Chemical Synthesis, Characterisation, and Biocompatibility of Nanometre Scale Porous Anodic Aluminium Oxide Membranes for Use as a Cell Culture Substrate for the Vero Cell Line : A Preliminary Study

In this preliminary study we investigate for the first time the biomedical potential of using porous anodic aluminium oxide (AAO) membranes as a cell substrate for culturing the Cercopithecus aethiops (African green monkey) Kidney (Vero) epithelial cell line. One advantage of using the inorganic AAO...

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Veröffentlicht in:	BioMed research international 2014-01, Vol.2014 (2014), p.1-10
Hauptverfasser:	Becker, Thomas, Le, Xuan Thi, O'Dea, Mark, Fawcett, Derek, Poinern, Gérrard Eddy Jai
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum oxide Aluminum Oxide - chemical synthesis Aluminum Oxide - chemistry Aluminum Oxide - pharmacology Animals Biocompatible Materials - chemical synthesis Biocompatible Materials - chemistry Biocompatible Materials - pharmacology Cell Adhesion - drug effects Cell culture Cell growth Cercopithecus aethiops Chemical properties Electrodes Electrolytes Equipment and supplies Laboratories Materials Testing - methods Membranes Methods Microscopy, Atomic Force Nanoparticles Nanoparticles - chemistry Nanoparticles - ultrastructure Nanotechnology Particle Size Porosity Production processes Proteins Pseudopodia - drug effects Pseudopodia - ultrastructure Smooth muscle Studies Substrates (Biochemistry) Tissue engineering Vero Cells Virology
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creator	Becker, Thomas Le, Xuan Thi O'Dea, Mark Fawcett, Derek Poinern, Gérrard Eddy Jai
description	In this preliminary study we investigate for the first time the biomedical potential of using porous anodic aluminium oxide (AAO) membranes as a cell substrate for culturing the Cercopithecus aethiops (African green monkey) Kidney (Vero) epithelial cell line. One advantage of using the inorganic AAO membrane is the presence of nanometre scale pore channels that allow the exchange of molecules and nutrients across the membrane. The size of the pore channels can be preselected by adjusting the controlling parameters of a temperature controlled two-step anodization process. The cellular interaction and response of the Vero cell line with an in-house synthesised AAO membrane, a commercially available membrane, and a glass control were assessed by investigating cell adhesion, morphology, and proliferation over a 72 h period. The number of viable cells proliferating over the respective membrane surfaces revealed that the locally produced in-house AAO membrane had cells numbers similar to the glass control. The study revealed evidence of focal adhesion sites over the surface of the nanoporous membranes and the penetration of cellular extensions into the pore structure as well. The outcome of the study has revealed that nanometre scale porous AAO membranes have the potential to become practical cell culture scaffold substrates with the capability to enhance adhesion and proliferation of Vero cells.
doi_str_mv	10.1155/2014/238762
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One advantage of using the inorganic AAO membrane is the presence of nanometre scale pore channels that allow the exchange of molecules and nutrients across the membrane. The size of the pore channels can be preselected by adjusting the controlling parameters of a temperature controlled two-step anodization process. The cellular interaction and response of the Vero cell line with an in-house synthesised AAO membrane, a commercially available membrane, and a glass control were assessed by investigating cell adhesion, morphology, and proliferation over a 72 h period. The number of viable cells proliferating over the respective membrane surfaces revealed that the locally produced in-house AAO membrane had cells numbers similar to the glass control. The study revealed evidence of focal adhesion sites over the surface of the nanoporous membranes and the penetration of cellular extensions into the pore structure as well. The outcome of the study has revealed that nanometre scale porous AAO membranes have the potential to become practical cell culture scaffold substrates with the capability to enhance adhesion and proliferation of Vero cells.</description><identifier>ISSN: 2314-6133</identifier><identifier>EISSN: 2314-6141</identifier><identifier>DOI: 10.1155/2014/238762</identifier><identifier>PMID: 24579077</identifier><language>eng</language><publisher>Cairo, Egypt: Hindawi Puplishing Corporation</publisher><subject>Aluminum oxide ; Aluminum Oxide - chemical synthesis ; Aluminum Oxide - chemistry ; Aluminum Oxide - pharmacology ; Animals ; Biocompatible Materials - chemical synthesis ; Biocompatible Materials - chemistry ; Biocompatible Materials - pharmacology ; Cell Adhesion - drug effects ; Cell culture ; Cell growth ; Cercopithecus aethiops ; Chemical properties ; Electrodes ; Electrolytes ; Equipment and supplies ; Laboratories ; Materials Testing - methods ; Membranes ; Methods ; Microscopy, Atomic Force ; Nanoparticles ; Nanoparticles - chemistry ; Nanoparticles - ultrastructure ; Nanotechnology ; Particle Size ; Porosity ; Production processes ; Proteins ; Pseudopodia - drug effects ; Pseudopodia - ultrastructure ; Smooth muscle ; Studies ; Substrates (Biochemistry) ; Tissue engineering ; Vero Cells ; Virology</subject><ispartof>BioMed research international, 2014-01, Vol.2014 (2014), p.1-10</ispartof><rights>Copyright © 2014 Gérrard Eddy Jai Poinern et al.</rights><rights>COPYRIGHT 2014 John Wiley & Sons, Inc.</rights><rights>Copyright © 2014 Gérrard Eddy Jai Poinern et al. 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One advantage of using the inorganic AAO membrane is the presence of nanometre scale pore channels that allow the exchange of molecules and nutrients across the membrane. The size of the pore channels can be preselected by adjusting the controlling parameters of a temperature controlled two-step anodization process. The cellular interaction and response of the Vero cell line with an in-house synthesised AAO membrane, a commercially available membrane, and a glass control were assessed by investigating cell adhesion, morphology, and proliferation over a 72 h period. The number of viable cells proliferating over the respective membrane surfaces revealed that the locally produced in-house AAO membrane had cells numbers similar to the glass control. The study revealed evidence of focal adhesion sites over the surface of the nanoporous membranes and the penetration of cellular extensions into the pore structure as well. The outcome of the study has revealed that nanometre scale porous AAO membranes have the potential to become practical cell culture scaffold substrates with the capability to enhance adhesion and proliferation of Vero cells.</description><subject>Aluminum oxide</subject><subject>Aluminum Oxide - chemical synthesis</subject><subject>Aluminum Oxide - chemistry</subject><subject>Aluminum Oxide - pharmacology</subject><subject>Animals</subject><subject>Biocompatible Materials - chemical synthesis</subject><subject>Biocompatible Materials - chemistry</subject><subject>Biocompatible Materials - pharmacology</subject><subject>Cell Adhesion - drug effects</subject><subject>Cell culture</subject><subject>Cell growth</subject><subject>Cercopithecus aethiops</subject><subject>Chemical properties</subject><subject>Electrodes</subject><subject>Electrolytes</subject><subject>Equipment and supplies</subject><subject>Laboratories</subject><subject>Materials Testing - 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One advantage of using the inorganic AAO membrane is the presence of nanometre scale pore channels that allow the exchange of molecules and nutrients across the membrane. The size of the pore channels can be preselected by adjusting the controlling parameters of a temperature controlled two-step anodization process. The cellular interaction and response of the Vero cell line with an in-house synthesised AAO membrane, a commercially available membrane, and a glass control were assessed by investigating cell adhesion, morphology, and proliferation over a 72 h period. The number of viable cells proliferating over the respective membrane surfaces revealed that the locally produced in-house AAO membrane had cells numbers similar to the glass control. The study revealed evidence of focal adhesion sites over the surface of the nanoporous membranes and the penetration of cellular extensions into the pore structure as well. 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subjects	Aluminum oxide Aluminum Oxide - chemical synthesis Aluminum Oxide - chemistry Aluminum Oxide - pharmacology Animals Biocompatible Materials - chemical synthesis Biocompatible Materials - chemistry Biocompatible Materials - pharmacology Cell Adhesion - drug effects Cell culture Cell growth Cercopithecus aethiops Chemical properties Electrodes Electrolytes Equipment and supplies Laboratories Materials Testing - methods Membranes Methods Microscopy, Atomic Force Nanoparticles Nanoparticles - chemistry Nanoparticles - ultrastructure Nanotechnology Particle Size Porosity Production processes Proteins Pseudopodia - drug effects Pseudopodia - ultrastructure Smooth muscle Studies Substrates (Biochemistry) Tissue engineering Vero Cells Virology
title	Chemical Synthesis, Characterisation, and Biocompatibility of Nanometre Scale Porous Anodic Aluminium Oxide Membranes for Use as a Cell Culture Substrate for the Vero Cell Line : A Preliminary Study
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