Porous NiTi for bone implants: a review. - Wikidata - wikimedia - TriplyDB

Porous NiTi for bone implants: a review.

Porous NiTi for bone implants: a review.

http://www.wikidata.org/entity/Q34746673

about

Synthesis of spherical calcium phosphate particles for dental and orthopedic applications Scaffold design for bone regeneration Self-assembly of peptide amphiphiles: from molecules to nanostructures to biomaterials Properties of open-cell porous metals and alloys for orthopaedic applications.Cytotoxicity of Ni from Surface-Treated Porous Nitinol (PNT) on Osteoblast Cells Biological strategies for improved osseointegration and osteoinduction of porous metal orthopedic implants Emerging peptide nanomedicine to regenerate tissues and organs.Supramolecular Nanofibers of Peptide Amphiphiles for Medicine.Functionalized nanostructures with application in regenerative medicine.Microstructure and Mechanical Behavior of Porous Ti-6Al-4V Processed by Spherical Powder Sintering.Biocompatibility and Inflammatory Potential of Titanium Alloys Cultivated with Human Osteoblasts, Fibroblasts and Macrophages.Hydrothermal Fabrication of Highly Porous Titanium Bio-Scaffold with a Load-Bearable Property.Fabrication of Metallic Biomedical Scaffolds with the Space Holder Method: A Review Comment on: shape memory Ni-Ti alloy swan-like bone connector for treatment of humeral shaft nonunion.Ocular biocompatibility of nitinol intraocular clips.Splitting fracture in bovine bone using a porosity-based spring network model.Rapid Characterization of Local Shape Memory Properties through Indentation.Factors Associated With Clinical Outcomes After Lumbar Interbody Fusion With a Porous Nitinol Implant.Role of matrix behavior in compressive fracture of bovine cortical bone.In vitro and in vivo evaluation of porous TiNi-based alloy as a scaffold for cell tissue engineering.Porous NiTi shape memory alloys produced by SHS: microstructure and biocompatibility in comparison with Ti2Ni and TiNi3.3D-printed porous titanium changed femoral head repair growth patterns: osteogenesis and vascularisation in porous titanium.Biocompatible, smooth, plasma-treated nickel-titanium surface--an adequate platform for cell growth.Bioactive hydrogels for bone regeneration.Wear Properties of Porous NiTi Orthopedic Shape Memory Alloy In vitro and in vivo evaluation of porous NiTi alloy modified by sputtering a surface TiO2 film Biomedical Applications of Shape Memory Alloys Porous Ti6Al4V Scaffold Directly Fabricated by Sintering: Preparation andIn VivoExperiment Achieving biocompatible stiffness in NiTi through additive manufacturing

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P2860

Porous NiTi for bone implants: a review.

http://www.wikidata.org/entity/Q34746673

description

2008 nî lūn-bûn

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2008 թուականի Փետրուարին հրատարակուած գիտական յօդուած

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2008 թվականի փետրվարին հրատարակված գիտական հոդված

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2008年の論文

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2008年論文

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2008年論文

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2008年論文

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2008年論文

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2008年論文

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2008年论文

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name

Porous NiTi for bone implants: a review.

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Porous NiTi for bone implants: a review.

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Porous NiTi for bone implants: a review.

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Porous NiTi for bone implants: a review.

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Porous NiTi for bone implants: a review.

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Porous NiTi for bone implants: a review.

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Porous NiTi for bone implants: a review.

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Porous NiTi for bone implants: a review.

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Porous NiTi for bone implants: a review.

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J.ACTBIO.2008.02.009

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Acta Biomaterialia

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Porous NiTi for bone implants: a review.

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A Bansiddhi

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D C Dunand

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T D Sargeant

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P2860

Nitinol versus stainless steel stents: acute thrombogenicity study in an ex vivo porcine model.

Surface, corrosion and biocompatibility aspects of Nitinol as an implant material.

Nickel essentiality, toxicity, and carcinogenicity.

Assessing the biocompatibility of NiTi shape memory alloys used for medical applications.

Fabrication methods of porous metals for use in orthopaedic applications.

The spinal cord dura mater reaction to nitinol and titanium alloy particles: a 1-year study in rabbits.

Nickel content of food and estimation of dietary intake.

Hybrid bone implants: self-assembly of peptide amphiphile nanofibers within porous titanium.

Tissue-like self-assembly in cocultures of endothelial cells and osteoblasts and the formation of microcapillary-like structures on three-dimensional porous biomaterials.

Mechanotransduction and the functional response of bone to mechanical strain.

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10.1016/J.ACTBIO.2008.02.009

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4

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Samuel I. Stupp

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2008-02-23T00:00:00Z

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5503397

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