Characterisation of Selected Materials in Medical Applications

Tissue engineering is an interdisciplinary field of science that has developed very intensively in recent years. The first part of this review describes materials with medical and dental applications from the following groups: metals, polymers, ceramics, and composites. Both positive and negative si...

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Veröffentlicht in:	Polymers 2022-04, Vol.14 (8), p.1526
Hauptverfasser:	Kroczek, Kacper, Turek, Paweł, Mazur, Damian, Szczygielski, Jacek, Filip, Damian, Brodowski, Robert, Balawender, Krzysztof, Przeszłowski, Łukasz, Lewandowski, Bogumił, Orkisz, Stanisław, Mazur, Artur, Budzik, Grzegorz, Cebulski, Józef, Oleksy, Mariusz
Format:	Artikel
Sprache:	eng
Schlagworte:	Additive manufacturing Aesthetics Biocompatibility Biological effects Biomedical materials Chromium alloys Corrosion resistance Dental implants Dental materials Dentistry Dentures Hydroxyapatite Materials selection Mechanical properties Medical materials Metals Nanocomposites Polylactic acid Polymer matrix composites Production methods Prostheses Regeneration (physiology) Review Scaffolds Stainless steel Teeth Three dimensional printing Tissue engineering Titanium alloys
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creator	Kroczek, Kacper Turek, Paweł Mazur, Damian Szczygielski, Jacek Filip, Damian Brodowski, Robert Balawender, Krzysztof Przeszłowski, Łukasz Lewandowski, Bogumił Orkisz, Stanisław Mazur, Artur Budzik, Grzegorz Cebulski, Józef Oleksy, Mariusz
description	Tissue engineering is an interdisciplinary field of science that has developed very intensively in recent years. The first part of this review describes materials with medical and dental applications from the following groups: metals, polymers, ceramics, and composites. Both positive and negative sides of their application are presented from the point of view of medical application and mechanical properties. A variety of techniques for the manufacture of biomedical components are presented in this review. The main focus of this work is on additive manufacturing and 3D printing, as these modern techniques have been evaluated to be the best methods for the manufacture of medical and dental devices. The second part presents devices for skull bone reconstruction. The materials from which they are made and the possibilities offered by 3D printing in this field are also described. The last part concerns dental transitional implants (scaffolds) for guided bone regeneration, focusing on polylactide-hydroxyapatite nanocomposite due to its unique properties. This section summarises the current knowledge of scaffolds, focusing on the material, mechanical and biological requirements, the effects of these devices on the human body, and their great potential for applications.
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subjects	Additive manufacturing Aesthetics Biocompatibility Biological effects Biomedical materials Chromium alloys Corrosion resistance Dental implants Dental materials Dentistry Dentures Hydroxyapatite Materials selection Mechanical properties Medical materials Metals Nanocomposites Polylactic acid Polymer matrix composites Production methods Prostheses Regeneration (physiology) Review Scaffolds Stainless steel Teeth Three dimensional printing Tissue engineering Titanium alloys
title	Characterisation of Selected Materials in Medical Applications
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