Publications and Patents

Kocsis, Á.; Pasztorek, M.; Rossmanith, E.; Djinovic, Z.; Mayr, T.; Spitz, S.; Zirath, H.; Ertl, P.; Fischer, M.B. (2021). Dependence of mitochondrial function on the filamentous actin cytoskeleton in cultured mesenchymal stem cells treated with cytochalasin B. J Biosci Bioeng, 132(3): 310-320

Hohensinner, P.J.; Lenz, M.; Haider, P.; Mayer, J.; Richter, M.; Kaun, C.; Goederle, L.; Brekalo, M.; Salzmann, M.; Sharma, S.; Fischer, M.B.; Stojkovic, S.; Ramsmayer, D.; Hengstenberg, C.; Podesser, B.K.; Huber, K.; Binder, C.J.; Wojta, J.; Speidl, WS. (2021). Pharmacological inhibition of fatty acid oxidation reduces atherosclerosis progression by suppression of macrophage NLRP3 inflammasome activation. Biochem Pharmacol, 190: 114634

Bergmann, M.; Heidbreder, A.; Stefani, A.; Raccagni, C.; Brandauer, E.; Rudzki, D.; Fischer, M.B.; Rossmanith, E.; Pasztorek, M.; Löscher, W.N.; Högl, B.; Wanschitz, J.V. (2021). Signs of sympathetic and endothelial cell activation in the skin of patients with restless legs syndrome. Sleep Med, 84: 227-236

Hohensinner, P.J.; Mayer, J.; Kichbacher, J.; Kral-Pointner, J.; Thaler. B.; Kaun, C.; Hell, L.; Haider, P.; Mussbacher, M.; Schmid, J.A.; Stojkovic, S.; Demyanets. S.; Fischer, M.B.; Huber, K.; Wöran, K.; Hengstenberg, C.; Speidl, W.S.; Oehler, R.; Pabinger, I.; Wojta, J. (2021). Alternative activation of human macrophages enhances tissue factor expression and production of extracellular vesicles. Haematologica, 106(2): 454-463

Pasztorek, M.; Mrazova, D.; Rossmanith, E.; Walzer, S.; Rauscher, S.; Groeger, M.; Weber, V.; Rychtarikova-Stysova, R.; Stys, D.; and Fischer, M.B. (2021). Stress fiber formation, mitochondrial morphology and membrane properties of human mesenchymal stem cells cultured in plastic adherence or in spherical aggregates. J Regen Med, 10: 1

Rüger B.M.; Buchacher, T.; Dauber, E.M.; Pasztorek, M.; Uhrin, P.; Fischer, M.B.; Breuss, J.M.; Leitner, G.C. (2020). De novo vessel formation through cross-talk of blood-derived cells and mesenchymal stromal cells in the absence of pre-existing vascular structures. Front Bioeng Biotechnol, 8: 602210

Haider, P.; Kral-Pointner, J.B.; Mayer, J.; Richter, M.; Kaun, C.; Brostjan, C.; Eilenberg, W.; Fischer, M.B.; Speidl, W.S.; Hengstenberg, C.; Huber, K.; Wojta, J.; Hohensinner, P. (2020). Neutrophil extracellular trap degradation by differently polarized macrophage subsets. Arterioscler Thromb Vasc Biol, 40(9): 2265-2278

Hashemzadeh, H.; Allahverdi, A.; Sedghi, M.; Vaezi, Z.; Tohidi Moghadam, T.; Rothbauer, M.; Fischer, M.B.; Ertl, P.; Naderi-Manesh, H. (2020). PDMS nano-modified scaffolds for improvement of stem cells proliferation and differentiation in microfluidic platform. Nanomaterials, 10: 668

Dorfer, S.; Strasser, K.; Schröckenfuchs, G.; Bonelli, M.; Bauer, W.; Kittler, H.; Cataisson, C.; Fischer, M.B.; Lichtenberger, B.M.; Handisurya, A. (2020). Mus musculus papillomavirus 1 is a key driver of skin cancer development upon immunosuppression. Am J Transplant, 21(2): 525-539

Hashemzadeh, H.; Allahverdi, A.; Ghorbani, M.; Soleymani, H.; Kocsis, Á.; Fischer; M.B.; Ertl, P.; Naderi-Manesh; H. (2019). Gold nanowires/fibrin nanostructure as microfluidics platforms for enhancing stem cell differentiation: Bio-AFM Study. Micromachines, 11(1): 50

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