Search Results - "Schlie, S"

Three-dimensional laser micro- and nano-structuring of acrylated poly(ethylene glycol) materials and evaluation of their cytoxicity for tissue engineering applications by Ovsianikov, A., Malinauskas, M., Schlie, S., Chichkov, B., Gittard, S., Narayan, R., Löbler, M., Sternberg, K., Schmitz, K.-P., Haverich, A.

“…The natural cell environment is characterized by complex three-dimensional structures, which contain features at multiple length scales. Many in vitro studies…”
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Two-photon polymerization-generated and micromolding-replicated 3D scaffolds for peripheral neural tissue engineering applications by Koroleva, A, Gill, A A, Ortega, I, Haycock, J W, Schlie, S, Gittard, S D, Chichkov, B N, Claeyssens, F

“…In this study, we explore the production of well-defined macroscopic scaffolds with two-photon polymerization (2PP) and their use as neural tissue engineering…”
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Adipogenic differentiation of laser-printed 3D tissue grafts consisting of human adipose-derived stem cells by Gruene, M, Pflaum, M, Deiwick, A, Koch, L, Schlie, S, Unger, C, Wilhelmi, M, Haverich, A, Chichkov, B N

“…Laser-assisted bioprinting (LaBP) allows the realization of computer-generated 3D tissue grafts consisting of cells embedded in a hydrogel environment. In this…”
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Dipyridamole increases gap junction coupling in bovine GM-7373 aortic endothelial cells by a cAMP-protein kinase A dependent pathway by Begandt, D, Bintig, W, Oberheide, K, Schlie, S, Ngezahayo, A

“…The scrape-loading/dye transfer technique was applied on the bovine aortic endothelial cell line GM-7373 to analyze the effects of the antithrombolytic drug…”
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Laser printing of skin cells and human stem cells by Koch, Lothar, Kuhn, Stefanie, Sorg, Heiko, Gruene, Martin, Schlie, Sabrina, Gaebel, Ralf, Polchow, Bianca, Reimers, Kerstin, Stoelting, Stephanie, Ma, Nan, Vogt, Peter M, Steinhoff, Gustav, Chichkov, Boris

“…Laser printing based on laser-induced forward transfer (LIFT) is a new biofabrication technique for the arrangement of biological materials or living cells in…”
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Laser printing of stem cells for biofabrication of scaffold-free autologous grafts by Gruene, Martin, Deiwick, Andrea, Koch, Lothar, Schlie, Sabrina, Unger, Claudia, Hofmann, Nicola, Bernemann, Inga, Glasmacher, Birgit, Chichkov, Boris

“…Stem cells are of widespread interest in regenerative medicine due to their capability of self-renewal and differentiation, which is regulated by their…”
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Laser printing of three-dimensional multicellular arrays for studies of cell-cell and cell-environment interactions by Gruene, Martin, Pflaum, Michael, Hess, Christian, Diamantouros, Stefanos, Schlie, Sabrina, Deiwick, Andrea, Koch, Lothar, Wilhelmi, Mathias, Jockenhoevel, Stefan, Haverich, Axel, Chichkov, Boris

“…Utilization of living cells for therapies in regenerative medicine requires a fundamental understanding of the interactions between different cells and their…”
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Selective Cell Control by Surface Structuring for Orthopedic Applications by Fadeeva, E., Schlie, S., Koch, J., Chichkov, B. N.

“…In this work we present an in vitro study of the influence of two types of femtosecond laser generated topographies on a titanium surface - grooves with…”
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Fabrication of fibrin scaffolds with controlled microscale architecture by a two-photon polymerization-micromolding technique by Koroleva, Anastasia, Gittard, Shaun, Schlie, Sabrina, Deiwick, Andrea, Jockenhoevel, Stefan, Chichkov, Boris

“…Fabrication of three-dimensional (3D) fibrin scaffolds with tightly controllable pore sizes and interconnections has been investigated. The scaffolds were…”
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LOP01: Successful Generation of Skin Tissue via Laser-Assisted Bioprinting (LaBP)—Assessment In Vitro and In Vivo by Michael, S., Sorg, H., Koch, L., Schlie, S., Peck, C.- T., Deiwick, A., Coger, V., Chichkov, B., Vogt, P. M., Reimers, K.

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LOP01: Successful Generation of Skin Tissue via Laser-Assisted Bioprinting (LaBP)—Assessment In Vitro and In Vivo by Michael, S., Sorg, H., Koch, L., Schlie, S., Peck, C.- T., Deiwick, A., Coger, V., Chichkov, B., Vogt, P. M., Reimers, K.

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Dynamics of cell attachment: adhesion time and force by Schlie, Sabrina, Gruene, Martin, Dittmar, Hagen, Chichkov, Boris N

“…Due to its biological significance, cell adhesion to biomaterial surfaces or scaffolds is the key step in biomedical applications. Here, we describe two…”
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Selective Cell Control by Surface Structuring for Orthopedic Applications: Special Issue on Surface and Interfacial Aspects of Cell Adhesion, Part 2 by FADEEVA, E, SCHLIE, S, KOCH, J, CHICHKOV, B. N

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Three-dimensional laser micro- and nanostructuring of acrylated polyethylene glycol materials and evaluation of their cytoxicity for tissue engineering applications by Ovsianikov, A., Malinauskas, M., Schlie, S., Chichkov, B., Gittard, S., Narayan, R., Löbler, M., Sternberg, K., Schmitz, K.-P., Haverich, A.

“…The natural cell environment is characterised by complex three-dimensional structures, which contain features at multiple length scales. Many in vitro studies…”
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LASER-ASSISTED B1OPRINTING FOR THE GENERATION OF VASCULAR-LIKE STRUCTURES by Gruene, M, Pflaurn, M, Hess, C, Diamantouros, S, Schlie, S, Deiwick, A, Koch, L, M., Jockenhoevel, S, Haverich, A, Chichkov, B

“…Objectives: To generate vascular-like structures by laser-assisted bioprinting (LaBP) for the application in tissue engineered constructs. Methods: LaBP was…”
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Three-Dimensional Cell Growth on Structures Fabricated from ORMOCER super( registered ) by Two-Photon Polymerization Technique by Schlie, S, Ngezahayo, A, Ovsianikov, A, Fabian, T, Kolb, H-A, Haferkamp, H, Chichkov, B N

“…Two-photon polymerization technique was applied to generate three-dimensional (3D) scaffold-like structures using the photosensitive organic-inorganic hybrid…”
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