Fixation of Transparent Bone Pins with Photocuring Biocomposites

Gautama Wicaksono; Felicia Toni; Leonard Wei Feng Tok; Jeanette Jun Ting Thng; Ivan Šolić; Manisha Singh; Ivan Djordjevic; Francesco Baino; Terry W.J. Steele

doi:10.1021/acsbiomaterials.1c00473

Fixation of Transparent Bone Pins with Photocuring Biocomposites

Gautama Wicaksono, Felicia Toni, Leonard Wei Feng Tok, Jeanette Jun Ting Thng, Ivan Šolić, Manisha Singh, Ivan Djordjevic, Francesco Baino, Terry W.J. Steele^*

^*Corresponding author for this work

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

4 Citations (Scopus)

Abstract

Bone fractures are in need of rapid fixation methods, but the current strategies are limited to metal pins and screws, which necessitate secondary surgeries upon removal. New techniques are sought to avoid surgical revisions, while maintaining or improving the fixation speed. Herein, a method of bone fixation is proposed with transparent biopolymers anchored in place via light-activated biocomposites based on expanding CaproGlu bioadhesives. The transparent biopolymers serve as a UV light guide for the activation of CaproGlu biocomposites, which results in evolution of molecular nitrogen (from diazirine photolysis), simultaneously expanding the covalently cross-linked matrix. Osseointegration additives of hydroxyapatite or Bioglass 45S5 yield a biocomposite matrix with increased stiffness and pullout strength. The structure-property relationships of UV joules dose, pin diameter, and biocomposite additives are assessed with respect to the apparent viscosity, shear modulus, spatiotemporal pin curing, and lap-shear adhesion. Finally, a model system is proposed based onex vivoinvestigation with bone tissue for the exploration and optimization of UV-active transparent biopolymer fixation.

Original language	English
Pages (from-to)	4463-4473
Number of pages	11
Journal	ACS Biomaterials Science and Engineering
Volume	7
Issue number	9
DOIs	https://doi.org/10.1021/acsbiomaterials.1c00473
Publication status	Published - Sept 13 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021 American Chemical Society

ASJC Scopus Subject Areas

Biomaterials
Biomedical Engineering

Keywords

bioglass
bone biocomposite
bone−implant fixation
hydroxyapatite
polymer bioadhesive

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10.1021/acsbiomaterials.1c00473

Cite this

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title = "Fixation of Transparent Bone Pins with Photocuring Biocomposites",

abstract = "Bone fractures are in need of rapid fixation methods, but the current strategies are limited to metal pins and screws, which necessitate secondary surgeries upon removal. New techniques are sought to avoid surgical revisions, while maintaining or improving the fixation speed. Herein, a method of bone fixation is proposed with transparent biopolymers anchored in place via light-activated biocomposites based on expanding CaproGlu bioadhesives. The transparent biopolymers serve as a UV light guide for the activation of CaproGlu biocomposites, which results in evolution of molecular nitrogen (from diazirine photolysis), simultaneously expanding the covalently cross-linked matrix. Osseointegration additives of hydroxyapatite or Bioglass 45S5 yield a biocomposite matrix with increased stiffness and pullout strength. The structure-property relationships of UV joules dose, pin diameter, and biocomposite additives are assessed with respect to the apparent viscosity, shear modulus, spatiotemporal pin curing, and lap-shear adhesion. Finally, a model system is proposed based onex vivoinvestigation with bone tissue for the exploration and optimization of UV-active transparent biopolymer fixation.",

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author = "Gautama Wicaksono and Felicia Toni and {Wei Feng Tok}, Leonard and {Jun Ting Thng}, Jeanette and Ivan {\v S}oli{\'c} and Manisha Singh and Ivan Djordjevic and Francesco Baino and Steele, {Terry W.J.}",

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doi = "10.1021/acsbiomaterials.1c00473",

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AU - Wicaksono, Gautama

AU - Toni, Felicia

AU - Wei Feng Tok, Leonard

AU - Jun Ting Thng, Jeanette

AU - Šolić, Ivan

AU - Singh, Manisha

AU - Djordjevic, Ivan

AU - Baino, Francesco

AU - Steele, Terry W.J.

PY - 2021/9/13

Y1 - 2021/9/13

N2 - Bone fractures are in need of rapid fixation methods, but the current strategies are limited to metal pins and screws, which necessitate secondary surgeries upon removal. New techniques are sought to avoid surgical revisions, while maintaining or improving the fixation speed. Herein, a method of bone fixation is proposed with transparent biopolymers anchored in place via light-activated biocomposites based on expanding CaproGlu bioadhesives. The transparent biopolymers serve as a UV light guide for the activation of CaproGlu biocomposites, which results in evolution of molecular nitrogen (from diazirine photolysis), simultaneously expanding the covalently cross-linked matrix. Osseointegration additives of hydroxyapatite or Bioglass 45S5 yield a biocomposite matrix with increased stiffness and pullout strength. The structure-property relationships of UV joules dose, pin diameter, and biocomposite additives are assessed with respect to the apparent viscosity, shear modulus, spatiotemporal pin curing, and lap-shear adhesion. Finally, a model system is proposed based onex vivoinvestigation with bone tissue for the exploration and optimization of UV-active transparent biopolymer fixation.

AB - Bone fractures are in need of rapid fixation methods, but the current strategies are limited to metal pins and screws, which necessitate secondary surgeries upon removal. New techniques are sought to avoid surgical revisions, while maintaining or improving the fixation speed. Herein, a method of bone fixation is proposed with transparent biopolymers anchored in place via light-activated biocomposites based on expanding CaproGlu bioadhesives. The transparent biopolymers serve as a UV light guide for the activation of CaproGlu biocomposites, which results in evolution of molecular nitrogen (from diazirine photolysis), simultaneously expanding the covalently cross-linked matrix. Osseointegration additives of hydroxyapatite or Bioglass 45S5 yield a biocomposite matrix with increased stiffness and pullout strength. The structure-property relationships of UV joules dose, pin diameter, and biocomposite additives are assessed with respect to the apparent viscosity, shear modulus, spatiotemporal pin curing, and lap-shear adhesion. Finally, a model system is proposed based onex vivoinvestigation with bone tissue for the exploration and optimization of UV-active transparent biopolymer fixation.

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Fixation of Transparent Bone Pins with Photocuring Biocomposites

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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