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Hydrogel Biomaterials and Their Therapeutic Potential for Muscle Injuries and Muscular Dystrophies Lev, R., Seliktar, D. Journal of the Royal Society Interface, 2017, In Press.
- Injectable Silk Fibroin Hydrogels Functionalized with Microspheres as an Adult Stem Cell Carrier Systems Ciocci, M., Cacciotti, I., Seliktar, D., Melino, S. International Journal of Biological Macromolecules, 2017, In Press.
- Semi-Synthetic Hydrogel Composition, Micro-Patterning and Material Stiffness to Regulate Sciatic Nerve Regeneration Berkovitch, Y., Cohen, N., Peled, E. Schmidhammer, R., Florian, H., Teusch, A., Wolbank, S., Yelin, D., Redl, H., Seliktar, D. Journal of Tissue Engineering and Regenerative Medicine, 2017, In Press.
- Fibrogenic and Angeiogenic Commitments of hiPS-MSCs in CTGF-Delivering Scaffold in an Immune-deficient Mice Model Xu, R., Dagnaes-Hansen, F., Taskin, M.B., Wogensen, L., Axelsen, S.M., Seliktar, D., Besenbacher, F., Chen, M. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 2017, In Press.
- Hydrogel Modulus Affects Proliferation Rate of Human Mesenchymal Stem Cells Grown in Three-Dimensional Culture Goldshmid, R., Seliktar, D. ACS Biomaterials Science & Engineering, 2017, In Press.
- Combination of biochemical and mechanical cues for tendon tissue engineering Testa, S. Costantini, M., Fornetti, E., Bernardini, S., Trombetta, M., Seliktar, D., Cannata, S., Rainer, A., Gargioli, C. Journal of Cellular and Molecular Medicine, 2017, 21(11):2711-2719.
- Microfluidic-enhanced 3D bioprinting of aligned myoblast-laden hydrogels leads to functionally organized myofibers in vitro and in vivo Costantini, M., Testa, S., Mozetic, P., Barbetta, A., Fuoco, C., Fornetti, E., Tamiro, F., Bernardini, S., Jaroszewicz, J., Święszkowski, W., Trombetta, M., Castagnoli, L., Seliktar, D., Garstecki, P., Cesareni, G., Cannata, S., Rainer, A., Gargioli, C. Biomaterials, 2017, 131:98-110.
- Semi-Synthetic Hydrogel Composition and Stiffness Regulate Neuronal Morphogenesis Berkovitch, Y., Seliktar, D. International Journal of Pharmaceutics, 2017, 523(2):545-555.
- A three-dimensional spheroidal cancer model based on PEG-fibrinogen hydrogel microspheres Pradhana, S., Clary, J.M., Seliktar, D., Lipke E.A. Biomaterials, 2017, 115:141-154.
- Dual delivery of VEGF and ANG-1 in ischemic hearts using an injectable hydrogel Rufaihah, A.J., Johari, N.A., Vaibavi, S.R., Plotkin, M., Thien, D.T., Kofidis, T., Seliktar, D. Acta Biomaterialia, 2017, 48:58-67.
- Natural myocardial ECM patch drives cardiac progenitor based restoration even after scarring Sarig, U., Sarig, H., deBerardinis, E., Chaw, S.Y., Nguyen, E.B., Ramanujam, V. S., Thang, V.D., Al-Haddawi, M., Liao, S., Seliktar, D., Kofidis, T., Boey, F.Y., Venkatraman, S.S., Machluf, M. Acta Biomaterialia, 2016, 44:209-20
- Biocompatibility of PEGylated fibrinogen and its effect on healing of full-thickness skin defects: A preliminary study in rats Venzin, C., Jacot, V., Berdichevsky, A., Karol, A.A., Seliktar, D., von Rechenberg, B., Nuss, K.M.R. Journal of Biotechnology & Biomaterials, 2016, 6:233.
- Chemokine axes in breast cancer: factors of the tumor microenvironment reshape the CCR7-driven metastatic spread of luminal-A breast tumors Weitzenfeld, P., Kossover, O., Körner, C., Meshel, T., Wiemann, S., Seliktar, D., Legler, DF., Ben-Baruch, A. Journal of Leukocyte Biology, 2016, 99(6):1009-25.
- Design of a novel composite H2S-releasing hydrogel fro cardiac tissue repair Mauretti, A., Neri A., Kossover, O., Seliktar, D., Nardo, PD, Melino, S. Macromolecular Bioscience, 2016, 16(6):847-58.
- Formation of Mature 3D Engineered Cardiac Tissues Through Direct Encapsulation of Human Pluripotent Stem Cells Kerscher, P., Turnbull, I.C., Hodge, A.J., Kim, J., Seliktar, D., Easley, C.J., Costa, K.D., Lipke, E.A. Biomaterials, 2016, 83:383-95.
- Editorial overview: Pharmaceutical biotechnology: Expanding horizons for pharmaceutical biotechnology in industry and academia de la Cueva-Méndez G, Seliktar D. Current Opinions in Biotechnology, 2015, 35:IV-VI.
- PEG-Thiol based hydrogels with controllable properties Yom-Tov, O., Seliktar, D., Bianco-Peled, H. European Polymers Journal, 2016, 74, 1-12.
- Hydrogels for Cardiovascular Therapeutic Angiogenesis Rufaihah, A.J., and Seliktar, D. Advanced Drug Delivery Reviews, 2016, 96:31-9.
- Advanced Cellular Screening System for Nanoparticle Safety Testing Sambale, F., Stahl, F., Rüdinger, F., Seliktar, D., Kasper, C., Bahnemann, D.W., Scheper, T. Journal of Nanomaterials, 2015, Article ID 691069, 16 pages.
- Photo-patterning PEG-based Hydrogels for Neuronal Engineering Berkovitch, Y., Yelin, D., Seliktar, D. European Polymers Journal, 2015, 72, 473-483.
- Steric Inhibition of Adhesion and Invasion Supports In-Vitro Chondrogenesis of Mesenchymal Stem Cells on Hydrogels for Cartilage Repair Goldshmid, R., Cohen, S., Shachaf, Y., Kupershmit, I., Sarig-Nadir, O., Seliktar, D., Wechsler, R. Scientific Report, 2015, 5:12607.
- A Method for Preparation of Hydrogel Microcarriers for Stem Cell Expansion and Bioprocessing Goldshmid, R., Mironi-Harpaz, I., Seliktar, D. Methods, 2015, 84:35-43.
- A Modified Emulsion Gelation Technique to Improve Buoyancy of Hydrogel Tablets for Floating Drug Delivery Systems Yom-Tov, O., Seliktar, D., Bianco-Peled, H. Materials Science and Engineering C, 55, 335-342, 2015.
- Using Bimodal MRI/Fluorescence Imaging to Identify Host Angiogenic Response to Implant Geometry Berdichevski, A., Yameen, H.S., Dafni, H., Neeman, M., Seliktar, D. Proceedings of the National Academy of Sciences, 112(16):5147-52, 2015.
- Differentiation of dental pulp stem cells in 3-D biosynthetic hydrogel system Qiqi, L., Mirali, P., Rufaihah, A.J., Vinicius, R., Huei, J.T., Seliktar, D., Wei, S.T. Stem Cell International, Vol. 2015, ID: 525367, 9 pages.
- hiPS-MSCs differentiation towards fibroblasts on a 3D ECM mimicking scaffold Xu, R., Taskin, M.B., Rubert, M., Seliktar, D., Besenbacher, F., Chen, M. Scientific Reports, 5:8480, 2015.
- The effect of matrix stiffness on nucleus pulposus stem cells Navaro, Y., Bleich-Kimelman, N., Hazanov, L., Mironi-Harpaz, I., Shachaf, Y., Garty, S., smith, Y., Pelled, G., Gazit, Z., Seliktar, D., Gazit, D. Biomaterials, 49:68-76, 2015.
- In Vivo Generation of a Supernumerary Functional Skeletal Muscle Fuoco, C., Biondo, A., Longa, E., Mascaro, A., Shapira-Schweitzer, K., Benedetti, S., Salvatori, M.L., Sabrina, S., Bernardini, S., Stefano, C., Roberto, B., Seliktar, D., Cossu, G., Gargioli, C. EMBO Molecular Medicine, 7(4):411-22, 2015.
- Modulation of Huh 7.5 Spheroid Formation and Functionality using Modified PEG-based Hydrogels of Different Stiffness Lee, B.H., Kim, M.H., Lee, J.H., Seliktar, D., Cho, N.J., Tan, L.P. PLOS ONE, 10(2):e0118123, 2015.
- In-Situ Architectures Designed in 3D Cell-Laden Hydrogels using Microscopic Laser Photolithography Mironi-Harpaz, I., Hazanov, L., Engel, G., Yelin, D., Seliktar, D. Advanced Materials, 27(11):1933-8, 2015.
- Injectable PEGylated Fibrinogen Cell-Laden Microparticles Made with a Continuous Solvent- and Oil-Free Preparation Method Oliveira, M.B., Kossover, O., Mano, J.F., Seliktar, D. Acta Biomaterialia, 13:78-87, 2015.
- Protein Composition Alters In Vivo Resorption Properties of Semi-Synthetic PEG-based Hydrogels as Monitored by Contrast-Enhanced MRI Berdichevski, A., Shachaf, Y., Wechsler, R., Seliktar, D. Biomaterials, 42:1-10, 2015.
- pH Stimulated DNA Hydrogels Exhibiting Shape Memory Properties
Guo, W.W., Lu, C.H., Orbach, R., Wang, F., Qi, X.J., Cecconello, A., Seliktar, D., Willner, I.
Advanced Materials, 27(1):73-8, 2015. - Injectable PEGylated Fibrinogen Cell-Laden Microparticles Made with a Continuous Solvent- and Oil-Free Preparation Method
Oliveira, M.B., Kossover, O., Mano, J.F., Seliktar, D.
Acta Biomaterialia, 13:78-87, 2015. - Protein Composition Alters In Vivo Resorption Properties of Semi-Synthetic PEG-based Hydrogels as Monitored by Contrast-Enhanced MRI
Berdichevski, A., Shachaf, Y., Wechsler, R., Seliktar, D.
Biomaterials, 42:1-10, 2015. - In-Situ Architectures Designed in 3D Cell-Laden Hydrogels using Microscopic Laser Photolithography
Mironi-Harpaz, I., Hazanov, L., Engel, G., Yelin, D., Seliktar, D.
Advanced Materials, 27(11):1933-8, 2015. - Modulation of Huh 7.5 Spheroid Formation and Functionality using Modified PEG-based Hydrogels of Different Stiffness
Lee, B.H., Kim, M.H., Lee, J.H., Seliktar, D., Cho, N.J., Tan, L.P.
PLOS ONE, 10(2):e0118123, 2015. - In Vivo Generation of a Supernumerary Functional Skeletal Muscle
Fuoco, C., Biondo, A., Longa, E., Mascaro, A., Shapira-Schweitzer, K., Benedetti, S., Salvatori, M.L., Sabrina, S., Bernardini, S., Stefano, C., Roberto, B., Seliktar, D., Cossu, G., Gargioli, C.
EMBO Molecular Medicine, 7(4):411-22, 2015. - The effect of matrix stiffness on nucleus pulposus stem cells
Navaro, Y., Bleich-Kimelman, N., Hazanov, L., Mironi-Harpaz, I., Shachaf, Y., Garty, S., smith, Y., Pelled, G., Gazit, Z., Seliktar, D., Gazit, D.
Biomaterials, 49:68-76, 2015. - Xu, R., Taskin, M.B., Rubert, M., Seliktar, D., Besenbacher, F., Chen, M., “hiPS-MSCs differentiation towards fibroblasts on a 3D ECM mimicking scaffold”, Scientific Reports, 5:8480, 2015.
- Differentiation of dental pulp stem cells in 3-D biosynthetic hydrogel system Qiqi, L., Mirali, P., Rufaihah, A.J., Vinicius, R., Huei, J.T., Seliktar, D., Wei, S.T. Stem Cell International, Vol. 2015, ID: 525367, 9 pages.
- Using Bimodal MRI/Fluorescence Imaging to Identify Host Angiogenic Response to Implant Geometry Berdichevski, A., Yameen, H.S., Dafni, H., Neeman, M., Seliktar, D.
Proceedings of the National Academy of Sciences, 112(16):5147-52, 2015. - The effect of Matrix stiffness of injectable hydrogels on the preservation of cardiac function after a heart attack
Plotkin, M., Vaibavi, S.R., Rufaihah, A.J., Venkateswaran, N., Wang, J., Shachaf, Y., Kofidis, T., Seliktar, D.
Biomaterials, 35(5):1429-38, 2014. - Influence of soluble PEG-OH incorporation in a 3-D cell-laden PEG-fibrinogen (PF) hydrogel on smooth muscle cell morphology and growth
Lee, B.H., Tin, SP., Chaw, SY., Cao, Y., Xia, Y., Steele, TW., Seliktar, D., Bianco-Peled, H., Venkatraman, S.S.
Journal of Biomaterials Science, Polymer Edition, 25(4):394-409, 2014. - Influence of soluble PEG-OH incorporation in a 3-D cell-laden PEG-fibrinogen (PF) hydrogel on smooth muscle cell morphology and growth
Lee, B.H., Tin, SP., Chaw, SY., Cao, Y., Xia, Y., Steele, TW., Seliktar, D., Bianco-Peled, H., Venkatraman, S.S.
Journal of Biomaterials Science, Polymer Edition, 25(4):394-409, 2014. - A novel method for hydrogel nanostructuring
Yom-Tov, O., Frisman, I., Seliktar, D., Bianco-Peled, H.
European Polymer Journal, 52:137-45, 2014. - PlGF–MMP9-engineered cardiomyocyte-derived iPS cells supported by PEG–fibrinogen hydrogel possess an enhanced capacity to repair the damaged myocardium
Bearzi, C., Gargioli, C., Baci, D., Fortunato, O., Shapira-Schweitzer, K., Kossover, O., Latronico, M.L., Seliktar, D., Condorelli, G., Rizzi, R.
Cell Death and Disease, 5:e1053, 2014. - Cell Morphology in Injectable Nanostructured Biosynthetic Hydrogels
Yom-Tov, O., Seliktar, D., Bianco-Peled, H.
Journal of Biomedical Materials Research A, 102(12):4371-9, 2014.
- Reversible Ag+ Crosslinked DNA Hydrogels
Guo, W.W., Qi, X.J., Orbach, R., Lu, C.H., Freage, L., Mironi-Harpaz, I., Seliktar, , Yang, H.H., Willner, I.
Chemical Communications, 50(31):4065-8, 2014. - 3D Hydrogel Environment Rejuvenates Aged Pericytes for Skeletal Muscle Tissue Engineering
Fuoco, C., Sangalli, E., Vono, R., Testa, S., Sacchetti, B., Latronico, M.V.G., Bernardini, S., Madeddu, P., Cesareni, G., Seliktar, D., Rizzi, R., Bearzi, C., Cannata, S.M., Spinetti, G., and Gargioli, C.
Frontiers in Physiology, 5:203, 2014. - Bioinspired Functional Nanostructures Based on DOPA-DOPA Peptide Motif Fichman, G., Adler-Abramovich, L., Manohar, S., Mironi-Harpaz, I., Guterman, T., Seliktar, D., Messersmith, P.B., Gazit, E.
ACS Nano, 8(7):7220-8, 2014. - A Novel Design of Injectable Porous Hydrogels with in situ Pore Formation Yom-Tov, O., Yosef, L., Seliktar, D., Bianco-Peled, H.
Acta Biomaterialia, 10(10):4236-46, 2014. - Cellularized Biosynthetic Microhydrogel Polymers for Intravascular Liver Tissue Regeneration Therapy
Saadi, T., Nayshool, N., Carmel, J., Arish, A., Bramnik, Z., Mironi-Harpaz, I., Seliktar, D., Baruch, Y.
Tissue Engineering A, 20(21-22):2850-9, 2014. - Fibrin-based Hydrogel Scaffold for Controlling Cell-Matrix Interaction in Vascular Tissue Engineering
Mironi-Harpaz, I., Zigerson, S., Seliktar, D.
Advanced Biomaterials and Devices in Medicine, 1(1): 28-37, 2014. - Fabrication of PEGylated Fibrinogen – A Versatile Injectable Hydrogel Biomaterial in Cardiac Tissue Engineering: Methods and Protocols
Miron-Harpaz, I., Berdichevski, A., Seliktar, D.
(eds M. Radisic and L. Black), Springer, vol. 1181, PP 61-68, 2014.
- Low-Dose BMP-2 Treatment for Bone Repair using a PEGylated Fibrinogen Hydrogel
Ben-David, D., Srouji, S., Shapira-Schweitzer, K., Kossover, O., Ivanir, E., Kuhn, G., Muller, R., Seliktar, D., Livne, E.
Biomaterials, 34(12):2902-10, 2013 - Capillary morphologenesis in PEG-collagen hydrogels
Singh, R.K., Seliktar, D., Putnam, A.J.
Biomaterials, 34(37):9331-40, 2013 - Switchable Catalytic Acrylamide Hydrogels Crosslinked by Hemin/G-Quadruplexes
Lu, C.H., Qi, X.J., Orbach, R., Yang, H.H., Mironi-Harpaz, I., Seliktar, D., Willner, I.
Nano Letters, 13(3):1298-302, 2013 - Fluorescent DNA Hydrogels Composed of Nucleic Acid-Stabilized Silver Nanoclusters
Guo, W.W., Orbach, R., Mironi-Harpaz, I., Seliktar, D., Willner, I.
Small, 9(22):3748-52, 2013 - Time-Dependent Matrix Modulus and Cellular Response in Three-Dimensional Hydrogel Cultures
Kesselman, D., Kossover, O., Mironi-Harpaz, I., Seliktar, D.
Acta Biomaterialia, 9(8):7630-39, 2013 - Enhanced infarct stabilization and neovascularization mediated by VEGF-loaded PEGylated fibrinogen hydrogel in a rodent myocardial infarction model
Rufaihah, A.J., Vaibavi, S.R., Plotkin, M., Jiayi, S., Nithya, V., Wang, J., Seliktar, D., Kofidis, T.
Biomaterials, 34(33):8195-202, 2013 - Attempted application of bioengineered/biosynthetic supporting matrices with phosphatidylinositol-trisphosphate-enhancing substances to organ culture of human primordial follicles
Lerer-Serfaty, G., Samara, N., Fisch, B., Shachar, M., Kossover, O., Seliktar, D., Ben-Haroush, A., Abir, R.
Journal of Assisted Reproduction and Genetics, 30(10):1279-88, 2013 - Bioprinting and Tissue Engineering: Recent Advances and Future Perspectives
Seliktar, D., Dikovsky D., Napadensky E.
Israeli Journal of Chemistry, 53 (9-10):795-804, 2013 - Heart Regeneration: the Bioengineering Approach in Regenerative Medicine Technology as Applied to Organ Transplantation
Seliktar, D., Berdichevski, A., Miron-Harpaz, I., Shapira-Schweitzer, K. (ed G. Orlando)
Elsevier, New York, PP. 445-455, 2013 - Designing Cell-Compatible Hydrogels for Biomedical Applications
Seliktar, D.,
Science, 336 (6085):1124-28, 2012 Click here to read “Designing Cell-Compatible Hydrogels for Biomedical Applications” article >> - Biomimetic Hydrogels for Regenerative Medicine.
Miron-Harpaz, I., Kossover, O., Ivanir, E., Seliktar, D.
eds. J.F. Mano, Wiley-VCH: John Wiley & Sons, 2012 - Biomimetics of the extracellular matrix: an integrated three-dimensional fiber- hydrogel composite for cartilage tissue engineering
Coburn, J., Gibson, M., Bandalini, P.A., Laird, C., Mao, H.Q., Moroni, L., Seliktar, D., Elisseeff, J.
Smart Structures and Systems, 7(3): 213-222, 2011 - Regenerative medicine as applied to general surgery
Orlando, G., Wood, J.K., Baptista, P., Binder, K.W., Bitar, K.N., Breuer, C., Burnett, L., Christ, G., DeCoppi, P., Farney, A., Figliuzzi, M., Holmes, J., Koch, K., Macchiarini, P., Sani1, S.H.M., Opara1, E., Remuzzi, A., Rogers, J., Saul, J., Seliktar, D., Shapira-Schweitzer, K., Smith, T., Solomon, D., Van Dyke, M., Yoo, J., Zhan, Y., Atala, A., Stratta, R.J., Soker, S.
Annals of Surgery, 255(5):867-880, 2012 - Nanostructuring Biosynthetic Hydrogels for Tissue Engineering: A Cellular and Structural Analysis
Frisman, I., Seliktar, D., Bianco-Peled, H.
Acta Biomaterialia, 8(1):51-60, 2012 - Photopolymerization of Cell-Encapsulating Hydrogels: Crosslinking Efficiency Versus Cytotoxicity
Mironi-Harpaz, I., Wang, D.Y., Venkatraman, S., Seliktar, D.
Acta Biomaterialia, 8(5):1838-48, 2012 - Unique Properties of Fmoc based peptide hydrogels and implications for the role of aromatic interactions in their self-assembly
Orbach, R., Mironi-Harpaz, I., Adler-Abramovich, L., Mossou, E., Forsyth, V.T., Gazit, E., Seliktar, D.
Langmuir, 28(4):2015-22, 2012 - Cardiac Restoration Therapy
Seliktar, D., Shapira-Schweitzer, K.
Biomaterials and Devices for the Circulatory System, eds. T. Gourlay and R. Black, Wood Head Publishing, In press - MATRIX COMPRISING NATURALLY-OCCURRING CROSSLINKED PROTEIN BACKBONE
D Seliktar, L Almany
EP Patent 1,722,834, 2012 - Injectable polyethylene glycol-fibrinogen hydrogel adjuvant improves survival and differentiation of transplanted mesoangioblasts in acute and chronic skeletal-muscle degeneration
Fuoco,C., Salvatori, M.L., Biondo, A., Shapira-Schweitzer, K., Santoleri, S., Antonini, S., Bernardini, S., Tedesco, F. S., Cannata, S., Seliktar, D., Cossu, G., Gargioli, C.
Skeletal muscle 2 (1), 1-14, 2012 - Ex vivo Dynamic Loading Enhances the Osteogenic Differentiation of Genetically Engineered Mesenchymal Stem Cells
Kimelman-Bleich, N., Kallai, I., Seliktar, D., Helm, G.A., Gazit, Z., Gazit, D., Pelled, G.
Journal of Tissue Engineering and Regenerative Medicine, 5(5):384-93, 2011 - Polymer-Conjugated Albumin and Fibrinogen Composite Hydrogels as Cell Scaffolds designed with Affinity-Based Drug Delivery
Oss-Ronen, L., Seliktar, D.
Acta Biomaterialia, 7(1):163-170, 2011 - A Finite Element Model of Cell-Matrix Interactions to Study the Differential Effect of Scaffold Composition on Chondrogenic Response to Mechanical Stimulation
Appelman, T., Mizrahi, J., Seliktar, D.
Journal of Biomechanical Engineering, 133(4), 2011 - Tissue Engineered Scaffold Alterations Affects the Biochemical Response of Chondrocytes to Dynamic Mechanical Stimulation
Appelman, T., Mizrahi, J., Elisseeff, J., Seliktar, D.
Biomaterials, 32(6): 1508-1516, 2011 - Stimulus-Responsive Biosynthetic Fibrinogen Conjugates for Tissue Engineering: Structural Characterization
Frisman, I., Shachaf, Y., Seliktar, D., Bianco-Peled, H.
Langmuir, 27(11):6977-86, 2011 - Biological and Mechanical Implications of PEGylating Proteins into Hydrogel Biomaterials
Gonen-Wadmany, M., Goldshmid, R., Seliktar, D.
Biomaterials, 32(26):6025-33, 2011 - A Combined Cell Therapy and In Situ Tissue Engineering Approach for Myocardial Repair
Habib, M., Shapira-Schweitzer, K., Caspi, O., Gepstein, A., Arbel, G., Aronson, D., Seliktar, D.
Gepstein, L.Biomaterials, 32(30):7514-23, 2011 - Nanostructuring PEG-Fibrinogen Hydrogels to Control Cellular Morphogenesis
Frisman, I., Seliktar, D., Bianco-Peled, H.
Biomaterials, 32(31):7839-46, 2011 - Regenerative medicine as applied to solid organ transplantation: current status and future challenges
Orlando, G., Baptista, P., Birchall, M., De Coppi, P., Farney, A., Guimaraes-Souza, N.K., Opara, E., Rogers, J., Seliktar, D., Shapira-Schweitzer, K., Stratta, R.J., Atala, A., Wood, K.J., and Soker, S.
Transplantation International, 24(3):223-32, 2011 - The Biocompatability of PluronicF127 Fibrinogen-based Hydrogels
Shachaf, Y., Gonen-Wadmany, M., Seliktar, D.
Biomaterials, 31(10):2836-47, 2010 - Nanostructuring of PEG-Fibrinogen Polymeric Scaffolds
Frisman, I., Seliktar, D., Bianco-Peled, H.
Acta Biomaterialia, 6(7): 2518-2524, 2010 - Structural investigation of PEG-fibrinogen conjugates
Frisman, I., Seliktar, D., Bianco-Peled, H.
Journal of Materials Science: Materials in Medicine, 21(1): 73-80, 2010 - Photopolymerizable Hydrogels Made from Polymer-Conjugated Albumin for Affinity-Based Drug Delivery
Oss-Ronen, L., Seliktar, D.
Advanced Engineering Materials, 12(1-2):B45-B52, 2010 - Investigating the molecular structure and physical properties of PEG-Fibrinogen hydrogels
Dikovsky, D., Bianco-Peled, H., and Seliktar, D.
Advanced Engineering Materials, 12(6): B200-B209, 2010 - The Role of Matrix Metalloproteinases in Regulating Neuronal and Nonneuronal Cell Invasion into PEGylated Fibrinogen Hydrogels
Sarig-Nadir, O., Seliktar, D.
Biomaterials, 31(25): 6411-6416, 2010 - Laser Engraving of Guidance Microchannels into Hydrogels Directs Cell Growth in 3-D
Sarig-Nadir, O., Livnat, N., Zajdman, R., Shoham, S., Seliktar, D.
Biophysical Journal, 3;96(11):4743-52, 2009 - An Injectable Hydrogel for 3-D Culture of Human Embryonic Stem Cell-Derived Cardiomyocytes and Rat Neonatal Cardiac Cells
Shapira-Schweitzer, K., Habib, M., Gepstein, L., Seliktar, D.
Journal of Molecular and Cellular Cardiology, 46(2):213-24, 2009 - The differential effect of scaffold composition and architecture on chondrocytes response to mechanical stimulation
Appelman, T., Mizrahi, J., Elisseeff, J., Seliktar, D.
Biomaterials, 30(4): 518–525, 2009 - Real-Time Force Measurement in PEG-based Tissue Engineered Cartilage
Preiss-Bloom, O., Mizrahi, J., Elisseeff, J., Seliktar, D.
Artificial Organs, 33(4):318-27, 2009 Click here to read “Real-time Monitoring of Force Response Measured in Mechanically Stimulated Tissue-Engineered Cartilage” article >> - Phloroglucinol-based Biomemtic adhesives for medical applications
Bitton, R., Josef, E., Shimshelashvili, I., Shapira-Schweitzer, K., Seliktar, D., Bianco-Peled, H.
Acta Biomaterialia, 5(5):1582-7, 2009 - Microscale Control of Stiffness in Cell-Adhesive Substrate Using Microfluidics-Based Lithography
Cheung, Y.K., Azeloglu, E.U., Costa, K.D., Seliktar, D., Sia, S.K.
Angewandte Chemie, 48(39):7188-92, 2009 - Self-Assembled Fmoc-Peptides as a Platform for the Formation of Nanostructures and Hydrogels
Orbach, R., Adler-Abramovich, L., Zigerson, S., Mironi-Harpaz, I., Seliktar, D., Gazit, E.
Biomacromolecules, 10(9):2646-51, 2009 - In Vitro Evaluation of a Composite Scaffold Made from Electrospun Nanofibers and a Hydrogel for Vascular Tissue Engineering
Feingold, D., Zussman, E., Seliktar, D.
Journal of Bionanoscience, 3, 45–57, 2009 - Compositional Alterations of Fibrin-Based Materials for Regulating In Vitro Neural Outgrowth
Sarig-Nadir, O., Seliktar, D.
Tissue Engineering Part A, 14(3):401-11, 2008, (Featured on the Cover) - Defining the Role of Matrix Compliance and Proteolysis in Three-Dimensional Cell Spreading and Remodeling
Dikovsky, D., Bianco-Peled, H., and Seliktar, D.
Biophysical Journal, 94(7):2914-25, 2008 - The effects of matrix stiffness and RhoA on the phenotypic plasticity of smooth muscle cells in a 3-D biosynthetic hydrogel system
Peyton, S.R., Kim, P.D., Ghajar, C.M., Seliktar, D., Putnam, A.J.
Biomaterials, 29(17):2597-607, 2008 - Hydrogels for Cardiac Tissue Regeneration
Shapira-Schweitzer, K., Dikovsky, D., Habib, M., Gepstein, L., Seliktar, D.
Bio-Medical Materials and Engineering, 18(4-5):309-14, 2008 - A Novel Poly(ethylene glycol)-Fibrinogen Hydrogel for Tibial Segmental Defect Repair in a Rat Model
Peled, E., Boss, JH., Zinman, C., Bejar, J., Seliktar, D.
J Biomed Mater Res A, 80A(4):874-884, 2007 - Matrix Stiffness Affects Spontaneous Contraction of Cardiomyocytes Cultured within a PEGylated Fibrinogen Biomaterial
Shapira, K., and Seliktar, D.
Acta Biomaterialia, 3(1): 33-41, 2007 - Protein-Polymer Conjugates for Forming Photopolymerizable Biomimetic Hydrogels for Tissue Engineering
Gonen-Wadmany, M., Oss-Ronen, L., Seliktar, D.
Biomaterials, 28(26): 3876-86, 2007 - Ultrasound-Induced Angiogenic Response in Endothelial Cells
Mizrahi, N., Seliktar, D., Kimmel, E.
Ultrasound in Medicine and Biology, 33(11):1818-29, 2007 - Differential Response of Adult and Embryonic Mesenchymal Progenitor Cells to Mechanical Compression in Hydrogels
Terraciano, V., Hwang, N., Moroni, L., Park, H.B., Zhang, Z., Mizrahi, J., Seliktar, D., Elisseeff, J.
Stem Cell, 25(11):2730-2738, 2007 - Structural Alterations of PEG-Fibrinogen Hydrogel Scaffold Augments 3-D Cellular Morphology and Cellular Migration
Dikovsky, D., Bianco-Peled, H., Seliktar, D.
Biomaterials, 27(8):1496-506, 2006 - Immobilized Fibrinogen in PEG Hydrogels does not Improve Chondrocyte-Mediated Matrix Deposition in Response to Mechanical Stimulation
Schmidt, O., Mizrahi, J., Elisseeff, J., Seliktar, D.
Biotechnol Bioeng, 95(6):1061-9, 2006 - Bio-Synthetic Hydrogel Scaffolds made from Fibrinogen and Polyethylene Glycol for 3-D Cell Cultures
Almany, L., and Seliktar, D.
Biomaterials, May,26(15):2467-77,2005 - In Vivo Degradation Properties of Semi-Rigid Polymeric Films Made of Alginate and Polyethylene Glycol
Livnat, M., Peled, E., Boss, J., and Seliktar, D.
Israeli Journal of Chemistry, 45, 421–427, 2005 - Extracellular Stimulation in Tissue Engineering
Seliktar, D.
Ann. N.Y. Acad. Sci. 1047: 386-394, 2005 - Endoluminal Hydrogel Films Made of Alginate and Polyethylene Glycol: Physical Characteristics and Drug-Eluting Properties
Livnat, M., Beyar, R., and Seliktar, D.
J Biomed Mater Res A, 75A: 710–722, 2005 - MMP-2 sensitive, VEGF-bearing Bioactive Hydrogels for Promotion of Vascular Healing
Seliktar, D., Zisch, A., Lutolf, M., Wrana, J.L., Hubbell, J.A.
J Biomed Mater Res A, 68A(4): 704-716, 2004 - Controlling the Cellular Organization of Tissue Engineered Cardiac Constructs
Gonen-Wadmany, M., Gepstein, L., Seliktar, D.
Annal N Y Acad Sci, 1015:299-311, 2004 - Mechanical Strain-Stimulated Remodeling of Tissue-Engineered Blood Vessel Constructs
Seliktar, D., Nerem, R.M., Galis, Z.G
Tissue Engineering, 9(4): 657-666, 2003 - The Response of Endothelial Cells to Fluid Shear Stress Using a Co-Culture Model of the Arterial Wall
Imberti, B., Seliktar, D., Remuzzi, A., Nerem, R.M.
Endothelium, 9(1): 1-10, 2002 - Methods for Tissue Engineering A Blood Vessel Substitute
Seliktar, D. and R.M. Nerem
Methods of Tissue Engineering, eds. A. Atala and R. Lanza, Academic Press, pp. 891-903, 2002 - Vascular Tissue Engineering
Nerem, R.M. and Seliktar, D.
Annual Reviews of Biomedical Engineering, 3:225-243, 2001 - The Role of Matrix Metaloproteinase-2 in the Remodeling of Cell-Seeded Vascular Constructs Subjected to Cyclic Strain
Seliktar, D., Nerem, R.M., Galis, Z.G.
Annals of Biomedical Engineering, 29(12): 1-12, 2001 - Tissue Engineering and the Cardiovascular System
Nerem, R.M., Braddon, L.G., and Seliktar, D.
Frontiers in Tissue Engineering, eds. C.W. Patrick, Jr., A.G. Mikos, and L.V. McIntire, Elsevier Science, New York, PP. 561-579, 1998. - Tissue Engineering and the Vascular System
Nerem, R.M., Braddon, L.G., Seliktar, D., and Ziegler, T.
Synthetic Biodegradable Polymer Scaffolds, eds. A. Atala, D. Mooney, J.P. Vacanti, and R. Langer, Birkhauser, Cambridge, pp. 165-185, 1997. - Dynamic Mechanical Conditioning of Collagen Gel Blood Vessel Constructs Induces Remodeling In Vitro
Seliktar, D., Black, R.A., Vito, R.P., and Nerem, R.M.
Annals of Biomedical Engineering, 28(4): 351—62, 2000, (Featured on the Cover)