Fabrication of multilayer ZrO 2 –biphasic calcium phosphate–poly-caprolactone unidirectional channeled scaffold for bone tissue formation

We developed a continuously porous scaffold with laminated matrix and bone-like microstructure by a multi-pass extrusion process. In this scaffold, tetragonal ZrO 2 , biphasic calcium phosphate and poly-caprolactone layers were arranged in a co-axially laminated unit cell with a channel in the cente...

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Veröffentlicht in:	Journal of biomaterials applications 2013-09, Vol.28 (3), p.462-472
Hauptverfasser:	Mondal, Dibakar, So-Ra, Son, Sarkar, Swapan Kumar, Min, Young Ki, Yang, Hun Mo, Lee, Byong Taek
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container_end_page	472
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container_title	Journal of biomaterials applications
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creator	Mondal, Dibakar So-Ra, Son Sarkar, Swapan Kumar Min, Young Ki Yang, Hun Mo Lee, Byong Taek
description	We developed a continuously porous scaffold with laminated matrix and bone-like microstructure by a multi-pass extrusion process. In this scaffold, tetragonal ZrO 2 , biphasic calcium phosphate and poly-caprolactone layers were arranged in a co-axially laminated unit cell with a channel in the center. The entire matrix phase had a laminated microstructure of alternate lamina of tetragonal ZrO 2 , biphasic calcium phosphate and poly-caprolactone—biphasic calcium phosphate with optimized designed thickness and channeled porosity. Each of the continuous pores was coaxially encircled by the poly-caprolactone—biphasic calcium phosphate layer, biphasic calcium phosphate layer and finally tetragonal ZrO 2 layer, one after the other. Before extrusion, 5 vol% graphite powder was mixed with tetragonal ZrO 2 to ensure pores in the outer layer and connectivity among the lamellas. The design strategy is aimed to incorporate a lamellar microstructure like the natural bone in the macro-scaled ceramic body to investigate the strengthening phenomenon and pave the way for fabricating complex microstructure of natural bone could be applied for whole bone replacement. The final fabricated scaffold had a compressive strength of 12.7 MPa and porosity of 78 vol% with excellent cell viability, cell attachment and osteocalcin and collagen expression from cultured MG63 cells on scaffold.
doi_str_mv	10.1177/0885328212462046
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In this scaffold, tetragonal ZrO 2 , biphasic calcium phosphate and poly-caprolactone layers were arranged in a co-axially laminated unit cell with a channel in the center. The entire matrix phase had a laminated microstructure of alternate lamina of tetragonal ZrO 2 , biphasic calcium phosphate and poly-caprolactone—biphasic calcium phosphate with optimized designed thickness and channeled porosity. Each of the continuous pores was coaxially encircled by the poly-caprolactone—biphasic calcium phosphate layer, biphasic calcium phosphate layer and finally tetragonal ZrO 2 layer, one after the other. Before extrusion, 5 vol% graphite powder was mixed with tetragonal ZrO 2 to ensure pores in the outer layer and connectivity among the lamellas. The design strategy is aimed to incorporate a lamellar microstructure like the natural bone in the macro-scaled ceramic body to investigate the strengthening phenomenon and pave the way for fabricating complex microstructure of natural bone could be applied for whole bone replacement. 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title	Fabrication of multilayer ZrO 2 –biphasic calcium phosphate–poly-caprolactone unidirectional channeled scaffold for bone tissue formation
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