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Biodegradable Polyurethane Foams with Facile Gelatin Modification for Traumatic Wound Hemostasis And Regeneration

N.M. Petryk, M.B.B. Monroe. Journal of Biomedical Materials Research, Part A. 113(10), e37982 (2025).

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Rapid Synthesis of Degradable Ester/Thioether Monomers and Their Incorporation Into Thermoset Polyurethane Foams for Traumatic Wound Healing

N.M. Petryk, L. Saldanha, S.T. Sutherland, M.B.B. Monroe. Acta Biomaterialia. 195, 266-282 (2025).

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In Vitro and In Vivo Degradation Correlations for Polyurethane Foams with Tunable Degradation Rates

Vakil, N.M. Petryk, C. Du, B. Howes, D. Stinfort, S. Serinelli, L. Gitto, M. Ramezani, H.T. Beaman, M.B.B. Monroe. Journal of Biomedical Materials Research, Part A, 111 (5) 580-595(2023).

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Shape Memory Polymer Hydrogels with Cell-Responsive Degradation Mechanisms for Crohn’s Fistula Closure

H.T. Beaman, B. Howes, P.S. Ganesh, M.B.B. Monroe. Journal of Biomedical Materials Research, Part A, 1-12 (2022).
• Featured in Society for Biomaterials 2022 Awards Issue

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Biostable Segmented Thermoplastic Polyurethane Shape Memory Polymers for Smart Biomedical Applications

M. Ramezani and M.B.B. Monroe. ACS Applied Polymer Materials, 4 (3) 1956–1965 (2022).

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Biostable Shape Memory Polymer Foams for Smart Biomaterial Applications

A.U. Vakil, N.M. Petryk, E. Shepherd, M.B.B. Monroe. Polymers, 13 (23) 4084 (2021).

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Shape Memory Polymer Foams with Tunable Degradation Profiles

A.U. Vakil, N.M. Petryk, E. Shepherd, H.T. Beaman, P.S. Ganesh, M.B.B. Monroe. ACS Applied Bio Materials, 4, 9, 6769–6779 (2021).

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Influence of Aging, Sterilization, and Composition on the Degradation of Polyurethane Foams

S. Briggs, M.B.B. Monroe, M. Weizbicki, S.M. Hasan, D.J. Maitland.  Recent Progress in Materials, 3 (2), 1-1 (2021).

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In Vitro Cytocompatibility Testing of Oxidative Degradation Products

S.M. Herting, M.B.B. Monroe, A.C. Weems, S.T. Briggs, G.K. Fletcher, S.E. Blair, C.J. Hatch, D.J. Maitland. Journal of Bioactive and Compatible Polymers, 36 (3), 197-211 (2021).

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Shape Memory Polymer Foams Synthesized Using Glycerol and Hexanetriol for Enhanced Degradation Resistance

S.M. Hasan, G.K. Fletcher, M.B.B. Monroe, M.A. Wierzbicki, L.D. Nash, D.J. Maitland.  Polymers, 12 (10), 2290 (2020).

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Biodegradable Shape Memory Polymer Foams with Appropriate Thermal Properties for Hemostatic Applications

L.K. Jang, G.K. Fletcher, M.B.B. Monroe, D.J. Maitland. Journal of Biomedical Materials Research, Part A, 1-14 (2020).

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Determination of the In Vivo Degradation Mechanism of PEGDA Hydrogels

M.B. Browning, S.N. Cereceres, P.T. Luong, E.M. Cosgriff-Hernandez. Journal of Biomedical Materials Research, Part A, 102 (12), 4244-4251 (2014).

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Development of a Biostable Replacement for PEGDA Hydrogels

M.B. Browning, E. Cosgriff-Hernandez.  Biomacromolecules, 13 (3), 779-786 (2012).

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