Research on the coating of nano-composite coatings and their application in the design of a new generation 3D personalised medical implant. (Q97922): Difference between revisions
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(Removed claim: summary (P836): The project aims to implement the research and development of the coating of nano-composite coatings and their application in the design of a new generation personalised medical implant in selective sintering (SLS) technology. R & D includes both sub-research (research into the manufacture of an innovative composite coating with a well-defined structure, and biological and biological activities), both industrial and industrial (optimising the...) |
(Created claim: summary (P836): The aim of the project is to carry out research and development work on nanocomposite coatings and their use in the construction of a prototype of a personalised medical implant of a new generation, produced in the technology of selective laser sintering (SLS). R & D works include both substove research (research on the production of an innovative composite coating with a well-defined structure, mo rfology and biological activity) and industrial...) |
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The aim of the project is to carry out research and development work on nanocomposite coatings and their use in the construction of a prototype of a personalised medical implant of a new generation, produced in the technology of selective laser sintering (SLS). R & D works include both substove research (research on the production of an innovative composite coating with a well-defined structure, mo rfology and biological activity) and industrial (optimising the process of applying the mposite nanocolayer to a personalised implant produced using the SLS method and the creation of implant attachments with a tool set) and experimental development work (clinical research of a prototype of a personalised implant with a biologically active group of patients). Personalised titanium implants coated with composite material, which will significantly affect primary stabilisation of the implant, speed up the process of binding the implant to the bone, and give it anti-inflammatory and antimicrobial properties can pretend to be implants of the new generation and be an interesting commercial product. Implementation of the project will allow the launch of production and mplants “made to measure” for the purposes of maxillo-facial surgery, orthopaedics and oncology, and this in turn leads to the introduction of medical implants on the market, which thanks to the bioactive layer of superficial, counteracting inflammatory conditions, will be able to reach a much broader game of patients, including diabetics, people with diseases of the immune system, elderly people and others. (English) | |||||||||||||||
| Property / summary: The aim of the project is to carry out research and development work on nanocomposite coatings and their use in the construction of a prototype of a personalised medical implant of a new generation, produced in the technology of selective laser sintering (SLS). R & D works include both substove research (research on the production of an innovative composite coating with a well-defined structure, mo rfology and biological activity) and industrial (optimising the process of applying the mposite nanocolayer to a personalised implant produced using the SLS method and the creation of implant attachments with a tool set) and experimental development work (clinical research of a prototype of a personalised implant with a biologically active group of patients). Personalised titanium implants coated with composite material, which will significantly affect primary stabilisation of the implant, speed up the process of binding the implant to the bone, and give it anti-inflammatory and antimicrobial properties can pretend to be implants of the new generation and be an interesting commercial product. Implementation of the project will allow the launch of production and mplants “made to measure” for the purposes of maxillo-facial surgery, orthopaedics and oncology, and this in turn leads to the introduction of medical implants on the market, which thanks to the bioactive layer of superficial, counteracting inflammatory conditions, will be able to reach a much broader game of patients, including diabetics, people with diseases of the immune system, elderly people and others. (English) / rank | |||||||||||||||
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| Property / summary: The aim of the project is to carry out research and development work on nanocomposite coatings and their use in the construction of a prototype of a personalised medical implant of a new generation, produced in the technology of selective laser sintering (SLS). R & D works include both substove research (research on the production of an innovative composite coating with a well-defined structure, mo rfology and biological activity) and industrial (optimising the process of applying the mposite nanocolayer to a personalised implant produced using the SLS method and the creation of implant attachments with a tool set) and experimental development work (clinical research of a prototype of a personalised implant with a biologically active group of patients). Personalised titanium implants coated with composite material, which will significantly affect primary stabilisation of the implant, speed up the process of binding the implant to the bone, and give it anti-inflammatory and antimicrobial properties can pretend to be implants of the new generation and be an interesting commercial product. Implementation of the project will allow the launch of production and mplants “made to measure” for the purposes of maxillo-facial surgery, orthopaedics and oncology, and this in turn leads to the introduction of medical implants on the market, which thanks to the bioactive layer of superficial, counteracting inflammatory conditions, will be able to reach a much broader game of patients, including diabetics, people with diseases of the immune system, elderly people and others. (English) / qualifier | |||||||||||||||
point in time: 15 October 2020
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Revision as of 22:25, 15 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Research on the coating of nano-composite coatings and their application in the design of a new generation 3D personalised medical implant. |
Project in Poland financed by DG Regio |
Statements
2,287,802.79 zloty
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2,620,440.3 zloty
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87.31 percent
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1 May 2017
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20 December 2018
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"NANO-IMPLANT" SPÓŁKA Z OGRANICZONA ODPOWIEDZIALNOŚCIĄ
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Celem projektu jest realizacja prac badawczo-rozwojowych nad powłokami nanokompozytowymi oraz ich za stosowaniem w konstrukcji prototypu spersonalizowanego implantu medycznego nowej generacji, wytwarza nego w technologii selektywnego spiekania laserowego (SLS). Prace B+R obejmują zarówno badania podsta wowe (badania nad wytwarzaniem innowacyjnej powłoki kompozytowej o ściśle zdefiniowanej strukturze, mo rfologii oraz aktywności biologicznej), jaki i przemysłowe (optymalizacja procesu nanoszenia warstwy nanoko mpozytowej na spersonalizowany implant wyprodukowany przy użyciu metody SLS i wytworzenie elementów mocujących implant wraz z zestawem narzędzi) oraz eksperymentalne prace rozwojowe (badania kliniczne prototypu spersonalizowanego implantu z biologicznie aktywną warstwą na grupie 15 pacjentów). Spersonali zowane pod względem kształtu implanty tytanowe pokryte powłoką materiału kompozytowego, która znacz ąco wpłynie na stabilizację pierwotną implantu, przyspieszy procesy łączenia się implantu z kością, a także nada mu właściwości przeciwzapalne i przeciwdrobnoustrojowe mogą pretendować do miana implantów now ej generacji i stanowić ciekawy produkt komercyjny. Wdrożenie projektu pozwoli na uruchomienie produkcji i mplantów „szytych na miarę” dla potrzeb chirurgii szczękowo-twarzowej, ortopedii i onkologii, a to z kolei, w płynie na wprowadzenie na rynek usług medycznych implantów, które dzięki bioaktywnej warstwie powierzch niowej, przeciwdziałającej powstawaniu stanów zapalnych, będą mogły trafić do zdecydowanie szerszego gr ona pacjentów, m.in. diabetyków, osób z chorobami układu immunologicznego, osób starszych i innych, u k tórych zabieg wszczepienia implantu dotychczas był niemożliwy. (Polish)
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The aim of the project is to carry out research and development work on nanocomposite coatings and their use in the construction of a prototype of a personalised medical implant of a new generation, produced in the technology of selective laser sintering (SLS). R & D works include both substove research (research on the production of an innovative composite coating with a well-defined structure, mo rfology and biological activity) and industrial (optimising the process of applying the mposite nanocolayer to a personalised implant produced using the SLS method and the creation of implant attachments with a tool set) and experimental development work (clinical research of a prototype of a personalised implant with a biologically active group of patients). Personalised titanium implants coated with composite material, which will significantly affect primary stabilisation of the implant, speed up the process of binding the implant to the bone, and give it anti-inflammatory and antimicrobial properties can pretend to be implants of the new generation and be an interesting commercial product. Implementation of the project will allow the launch of production and mplants “made to measure” for the purposes of maxillo-facial surgery, orthopaedics and oncology, and this in turn leads to the introduction of medical implants on the market, which thanks to the bioactive layer of superficial, counteracting inflammatory conditions, will be able to reach a much broader game of patients, including diabetics, people with diseases of the immune system, elderly people and others. (English)
15 October 2020
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Identifiers
RPKP.01.03.01-04-0045/16
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