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Forschungsdatenbank PMU-SQQUID


Gewähltes Keyword: Mesenchymal stromal cells

Manufacturing and characterization of extracellular vesicles from umbilical cord-derived mesenchymal stromal cells for clinical testing.
Rohde, E; Pachler, K; Gimona, M
Cytotherapy. 2019; 21(6):581-592
MEsenchymal StEm cells for Multiple Sclerosis (MESEMS): a randomized, double blind, cross-over phase I/II clinical trial with autologous mesenchymal stem cells for the therapy of multiple sclerosis
Uccelli, A; Laroni, A; Brundin, L; Clanet, M; Fernandez, O; Nabavi, SM; Muraro, PA; Oliveri, RS; Radue, EW; Sellner, J; Sorensen, PS; Sormani, MP; Wuerfel, JT; Battaglia, MA; Freedman, MS
TRIALS. 2019; 20: 263
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Decellularized Iliotibial Band Recolonized with Allogenic Homotopic Fibroblasts or Bone Marrow-Derived Mesenchymal Stromal Cells.
Gögele, C; Schwarz, S; Ondruschka, B; Hammer, N; Schulze-Tanzil, G;
Methods Mol Biol. 2018; 1577:55-69
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Manufacturing Mesenchymal Stromal Cells for the Treatment of Graft-versus-Host Disease: A Survey among Centers Affiliated with the European Society for Blood and Marrow Transplantation.
Trento, C; Bernardo, ME; Nagler, A; Kuçi, S; Bornhäuser, M; Köhl, U; Strunk, D; Galleu, A; Sanchez-Guijo, F; Gaipa, G; Introna, M; Bukauskas, A; Le Blanc, K; Apperley, J; Roelofs, H; Van Campenhout, A; Beguin, Y; Kuball, J; Lazzari, L; Avanzini, MA; Fibbe, W; Chabannon, C; Bonini, C; Dazzi, F;
Biol Blood Marrow Transplant. 2018; 24(11):2365-2370
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Manufacturing of Human Extracellular Vesicle-Based Therapeutics for Clinical Use.
Gimona, M; Pachler, K; Laner-Plamberger, S; Schallmoser, K; Rohde, E;
Int J Mol Sci. 2017; 18(6):
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The Challenge in Using Mesenchymal Stromal Cells for Recellularization of Decellularized Cartilage.
Huang, Z; Godkin, O; Schulze-Tanzil, G;
Stem Cell Rev. 2017; 13(1): 50-67.
An In Vitro Potency Assay for Monitoring the Immunomodulatory Potential of Stromal Cell-Derived Extracellular Vesicles.
Pachler, K; Ketterl, N; Desgeorges, A; Dunai, ZA; Laner-Plamberger, S; Streif, D; Strunk, D; Rohde, E; Gimona, M;
Int J Mol Sci. 2017; 18(7):
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A Good Manufacturing Practice-grade standard protocol for exclusively human mesenchymal stromal cell-derived extracellular vesicles.
Pachler, K; Lener, T; Streif, D; Dunai, ZA; Desgeorges, A; Feichtner, M; Öller, M; Schallmoser, K; Rohde, E; Gimona, M;
Cytotherapy. 2017; 19(4): 458-472.
Originalarbeiten (Zeitschrift)
Generation and use of a humanized bone-marrow-ossicle niche for hematopoietic xenotransplantation into mice.
Reinisch, A; Hernandez, DC; Schallmoser, K; Majeti, R;
Nat Protoc. 2017; 12(10): 2169-2188.
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Establishment of a Cytocompatible Cell-Free Intervertebral Disc Matrix for Chondrogenesis with Human Bone Marrow-Derived Mesenchymal Stromal Cells.
Huang, Z; Kohl, B; Kokozidou, M; Arens, S; Schulze-Tanzil, G
Cells Tissues Organs. 2016; 201(5):354-365
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Selective renal blood perfusion induces renal tubules injury in a porcine model.
Kalder, J; Kokozidou, M; Keschenau, P; Tamm, M; Greiner, A; Koeppel, TA; Tolba, R; Jacobs, MJ;
J Vasc Surg. 2016; 63(3): 778-787.
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Cryopreserved or Fresh Mesenchymal Stromal Cells: Only a Matter of Taste or Key to Unleash the Full Clinical Potential of MSC Therapy?
Moll, G; Geißler, S; Catar, R; Ignatowicz, L; Hoogduijn, MJ; Strunk, D; Bieback, K; Ringdén, O;
Adv Exp Med Biol. 2016; 951: 77-98.
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A humanized bone marrow ossicle xenotransplantation model enables improved engraftment of healthy and leukemic human hematopoietic cells.
Reinisch, A; Thomas, D; Corces, MR; Zhang, X; Gratzinger, D; Hong, WJ; Schallmoser, K; Strunk, D; Majeti, R;
Nat Med. 2016; 22(7): 812-821.
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Chondrogenesis of human bone marrow mesenchymal stromal cells in highly porous alginate-foams supplemented with chondroitin sulfate.
Huang, Z; Nooeaid, P; Kohl, B; Roether, JA; Schubert, DW; Meier, C; Boccaccini, AR; Godkin, O; Ertel, W; Arens, S; Schulze-Tanzil, G
MAT SCI ENG C-MATER. 2015; 50: 160-172.
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Epigenetic and in vivo comparison of diverse MSC sources reveals an endochondral signature for human hematopoietic niche formation.
Reinisch, A; Etchart, N; Thomas, D; Hofmann, NA; Fruehwirth, M; Sinha, S; Chan, CK; Senarath-Yapa, K; Seo, EY; Wearda, T; Hartwig, UF; Beham-Schmid, C; Trajanoski, S; Lin, Q; Wagner, W; Dullin, C; Alves, F; Andreeff, M; Weissman, IL; Longaker, MT; Schallmoser, K; Majeti, R; Strunk, D;
Blood. 2015; 125(2): 249-260.
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Reciprocal leukemia-stroma VCAM-1/VLA-4-dependent activation of NF-κB mediates chemoresistance.
Jacamo, R; Chen, Y; Wang, Z; Ma, W; Zhang, M; Spaeth, EL; Wang, Y; Battula, VL; Mak, PY; Schallmoser, K; Ruvolo, P; Schober, WD; Shpall, EJ; Nguyen, MH; Strunk, D; Bueso-Ramos, CE; Konoplev, S; Davis, RE; Konopleva, M; Andreeff, M;
Blood. 2014; 123(17): 2691-2702.
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The influence of IL-10 and TNFα on chondrogenesis of human mesenchymal stromal cells in three-dimensional cultures.
Jagielski, M; Wolf, J; Marzahn, U; Völker, A; Lemke, M; Meier, C; Ertel, W; Godkin, O; Arens, S; Schulze-Tanzil, G;
Int J Mol Sci. 2014; 15(9): 15821-15844.
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Mesenchymal stromal cells from the human placenta promote neovascularization in a mouse model in vivo.
Kinzer, M; Hingerl, K; Konig, J; Reinisch, A; Strunk, D; Huppertz, B; Lang, I
PLACENTA. 2014; 35(7): 517-519.
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Connective tissue growth factor regulates adipocyte differentiation of mesenchymal stromal cells and facilitates leukemia bone marrow engraftment.
Battula, VL; Chen, Y; Cabreira, MD; Ruvolo, V; Wang, ZQ; Ma, WC; Konoplev, S; Shpall, E; Lyons, K; Strunk, D; Bueso-Ramos, C; Davis, RE; Konopleva, M; Andreeff, M
Blood. 2013; 122(3):357-366
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Third-party mesenchymal stromal cell infusion is associated with a decrease in thrombotic microangiopathy symptoms observed post-hematopoietic stem cell transplantation.
Ansari, M; Strunk, D; Schallmoser, K; Delcò, C; Rougemont, AL; Moll, S; Villard, J; Gumy-Pause, F; Chalandon, Y; Parvex, P; Passweg, J; Ozsahin, H; Kindler, V;
Pediatr Transplant. 2012; 16(2):131-136
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KATP channels in mesenchymal stromal stem cells: strong up-regulation of Kir6.2 subunits upon osteogenic differentiation.
Diehlmann, A; Bork, S; Saffrich, R; Veh, RW; Wagner, W; Derst, C
Tissue Cell. 2011; 43(5):331-336
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Replicative senescence-associated gene expression changes in mesenchymal stromal cells are similar under different culture conditions.
Schallmoser, K; Bartmann, C; Rohde, E; Bork, S; Guelly, C; Obenauf, AC; Reinisch, A; Horn, P; Ho, AD; Strunk, D; Wagner, W;
HAEMATOL-HEMATOL J. 2010; 95(6): 86-74.
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Human alternatives to fetal bovine serum for the expansion of mesenchymal stromal cells from bone marrow.
Bieback, K; Hecker, A; Kocaömer, A; Lannert, H; Schallmoser, K; Strunk, D; Klüter, H;
Stem Cells. 2009; 27(9): 233-241.
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Isolation and animal serum free expansion of human umbilical cord derived mesenchymal stromal cells (MSCs) and endothelial colony forming progenitor cells (ECFCs).
Reinisch, A; Strunk, D;
J Vis Exp. 2009; (32):
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Platelet-derived growth factors for GMP-compliant propagation of mesenchymal stromal cells.
Schallmoser, K; Rohde, E; Bartmann, C; Obenauf, AC; Reinisch, A; Strunk, D;
Biomed Mater Eng. 2009; 19(4-5): 271-276.
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Clinical Protocols for the Isolation and Expansion of Mesenchymal Stromal Cells.
Bieback, K; Schallmoser, K; Klutera, H; Strunk, D
TRANSFUS MED HEMOTH. 2008; 35(4): 286-294.
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Two steps to functional mesenchymal stromal cells for clinical application.
Bartmann, C; Rohde, E; Schallmoser, K; Pürstner, P; Lanzer, G; Linkesch, W; Strunk, D;
Transfusion. 2007; 47(8): 1426-1435.
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Humanized system to propagate cord blood-derived multipotent mesenchymal stromal cells for clinical application.
Reinisch, A; Bartmann, C; Rohde, E; Schallmoser, K; Bjelic-Radisic, V; Lanzer, G; Linkesch, W; Strunk, D;
Regen Med. 2007; 2(4):371-382
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Human platelet lysate can replace fetal bovine serum for clinical-scale expansion of functional mesenchymal stromal cells.
Schallmoser, K; Bartmann, C; Rohde, E; Reinisch, A; Kashofer, K; Stadelmeyer, E; Drexler, C; Lanzer, G; Linkesch, W; Strunk, D;
Transfusion. 2007; 47(8):143-146
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