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Publikationen von Pattappa, Girish
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Anzahl der Einträge: 12.
2023
Wang, Chenglong, Stöckl, Sabine, Pattappa, Girish 
, Schulz, Daniela , Hofmann, Korbinian, Ilic, Jovana, Reinders, Yvonne, Bauer, Richard J. , Sickmann, Albert und Grässel, Susanne
(2023)
Extracellular Vesicles Derived from Osteogenic-Differentiated Human Bone Marrow-Derived Mesenchymal Cells Rescue Osteogenic Ability of Bone Marrow-Derived Mesenchymal Cells Impaired by Hypoxia.
Biomedicines 11 (10), S. 2804.
2022
Pattappa, Girish , Reischl, Franziska, Jahns, Judith, Schewior, Ruth, Lang, Siegmund, Zellner, Johannes, Johnstone, Brian, Docheva, Denitsa und Angele, Peter
(2022)
Fibronectin Adherent Cell Populations Derived From Avascular and Vascular Regions of the Meniscus Have Enhanced Clonogenicity and Differentiation Potential Under Physioxia.
Frontiers in Bioengineering and Biotechnology 9, S. 789621.
2021
Angele, Peter, Docheva, Denitsa , Pattappa, Girish und Zellner, Johannes
(2021)
Cell-based treatment options facilitate regeneration of cartilage, ligaments and meniscus in demanding conditions of the knee by a whole joint approach.
Knee Surgery, Sports Traumatology, Arthroscopy 2021, S. 1-13.
2020
Pattappa, Girish , Krueckel, Jonas, Schewior, Ruth, Franke, Dustin, Mench, Alexander, Koch, Matthias, Weber, Johannes, Lang, Siegmund , Pfeifer, Christian G. , Johnstone, Brian , Docheva, Denitsa , Alt, Volker, Angele, Peter und Zellner, Johannes
(2020)
Physioxia Expanded Bone Marrow Derived Mesenchymal Stem Cells Have Improved Cartilage Repair in an Early Osteoarthritic Focal Defect Model.
Biology 9 (8), S. 230.
Huber, Michaela, Schlosser, Daniela, Stenzel, Susanne, Maier, Johannes, Pattappa, Girish , Kujat, Richard, Striegl, Birgit und Docheva, Denitsa
(2020)
Quantitative Analysis of Surface Contouring with Pulsed Bipolar Radiofrequency on Thin Chondromalacic Cartilage.
BioMed Research International 2020, S. 1-8.
2019
Pattappa, Girish , Schewior, Ruth, Hofmeister, Isabella, Seja, Jennifer, Zellner, Johannes, Johnstone, Brian, Docheva, Denitsa und Angele, Peter
(2019)
Physioxia Has a Beneficial Effect on Cartilage Matrix Production in Interleukin-1 Beta-Inhibited Mesenchymal Stem Cell Chondrogenesis.
Cells 8 (8), S. 936.
Pattappa, Girish , Zellner, J., Johnstone, B., Docheva, Denitsa und Angele, Peter
(2019)
Cells under pressure – the relationship between hydrostatic pressure and mesenchymal stem cell chondrogenesis.
eCells & Materials 2019 (37), S. 360-381.
Koch, Matthias, Hammer, Selma, Fuellerer, Julian, Lang, Siegmund , Pfeifer, Christian, Pattappa, Girish , Weber, Johannes, Loibl, Markus, Nerlich, Michael, Angele, Peter und Zellner, Johannes
(2019)
Bone Marrow Aspirate Concentrate for the Treatment of Avascular Meniscus Tears in a One-Step Procedure—Evaluation of an In Vivo Model.
International Journal of Molecular Sciences 20 (5), S. 1120.
Pattappa, Girish , Johnstone, Brian, Zellner, Johannes, Docheva, Denitsa und Angele, Peter
(2019)
The Importance of Physioxia in Mesenchymal Stem Cell Chondrogenesis and the Mechanisms Controlling Its Response.
International Journal of Molecular Sciences 20 (3), S. 484.
2018
Koch, Matthias, Achatz, Felix P., Lang, Siegmund, Pfeifer, Christian G., Pattappa, Girish , Kujat, Richard, Nerlich, Michael, Angele, Peter und Zellner, Johannes
(2018)
Tissue Engineering of Large Full-Size Meniscus Defects by a Polyurethane Scaffold: Accelerated Regeneration by Mesenchymal Stromal Cells.
Stem Cells International 2018 (820707), S. 1-11.
2017
Zellner, Johannes, Pattappa, Girish, Koch, Matthias, Lang, Siegmund, Weber, Johannes, Pfeifer, Christian G., Mueller, Michael B., Kujat, Richard, Nerlich, Michael und Angele, Peter
(2017)
Autologous mesenchymal stem cells or meniscal cells: what is the best cell source for regenerative meniscus treatment in an early osteoarthritis situation?
Stem Cell Research & Therapy 8 (1), S. 1-12.
Koch, Matthias, Ehrenreich, Tobias, Koehl, Gudrun, Pattappa, Girish, Pfeifer, Christian, Loibl, Markus , Müller, Michael, Nerlich, Michael, Angele, Peter und Zellner, Johannes
(2017)
Do cell based tissue engineering products for meniscus regeneration influence vascularization?
Clinical Hemorheology and Microcirculation 67 (2), S. 125-140.
Volltext nicht vorhanden.
, Müller, Michael, Nerlich, Michael, Angele, Peter und Zellner, Johannes
(2017)
Do cell based tissue engineering products for meniscus regeneration influence vascularization?
Clinical Hemorheology and Microcirculation 67 (2), S. 125-140.
Volltext nicht vorhanden.
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