Osteoblast behaviour on HA/PE composite surfaces with different HA volumes.

L DiSilvio; M J Dalby; W Bonfield

doi:10.1016/S0142-9612(01)00084-9

Osteoblast behaviour on HA/PE composite surfaces with different HA volumes.

L DiSilvio, M J Dalby, W Bonfield

Centre for Oral, Clinical & Translational Sciences

Research output: Contribution to journal › Article › peer-review

116 Citations (Scopus)

Abstract

A hydroxyapatite (HA) reinforced polyethylene (PE) composite (designated HAPEX), with high mechanical specification and a bioactive HA phase, has been optimised as a bone analogue material. Manufacturing conditions and machining of the materials were carefully controlled to give a reproducible material surface roughness with minimal batch variation. The effect of surface composition was examined in vitro using primary human osteoblasts (HOB). HOBs were cultured in direct contact with the test materials containing 20% and 40% vol. HA. The results showed that 40% HA/PE enhanced cellular activity by increasing proliferation rate and differentiation compared to the 20% vol. HA composite. The cytoskeletal organisation of the cells was also examined and HOBs cultured on 40% HA/PE were flatter and had an enhanced rate of cytoskeletal organisation and an increase in focal contact points compared to the 20% HA/PE.

Original language	English
Pages (from-to)	101 - 107
Number of pages	7
Journal	Biomaterials
Volume	23
Issue number	1
DOIs	https://doi.org/10.1016/S0142-9612(01)00084-9
Publication status	Published - 1 Jan 2002

Keywords

Cell Differentiation
Cell Division
Cells, Cultured
Durapatite
Humans
In Vitro Techniques
Microscopy, Electron
Osteoblasts
Polyethylene

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title = "Osteoblast behaviour on HA/PE composite surfaces with different HA volumes.",

abstract = "A hydroxyapatite (HA) reinforced polyethylene (PE) composite (designated HAPEX), with high mechanical specification and a bioactive HA phase, has been optimised as a bone analogue material. Manufacturing conditions and machining of the materials were carefully controlled to give a reproducible material surface roughness with minimal batch variation. The effect of surface composition was examined in vitro using primary human osteoblasts (HOB). HOBs were cultured in direct contact with the test materials containing 20% and 40% vol. HA. The results showed that 40% HA/PE enhanced cellular activity by increasing proliferation rate and differentiation compared to the 20% vol. HA composite. The cytoskeletal organisation of the cells was also examined and HOBs cultured on 40% HA/PE were flatter and had an enhanced rate of cytoskeletal organisation and an increase in focal contact points compared to the 20% HA/PE.",

keywords = "Cell Differentiation, Cell Division, Cells, Cultured, Durapatite, Humans, In Vitro Techniques, Microscopy, Electron, Osteoblasts, Polyethylene",

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doi = "10.1016/S0142-9612(01)00084-9",

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T1 - Osteoblast behaviour on HA/PE composite surfaces with different HA volumes.

AU - DiSilvio, L

AU - Dalby, M J

AU - Bonfield, W

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N2 - A hydroxyapatite (HA) reinforced polyethylene (PE) composite (designated HAPEX), with high mechanical specification and a bioactive HA phase, has been optimised as a bone analogue material. Manufacturing conditions and machining of the materials were carefully controlled to give a reproducible material surface roughness with minimal batch variation. The effect of surface composition was examined in vitro using primary human osteoblasts (HOB). HOBs were cultured in direct contact with the test materials containing 20% and 40% vol. HA. The results showed that 40% HA/PE enhanced cellular activity by increasing proliferation rate and differentiation compared to the 20% vol. HA composite. The cytoskeletal organisation of the cells was also examined and HOBs cultured on 40% HA/PE were flatter and had an enhanced rate of cytoskeletal organisation and an increase in focal contact points compared to the 20% HA/PE.

AB - A hydroxyapatite (HA) reinforced polyethylene (PE) composite (designated HAPEX), with high mechanical specification and a bioactive HA phase, has been optimised as a bone analogue material. Manufacturing conditions and machining of the materials were carefully controlled to give a reproducible material surface roughness with minimal batch variation. The effect of surface composition was examined in vitro using primary human osteoblasts (HOB). HOBs were cultured in direct contact with the test materials containing 20% and 40% vol. HA. The results showed that 40% HA/PE enhanced cellular activity by increasing proliferation rate and differentiation compared to the 20% vol. HA composite. The cytoskeletal organisation of the cells was also examined and HOBs cultured on 40% HA/PE were flatter and had an enhanced rate of cytoskeletal organisation and an increase in focal contact points compared to the 20% HA/PE.

KW - Cell Differentiation

KW - Cell Division

KW - Cells, Cultured

KW - Durapatite

KW - Humans

KW - In Vitro Techniques

KW - Microscopy, Electron

KW - Osteoblasts

KW - Polyethylene

U2 - 10.1016/S0142-9612(01)00084-9

DO - 10.1016/S0142-9612(01)00084-9

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VL - 23

SP - 101

EP - 107

JO - Biomaterials

JF - Biomaterials

IS - 1

ER -

Osteoblast behaviour on HA/PE composite surfaces with different HA volumes.

Abstract

Keywords

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