Marc A Brockmann
In vitro testing of a funnel-tip catheter with different clot types to decrease clot migration in mechanical thrombectomy.
Payne E, Krost-Reuhl S, Heimann A, Keric N, Masomi-Bornwasser J, Gerber T, Seidman L, Kirschner S, Brockmann M, Tanyildizi Y. In vitro testing of a funnel-tip catheter with different clot types to decrease clot migration in mechanical thrombectomy. Interv Neuroradiol 2022; 29:637-647.
01.09.2022In vitro testing of a funnel-tip catheter with different clot types to decrease clot migration in mechanical thrombectomy.
01.09.2022Interv Neuroradiol 2022; 29:637-647
Payne Emily, Krost-Reuhl Samantha, Heimann Axel, Keric Naureen, Masomi-Bornwasser Julia, Gerber Tiemo, Seidman Larissa, Kirschner Stefanie, Brockmann Marc A, Tanyildizi Yasemin
In vitro testing of a funnel-shaped tip catheter model to decrease clot migration during mechanical thrombectomy.
Tanyildizi Y, Payne E, Gerber T, Seidman L, Heimann A, Kempski O, Leithner D, Garcia-Bardon A, Kloeckner R, Hahn F, Keric N, Masomi-Bornwasser J, Brockmann M, Kirschner S. In vitro testing of a funnel-shaped tip catheter model to decrease clot migration during mechanical thrombectomy. Sci Rep 2020; 10:633.
20.01.2020In vitro testing of a funnel-shaped tip catheter model to decrease clot migration during mechanical thrombectomy.
20.01.2020Sci Rep 2020; 10:633
Tanyildizi Yasemin, Payne Emily, Gerber Tiemo, Seidman Larissa, Heimann Axel, Kempski Oliver, Leithner Doris, Garcia-Bardon Andreas, Kloeckner Roman, Hahn Felix, Keric Naureen, Masomi-Bornwasser Julia, Brockmann Marc A, Kirschner Stefanie
MicroRNA-regulated pathways of flow-stimulated angiogenesis and vascular remodeling in vivo.
Henn D, Abu-Halima M, Wermke D, Falkner F, Thomas B, Köpple C, Ludwig N, Schulte M, Brockmann M, Kim Y, Sacks J, Kneser U, Keller A, Meese E, Schmidt V. MicroRNA-regulated pathways of flow-stimulated angiogenesis and vascular remodeling in vivo. J Transl Med 2019; 17:22.
11.01.2019MicroRNA-regulated pathways of flow-stimulated angiogenesis and vascular remodeling in vivo.
11.01.2019J Transl Med 2019; 17:22
Henn Dominic, Abu-Halima Masood, Wermke Dominik, Falkner Florian, Thomas Benjamin, Köpple Christoph, Ludwig Nicole, Schulte Matthias, Brockmann Marc A, Kim Yoo-Jin, Sacks Justin M, Kneser Ulrich, Keller Andreas, Meese Eckart, Schmidt Volker
Axially vascularized tissue-engineered bone constructs retain their in vivo angiogenic and osteogenic capacity after high-dose irradiation.
Eweida A, Frisch O, Giordano F, Fleckenstein J, Wenz F, Brockmann M, Schulte M, Schmidt V, Kneser U, Harhaus L. Axially vascularized tissue-engineered bone constructs retain their in vivo angiogenic and osteogenic capacity after high-dose irradiation. J Tissue Eng Regen Med 2017; 12:e657-e668.
22.03.2017Axially vascularized tissue-engineered bone constructs retain their in vivo angiogenic and osteogenic capacity after high-dose irradiation.
22.03.2017J Tissue Eng Regen Med 2017; 12:e657-e668
Eweida Ahmad, Frisch Oliver, Giordano Frank A, Fleckenstein Jens, Wenz Frederik, Brockmann Marc A, Schulte Matthias, Schmidt Volker, Kneser Ulrich, Harhaus Leila