TY - GEN A1 - Heher, Philipp A1 - Tomasch, Janine A1 - Maleiner, Babette A1 - Redl, Heinz A1 - Fuchs, Christiane T1 - The Importance of Biomechanical Cues for In Vitro Skeletal Myogenesis KW - In Vitro KW - Myogenesis Y1 - 2018 ER - TY - CHAP A1 - Fuchs, Christiane A1 - Weihs, Anna A1 - Szwarc, Dorota A1 - Mittermayr, Rainer A1 - Rünzler, Dominik A1 - Teuschl, Andreas T1 - Shock wave treatment of muscle (stem) cells - a new implementation for regeneration T2 - Proceedings of the 20th International Congress of the ISMST KW - Shockwave treatment KW - Muscle Cells KW - Regeneration Y1 - 2018 ER - TY - GEN A1 - Fuchs, Christiane A1 - Weihs, Anna A1 - Szwarc, Dorota A1 - Mittermayr, Rainer A1 - Rünzler, Dominik A1 - Teuschl, Andreas T1 - Shock wave treatment of muscle (stem) cells - a new implementation for regeneration KW - Shockwave treatment KW - Muscle Cells KW - Regeneration Y1 - 2018 ER - TY - GEN A1 - Teuschl, Andreas A1 - Weihs, Anna A1 - Fuchs, Christiane A1 - Monforte Vila, Xavier T1 - Silk as a versatile biomaterial for musculoskeletal tissue engineering KW - Silk KW - Biomaterials Y1 - 2018 ER - TY - GEN A1 - Szwarc, Dorota A1 - Fuchs, Christiane A1 - Weihs, Anna A1 - Rünzler, Dominik T1 - Molecular mechanisms underlying the potential of shock wave treatment for cardiac therapy KW - Shockwave treatment KW - Cardiac Y1 - 2018 ER - TY - GEN A1 - Szwarc, Dorota A1 - Fuchs, Christiane A1 - Purtscher, Michaela A1 - Rünzler, Dominik T1 - Elucidating the molecular mechanisms underlying cardiac shock wave therapy KW - Shockwave treatment KW - Cardiac Y1 - 2018 ER - TY - GEN A1 - Fuchs, Christiane T1 - The importance of mechanotransduction in myogenesis KW - Mechanotransduction KW - Myogenesis Y1 - 2018 ER - TY - JOUR A1 - Priglinger, Eleni A1 - Schuh, Christina A1 - Steffenhagen, Carolin A1 - Wurzer, Christoph A1 - Maier, Julia A1 - Nürnberger, Sylvia A1 - Holnthoner, Wolfgang A1 - Fuchs, Christiane A1 - Suessner, Susanne A1 - Rünzler, Dominik A1 - Redl, Heinz A1 - Wolbank, Susanne T1 - Improvement of adipose tissue-derived cells by low-energy extracorporeal shock wave therapy. JF - Cytotherapy N2 - BACKGROUND: Cell-based therapies with autologous adipose tissue-derived cells have shown great potential in several clinical studies in the last decades. The majority of these studies have been using the stromal vascular fraction (SVF), a heterogeneous mixture of fibroblasts, lymphocytes, monocytes/macrophages, endothelial cells, endothelial progenitor cells, pericytes and adipose-derived stromal/stem cells (ASC) among others. Although possible clinical applications of autologous adipose tissue-derived cells are manifold, they are limited by insufficient uniformity in cell identity and regenerative potency. METHODS: In our experimental set-up, low-energy extracorporeal shock wave therapy (ESWT) was performed on freshly obtained human adipose tissue and isolated adipose tissue SVF cells aiming to equalize and enhance stem cell properties and functionality. RESULTS: After ESWT on adipose tissue we could achieve higher cellular adenosine triphosphate (ATP) levels compared with ESWT on the isolated SVF as well as the control. ESWT on adipose tissue resulted in a significantly higher expression of single mesenchymal and vascular marker compared with untreated control. Analysis of SVF protein secretome revealed a significant enhancement in insulin-like growth factor (IGF)-1 and placental growth factor (PLGF) after ESWT on adipose tissue. DISCUSSION: Summarizing we could show that ESWT on adipose tissue enhanced the cellular ATP content and modified the expression of single mesenchymal and vascular marker, and thus potentially provides a more regenerative cell population. Because the effectiveness of autologous cell therapy is dependent on the therapeutic potency of the patient's cells, this technology might raise the number of patients eligible for autologous cell transplantation. KW - Shockwave Therapy KW - Tissue Regeneration KW - Regenerative Medicine Y1 - SP - 1079 EP - 1095 ER -