A novel jet-based nano-hydroxyapatite patterning technique for osteoblast guidance

Xiang Li; Garrit Koller; Jie Huang; Lucy Di Silvio; Tara Renton; Minoo Esat; William Bonfield; Mohan Edirisinghe

doi:10.1098/rsif.2009.0101

A novel jet-based nano-hydroxyapatite patterning technique for osteoblast guidance

Xiang Li, Garrit Koller, Jie Huang, Lucy Di Silvio, Tara Renton, Minoo Esat, William Bonfield, Mohan Edirisinghe

Centre for Oral, Clinical & Translational Sciences

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

34 Citations (Scopus)

Abstract

Surface topography is well known to play a crucial role in influencing cellular responses to an implant material and is therefore important in bone tissue regeneration. A novel jet-based patterning technique, template-assisted electrohydrodynamic atomization spraying, was recently devised to control precisely the surface structure as well as its dimensions. In the present study, a detailed investigation of this patterning process was carried out. A range of nano-hydroxyapatite (nHA) line-shaped patterns <20 µm in width were successfully deposited on a commercially pure Ti surface by controlling the flow of an nHA suspension in an electric field. In vitro studies showed that the nHA patterns generated are capable of regulating the human osteoblast cell attachment and orientation.

Original language	English
Pages (from-to)	189 - 197
Number of pages	9
Journal	Journal Of The Royal Society Interface
Volume	7
Issue number	42
DOIs	https://doi.org/10.1098/rsif.2009.0101
Publication status	Published - 6 Jan 2010

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title = "A novel jet-based nano-hydroxyapatite patterning technique for osteoblast guidance",

abstract = "Surface topography is well known to play a crucial role in influencing cellular responses to an implant material and is therefore important in bone tissue regeneration. A novel jet-based patterning technique, template-assisted electrohydrodynamic atomization spraying, was recently devised to control precisely the surface structure as well as its dimensions. In the present study, a detailed investigation of this patterning process was carried out. A range of nano-hydroxyapatite (nHA) line-shaped patterns <20 µm in width were successfully deposited on a commercially pure Ti surface by controlling the flow of an nHA suspension in an electric field. In vitro studies showed that the nHA patterns generated are capable of regulating the human osteoblast cell attachment and orientation.",

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AU - Li, Xiang

AU - Koller, Garrit

AU - Huang, Jie

AU - Di Silvio, Lucy

AU - Renton, Tara

AU - Esat, Minoo

AU - Bonfield, William

AU - Edirisinghe, Mohan

PY - 2010/1/6

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N2 - Surface topography is well known to play a crucial role in influencing cellular responses to an implant material and is therefore important in bone tissue regeneration. A novel jet-based patterning technique, template-assisted electrohydrodynamic atomization spraying, was recently devised to control precisely the surface structure as well as its dimensions. In the present study, a detailed investigation of this patterning process was carried out. A range of nano-hydroxyapatite (nHA) line-shaped patterns <20 µm in width were successfully deposited on a commercially pure Ti surface by controlling the flow of an nHA suspension in an electric field. In vitro studies showed that the nHA patterns generated are capable of regulating the human osteoblast cell attachment and orientation.

AB - Surface topography is well known to play a crucial role in influencing cellular responses to an implant material and is therefore important in bone tissue regeneration. A novel jet-based patterning technique, template-assisted electrohydrodynamic atomization spraying, was recently devised to control precisely the surface structure as well as its dimensions. In the present study, a detailed investigation of this patterning process was carried out. A range of nano-hydroxyapatite (nHA) line-shaped patterns <20 µm in width were successfully deposited on a commercially pure Ti surface by controlling the flow of an nHA suspension in an electric field. In vitro studies showed that the nHA patterns generated are capable of regulating the human osteoblast cell attachment and orientation.

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DO - 10.1098/rsif.2009.0101

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SP - 189

EP - 197

JO - Journal Of The Royal Society Interface

JF - Journal Of The Royal Society Interface

IS - 42

ER -

A novel jet-based nano-hydroxyapatite patterning technique for osteoblast guidance

Abstract

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