Surface Treatment of Acetabular Cups with a Direct Deposition of a Composite Nanostructured Layer Using a High Electrostatic Field

Surface Treatment of Acetabular Cups with a Direct Deposition of a Composite Nanostructured Layer Using a High Electrostatic Field

A composite nanofibrous layer containing collagen and hydroxyapatite was deposited on selected surface areas of titanium acetabular cups. The layer was deposited on the irregular surface of these 3D objects using a specially developed electrospinning system designed to ensure the stability of the sp...

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Main Authors: Marek Pokorný, Tomáš Suchý, Adéla Kotzianová, Jan Klemeš, František Denk, Monika Šupová, Zbyněk Sucharda, Radek Sedláček, Lukáš Horný, Vlastimil Králík, Vladimír Velebný, Zdeněk Čejka
Format: Article
Language:English
Published: MDPI AG 2020-03-01
Series:Molecules
Subjects:
collagen composite
hydroxyapatite
titanium implant
nanofibers
electrospinning
Online Access:https://www.mdpi.com/1420-3049/25/5/1173
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spelling doaj-c5513afbb9114c0dbd4a39c7aec689fe2020-11-25T02:15:11ZengMDPI AGMolecules1420-30492020-03-01255117310.3390/molecules25051173molecules25051173Surface Treatment of Acetabular Cups with a Direct Deposition of a Composite Nanostructured Layer Using a High Electrostatic FieldMarek Pokorný0Tomáš Suchý1Adéla Kotzianová2Jan Klemeš3František Denk4Monika Šupová5Zbyněk Sucharda6Radek Sedláček7Lukáš Horný8Vlastimil Králík9Vladimír Velebný10Zdeněk Čejka11Contipro a.s., R&D Department, 561 02 Dolni Dobrouc, Czech RepublicDepartment of Composites and Carbon Materials, Institute of Rock Structure and Mechanics, Czech Academy of Sciences, 180 00 Prague 8, Czech RepublicContipro a.s., R&D Department, 561 02 Dolni Dobrouc, Czech RepublicContipro a.s., R&D Department, 561 02 Dolni Dobrouc, Czech RepublicDepartment of Composites and Carbon Materials, Institute of Rock Structure and Mechanics, Czech Academy of Sciences, 180 00 Prague 8, Czech RepublicDepartment of Composites and Carbon Materials, Institute of Rock Structure and Mechanics, Czech Academy of Sciences, 180 00 Prague 8, Czech RepublicDepartment of Composites and Carbon Materials, Institute of Rock Structure and Mechanics, Czech Academy of Sciences, 180 00 Prague 8, Czech RepublicFaculty of Mechanical Engineering, Czech Technical University in Prague, 166 00 Prague 6, Czech RepublicFaculty of Mechanical Engineering, Czech Technical University in Prague, 166 00 Prague 6, Czech RepublicFaculty of Mechanical Engineering, Czech Technical University in Prague, 166 00 Prague 6, Czech RepublicContipro a.s., R&D Department, 561 02 Dolni Dobrouc, Czech RepublicProSpon s.r.o., 272 01 Kladno, Czech RepublicA composite nanofibrous layer containing collagen and hydroxyapatite was deposited on selected surface areas of titanium acetabular cups. The layer was deposited on the irregular surface of these 3D objects using a specially developed electrospinning system designed to ensure the stability of the spinning process and to produce a layer approximately 100 micrometers thick with an adequate thickness uniformity. It was verified that the layer had the intended nanostructured morphology throughout its entire thickness and that the prepared layer sufficiently adhered to the smooth surface of the model titanium implants even after all the post-deposition sterilization and stabilization treatments were performed. The resulting layers had an average thickness of (110 ± 30) micrometers and an average fiber diameter of (170 ± 49) nanometers. They were produced using a relatively simple and cost-effective technology and yet they were verifiably biocompatible and structurally stable. Collagen- and hydroxyapatite-based composite nanostructured surface modifications represent promising surface treatment options for metal implants.https://www.mdpi.com/1420-3049/25/5/1173collagen compositehydroxyapatitetitanium implantnanofiberselectrospinning
collection DOAJ
language English
format Article
sources DOAJ
author Marek Pokorný
Tomáš Suchý
Adéla Kotzianová
Jan Klemeš
František Denk
Monika Šupová
Zbyněk Sucharda
Radek Sedláček
Lukáš Horný
Vlastimil Králík
Vladimír Velebný
Zdeněk Čejka
spellingShingle Marek Pokorný
Tomáš Suchý
Adéla Kotzianová
Jan Klemeš
František Denk
Monika Šupová
Zbyněk Sucharda
Radek Sedláček
Lukáš Horný
Vlastimil Králík
Vladimír Velebný
Zdeněk Čejka
Surface Treatment of Acetabular Cups with a Direct Deposition of a Composite Nanostructured Layer Using a High Electrostatic Field
Molecules
collagen composite
hydroxyapatite
titanium implant
nanofibers
electrospinning
author_facet Marek Pokorný
Tomáš Suchý
Adéla Kotzianová
Jan Klemeš
František Denk
Monika Šupová
Zbyněk Sucharda
Radek Sedláček
Lukáš Horný
Vlastimil Králík
Vladimír Velebný
Zdeněk Čejka
author_sort Marek Pokorný
title Surface Treatment of Acetabular Cups with a Direct Deposition of a Composite Nanostructured Layer Using a High Electrostatic Field
title_short Surface Treatment of Acetabular Cups with a Direct Deposition of a Composite Nanostructured Layer Using a High Electrostatic Field
title_full Surface Treatment of Acetabular Cups with a Direct Deposition of a Composite Nanostructured Layer Using a High Electrostatic Field
title_fullStr Surface Treatment of Acetabular Cups with a Direct Deposition of a Composite Nanostructured Layer Using a High Electrostatic Field
title_full_unstemmed Surface Treatment of Acetabular Cups with a Direct Deposition of a Composite Nanostructured Layer Using a High Electrostatic Field
title_sort surface treatment of acetabular cups with a direct deposition of a composite nanostructured layer using a high electrostatic field
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2020-03-01
description A composite nanofibrous layer containing collagen and hydroxyapatite was deposited on selected surface areas of titanium acetabular cups. The layer was deposited on the irregular surface of these 3D objects using a specially developed electrospinning system designed to ensure the stability of the spinning process and to produce a layer approximately 100 micrometers thick with an adequate thickness uniformity. It was verified that the layer had the intended nanostructured morphology throughout its entire thickness and that the prepared layer sufficiently adhered to the smooth surface of the model titanium implants even after all the post-deposition sterilization and stabilization treatments were performed. The resulting layers had an average thickness of (110 ± 30) micrometers and an average fiber diameter of (170 ± 49) nanometers. They were produced using a relatively simple and cost-effective technology and yet they were verifiably biocompatible and structurally stable. Collagen- and hydroxyapatite-based composite nanostructured surface modifications represent promising surface treatment options for metal implants.
topic collagen composite
hydroxyapatite
titanium implant
nanofibers
electrospinning
url https://www.mdpi.com/1420-3049/25/5/1173
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