Associate Professor of Biomedical Engineering
Phone: (504) 314-2441
531 Lindy Boggs Building
Department of Biomedical Engineering
New Orleans, LA 70118
My research interests are broad, including a number of areas in biomaterials and biomechanics. My doctoral research concerned the histological and mechanical evaluation of bone ingrowth and appositional attachment mechanisms to porous coated Ti-6,4 and LTI carbon femoral endoprostheses using the canine model. I have also directed projects involving bone attachment to ceramic and carbon dental implants, retrieved porous coated implants in the human, metallurgical evaluations of retrieved stainless steel intramedullary rods, qualitative evaluation of articular cartilage wear against Ti-6,4, carbon, silicone, and zirconia hemiarthroplasties, and tissue reaction studies in response to Bion and hydroxylapatite in canine and rat models. Also, I am directing a project involving dynamic finite element analysis of the human head-neck response to indirect impact that is based on depicting the primary interacting motion segment anatomical structures driven by motion segment kinematic data obtained from analysis of cadaveric human head-neck specimens.
While my research interests remain broad, I have begun a more focused effort to develop computational models of the soft tissue structures of the eye, including those potentially related to glaucoma. Recent, on-going, and planned investigations include modeling the disinsertion of the optic nerve head, the use of applanation tonometry to measure aqueous outflow, the development of modeling techniques to represent ciliary body – zonule contraction during accommodation, including potential effects on the strain field around the canal of Schlemm, as well as the development of techniques to represent residual strains and their effects in various ocular tissues. I am also a co-investigator on an NSF grant to develop aids for the disabled.
Fall: BMEN 3932/6932 - Elements of BMEN Design
Fall: BMEN 4910 - Research & Prof Practice II
Fall: BMEN 6310 - Continuum Models in BMEN
Spring: BMEN 4900 - Research & Prof Practice I
Spring: BMEN 6790 - Design Studio
Spring: BMEN 6791 - Design Studio Lab
Anderson, R.C., Cook, S.D., Skinner, H.B., Weinstein, A.M., and Haddad, R.J., "An Evaluation of Skeletal Attachment to LTI Pyrolytic Carbon, Porous Titanium and Carbon-Coated Porous Titanium Implants," Clinical Orthopaedics and Related Research, n182, 298-313, 1984.
Cook, S.D., Brinker, M.R., Anderson, R.C., Tomlinson, R.J., and Butler, J.C., "Performance of Retrieved Kuntscher Intramedullary Rods: Improved Corrosion Resistance with Contemporary Material Design," Clinical Materials, n5, p53, 1990.
Voor, M.J., Anderson, R.C., and Hart, R.T.,”Stress Analysis of Halo Pin Insertion by Nonlinear Finite Element Modeling,” Journal of Biomechanics, v 30, n9, 1997
Villarraga, M.L., R.C. Anderson, R.T. Hart and D.H.Dinh, Contact Analysis of a Posterior Cervical Spine Plate Using a Three-Dimensional Canine Finite Element Model, Journal of Biomechanical Engineering,v121, n2, 1999.
Anderson, R.C., Burgoyne, C.F., Downs, J.C., and Hart, R.T., “Finite Element Modeling of Anterior Laminar Disinsertion in Early Experimental Glaucoma,” poster presentation, ARVO, Ft. Lauderdale, April, 2004
Anderson, R.C., and Rice, D.A., National Science Foundation 1992: Engineering Senior Design Projects To Aid The Disabled; Chapter 14, ed. J.D. Enderle, North Dakota State University Press, 2006.
Lindy Boggs Center Suite 500, Tulane University, New Orleans, LA 70118 504-865-5897 email@example.com