PhD Student
Miriam Al Enezy-Ulbrich, M.Sc.
Research interest
Miriam Al Enezy-Ulbrich's research deals with the synthesis of biobased hybrid-hydrogels, consisting of the biological component fibrin and synthetic functional polymers, which will be used as coatings for cardio-vascular implants. The focus is on the influence of the chemical structure (fibrin:polymer ratio), network topology (permanent vs. supramolecular crosslinks) and morphology of hydrogels on their mechanical behavior and degradation profile.
Miriam Al Enezy-Ulbrich is part of the RG Pich.
Projects
Publications
Titel/Autoren | DOI-LINK | Magazine | Jahre | |
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Enhancing Adhesion of Fibrin-Based Hydrogel to Polythioether Polymer Surfaces
M. A. Al Enezy-Ulbrich, K. Kreuels, M. Simonis, I. Milvydaitė, A. T. Reineke, C. Schemmer, A. Gillner and A. Pich
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https://doi.org/10.1021/acsami.4c00620 | ACS Applied Materials & Interfaces | 2024 | |
Fibrin Hydrogels Reinforced by Reactive Microgels for Stimulus-Triggered Drug Administration
M. A. Al Enezy-Ulbrich, T. Belthle, H. Malyaran, V. Kučikas, H. Küttner, R. D. de Lange, M. van Zandvoort, S. Neuss and A. Pich
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https://doi.org/10.1002/smll.202309912 | Small | 2024 | |
Fibrin-Based Hydrogels with Reactive Amphiphilic Copolymers for Mechanical Adjustments Allow for Capillary Formation in 2d and 3d Environments
S. Wein, C. Schemmer, M. A. Al Enezy-Ulbrich, S. A. Jung, S. Rütten, M. Kühnel, D. Jonigk, W. Jahnen-Dechent, A. Pich and S. Neuss
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https://doi.org/10.3390/gels10030182 | Gels | 2024 | |
Impact of Fibrin Gel Architecture on Hepatocyte Growth Factor Release and Its Role in Modulating Cell Behavior for Tissue Regeneration
S. Wein, S. A. Jung, M. A. Al Enezy-Ulbrich, L. Reicher, S. Rütten, M. Kühnel, D. Jonigk, W. Jahnen-Dechent, A. Pich and S. Neuss
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https://doi.org/10.3390/gels10060402 | Gels | 2024 | |
Assessment of Fibrin-Based Hydrogels Containing a Fibrin-Binding Peptide to Tune Mechanical Properties and Cell Responses
J. Brinkmann, H. Malyaran, M. A. A. Enezy-Ulbrich, S. Jung, C. Radermacher, E. M. Buhl, A. Pich and S. Neuss
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https://doi.org/10.1002/mame.202200678 | Macromolecular Materials and Engineering | 2023 | |
From In Vitro to Perioperative Vascular Tissue Engineering: Shortening Production Time by Traceable Textile-Reinforcement
S. R. Mohapatra, E. Rama, C. Melcher, T. Call, M. A. Al Enezy-Ulbrich, A. Pich, C. Apel, F. Kiessling and S. Jockenhoevel
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https://doi.org/10.1007/s13770-022-00482-0 | Tissue Engineering and Regenerative Medicine | 2022 | |
Synthesis of Acrylic Acid and Acrylic Esters Via Oxidation and Oxidative Alkoxylation of Acrolein under Mild Conditions with Selenium-Modified Microgel Catalysts
T. Kharandiuk, K. H. Tan, I. Kubitska, M. A. Al Enezy-Ulbrich, V. Ivasiv, R. Nebesnyi, I. I. Potemkin and A. Pich
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https://doi.org/10.1039/D2RE00252C | Reaction Chemistry & Engineering | 2022 | |
Impact of Reactive Amphiphilic Copolymers on Mechanical Properties and Cell Responses of Fibrin-Based Hydrogels
M. A. Al Enezy‐Ulbrich, H. Malyaran, R. D. de Lange, N. Labude, R. Plum, S. Rütten, N.Terefenko, S. Wein, S. Neuss and A. Pich
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https://doi.org/10.1002/adfm.202003528 | Advanced Functional Materials | 2020 |