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Digitale Medien

Nanopore Technology for Biomedical Applications (1999)

Desai, Tejal A. ; Hansford, Derek J. ; Kulinsky, Lawrence ; [weitere]

Springer

Biomedical microdevices 2 (1999), S. 11-40

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ISSN: 1572-8781

Schlagwort(e): BioMEMS ; nanotechnology ; microfabrication ; membranes ; silicon

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin , Technik allgemein

Notizen: Abstract The ability to create well-defined and controlled interfaces has been an area of great interest over the last few years, particularly in the biomedical arena. This paper will describe the development of technology for the fabrication of nanopore membranes, and their operation in biological environments. With monodisperse pores sizes as small as 10 nanometers, these membranes offer advantages in their reproducibility, and their ability to be integrated with controlled biochemical surface modification protocols. A comprehensive review of results in the areas of nanopore and biocapsule microfabrication technologies, biocompatibility of nanomembrane materials, biologically appropriate post-processing protocols (bonding, sterilization), surface modification protocols, and appropriate mass transport models will be presented. The results point to the potential of using such technologies for therapeutic applications including immunoisolation biocapsules, drug delivery devices, and targeted biorecognition platforms.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1023/A:1009903215959

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Digitale Medien

Microtextured Cell Culture Platforms: Biomimetic Substrates for the Growth of Cardiac Myocytes and Fibroblasts (1999)

Desai, Tejal A. ; Deutsch, Jennifer ; Motlagh, Delara ; [weitere]

Springer

Biomedical microdevices 2 (1999), S. 123-129

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ISSN: 1572-8781

Schlagwort(e): bioMEMS ; microtexture ; cardiac myocyte ; cellular adhesion

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin , Technik allgemein

Notizen: Abstract In order to understand the role of tissue adaptation to altered physiological states, a more physiologically and dimensionally relevant in vitro model of cardiac myocyte organization has been developed. This new cell culture system, created by microfabrication technology, provides an environment in which cells can maintain a differentiated in vivo cell phenotype. By creating microtextured geometries of varied dimension, we are able to maximize the perpendicular surface area for myocyte attachment. These platforms provide a biocompatible surface with specific microarchitectures upon which cells exhibit enhanced cellular adhesion due to increased surface area, three-dimensional geometries, and bioacceptable attachment moieties. These microtextured membranes are created using photolithography and microfabrication techniques. Silicone and polyglycolic/lactic acid interfaces with specified microarchitecture and surface chemistry have been designed, microfabricated, and characterized for this purpose. Advantages of the microtextured membranes include the high degree of reproducibility and the ability to create features on the micron and submicron size scale. Because of the flexibility of substrate material and the ease of creating micron size structures, this technique can be applied to many other physiological and biological systems, particularly for cell physiology and mechanobiology studies.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1023/A:1009997620679

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