Burçak Alp scite author profile

Tissue hypoxia results in rapid angiogenesis in vivo, triggered by angiogenic proteins, including vascular endothelial growth factor (VEGF). Current views of tissue viability are founded on whether 'deeper-lying' cells receive sufficient nutrients and oxygen for normal activity and ultimately survival. For intact tissues, levels of such essential nutrients are governed by micro-vascular perfusion. However, there have been few effective quantitatively defined 3D models, which enable testing of the interplay or interdependence of matrix and cell density, and path diffusion on oxygen consumption in vitro. As a result, concepts on cell vulnerability to low oxygen levels, together with the nature of cellular responses are ill defined. The present study has adapted a novel, optical fibre-based system for in situ, real-time oxygen monitoring within three-dimensionally-spiralled cellular collagen constructs, which were then unfurled to enable quantitative, spatial measurements of VEGF production in different parts of the same construct exposed to different oxygen levels. A VEGF response was elicited by cells exposed to low oxygen levels (20 mmHg), primarily within the construct core.

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Formation of artificial, structured microbial consortia (ASMC) by dielectrophoresis

Alp

Stephens

Markx

2002

Enzyme and Microbial Technology

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Fabricating tissues: Analysis of farming versus engineering strategies

Cheema

Nazhat

Alp

et al. 2007

Biotechnol. Bioprocess Eng.

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Construction of biofilms with defined internal architecture using dielectrophoresis and flocculation

Verduzco-Luque¹,

Alp²,

Stephens³

et al. 2003

Biotech & Bioengineering

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A novel approach was developed for the construction of biofilms with defined internal architecture using AC electrokinetics and flocculation. Artificial structured microbial consortia (ASMC) consisting of localized layered microcolonies of different cell types were formed by sequentially attracting different cell types to high field regions near microelectrodes using dielectrophoresis. Stabilization of the microbial consortia on the electrode surface was achieved by crosslinking the cells using the flocculant polyethyleneimine (PEI). Consortia of Escherichia coli, Micrococcus luteus, and Saccharomyces cerevisiae were made as model systems. Also, more natural consortia were made of the bacteria Pseudomonas putida, Clavibacter michiganense, and Methylobacterium mesophilum, which are found together in consortia during biodegradation of metal-cutting waste fluids.

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Publisher Erratum: Spatially defined oxygen gradients and vascular endothelial growth factor expression in an engineered 3D cell model

Cheema

Brown

Alp

et al. 2007

Cell. Mol. Life Sci.

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Burçak Alp

Spatially defined oxygen gradients and vascular endothelial growth factor expression in an engineered 3D cell model

Formation of artificial, structured microbial consortia (ASMC) by dielectrophoresis

Fabricating tissues: Analysis of farming versus engineering strategies

Construction of biofilms with defined internal architecture using dielectrophoresis and flocculation

Publisher Erratum: Spatially defined oxygen gradients and vascular endothelial growth factor expression in an engineered 3D cell model

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