Literature DB >> 20091103

A porous scaffold for bone tissue engineering/45S5 Bioglass derived porous scaffolds for co-culturing osteoblasts and endothelial cells.

Sanjukta Deb1, Ramin Mandegaran, Lucy Di Silvio.   

Abstract

One of the major factors in the therapeutic success of bone tissue engineered scaffolds is the ability of the construct to vascularise post implantation. One of the approaches for improving vascularisation within scaffolds has been to co-culture human umbilical vein endothelial cells (HUVECS) with human osteoblasts (HOBS), which may then promote vascularisation and facilitate tissue regeneration. However, in order to mimic a natural physiological niche it is vital that the scaffold is able to support and promote the proliferation of both cell types and thus become a viable tissue engineered construct. In this study we report the development of a porous bioactive glass-ceramic construct and examine the interaction with human umbilical vein endothelial cells (HUVEC's) and human osteoblast-like cell both in mono and co-culture. The study clearly demonstrated that the scaffolds were able to support both endothelial and human osteoblast cell proliferation both in mono and co-culture. A comparison of the proliferation response of HUVEC and HOB in mono-culture on the test scaffolds and the commercial porous hydroxyapatite was assessed over a 28 day period (4, 7, 14, 21 and 28 days), using alamar Blue assay. Proliferation of HOB cells seeded in the scaffolds was consistently shown to be above those observed on commercial HA scaffolds.

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Year:  2009        PMID: 20091103     DOI: 10.1007/s10856-009-3936-5

Source DB:  PubMed          Journal:  J Mater Sci Mater Med        ISSN: 0957-4530            Impact factor:   3.896


  21 in total

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3.  Osteoblast responses to tape-cast and sintered bioactive glass ceramics.

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Journal:  Biomaterials       Date:  2004-09       Impact factor: 12.479

6.  Extracellular matrix formation and mineralization on a phosphate-free porous bioactive glass scaffold using primary human osteoblast (HOB) cells.

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Review 7.  Angiogenesis in tissue engineering: breathing life into constructed tissue substitutes.

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Journal:  Tissue Eng       Date:  2006-08

8.  Endothelial cell colonization and angiogenic potential of combined nano- and micro-fibrous scaffolds for bone tissue engineering.

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Review 2.  In vitro models for the evaluation of angiogenic potential in bone engineering.

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Authors:  Reem El-Gendy; Xuebin B Yang; Phillipa J Newby; Aldo R Boccaccini; Jennifer Kirkham
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5.  Comparative study of PCL-HAp and PCL-bioglass composite scaffolds for bone tissue engineering.

Authors:  Joaquín Ródenas-Rochina; José Luis Gómez Ribelles; Myriam Lebourg
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Review 6.  Scaffold design for bone regeneration.

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Journal:  J Nanosci Nanotechnol       Date:  2014-01

7.  Effect of inorganic and organic bioactive signals decoration on the biological performance of chitosan scaffolds for bone tissue engineering.

Authors:  Alessandra Soriente; Ines Fasolino; Maria Grazia Raucci; Christian Demitri; Marta Madaghiele; Antonella Giuri; Alessandro Sannino; Luigi Ambrosio
Journal:  J Mater Sci Mater Med       Date:  2018-05-07       Impact factor: 3.896

Review 8.  Vascularization in bone tissue engineering constructs.

Authors:  Ángel E Mercado-Pagán; Alexander M Stahl; Yaser Shanjani; Yunzhi Yang
Journal:  Ann Biomed Eng       Date:  2015-01-24       Impact factor: 3.934

9.  Low-power ultrasounds as a tool to culture human osteoblasts inside cancellous hydroxyapatite.

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10.  Human mesenchymal stem cell behavior on segmented polyurethanes prepared with biologically active chain extenders.

Authors:  Taylor E Kavanaugh; Amy Y Clark; Lerma H Chan-Chan; Maricela Ramírez-Saldaña; Rossana F Vargas-Coronado; José M Cervantes-Uc; Fernando Hernández-Sánchez; Andrés J García; Juan V Cauich-Rodríguez
Journal:  J Mater Sci Mater Med       Date:  2015-12-24       Impact factor: 3.896
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