​

• Inbar Eshkol-Yogev, Tal Tobias, Aviad Keren, Amos Gilhar, Efrat Gilboa, Ariel Furer, Yehuda Ullmann, and Meital Zilberman, " Dual Composite Bioadhesives for Wound Closure Applications: An in vitro and in vivo Study", Polymers for Advanced Technologies (special issue), published online since April 2022.
   

• Yuanqing Lin, Zixuan Wu, Chunwei Li, Qiongling Ding, Kai Tao, Kankan Zhai, Meiwan Chen, Meital Zilberman, Xi Xie and Jin Wu, "Deformable, Transparent, High-performance, Room-Temperature Oxygen Sensors Based on Ion-Conductive, Environment-Tolerant and Green Organohydrogels", EcoMat – Functional materials for Green Energy and Environment, published online since April 2022.
   

• Merav Zussman, Shir Giladi and Meital Zilberman, “In-Vitro Characterization of Injectable Chlorhexidine-Eluting Gelatin Hydrogels for Local Treatment of Periodontal Infections", Polymers for Advanced Technologies (special issue), published online since April 2022.
   

• Merav Zussman and Meital Zilberman, "Injectable Metronidazole-Eluting Gelatin-Alginate Hydrogels for Local Treatment of Periodontitis", Journal of Biomaterials Applications, published online since March 2022.
   

• Yuning Liang, Zixuan Wu, Yaoming Wei, Qiongling Ding, Meital Zilberman, Kai Tao, Xi Xie, and Jin Wu, ”Self‑Healing, Self‑Adhesive and Stable Organohydrogel‑Based Stretchable Oxygen Sensor with High Performance at Room Temperature", Nano-Micro Letters (2022). Published online since January 2022.
   

• Inbar Eshkol‑Yogev, Anat Kaufman, Marwan Haddad, and Meital Zilberman, "Cell viability of novel composite hydrogels loaded with hydroxyapatite for oral and maxillofacial bone regeneration", Odontology, published online since October 2021.
   

• Daniella Goder, Inbar Eshkol-Yogev, Lior Matsliah, Moran Lemberger, Mickey Harlev, Ariel Furer, Meital Zilberman, and Dana Egozi, "In vivo study of the efficacy of bupivacaine-eluting novel soy protein wound dressings in a rat burn model", Burns 2021, published online since July 2021.
   

• "Internal mechanics of the wrist in the sagittal versus dart throwing motion plane in adult and elder models: finite element analyses", Applied Sciences, Mechanical Engineering section, 11, 5275-5286 (2021).
   

• Inbar Eshkol-Yogev, Efrat Gilboa, Shir Giladi and Meital Zilberman, "Formulation - properties effects of novel dual composite hydrogels for use as medical sealants", European Polymer Journal, 152 (2021). Published online (April 2021).
   

• Daniella Goder, Shir Giladi, Ariel Furer and Meital Zilberman, "Bupivacaine-eluting soy protein structures for controlled release and localized pain relief: An in vitro and in vivo study", Journal of Biomedical Materials Research – part A, 109(9), 1681-1692 (2021). Published online (March 2021).
   

• Viki Raz Lepsky, Viki Raz Lepsky, Sari Natan, Oren Tchaicheeyan, Meital Zilberman and Ayelet Lesman, "FITC-Dextran Release from Cell-Embedded Fibrin Hydrogels", Biomolecules, 11, 337- 350 (2021).
   

• Lior Matsliah, Daniella Goder, Shir Giladi and Meital Zilberman, "In Vitro Characterization of Novel Multidrug-Eluting Soy Protein Wound Dressings", Journal of Biomaterials Applications, 35(8), 978-993 (2021).
   

• Daniella Goder, Lior Matsliah, Shir Giladi, Liron Reshef-Steinberger, Idan Zin, Alon Shaul and Meital Zilberman, "Mechanical Physical and Biological Characterization of Soy Protein Films Loaded with Bupivacaine for Wound Healing Applications", International Journal of Polymeric Materials and Polymeric Biomaterials, 70(5), 345-355 (2021).
   

• Tiberiu Shulimzon, Shir Giladi and Meital Zilberman, "Catheter Injectable Hydrogel-Based Scaffolds for Tissue Engineering Applications in Lung Disease", Israel Medical Association Journal (IMAJ), 22, 736-740 (2020).
   

• Lia Ofek, Daniella Goder, and Meital Zilberman, “Formulation – Properties of Novel Ibuprofen-Loaded Soy Protein Wound Dressings “, Recent Progress in Materials (a special issue: “Applications and Development of Biomaterials in Medicine”, 1(4), 1-19 (2019).
   

• Maya Baranes-Zeevi, Danialla Goder and Meital Zilberman, " Novel Drug Eluting Soy Protein Structures for Wound Healing Applications", Polymers for Advanced Technologies, 30(10), 2523-2538 (2019).
   

• Dafna Knani, Maytal Foox and Meital Zilberman, "Simulation of the bioadhesive gelatin-alginate conjugate loaded with antibiotic drugs", Polymers for Advanced Technologies, 30(3), 519-528 (2019).
   

• Dana Gourevich, Lia Ofek, Yael Eichbaum, Lior Wertheim, Ruth Gotlieb , Maya Baranes-Zeevi, Hila Olami, David Elad and Meital Zilberman, " Fibroblasts adhesion to soy protein films for wound healing: An in vitro study", JSM Burns and Trauma, 2(4), 1029-1035 (2017).
   

• Pinkas, O., Haneman, O., Chemke, O., & Zilberman, M. “Fiber-Reinforced Composite Hydrogels for Bioadhesive and Sealant Applications”, Polymers for Advanced Technologies. 28(9), 1162-1169 (2017).
   

• Pinkas, O., Goder, D., Noyvirt, R., Peleg, S., Kahlon, M., & Zilberman, M. “Structuring of Composite Hydrogel Bioadhesives and Its Effect on Properties and Bonding Mechanism”, Acta Biomaterialia. 51, 125-137 (2017).
   

• Eytan Mazor and Meital Zilberman, "Effect of Gamma-irradiation Sterilization on the Physical and Mechanical Properties of a Hybrid Wound Dressing", Polymers for Advanced Technologies, 28(1), 41-52 (2017).
   

• Oded Pinkas and Meital Zilberman, “Novel Gelatin-Alginate Surgical Sealants Loaded with Hemostatic Agents”, International Journal of Polymeric Materials and Polymeric Biomaterials, 66(8), 378-387 (2017).
   

• Dafna Knani, Hilla Barkay-Olami, David Alperstein and Meital Zilberman, "Simulation of novel soy protein-based systems for tissue regeneration applications", Polymers for Advanced Technologies, 28(4), 496-505 (2017).
   

• Ayelet  Raz-Pasteur, Eytan Mazor, Israela Berdicevsky, Maoz Shemesh and Meital Zilberman, "Effect of Gamma-irradiation Sterilization on the Antibacterial Efficacy and the Properties of a New Hybrid Wound Dressing with Antibiotic Release", JSM Burns and Trauma, 1(1) 1001-1008 (2016).
   

• Foox M, Ben-Tzur M, Koifman N and Zilberman M, "Effect of Gamma Radiation on Novel Gelatin-Alginate Based Bioadhesives", International Journal of Polymeric Materials and Polymeric Biomaterials, 65 (12), 611-618 (2016).
   

• Hilla Barkay-Olami and Meital Zilberman, " Microstructure and In Vitro Cellular Response to Novel Soy Protein-Based Porous Structures for Tissue Regeneration Applications", Journal of Biomaterials Applications, 30(7), 1004-1015 (2016).
   

• Hilla Barkay-Olami and Meital Zilberman, "Novel Soy-Protein Based Porous Blend Structures for Biomedical Applications: Microstructure, Mechanical and Physical Properties", Journal of Biomedical Materials Research Part B: Applied Biomaterials, 104(6), 1109-1120 (2016).
   

• Maytal Foox, Aviad Keren, Oded Pinkas, Esti Cohen, Nyra Goldstein, Amos Gilhar, Meital Zilberman and Yehuda Ullmann, " In Vivo Efficacy of Novel Bioadhesives for Closure of Surgical Incisions: Evaluation in a Porcine Model", Advanced Biomaterials and Devices in Medicine, 2, 70-78 (2015).
   

• Meital Zilberman, Dana Egozi, Maoz Shemesh, Eytan Mazor, Maya Baranes, Aviad Keren,  and Yehuda Ullmann, "Novel Hybrid Dressings with Controlled Release of Antibiotics: Results in a Guinea Pig Burn Model", Acta Biomaterialia, 22, 155-163 (2015).
   

• Hilla Barkay-Olami, Israela Berdicevsky and Meital Zilberman, " Novel Soy Protein Blend Scaffolds Loaded with Antibiotics: Drug Release Profile - Bacterial Inhibition Effects", Advanced Biomaterials and Devices in Medicine, 2, 23-31 (2015).
   

• Dana Egozi, Maya Baranes-Zeevi, Yehuda Ullmann, Aviad Keren, Elias Matanes, Israela Berdicevsky, and Meital Zilberman, "Biodegradable Soy Wound Dressings  with Controlled Release of Antibiotics: Results in a Guinea Pig Burn Model", Burns, 41, 1459-1467 (2015).
   

• Eliav Shaked, Yoav Shani, Meital Zilberman and Mickey Scheinowitz, "Poly(methyl Methacrylate) Particles for Local Drug Activation using Shock Wave Lithotripsy", Journal of Biomedical Materials Research Part B: Applied Biomaterials, 103(6), 1228-1237, 2015.
   

• Maytal Foox, Ayelet Raz-Pasteur, Israela Berdicevsky, Norberto Krivoy and Meital Zilberman, "In vitro Microbial Inhibition, Bonding Strength and Cellular Response to Novel Gelatin-Alginate Antibiotic-Releasing Soft Tissue Adhesives", Polymers for Advanced Technologies, 25, 516-524, 2014.
   

• Adaya Shefy-Peleg, Maytal Foox, Benny Cohen and Meital Zilberman, "Antibiotic Eluting Gelatin-Alginate Novel Soft Tissue Adhesives", International Journal of Polymeric Materials and Polymeric Biomaterials, 63, 699-707, 2014.
   

• Dan Benjamini, Jonathan Elsner, Meital Zilberman and Uri Nevo, " Pore size distribution of bioresorbable films using a 3-D diffusion NMR method ", Acta Biomaterialia, 10(6), 2762-2768, 2014.
   

• Oded Pinkas and Meital Zilberman, "Gelatin-Alginate Novel Tissue Adhesives Loaded with Hemostatic agents", Journal of Biomaterials Science – Polymer edition, 25(6), 555-573, 2014.
   

• Maoz Shemesh and Meital Zilberman, "Structure-Property Effects of Novel Bioresorbbale Hybrid Structures with Controlled Release of Bioactive Agents for Wound healing Applications", Acta Biomaterialia, 10, 1380-1391 (2014).
   

• Maoz Shemesh and Meital Zilberman, "Controlled Release of Anesthetic Drugs from Porous Structures for Various Biomedical Applications", Journal of Biomaterials Science – Polymer edition, 25(4), 410-430 (2014).
   

• Benny Cohen, Adaya Shefy-Peleg and Meital Zilberman, "Novel Gelatin-Alginate Soft Tissue Adhesives Loaded with Drugs for Pain Management: Structure and Properties", Journal of Biomaterials Science – Polymer edition, 25(3), 224-240 (2014).
   

• Benny Cohen, Maoz Panker, Eyal Zuckerman, Maytal Foox and Meital Zilberman, "Effect of Bioactive Fillers on the Structure and Bonding Strength of Novel Gelatin-Alginate Bioadhesives", Journal of Biomaterials Applications, 28(9), 1366-1375, 2014.
   

• Haniel Gabai, Maya Baranes-Zeevi, Meital Zilberman and Natan T. Shaked, "Continuous Wide-Field Characterization of Drug-Release from Skin Equivalent Using Off-Axis Interferometry", Optics Letters, 38(16), 3017-3020, 2013.
   

• Benny Cohen, Oded Pinkas, Maytal Foox and Meital Zilberman, "Gelatin-Alginate Novel Tissue Adhesives and their Formulation-Strength Effects", Acta Biomaterialia, 9, 9004-9011 (2013).
   

• Elinor Josef, Karnit Barat, Iris Barsht, Meital Zilberman and Havazelet Bianco-Peled, "Composite Hydrogels as a Vehicle for Drugs with a Wide Range of Hydrophobicities", Acta Biomaterialia, 9, 8815-8822 (2013).
   

• Amir Kraitzer, David Alperstein and Meital Zilberman, "Release Mechanisms of Antiproliferative Drugs from Highly Porous Bioresorbable Structures", Journal of Biomedical Materials Research – part A, 101 (5), 1302-1310, 2013.
   

• Zachi Peles, Itzhak Binderman, Israela Berdicevsky and Meital Zilberman, " Soy Protein Films for Wound Healing Applications: Antibiotic Release, Bacterial Inhibition and Cellular Response", Journal of Tissue Engineering and Regenerative Medicine, 7(5), 401-412, 2013.
   

• Zachi Peles and Meital Zilberman, "Novel Soy Protein Wound Dressings with Controlled Antibiotic Release: Mechanical and Physical Properties", Acta Biomaterialia, 8, 209-217 (2011).
   

• Jonathan J. Elsner, Yehuda Ullmann, Dana Egozi, Israela Berdicevsky, Adaya Shefy-Peleg and Meital Zilberman, "Novel Biodegradable Composite Wound Dressings with Controlled Release of Antibiotics: Results in a Guinea Pig Burn Model", Burns, 37(5), 896-904 (2011).
   

• Jonathan J. Elsner, Israela Berdicevsky and Meital Zilberman, "In-vitro Microbial Inhibition and Cellular Response to Novel Biodegradable Composite Wound Dressings with Controlled Release of Antibiotics", Acta Biomaterialia, 7(1), 325-336 (2011).
   

• Amir Kraitzer, Yoel Kloog, Roni Haklai and Meital Zilberman, "Composite Fiber Structures with Antiproliferative Agents Exhibit Advantageous Drug Delivery and Cell Growth Inhibition in-vitro", Journal of Pharmaceutical Sciences, 100, 133-149 (2011).
   

• E. Josef, M. Zilberman and H. Bianco-Peled, "Nanoparticles embedded in Alginate Hydrogels: An Innovative Approach for Sustained Release of Hydrophobic Drugs", European Cells and Materials Journal 20(3), P.127 (2010).
   

• Elinor Josef, Meital Zilberman and Havazelet Bianco-Peled, "Composite alginate hydrogels: An innovative approach for the controlled release of hydrophobic drugs", Acta Biomaterialia, 6(12), 4642-4649 (2010).
   

• Jonathan J. Elsner, Adaya Shefy-Peleg and Meital Zilberman, "Novel Biodegradable Composite Wound Dressings with Controlled Release of Antibiotics: Microstructure, Mechanical and Physical Properties", Journal of Biomedical Materials Research Part B: Applied Biomaterials, 93(2), 425-435 (2010).
   

• Jonathan J. Elsner and Meital Zilberman, "Novel Antibiotic-Eluting Wound Dressings: An In-Vitro Study and Engineering Aspects in the Dressing's Design", Journal of Tissue Viability, 19(2), 54-66 (2010).
   

• Orly Grinberg, Itzhak Binderman, Hila Bahar and Meital Zilberman, "Highly Porous Bioresorbable Scaffolds with Controlled Release of Bioactive Agents for Tissue Regeneration Applications", Acta Biomaterialia, 6, 1278-1287 (2010).
   

• Adi Rachelson and Meital Zilberman, "Highly Porous Nano and Micro-Structured Films Loaded with Bioactive Agents for Biomedical Applications: Structure – Release Profile Effects", Advanced Engineering Materials (Advanced Biomaterials), 11(8), B122-128 (2009).
   

• Jonathan J. Elsner and Meital Zilberman, ”Antibiotic-Eluting Bioresorbable Composite Fibers for Wound Healing Applications: Microstructure, Drug Delivery and Mechanical Properties", Acta Biomaterialia, 5, 2872-2883 (2009).
   

• Amir Kraitzer, Yoel Kloog  and Meital Zilberman, "Novel Farnesylthiosalicylate (FTS) – Eluting Composite Structures", European Journal of Pharmaceutical Sciences, 37, 351-362 (2009).
   

• Meital Zilberman, Esty Golerkansky, Jonathan Elsner and Israela Berdicevsky, "Gentamicin-Eluting Bioresorbable Composite Fibers for Wound healing Applications", Journal of Biomedical Materials Research – part A, 89(3), 654-666 (2009).
   

• Yael Shifrovitch, Itzhak Binderman, Hila Bahar, Israela Berdicevsky and Meital Zilberman, "Metronidazole-Loaded Bioresorbable Films as Local Anti-Bacterial Treatment  of Periodontal Pockets", Journal of Periodontology, 80(2), 330-337 (2009).
   

• Meital Zilberman, Yael Shifrovitch, Moran Aviv and Michal Hershkovitz, "Structured Drug-Eluting Bioresorbable Films: Microstructure and Release Profile", Journal of Biomaterials Applications, 23(5), 385-406 (2009).
   

• Meital Zilberman and Alon Malka, "Drug Controlled Release from Structured Bioresorbable Films Used in Medical Devices – A Mathematical Model", Journal of Biomedical Materials Research Part B: Applied Biomaterials, 89(1), 155-164 (2008).
   

• Amir Kraitzer, Lia Ofek, Reut Schreiber and Meital Zilberman, "Long-Term In-Vitro Study of Paclitaxel Eluting Bioresorbable Core/Shell Fiber Structures", Journal of Controlled Release, 126, 139-148 (2008).
   

• Meital Zilberman and Orly Grinberg, "HRP-Loaded Bioresorbable Microspheres: Effect of Copolymer Composition and Molecular Weight on Microstructure and Release Profile", Journal of Biomaterials Applications, 22(5), 391-407 (2008).
   

• Meital Zilberman and Amir Kraitzer, Paclitaxel-Loaded Composite Fibers: Drug Release and Mechanical Properties, Journal of Biomedical Materials Research – part A, 84(2), 313-323 (2008).
   

• Moran Aviv, Israela Berdicevsky and Meital Zilberman, "Gentamicin-Loaded Bioresorbable Films for Prevention of Bacterial Infections Associated with Orthopedic Implants", Journal of Biomedical Materials Research – part A, 83(1), 10-19 (2007).
   

• Amir Kraitzer and Meital Zilberman, "Paclitaxel-Loaded Composite Fibers: Microstructure and Emulsion Stability", Journal of Biomedical Materials Research – part A, 81(2), 427-436 (2007).
   

• Meital Zilberman, Alon Navon, Hana Sandovski-Losica and Esther Segal, "Biomedical Coatings Based on Chitin Soluble Extract for Inhibition of Fungal Adhesion to Polymeric Surfaces", Journal of Biomedical Materials Research – part A, 81(2), 392-398 (2007).
   

• Meital Zilberman and Moran Sofer, "Mathematical Modeling of Drug Release from Novel Bioresorbabale Composite Core/Shell Fiber Structures for Tissue Regeneration Applications", Journal of Biomedical Materials Research – part A, 80(3), 679-686 (2007).
   

• Meital Zilberman, "Novel Composite Fiber Structures to Provide Drug/Protein Delivery for Medical Implants and Tissue Regeneration", Acta Biomaterialia, 3(1), 51-57 (2007).
   

• Yair Levy and Meital Zilberman, "Novel Bioresorbable Fiber Structures Loaded with Proteins for Tissue Regeneration Applications: Microstructure and Protein Release", Journal of Biomedical Materials Research - part A, 79A, 779-787 (2006).
   

• Meital Zilberman and Inbal Shraga, "Microsphere-Based Bioresorbable Structures Loaded with Proteins for Tissue Regeneration Applications", Journal of Biomedical Materials Research – part A, 79A, 370-379 (2006).
   

• Shur, M. Zilberman, S. Einav and D. Benayahu, "Molecular and Cellular Characterization of Mesenchymal Progenitors for Skeletal Biomedical Devices", Journal of Biomedical Materials Research Part A, 77A, 832-838 (2006).
   

• Meital Zilberman, "Dexamethasone Loaded Bioresorbable Films Used in Medical Support Devices: Structure, Degradation, Crystallinity and Drug Release", Acta Biomaterialia, 1(6), 615-625 (2005).
   

• Meital Zilberman, Kevin D. Nelson and Robert Eberhart, "Mechanical Properties and In-Vitro Degradation of Bioresorbable Fibers and Expandable Fiber-Based Stents", Journal of Biomedical Materials Research Part B: Applied Biomaterials, 74B, 792-799, (2005).
   

• Shur, M. Zilberman, D. Benayahu and S. Einav, "Adhesion Molecule Expression by Osteogenic Cells Cultured on various Biodegrdable Scaffolds", Journal of Biomedical Materials Research, 75A, 870-876 (2005).
   

• Meital Zilberman, Nathan D. Schwade and Robert C. Eberhart, “Protein –Loaded Bioresorbable Fibers and Expandable Stents: Mechanical Properties and Protein Release”, Journal of Biomedical Materials Research Part B: Applied Biomaterials, 69B, 1-10, (2004).
   

• M. Zilberman, R. Eberhart and N. Schwade, “In Vitro Study of Drug Loaded Bioresorbable Films and Support Structures”, Journal of Biomaterials Science – Polymer Edition, 13, 1221-1240 (2002).
   

• M. Zilberman, N. Schwade, R. Meidell and R. Eberhart, “Structured Drug Loaded Bioresorbable Films for Support Structures”, Journal of Biomaterials Science – Polymer Edition, 12, 875-892 (2001).
   

• M. Narkis, Y. Haba, E. Segal, M. Zilberman, G.I. Titelman and A. Siegmann, “Structured Electrically Conductive Polyaniline/Polymer Blends”, Polymers for Advanced Technologies, 11, 665-673 (2000).
   

• M. Zilberman, A. Siegmann and M. Narkis, “Melt Processed Electrically Conductive Ternary Polymer Blends Conatining Polyaniline”, Journal of Macromolecular Science – Physics, B39, 333-348 (2000).
   

• M. Zilberman, A. Siegmann and M. Narkis, “Electrically Conductive Extruded Filaments of Polyaniline/Polymer Blends”, Journal of Polymer Engineering, 20, 97-109 (2000).
   

• M. Zilberman, A. Siegmann and M. Narkis, “Conductivity and Structure of Melt-Processed Polyaniline Binary and Ternary Blends”, Polymers for Advanced Technologies, 11, 20-26, (2000).
   

• D. Alperstein, M. Narkis, M. Zilberman and A. Siegmann, “Computer Aided Selection of a Polymer Matrix for Polyaniline Conductive Blends”, Polymers for Advanced Technologies, 9, 563-568 (1998).
   

• M. Zilberman, A. Siegmann and M. Narkis, “Melt Processed Electrically Conductive Polymer / Polyaniline Blends”, Journal of Macromolecular Science – Physics, B37, 301-318 (1998).
   

• G.I. Titelman, M. Zilberman, A. Siegmann, Y. Haba and M. Narkis, “Thermal Dynamic Processing of Polyaniline with Dodecylbenzene Sulfonic Acid”, Journal of Applied Polymer Science, 66, 2199-2209 (1997).
   

• M. Zilberman, G.I. Titelman, A. Siegmann, Y. Haba, M. Narkis and D. Alperstein, “Conductive Blends of Thermally Dodecylbenzene Sulfonic Acid-Doped Polyaniline with Thermoplastic Polymers”, Journal of Applied Polymer Science, 66, 243-253 (1997).
   

• M. Narkis, M. Zilberman and A. Siegmann, “On the “Curiousity” of Electrically Conductive Melt Mixed Doped-Polyaniline / Polymer Blends Versus Carbon-Black / Polymer Compounds”, Polymers for Advanced Technologies, 8, 525-528 (1997).
   

• M. Zilberman, A. Siegmann and M. Narkis, “Structure and Properties of 6/6.9 Copolyamide Series. II. The Crystalline Phase”, Journal of Macromolecular Science – Physics, B35, 1-21 (1996).
   

• M. Zilberman, A. Siegmann and M. Narkis, “Structure and Properties of 6/6.9 Copolyamide Series. I. The Amorphous Phase”, Journal of Applied Polymer Science, 59, 581-587 (1996).
   

• M. Zilberman, A. Siegmann and M. Narkis, “The Glass Transition Temperature of 6/6.9 Random Copolyamides”, Polymer, 36, 5065-5067 (1995).