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©Copyright 2007
Stevens Institute of Technology

 
 
        
Dr. Xiaojun Yu
Dr. Xiaojun Yu
Assistant Professor, Biomedical Engineering
School:  Schaefer School of Engineering & Science
Department:  Chemistry, Chemical Biology & Biomedical Engineering
Program:  Biomedical Engineering

Location:517 McLean Building
Phone:201.216.5256
Fax:201.216.8306
Email:xyu@stevens.edu
Courses:
BME 602 BME 685  

Research & Education
Research

Dr. Yu's primary research interests focus on tissue engineering, polymeric biomaterials and drug delivery. His current research activities include nano- and micro-scale functionalization of biomimic three-dimensional scaffolds for neural and musculoskeletal tissue repair and regeneration, investigation of cell and material interactions in bioreactors, development of controlled release systems for the delivery of growth factors and drugs, manipulation of microenvironment for stem cell proliferation and differentiation.

               Visit the Yu Laboratory

   
Education
  • Ph.D. (Biomedical Engineering), Case Western Reserve University, Cleveland, OH, 01/2002
  • M.S. (Biomedical Engineering), Peking Union Medical College), Beijing, China, 11/92
  • B.E. (Polymeric Materials and Chemical Engineering), Tsinghua University, Beijing, China. 07/89
Experience & Service
Experience
  • Assistant Professor (06/05-present), Biomedical Engineering, Stevens Institute of Technology, Hoboken, NJ
  • Research Associate (04/03-06/05), Department of Orthopaedic Surgery, University of Virginia, Charlottesville, VA
  • Research PostDoc Associate (11/01-03/03), Department of Chemical Engineering, Drexel University, Philadelphia, PA
Achievements & Professional Societies
Professional Societies
The Society For Biomaterials. The Materials Research Society.
   
Grants, Contracts & Funds

      AO Research Fund Award 

AOF Foundation

Selected Publications
Book Chapters

  • Yu. X, Chandra M. Valmikinathan, Junping wang, Amanda Rogers and John Hoffman. (2009). "Electrospun nanofibers for bioengineering applications (In Press)", “Encyclopedia of Nanoscience and Nanotechnology” (second edition). , Nalwa HS, American Scientific Publishers.


  • Yu, X., Chandra Valmikinathan, Amada Rogers and Junping Wang.. (2007). "Nanotechnology based drug delivery ", Biomedical nanostructures, Gonsalves KE, Laurencin CT, Halberstadt C, Nair LS, John Wiley & Sons, Inc. . 91-112.


    • Journals

  • Seher Ozkan, Dilhan M. Kalyon and Yu, X.. (2009). "Functionally graded TCP/PCL nanocomposite scaffolds: In vitro evaluation with human fetal osteoblast cells for bone tissue engineering (In Press)", Journal of Biomedical Materials Research Part A.


  • Chandra M. Valmikinathan, Junping Wang, Sergio Smiriglio, Neha G. Golwala, and Xiaojun Yu.. (2009). "Magnetically induced protein gradients on electrospun nanofibers. ", Combinatorial Chemistry & High Throughput Screening (In Press).


  • Nebahat Degirmenbasi, Seher Ozkan, Dilhan M. Kalyon and Yu, X.. (2009). "Surface patterning of poly (L-lactide) upon melt processing: in vitro culturing of fibroblasts and osteoblasts on surfaces ranging from highly crystalline with spherulitic protrusions to amorphous with nanoscale indentations. ", Journal of Biomedical Materials Research PartA. . 88 (1), 94-104.


  • Chandra M Valmikinathan, Jingjing Tian, Junping Wang, and Yu X. (2008). "Novel nanofibrous spiral scaffolds for neural tissue engineering.", Journal of Neural Engineering. 5 422-432.


  • Laurencin CT, Khan Y, Kofron M, El-Amin S, Botchwey E, Yu X, Cooper JA Jr. (2006). "The ABJS Nicolas Andry Award: Tissue engineering of bone and ligament: a 15-year perspective (review) ", Clin Orthop Relat Res. , 447 221-236.


  • X. Yu, E.A. Botchwey, E.M. Levine, S.R. Pollack and C.T. Laurencin.. (2004). "Bioreactor-based bone tissue engineering: the influence of dynamic flow on osteoblast phenotype expression and matrix mineralization", Proc Natl Acad Sci USA. 101 (31), 11203-8.


  • X. Yu and R.V. Bellamkonda.. (2003). "Tissue-engineered scaffolds are effective alternatives to autografts for bridging peripheral nerve gaps. ", Tissue Engineering. 9 (3), 421-430.


  • X. Yu and R.V. Bellamkonda. (2001). "Dorsal root ganglia neurite extension across mechanical and charged interfaces.", Journal of Neuroscience Research, (66), 303-310.


  • A.P. Balgude, X. Yu, A. Szymanski and R.V. Bellamkonda. (2001). "Agarose gel stiffness determines rate of DRG neurite extension in 3D cultures.", Biomaterials. 22 (10), 1077-1084.


  • N.J. Meilander, X. Yu, N.P. Ziats and R.V. Bellamkonda. (2001). "Lipid-based microtubular drug delivery vehicles", J Control Release. 71 (1), 141-152.


  • Y. Zhong, X. Yu, R. Gilbert, R.V. Bellamkonda. (2001). "Stabilizing electrode-host interfaces: a tissue engineering approach.", Journal of Rehabilitation Research and Development, 38 (6), 627-632.


  • G.P. Dillon, X. Yu and R.V. Bellamkonda. (2000). "The polarity and magnitude of ambient charge influences three-dimensional neurite extension from DRGs", Journal of Biomedical Materials Research, 51 (3), 510-519.


  • D.A. Eavarone, X. Yu and R.V. Bellamkonda. (2000). "Receptor-mediated targeting of C6 glioma by transferrin-coupled liposomes.", Journal of Biomedical Materials Research, 51 (1), 10-14.


  • X. Yu, G.P. Dillon and R.V. Bellamkonda. (1999). "A laminin and nerve growth factor laden 3D matrix for enhanced neurite extension.", Tissue Engineering. 5 (4), 291-304.


  • G.P. Dillon, X. Yu, A. Sridharran, J.P. Ranieri and R.V. Bellamkonda. (1998). "The influence of physical structure and charge on neurite extension in a 3D hydrogel scaffold.", Journal of Biomaterials Science: Polymer Edition 9, 1015-1114.


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