Prototype of a Biomimetic Multi-Spiked Connecting Scaffold

The monograph comprehensively presents the research on the prototype of the biomimetic Multi-Spiked Connecting Scaffold (MSC-Scaffold) for cementless fixation of the components of a new generation of resurfacing arthroplasty (RA) endoprostheses. This research, carried out by a bioengineering-surgica...

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Հիմնական հեղինակներ: Uklejewski, Ryszard, Rogala, Piotr, Winiecki, Mariusz
Ձևաչափ: Online
Լեզու:անգլերեն
Հրապարակվել է: Taylor & Francis 2023
Խորագրեր:
Առցանց հասանելիություն:OCN: 1388499281
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author Uklejewski, Ryszard
Rogala, Piotr
Winiecki, Mariusz
author_browse Rogala, Piotr
Uklejewski, Ryszard
Winiecki, Mariusz
author_facet Uklejewski, Ryszard
Rogala, Piotr
Winiecki, Mariusz
author_sort Uklejewski, Ryszard
collection Directory of Open Access Books
description The monograph comprehensively presents the research on the prototype of the biomimetic Multi-Spiked Connecting Scaffold (MSC-Scaffold) for cementless fixation of the components of a new generation of resurfacing arthroplasty (RA) endoprostheses. This research, carried out by a bioengineering-surgical team from three Polish universities, includes bioengineering design, rapid prototyping, manufacturing in selective laser melting, functionalization, surface modification, numerical studies, experimental in vitro studies, and pilot surgical experiments in an animal model. Features: Presents the prototype of the multi-spiked connecting scaffold for a new generation of resurfacing endoprostheses of the knee and the hip Explains this prototype scaffold as the first worldwide design of the biomimetic fixation of components of diarthrodial joints resurfacing endoprostheses Insights into the entire process of bioengineering design and research on this novel way of resurfacing endoprostheses fixation Reviews main results of the scaffold prototyping and SLM manufacturing, structural and osteoconductive functionalization, and surface modification Reports experimental and numerical investigations of mechanical behavior of the scaffold-bone system, cell culture studies, and pilot surgical experiments in animal models This book is aimed at professionals and graduate students in biomedical engineering, biomaterials engineering, and bone & joint surgery. The Open Access version of this book, available at http://www.taylorfrancis.com, has been made available under a Creative Commons [Attribution-Non Commercial-No Derivatives (CC-BY-NC-ND)] 4.0 license.
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spelling doab-20.500.12854ir-1128352025-03-23T06:52:42Z Prototype of a Biomimetic Multi-Spiked Connecting Scaffold Uklejewski, Ryszard Rogala, Piotr Winiecki, Mariusz Biomechanics;Electrochemical Deposition;Hip Arthroplasty;Osteoarthritis;Rapid Prototyping;Scaffolding The monograph comprehensively presents the research on the prototype of the biomimetic Multi-Spiked Connecting Scaffold (MSC-Scaffold) for cementless fixation of the components of a new generation of resurfacing arthroplasty (RA) endoprostheses. This research, carried out by a bioengineering-surgical team from three Polish universities, includes bioengineering design, rapid prototyping, manufacturing in selective laser melting, functionalization, surface modification, numerical studies, experimental in vitro studies, and pilot surgical experiments in an animal model. Features: Presents the prototype of the multi-spiked connecting scaffold for a new generation of resurfacing endoprostheses of the knee and the hip Explains this prototype scaffold as the first worldwide design of the biomimetic fixation of components of diarthrodial joints resurfacing endoprostheses Insights into the entire process of bioengineering design and research on this novel way of resurfacing endoprostheses fixation Reviews main results of the scaffold prototyping and SLM manufacturing, structural and osteoconductive functionalization, and surface modification Reports experimental and numerical investigations of mechanical behavior of the scaffold-bone system, cell culture studies, and pilot surgical experiments in animal models This book is aimed at professionals and graduate students in biomedical engineering, biomaterials engineering, and bone & joint surgery. The Open Access version of this book, available at http://www.taylorfrancis.com, has been made available under a Creative Commons [Attribution-Non Commercial-No Derivatives (CC-BY-NC-ND)] 4.0 license. 2023-08-17T04:26:21Z 2023-08-17T04:26:21Z 2023-08-15T12:11:28Z 2024 book OCN: 1388499281 https://library.oapen.org/handle/20.500.12657/75529 9781032418445 9781003364498 9781032428260 https://directory.doabooks.org/handle/20.500.12854/112835 eng open access image/jpeg image/jpeg image/jpeg Attribution-NonCommercial 4.0 International Attribution-NonCommercial 4.0 International Attribution-NonCommercial 4.0 International https://library.oapen.org/bitstream/20.500.12657/75529/1/9781000931471.pdf https://library.oapen.org/bitstream/20.500.12657/75529/1/9781000931471.pdf https://library.oapen.org/bitstream/20.500.12657/75529/1/9781000931471.pdf Taylor & Francis CRC Press 10.1201/9781003364498 10.1201/9781003364498 fa69b019-f4ee-4979-8d42-c6b6c476b5f0 9781032418445 9781003364498 9781032428260 CRC Press 220 open access
spellingShingle Biomechanics;Electrochemical Deposition;Hip Arthroplasty;Osteoarthritis;Rapid Prototyping;Scaffolding
Uklejewski, Ryszard
Rogala, Piotr
Winiecki, Mariusz
Prototype of a Biomimetic Multi-Spiked Connecting Scaffold
title Prototype of a Biomimetic Multi-Spiked Connecting Scaffold
title_full Prototype of a Biomimetic Multi-Spiked Connecting Scaffold
title_fullStr Prototype of a Biomimetic Multi-Spiked Connecting Scaffold
title_full_unstemmed Prototype of a Biomimetic Multi-Spiked Connecting Scaffold
title_short Prototype of a Biomimetic Multi-Spiked Connecting Scaffold
title_sort prototype of a biomimetic multi spiked connecting scaffold
topic Biomechanics;Electrochemical Deposition;Hip Arthroplasty;Osteoarthritis;Rapid Prototyping;Scaffolding
topic_facet Biomechanics;Electrochemical Deposition;Hip Arthroplasty;Osteoarthritis;Rapid Prototyping;Scaffolding
url OCN: 1388499281
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