Biography

Dr. Teja Guda

Department of Biomedical Engineering

University of Texas at San Antonio, USA

Assistant Professor of Research


Email: teja.guda@utsa.edu


Qualifications

2008 Ph.D., University of Texas at San Antonio/University of Texas Health Science Center at San Antonio, USA, Biomedical Engineering

2004 B.Tech., Indian Institute of Technology, India, Mechanical Engineering


Publications (selected)

  1. Guda T., Walker J.A., Singleton B., Hernandez J., Son J-S., Kim S-G., Appleford M.R., Oh S., Ong J.L., Wenke J.C. (2012), Enhancing bone regeneration in vivo with HA scaffolds using Collagen membrane guide , Tissue Engineering A, In Press.
  2. Shiels S., Oh D.S., Bae C-S., Guda T., Singleton B., Dean D.D., Wenke J.C., Appleford M.R., Ong J.L.. (2012), Evaluation of BMP-2 tethered polyelectrolyte coatings on HAp scaffolds in vivo, Journal of Biomedical Materials Research B, 100B, 7, 1782-1791.
  3. Cornejo A., Sahar D.E., Stephenson S.M., Chang S., Nguyen S., T. Guda, Wenke J.C., Vazquez A., Michalek J.E., Sharma R., Krishnegowda N.K., Wang H.T. (2012), Effect of Adipose Tissue-Derived Osteogenic and Endothelial Cells on Bone Allograft Osteogenesis and Vascularization in Critical-Sized Calvarial Defects”, Tissue Engineering A, 18, 15-16, 1552-1561.
  4. Guda T., Oh S., Appleford M., Ong J.L. (2012) , Bilayer hydroxyapatite scaffolds for maxillofacial bone tissue engineering, International Journal of Oral and Maxillofacial Implants, 27, 2, 288-294.
  5. Dumas J.E., Brown-Baer P.B., Prieto E.M., Guda T., Hale R.G., Wenke J.C., Guelcher S.A. (2012), Injectable Reactive Biocomposites for Bone Healing in Critical-size Rabbit Calvarial Defects, Biomedical Materials, 2012, 7, 2, 024112.
  6. Brown K.V., Li B., Guda T., Perrien D.S., Guelcher S.A., Wenke J.C. (2011), Improving bone formation in a rat femur segmental defect by controlling BMP-2 release, Tissue Engineering A, 17, 13-14, 1735-1746.
  7. Guelcher S.A., Brown K.V., Li B., Guda T., Lee B-H., Wenke J.C. (2011), Dual-Purpose Bone Grafts Reduce Infection and Improve Healing, Journal of Orthopedic Trauma, 25, 8, 477-82.
  8. Guda T., Walker J.A., Pollot B.E., Appleford M.R., Oh S., Ong J.L., Wenke J.C. (2011) , In vivo performance of bilayer hydroxyapatite scaffolds for bone tissue regeneration in the rabbit radius model, Journal of Materials Science: Materials in Medicine, 22, 3, 647-56.
  9. Son J.S., Guda T., Appleford M., Ong J.L., Park K., Han D.K., Oh S. (2009), Structure and characteristics of Novel Hydroxyapatite/Polylactide Bi-layered Porous Scaffold for Bone Regeneration, Tissue Engineering and Regenerative Medicine, 6, 13, 1241-1251.
  10. Chesnutt B.M., Viano A.M., Yuan Y., Yang Y., Ong J.L., Guda T., Haggard W.O., Bumgardner J.D. (2009) Design and Characterization of a Novel Chitosan/ Nanocrystalline Calcium Phosphate Composite Scaffold for Bone Regeneration, Journal of Biomedical Materials Research A, 88, 2, 491-502.
  11. Dong X.N., Guda T., Millwater H.R., Wang X. (2009), Probabilistic failure analysis of bone using a finite element model of mineral-collagen composites, Journal of Biomechanics, 42, 4, 202-209.
  12. Guda T., Appleford M., Oh S., Ong J.L. (2008), A cellular perspective to bioceramic scaffolds for bone tissue engineering: the state of the art, Current Topics in Medicinal Chemistry, 8, 4, 290-299.
  13. Guda T., Ross T.A., Lang L.A., Millwater H. (2008) Probabilistic analysis of preload developed in dental implant abutment screws, Journal of Prosthetic Dentistry, 100, 3, 183-193.
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