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Esmaiel Jabbari

Esmaiel Jabbari

Phone 803.777.8022
Fax 803.777.8265

E-mail


2C11 Swearingen 
Chemical Engineering
University of South Carolina
301 Main St.
Columbia, SC 29208

Esmaiel Jabbari

Associate Professor





Curriculum Vitae

I. Education
  • Ph. D. Chemical Engineering, Purdue University (1993)
  • M. S. Chemistry, Virginia Tech (1989)
  • M. S. Chemical Engineering, Virginia Tech (1986)
  • B. S. Chemical Engineering, Virginia Tech (1982)
II. Honors & Awards
  • Editorial Board: International Journal of Biomedical Engineering Gateway (2008)
  • Stephen B. Milam Research Award: Oral and Maxillofacial Surgery Foundation (2008)
  • Editorial Board: Tissue Engineering & Regenerative Medicine Journal (2007)
  • Advisory Board: International Conferences on Materials and Technologies(2007)
  • Member: Who is Who in Engineering Education (2006)
  • Outstanding Professor Award, Biomedical Engineering, Tehran Polytechnic Institute (1997)
  • Member: New York Academy of Sciences (1993)
  • Adhesion Society Research Award (1992)
  • Outstanding College Students of America (1989)
III. Memberships
  • American Institute of Chemical Engineers
  • Society for Biomaterials
  • Materials Research Society
  • American Physical Society
  • American Chemical Society
  • International Microencapsulation Society
  • Society of Adhesion
  • Tau Beta Pi
  • Phi Lambda Epsilon
  • Sigma Xi
  • Omega Rho
IV. Publications

 

BOOK CHAPTERS

6. A.S. Servestani and E. Jabbari, “Nonlinear viscoelastic behavior of rubbery bionanocomposites”, in Rubber Nanocompoistes: Preparations, Properties and Applications, Editors Sabut Thomas and Ranimol Stephen, Wiley & Sons, 2008, in Press.


5. A.S. Sarvestani and E. Jabbari, “Rheological and Mechanical Properties of Biologically Inspired Nanocomposites”, in Progress in Biopolymer Research, Editor Pablo C. Sánchez, Nova Publishers, 2007, pp. 13-44.


4. Jabbari and A. S. Sarvestani, “Bioinspired Engineered Nanocomposites for Bone Tissue Engineering”, in Micro- and Nanoengineering of the Cell Microenvironment: Technologies and Applications, Editors A. Khademhosseini, J. Borenstein, S. Takayama, M. Toner, Artech House Publishing, Boston, MA, 2007, p. 461-482.


3. L Lu, E Jabbari, MJ Moore, and MJ Yaszemski. Animal Models for Evaluation of Tissue Engineered Orthopedic Implants. In: CRC’s Biomedical Engineering Handbook, Editor Bronzino J.D., Taylor & Francis, Boca Raton, FL, 3ed Edition, 2006, p. 45-1.


2. E. Jabbari L. Lu, and M.J. Yaszemski, “Synthesis and Characterization of Injectable and Biodegradable Composites for Orthopedic Applications”, in Handbook of Biodegradable Polymeric Materials and Their Applications, Editors S. K. Mallapragada and B. Narasimhan, American Scientific Publishers, Stevenson Ranch, CA, 2004, Vol. 2.


1. E. Jabbari, L. Lu, B.L. Currier, A.G. Mikos, and M.J. Yaszemski, “Injectable Polymers and Hydrogels for Orthopedic and Dental Applications, in Tissue Engineering in Musculoskeletal Clinical Practice, Editors L.J. Sandell and A.J. Grodzinsky, American Academy of Orthopaedic Surgeons, Rosemont, IL, 2004, Chapter 32.

 

PEER REVIEW JOURNAL PUBLICATIONS

66. Xuezhong He, Junyu Ma, and Esmaiel Jabbari, The Effect of Grafting RGD and BMP-2 Protein-derived Peptides to a Hydrogel Substrate on Osteogenic Differentiation of Marrow Stromal Cells, Langmuir, in press (2008).

 

65. Angel E. Mercado, Xuezhong He, Weijie Xu, and Esmaiel Jabbari, Release characteristics of a model protein from self-assembled succinimide-terminated poly(lactide-co-glycolide ethylene oxide fumarate) nanoparticles, Nanotechnology, in press (2008).

 

64. Alireza S. Sarvestani, Xuezhong He, and Esmaiel Jabbari. The Role of Filler-Matrix Interaction on Viscoelastic Response of Biomimetic Nanocomposite Hydrogels. in special issue: Nanostructured Materials for Biomedical Applications, Journal of Nanomaterials, in press (2008).


63. Jabbari E. Bone Regeneration on Proteolytically-Degradable Peptide-Reinforced Hydrogel Nanocomposite, Chemistry Today 25(6):32-35 (2007). INVITED ARTICLE


62. Sarvestani SA, Jabbari E. Modeling kinetics of cell adhesion on substrates with ligand density gradient. J. Biomech. 41(4): 921-925 (2008).


61. He X, Ma J, Mercado AE, Xu W, Jabbari E. Cytotoxicity of paclitaxel in biodegradable self-assembled core-shell poly(lactide-co-glycolide ethylene oxide fumarate) nanoparticles. Pharm. Res. Jan 15, PMID: 18196205 (2008).


60. Henderson JA, He X, Jabbari E. Concurrent differentiation of marrow stromal cells to osteogenic and vasculogenic lineages. Macromol Biosci 8: 499-507 (2008).


59. Sarvestani AS, Xu W, He X, Jabbari E. Gelation and degradation characteristics of in-situ photo-crosslinked poly(l-lactide-co-ethylene oxide-co-fumarate) hydrogels. Polymer 48: 7113-7120 (2007).


58. Jabbari E, He X, Valarmathi MT, Sarvestani AS, Xu W. Material properties and bone marrow stromal cells response to in situ crosslinkable rgd-functionlized lactide-co-glycolide scaffolds. J. Biomed. Mater. Res. in Press (2008).


57. Jabbari E, Tavakoli J, Sarvestani AS. Swelling characteristics of acrylic acid polyelectrolyte hydrogel in a D.C. electric field. Smart Mater. Struct. 16: 1614-1620 (2007).


56. Sarvestani AS, He X, Jabbari E. Osteonectin-derived peptide increases the modulus of a bone-mimetic nanocomposite. Euro. Biophys. J. 37(2):229-234 (2007).


55. Xu W, He X, Sarvestani AS, Jabbari E. Effect of a Low Molecular Weight Crosslinkable Macromer on Electrospinning of Poly(lactide-co-glycolide) Fibers. J. Biomat. Sci. Polym. Ed. 18(11): 1369-1385 (2007).


54. Sarvestani AS, He X, Jabbari E. Effect of composition on gelation kinetics of unfilled and nanoapatite-filled poly(lactide-ethylene oxide-fumarate) hydrogels. Mater. Letters 16: 5278-5281 (2007).


53. Sarvestani AS, Jabbari E. Modeling the viscoelastic response of suspension of particles in polymer solution: the effect of polymer-particle interactions. Macromol. Theory Simul. 16: 378-385 (2007) MOST ACCESED MMTS ARTICLE 3/2007-2/2008.


52. Sarvestani AS, Jabbari E. A model for the viscoelastic behavior of nanofilled hydrogel composites under oscillatory shear loading. Polym. Compos. 29:326–336 (2008).


51. Mohammadi Y, Mirzadeh H, Moztarzadeh F, Soleimani M, Jabbari E. Osteogenic differentiation of mesenchymal stem cells on novel three-dimensional poly(L-lactic acid).chitosan/gelatin/β-tricalcium phosphate hybrid scaffolds, Ir. Polym. J. 16(1): 57-69 (2007).


50. He X, Jabbari E. Material properties and cytocompatibility of injectable mmp degradable poly(lactide ethylene oxide fumarate) hydrogel as a carrier for marrow stromal cells. Biomacromolecules 8: 780-792 (2007).


49. Sarvestani AS, He X, Jabbari E. The Effect of osteonectin-derived peptide on the viscoelasticity of hydrogel/apatite nanocomposite scaffolds. Biopolymers 85-4: 370-378 (2007).


48. Sarvestani AS, He X, Jabbari E. Viscoelastic characterization and modeling of gelation kinetics of injectable in situ crosslinkable poly(lactide-ethylene oxide-fumarate) hydrogels. Biomacromolecules 8(2): 406-415 (2007).


47. Jabbari E, He X. Synthesis and characterization of bioresorbable in situ crosslinkable ultra low molecular weight poly(lactide) macromer. J. Mater. Sci. Mater. Med. 19(1):311-318 (2007).


46. Tavakoli J, Jabbari E, Khosroshahi ME, and Boroujerdi M. Swelling characteristics of anionic acrylic acid hydrogel in an external electric field. Ir. Polym. J. 15(11): 891-900 (2006).


45. Jabbari E, He X. Synthesis of novel multi-functional matrix metalloproteinases degradable peptide crosslinkers. Polym. Prepr. 47(2): 192-193 (2006).


44. Jabbari E, He X. Synthesis and material properties of functionalized lactide oligomers as in situ crosslinkable scaffolds for tissue regeneration. Polym. Prepr. 47(2): 353-354 (2006).


43. Lee KW, Wang S, Lu L, Jabbari E, Currier BL, Yaszemski MJ. Fabrication and characterization of poly(propylene fumarate) scaffolds with controlled pore structures using 3-dimensional printing and injection molding. Tissue Eng. 12(10): 2801-11 (2006).


42. Mohammadi Y, Jabbari E. Monte Carlo Simulation of Degradation of Porous Poly(lactide) Scaffolds: I. Effect of Porosity on pH. Macromol. Theory Simul. 15: 643-653 (2006).


41. Kheirandish S, Jabbari E. Effect of surface polarity on wettability and friction coefficient of silicone rubber/poly(acrylic acid) hydrogel composite. Colloid Polym. Sci. 284: 1513-1518 (2006).


40. He X, Jabbari E. Solid-phase synthesis of reactive peptide crosslinker by selective deprotection. Protein & Peptide Letters 13: 715-718 (2006).


39. Sarvestani AS, Jabbari E. Modeling and experimental investigation of rheological properties of injectable poly(lactide ethylene oxide fumarate)/hydroxyapatite nanocomposites. Biomacromoelcules 7: 1573-1580 (2006).


38. Hefferan TE, Jabbari E, Florschutz A, Mardones RM, Lu L, Currier BL, Yaszemski MJ. rhBMP-2 enhances bone formation in a biodegradable scaffold. J. Bone Mineral Res. 20(9): S108 (2005).


37. Lu L, Zhu X, Pederson LG, Jabbari E, Currier BL, O’driscoll S, Yaszemski MJ. Effects of Dynamic Fluid Pressure on Chondrocytes Cultured in Biodegradable Poly(glycolic acid) Fibrous Scaffolds. Tissue Eng. 11: 1852-1859 (2005).


36. Jabbari E, Wang S, Lu L, Gruetzmacher JA, Ameenuddin S, Hefferan TE, Currier BL, Windebank AJ, Yaszemski MJ. Synthesis, material properties and biocompatibility of a novel self-crosslinkable poly(caprolactone fumarate) as an injectable tissue engineering scaffold. Biomacromolecules 6: 2503-2511 (2005).


35. de Ruiter GC, Knight AM, Moore MJ, Liang E, Gorgyi S, Lu L, Jabbari E, Wang SF, Currier BL, Marsh WR, Yaszemski MJ, Spinner RJ, Windebank AJ. Biodegradable polymer scaffolds for spinal cord regeneration: I. Optimizing characteristics for biocompatibility. Neurology 64(6): A357 (2005).


34. Jabbari E, Qian KK, An Y. Poly(caprolactone)- based degradable and injectable scaffolds for bone regeneration. MUSC Orthopedic Journal VIII: 47-49 (2005).


33. Jabbari E. Encapsulation and release characteristics of a model plasmid dna from synthetic and biodegradable poly(ethylene glycol fumarate)/acrylamide hydrogel microspheres. J. Microencapsulation 21(5): 525-538 (2004).


32. Ghafelebashi Zarand SM, Pourmahdian S, Jabbari E, Afshar-Taromi F, Dabir B. Modeling of styrene/butadiene co-polymerization in emulsion polymerization with monte carlo simulation. Chem. Eng. Technol. 26(9): 969-974 (2003).


31. Jabbari E, Gruetzmacher JA, Lu L, Currier BL, Yaszemski MJ. Synthesis and characterization of nano hydroxyapatite grafted with biodegradable and crosslinkable fumaric/adipic acid macromer. Polym. Prepr. 44(2): 184-185 (2003).


30. Temenoff JS, Park H, Jabbari E, Sheffield TL, LeBaron RG, Ambrose CG, Mikos AG. In-vitro osteogenic differentiation of marrow stromal cells encapsulated in biodegradable hydrogels. J. Biomed. Mater. Res. 70A: 235-244 (2004).


29. Temenoff JS, Park H, Jabbari E, Conway DE, Sheffield TL, Ambrose CG, Mikos AG. Thermally cross-linked oligo(poly(ethylene glycol) fumarate) hydrogels support osteogenic differentiation of encapsulated marrow stromal cells in vitro. Biomacromolecules 5: 5-10 (2004).


28. Talac R, Friedman JA, Moore MJ, Lu L, Jabbari E, Windebank AJ, Currier BL, Yaszemski MJ. Animal models of spinal cord injury for evaluation of tissue engineering treatment strategies. Biomaterials 25(9): 1505-1510 (2004).


27. Moore MJ, Jabbari E, Ritman EL, Lu L, Currier BL, Yaszemski MJ. Quantitative analysis of scaffold interconnectivity of biodegradable scaffolds with micro-computed tomography. J. Biomed. Mater. Res. 71A: 258-267 (2004).


26. Kempen DHR, Lu L, Zhu X, Kim CW, Jabbari E, Dhert WJA, Currier BL, Yaszemski MJ. Development of biodegradable poly(propylene fumarate)/ poly(lactic-co-glycolic acid) blend microspheres: II. Controlled drug release and microsphere degradation. J. Biomed. Mater. Res. 70A: 293-302 (2004).


25. Kempen DHR, Lu L, Zhu X, Kim CW, Jabbari E, Dhert WJA, Currier BL, Yaszemski MJ. Development of biodegradable poly(propylene fumarate)/poly(lactic-co-glycolic acid) blend microspheres: I. Preparation and characterization. J. Biomed. Mater. Res. 70A: 283-292 (2004).


24. Jabbari E, Karbasi S. Swelling behavior and cell viability of dehydrothermally crosslinked poly(vinyl alcohol) hydrogel grafted with n-vinyl pyrrolidone or acrylic acid using γ-radiation. J. Appl. Polym. Sci. 91(5): 2862-2868 (2004).


23. Jabbari E. Microstructure and release behavior of polyurethane-urea microcapsules prepared by interfacial polycondensation of methylene bis(phenyl isocyanate) with hexamethylene diamine. J. Microencapsulation 18(6): 801-809 (2001).


22. Jabbari E. Characterization of microcapsules prepared by interfacial polycondensation of methylene bis(phenyl isocyanate) with hexamethylene diamine. Ir. Polym. J. 10(1): 33-43 (2001).


21. Jabbari E. Monte Carlo simulation of tri-functional branching and tetra-functional crosslinking in emulsion polymerization of butadiene. Polymer 42: 4873-4884 (2001).


20. Jabbari E, Khakpour M. Morphology of and release behavior from porous polyurethane microspheres. Biomaterials 21: 2073-2079 (2000).


19. Jabbari E, Khakpour M. Preparation of aqueous suspension of porous polyurethane microspheres by suspension polycondensation. Scientia Iranica 7(2): 102-110 (2000).


18. Jabbari E, Nozari S. Swelling behavior of acrylic acid hydrogels prepared by gamma radiation crosslinking of polyacrylic acid in aqueous solution. Eur. Polym. J. 36: 2685-2692 (2000).


17. Jabbari E, Nozari S. Synthesis of acrylic acid hydrogel by gamma irradiation crosslinking of polyacrylic acid in aqueous solution. Ir. Polym. J. 8, 263-270 (1999).


16. Tabatabaie H, Jabbari E. Investigation of release mechanism of urea from a natural rubber matrix. Ir. Polym. J. 1: 69-74 (1997).


15. Arjomand-Hesabi K, Jabbari E. Monte Carlo simulation of branching in emulsion polymerization of dienes: I. effect of the initiator concentration. Ir. Polym. J. 1: 123-131 (1997).


14. Lahootifard F, Jabbari E. Investigation of the release mechanism of nitroglycerin from a transdermal microreservoir system. Ir. Polym. J. 2: 758-763 (1997).


13. Jabbari E, Peppas NA. Matrix effects on interdiffusion at the polystyrene and poly(vinyl methyl ether) interface. Macromolecules 28: 6229-6237 (1995).


12. Jabbari E, Peppas NA. Quantitative measurement of interdiffusion at polymer-polymer interfaces with TEM/EDS and EELS. J. Appl. Polym. Sci. 57: 775-779 (1995).


11. Jabbari E, Peppas NA. Comparison of interdiffusion at the PS/PVME and PS/PiBVE interfaces. Polym. International 38: 65-69 (1995).


10. Jabbari E, Peppas NA. A Model for interdiffusion at interfaces of polymers with dissimilar physical properties. Polymer 36(3): 575-586 (1995).


9. Jabbari E, Peppas NA. Measurement of adhesion and interfacial thickness of polymer-polymer interfaces with electron microscopy. Ir. J. Polym. Sci. Tech. 4(2): 110-117 (1995).


8. Jabbari E, Peppas NA. Molecular weight and polydispersity effects on interdiffusion at the interface between polystyrene and poly(vinyl methyl ether). J. Mater. Sci. 29: 3969-3978 (1994).


7. Jabbari E, Peppas NA. Polymer-polymer interdiffusion and adhesion. J. Macromol. Sci.- Rev. Macromol. Chem. Phys. C34(2): 205-241 (1994).


6. Jabbari E, Wisniewski N, Peppas NA. Evidence of mucoadhesion by chain interpenetration at a poly(acrylic acid) / mucin interface using ATR-FTIR Spectroscopy. J. Controlled Release 26: 99-108 (1993).


5. Peppas NA, Sahlin JJ, Jabbari E. Near-field FTIR and ATR-FTIR spectroscopies for the investigation of diffusional mechanisms. Polym. Prepr. 34(2): 783-784 (1993).


4. Jabbari E, Peppas NA. Temperature effects on interdiffusion at glassy / rubbery interfaces. J. Adhesion 43: 101-119 (1993).


3. Jabbari E, Peppas NA. Transport phenomena in polymers: Polymer/polymer interdiffusion. Polymer News 17: 43-47 (1992).


2. Jabbari E, Peppas NA. The use of ATR-FTIR to study interdiffusion in polystyrene and poly(vinyl methyl ether). Macromolecules 26: 2175-2186 (1993).


1. Jabbari E, Peppas NA. Mapping the concentration profile at a poly(vinyl chloride) and poly(ethyl methacrylate) interface. Polymer Bulletin 27: 305-309 (1991).


REFEREED PROCEEDINGS PREPRINTS

53. X. He, J. Ma, A.E. Mercado, W. Xu, E. Jabbari, Cytotoxicity of Paclitaxel in biodegradable self-assembled core-shell PLGEOF nanoparticles, CRS Transactions, Abstract # 622 (2008).


52. A.E. Mercado, X. He, E. Jabbari, Release characteristics of rhBMP-2 from self-assembled biodegradable PLEOF nanoparticles, CRS Transactions, Abstract #324 (2008).

 

51. J. Ma, W. Xu, X. He, A. Mercado, E. Jabbari, Morphology of rat bone marrow stromal cells on aligned electrospun biodegradable fibers. Trans. Soc. Biomaterials, p. 2660 (2008).


50. A.S. Sarvestani, A. Mercado, E. Jabbari, Quantification of membrane adhesion on ligand gradient substrates, Trans. Soc. Biomaterials, p. 2661 (2008).


49. A. Mercado, X. He, J. Ma, W. Xu, E. Jabbari, Biodegradable self-assembled nanoparticles for targeted delivery of paclitaxel to tumor cells. Trans. Soc. Biomaterials, p. 2662 (2008).

 

48. A.S. Sarvestani, E. Jabbari, Effect of ligand density gradient on the adhesion kinetics of biological membranes. Mater. Res. Soc. Symp. Proc. In Press (2007).


47. A.S. Sarvestani, E. Jabbari, The role of polymer-particle interactions on the viscoelastic properties of polymer nanocomposites. Mater. Res. Soc. Symp. Proc. Vol. 1056, HH08-29 (2008).


46. E. Jabbari, D. Rocheleau, W. Xu, X. He, “Fabrication of biomimetic scaffolds with well-defined pore geometry by fused deposition modeling”, Proceedings ASME International Conference on Manufacturing Science and Engineering, in Press (2007).


45. M.T. Valarmathi, J.D. Potts, M.J. Yost, R.L. Goodwin, E. Jabbari, “Proepicardial cells modulate the osteogenic potential of BMS cells in aligned collagen I scaffold,” Trans. Soc. Biomaterials, p. 633 (2007).


44. M.T. Valarmathi, J.D. Potts, M.J. Yost, R.L. Goodwin, E. Jabbari, “A novel three-dimensional culture system to study vasculogenesis and osteogenic differentiation of BMS cells,” Trans. Soc. Biomaterials, p. 115 (2007).


43. E. Jabbari, W. Xu, X. He, “Degradation characteristics of novel in-situ crosslinkable poly(lactide-co-glycolide-ethylene oxide-fumarate) copolymer networks,” Trans. Soc. Biomaterials, p. 353 (2007).


42. E. Jabbari, A.S. Sarvestani, X. He, “Response of marrow stromal cells to multi-functional peptide-reinforced cell-adhesive nanocomposite scaffolds,” Trans. Soc. Biomaterials, p. 230 (2007).


41. E. Jabbari, X. He, A.S. Sarvestani, In-situ crosslinkable osteoinductive poly(lactide) scaffold for bone regeneration. Euro. Cells Mater. 13: S6 (2007).


40. E. Jabbari, Biomimetic hydrogel/apatite nanocomposite scaffolds for bone regeneration. Mater. Res. Soc. Symp. Proc. 897E: J07-03.1-03.6 (2006).


39. E. Jabbari, X. He, A.S. Sarvestani, “Swelling and degradation characteristics of novel biodegradable in situ crosslinkable poly(lactide-ethylene oxide-fumarate) terpolymer networks, N.A. Peppas, A.S. Hoffman,” T. Kanamori and K. Tojo, editors, Advances in Medical Engineering, Drug Delivery Systems and Therapeutic Systems, AIChE, New York, p. 110 (2006).


38. E. Jabbari, “In situ crosslinkable bioresorbable poly(lactide fumarate) scaffolds for guided bone regeneration,” Trans. Soc. Biomaterials, 491 (2006).


37. E. Jabbari, "Synthesis and Characterization of Apatite Nanoparticles Grafted with Unsaturated Hydrophilic Macromers”, in N.A. Peppas and J.Z. Hilt, eds., Advances in Bionanotechnology, pp. 90-91, AIChE, New York, NY (2005).


36. E. Jabbari and X. He, "Aqueous based hydrogel/apatite nanocomposite scaffolds for guided bone regeneration,” in N.A. Peppas and J.Z. Hilt, eds., Advances in Bionanotechnology, pp. 92-93, AIChE, New York, NY (2005).


35. E. Jabbari, L. Lu, J.A. Gruetzmacher, S. Ameenuddin, G.C. de Ruitter, M.J. Moore, B.L. Currier, R.J. Spinner, A.J. Windebank, M.J. Yaszemski, “Material properties and biocompatibility of self-crosslinkable, poly(caprolactone fumarate) copolymer as a scaffold for guided tissue regeneration,” in N.A. Peppas, K. Anseth, A.K. Dillow and C.E. Schmidt, eds., Advances in Biomaterials, Bionanotechnology, Biomimetic Systems and Tissue Engineering, pp. 245-247, AIChE, New York, NY (2004).


34. K.-W. Lee, E. Jabbari, L. Lu, B.L. Currier, J. Dunkers, M.Y. Chiang, J.A. Tesk, M. Cicerone, M.J. Yaszemski, “Permeability of polymeric scaffolds with defined pore micro-architecture and interconnectivity fabricated by solid free-form fabrication,” in N.A. Peppas, K. Anseth, A.K. Dillow and C.E. Schmidt, eds., Advances in Biomaterials, Bionanotechnology, Biomimetic Systems and Tissue Engineering, pp. 219-221, AIChE, New York, NY (2004).


33. E. Jabbari, A.V. Florschutz, L. Lu, N. Liu, L.G. Pedersen, D.H.R. Kempen, B.L. Currier, M.J. Yaszemski, “PLGA Microspheres Embedded in Porous Biodegradable Scaffold as a Delivery Vehicle for Sustained Release of Recombinant Human Bone Morphogenetic Protein-2 (rhBMP-2),” in N.A. Peppas, K. Anseth, A.K. Dillow and C.E. Schmidt, eds., Advances in Biomaterials, Bionanotechnology, Biomimetic Systems and Tissue Engineering, pp. 55-57, AIChE, New York, NY (2004).


32. E. Jabbari, T.E. Hefferan, L. Lu, L.G. Pedersen, B.L. Currier, M.J. Yaszemski, “In vitro migration and proliferation of human osteoblasts in injectable in situ crosslinkable poly(caprolactone fumarate) scaffolds,” in N.A. Peppas, K. Anseth, A.K. Dillow and C.E. Schmidt, eds., Advances in Biomaterials, Bionanotechnology, Biomimetic Systems and Tissue Engineering, pp. 55-57, AIChE, New York, NY (2004).


31. E. Jabbari, J.A. Gruetzmacher, L. Lu, B.L. Currier, M.J. Yaszemski, “Effect of macromer grafted nano-hydroxyapatite on compressive mechanical properties of poly(propylene fumarate) scaffolds,” Trans. Soc. Biomaterials, 986 (2004).


30. M.J. Moore, E. Jabbari, E.L. Ritman, L. Lu, B.L. Currier, M.J. Yaszemski, “Investigating scaffold interconnectivity with micro-CT and image analysis,” Trans. Soc. Biomaterials, p. 1646 (2004).


29. E. Jabbari, M.L. Ceridon, T.E. Hefferan, L.G. Pedersen, L. Lu, B.L. Currier, M.J. Yaszemski, “Evaluation of cytocompatibility of a novel poly(caprolactone fumarate) injectable scaffold with human fetal osteoblast cells,” Trans. Soc. Biomaterials, p. 1061 (2004).


28. E. Jabbari, K.-W. Lee, A.C. Ellison, M.J. Moore, J.A. Tesk, M.J. Yaszemski, “Fabrication of shape specific biodegradable porous polymeric scaffolds with controlled interconnectivity by solid free-form microprinting,” Trans. Soc. Biomaterials, p. 1348 (2004).


27. E. Jabbari, A.V. Florschutz, L.G. Petersen, N. Liu, L. Lu, B.L. Currier, M.J. Yaszemski, “Release characteristics of recombinant human bone morphogenic protein-2 from PLGA microspheres embedded in a poly(propylene fumarate) porous scaffold,” Trans. Soc. Biomaterials, p. 512 (2004).


26. J.S. Temenoff, H. Park, E. Jabbari, T.L. Sheffield, R.G. LeBaron, C.G. Ambrose, A.G. Mikos, “Swelling of fumarate based hydrogels affects osteogenic differentiation of embedded marrow stromal cells,” Trans. Soc. Biomaterials, p. 899 (2004).


25. E. Jabbari, J.A. Gruetzmacher, L. Lu, B.L. Currier, and M.J. Yaszemski, “Development of a novel self-crosslinkable poly(caprolactone fumarate) as a biodegradable and injectable scaffold for bone tissue engineering,” Trans. IEEE Med. Biol., pp. 1219-1222, (2003).


24. E. Jabbari, “Encapsulation and mineralization of marrow stromal cells in synthetic biodegradable and in situ crosslinkable hydrogels”, Proceed. Int. Symp. Microencapsulation, pp. 54-55 (2003).


23. E. Jabbari, “Encapsulation of a model double stranded plasmid dna from synthetic and biodegradable poly(ethylene glycol fumarate) hydrogel microspheres”, Proceed. Int. Symp. Microencapsulation, pp. 56-57 (2003).


22. Y. Mohammadi, A. Nezhad-Najaf, E. Jabbari, “Hydrophobicity effects of crosslinking agent on swelling behavior of poly (acrylic acid) hydrogels in electrical fields,” ISPST Proceed., p. 346 (2003).


21. S. Sharifi, Y. Mohammadi, E. Jabbari, “Synthesis of poly (acrylic acid) nanoparticles as drug delivery carriers,” ISPST Proceed., p. 355 (2003).


20. K. Bamdad-Farrokh, T. Naeimi, Y. Mohammadi, E. Jabbari, “Preparation and characterization of pH-responsive poly(methacrylic acid-g-ethylene glycol) nanogels,” ISPST Proceed., p. 359 (2003).


19. H.A. Argadine, E. Jabbari, R. Talac, B.L. Currier, Lichun Lu, M.J. Yaszemski, “The assessment of interconnectivity of tissue engineering scaffolds using hydraulic permeability”, Trans. Soc. Biomaterials, pp. 636-637 (2003).


18. E. Jabbari, “Swelling behavior and cytotoxicity of poly(vinyl alcohol) hydrogel grafted with n-vinyl pyrrolidinone or acrylic acid”, Trans. Soc. Biomaterials, p. 576 (2002).


17. E. Jabbari, S. Kheirandish, “Increased fluid solid friction coefficient of silicone rubber poly(acrylic acid) composite due to change of polarity upon addition of hydrogel”, Proceed. Asian Symp. Biomed. Mater., #C6 (2001).


16. E. Jabbari, S. Karbasi, A. Alavi, “Effect of grafting N-vinyl pyrollidone or acrylic acid on cytotoxicity and water content of crosslinked poly(vinyl alcohol) as artificial cartilage”, Proceed. Asian Symp. Biomed. Mater., #H19 (2001).


15. S. Karbasi, E. Jabbari, F. Moztarzadeh, “Investigation of the effect of acrylic acid grafting by gamma radiation on porous PVA gels on swelling and dynamic mechanical properties”, Proceed. 6th Nat. Chem. Eng. Cong, Isfahan, Iran, pp. 459-465 (2001).


14. S. Karbasi, E. Jabbari, S. Alavi, “Investigation of biocompatibility of the acrylic acid grafted PVA hydrogel as an artificial cartilage”, Proceed. 6th Nat. Chem. Eng. Cong., Isfahan, Iran, pp. 369-375 (2001).


13. S. Kheirandish, E. Jabbari, H.Mirzadeh, “Variation of equilibrium water content of silicone rubber poly(acrylic acid) particulate composite with hydrogel content”, Proceed. Int’l Symp. Control. Rel. Bioact. Mater., #5130 (2001).


12. E. Jabbari, A. Tolu-Kouroshi, “Effect of pH and extent of crosslinking on swelling pressure of anionic acrylic acid hydrogel”, Proceed. Int’l Symp. Control. Rel. Bioact. Mater., #5132 (2001).


11. E. Jabbari, “Microstructure and release behavior of polyurea microcapsules prepared by the method of interfacial polycondensation”, Proceed. Int’l Symp. Control. Rel. Bioact. Mater., #616 (2001).


10. E. Jabbari, A. Arabi, “Effect of mesh size of the network on mucoadhesion of polyacrylic acid hydrogel to the intestinal mucosa in simulated physiological conditions”, Proceed. Int’l Symp. Control. Rel. Bioact. Mater., #5131 (2001).


9. H.-R. Daghyani, F. Farmanzad, E. Jabbari, ”Finite element modeling of bone fixed with composite plate”, Proceed. Asian-Australasian Conf. Composite Mater. , pp. 961-964 (2000).


8. E. Jabbari, J. Tavakoli, “Effect of electric field on swelling of anionic acrylic acid hydrogels”, Proceed. Int’l Symp. Control. Rel. Bioact. Mater., pp. 682-683 (2000).


7. E. Jabbari, J. Tavakoli, “Release behavior of nitroglycerin from a micro-reservoir transdermal delivery device”, Proceed. Int’l Symp. Control. Rel. Bioact. Mater., pp. 958-959 (2000).


6. E. Jabbari, A. Jan Nesari, “Encapsulation and controlled release of antifouling agent tributyl tin chloride by complex coacervation”, Proceed. Int’l Symp. Control. Rel. Bioact. Mater., pp. 1170-71 (2000).


5. E. Jabbari, F. Farmanzad, H.-R. Daghyani, “Finite element analysis of the effect of geometry on mechanical design of low modulus plastic orthopedic plates”, Proceed. Conf. Eur. Soc. Biomech., p. 374 (2000).


4. E. Jabbari, M. Khalili, Effect of strain rate on mucoadhesion of synthetic hydrogels to the surface of small intestine, Proceed. Int’l Symp. Control. Rel. Bioact. Mater., pp. 313-314 (1999).


3. E. Jabbari, M. Etemadi, “Effect of swelling on mucoadhesion of anionic acrylic acid hydrogel to the surface of small intestine”, Proceed. Int’l Symp. Control. Rel. Bioact. Mater., pp. 311-312 (1999).


2. E. Jabbari, M. Khakpour, “Effect of chain extending agent on morphology of porous polyurethane microspheres”, Proceed. Int’l Symp. Control. Rel. Bioact. Mater., pp. 212-213 (1999).


1. E. Jabbari, N.A. Peppas, “Interfacial adhesion of poly(vinyl chloride) and poly(ethyl methacrylate)”, Proc. Adhes. Soc., 15, pp. 113-114 (1992).

 

PRESENTATIONS AT NATIONAL AND INTERNATIONAL MEETINGS

125. “Sustained in situ delivery of rhBMP-2 by conjugation to novel biodegradable nanoparticles”, Society for Biomaterials 2008 Translational Biomaterial Research Symposium, Saturday, September 13, 2008 (paper# 276; 2:45-4:15 PM).


124. “Biodegradable self-assembled nanoparticles for targeted delivery of Paclitaxel to tumor cells”, Society for Biomaterials 2008 Translational Biomaterial Research Symposium, Musculoskeletal Applications session, Saturday, September 13, 2008 (paper# 152; 3:35-4:30 PM).


123. “Modulation of osteogenic and vasculogenic differentiation of stromal cells in a collagen scaffold”, Society for Biomaterials 2008 Translational Biomaterial Research Symposium, Friday, September 12, 2008 (paper# 275; 2:45-4:15 PM).


122. “BMP-2 peptide grafted to a degradable substrate enhances osteogenic differentiation of stromal cells”, Society for Biomaterials 2008 Translational Biomaterial Research Symposium, Musculoskeletal Applications session, Saturday, September 13, 2008 (paper# 280; 2:30-4:00 PM).


121. “Release characteristics of rhBMP-2 from self-assembled biodegradable PLEOF nanoparticles”, 35th Controlled Release Society Annual Meeting, New York, NY, Monday, July 14, 2008 (paper# 324; 14:00-15:00 PM).


120. “Cytotoxicity of Paclitaxel in biodegradable self-assembled core-shell PLGEOF nanoparticles”, 35th Controlled Release Society Annual Meeting, New York, NY, Tuesday, July 15, 2008 (paper# 622; 13:00-14:00 PM).


119. “Quantification of membrane adhesion on ligand gradient substrates”, 8th World Biomaterials Conference, Modeling session, Amsterdam, The Netherlands, May 31, 2008 (paper# 1830.00).


118. “Morphology of rat bone marrow stromal cells on aligned electrospun biodegradable fibers”, Amsterdam, The Netherlands, May 29, 2008 (paper# 1829.00).
 

117. “Biodegradable self-assembled nanoparticles for targeted delivery of Paclitaxel to tumor cells”, 8th World Biomaterials Conference, Micro/Nanoparticles for drug delivery session, Amsterdam, The Netherlands, June 1, 2008 (paper# 1827.00; 10:30-12:00).
 

116. ‘The role of polymer-particle interactions on the viscoelastic properties of polymer nanocomposites”, Materials Research Society Meeting, Symposium HH: Nanophase and Nanocomposite Materials V, Boston, MA, Tuesday, November 27, 2007 (8:00 PM, HH8.29).


115. “Effect of ligand density gradient on the adhesion kinetics of biological membranes”, Materials Research Society Meeting, Symposium OO: Solids at biological interfaces, Boston, MA, Monday, November 26, 2007 (11.45 AM, OO1.10).


114. “Synthesis of degradable nanotubes by tubulin template polymerization”, AIChE Annual Meeting, Salt Lake City, UT, Thursday, November 8, 2007, Thursday (12:30 PM, session#599a, Nanostructured Biomaterials (08B12)).


113. “Release behavior of paclitaxel from self-assembled degradable nanoparticles”, AIChE Annual Meeting,