anatomic locations in the rabbit.

http://www.wikidata.org/entity/Q43135840

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2007 nî lūn-bûn

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Cartilage tissue engineering f ...... atomic locations in the rabbit

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Christopher Niyibizi

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James E Dennis

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Jean F Welter

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Joseph M Mansour

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P2860

A novel cartilage protein (CILP) present in the mid-zone of human articular cartilage increases with age

Articular cartilage superficial zone protein (SZP) is homologous to megakaryocyte stimulating factor precursor and Is a multifunctional proteoglycan with potential growth-promoting, cytoprotective, and lubricating properties in cartilage metabolism.

Update on the use of auricular cartilage in laryngotracheal reconstruction.

Paediatric airway stenosis: laryngotracheal reconstruction or cricotracheal resection?

A paradigm for functional tissue engineering of articular cartilage via applied physiologic deformational loading.

Prolonged intubation injuries of the larynx: endoscopic diagnosis, classification, and treatment.

High-throughput aggregate culture system to assess the chondrogenic potential of mesenchymal stem cells.

Immunochemical and mechanical characterization of cartilage subtypes in rabbit.

Serum-free medium supplemented with high-concentration FGF2 for cell expansion culture of human ear chondrocytes promotes redifferentiation capacity.

Comparison of tracheal and nasal chondrocytes for tissue engineering of the trachea.

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James H Henderson

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