Robert D. Stewart
Purdue University
E-mail: trebor@purdue.edu
Website: http://rh.healthsciences.purdue.edu/faculty/rds.html

Currently Funded Projects:

Modeling: Towards Constructing and Testing a Virtual Tissue

Kinetic Modeling of Damage Repair, Genome Instability, and Neoplastic Transformation

Technical Abstracts:

• 2005 Workshops:
  Implications of Intercellular Signaling for the Shapes of Dose-Response Relationships
  Stewart, R.D. and Ratnayake, R.K.
  
• 2003 Workshops:
  A Fast Monte Carlo Algorithm to Simulate the Spectrum of DNA Damages
  Formed by Ionizing Radiation
  Semenenko, V.A. and Stewart, R.D.
  
  A Working Hypothesis for Data Analysis and Model Construction:
  Bottom-Up Modeling of the Health Effects of Low Doses of Ionizing Radiation
  Stewart, R.D., Jennings, K., and Semenenko, V.A.
  
  Monte Carlo Simulation of the Base and Nucleotide Excision Repair of Multiply Damaged DNA Sites
  Semenenko, V.A., Stewart, R.D., and Ackerman, E.J.
  
• 2002 Workshop:
  Modeling Bystander Effects Using a Microdosimetric Approach
  Stewart, R.D., Ackerman, E.J., Shultis, J.K., and Lei, X.C.

Publications:

Stewart, R ., D., Ratnayake, R.K., and Jennings, K. (2006) Microdosimetric model for the induction of cell killing through medium-borne signals. Radiation Research 165(4):460-469.

Schöllnberger, H., Stewart, R.D., and Mitchel, R.E.J. (2005) Low-LET induced radioprotective mechanisms within a stochastic two-stage cancer model. Dose-Response 3(4):508-518.

Ratnayake, R.K., Semenenko, V.A., and Stewart, R.D. (2005) Retrospective analysis of DSB rejoining data collected using warm-lysis PFGE protocols. International J. of Radiation Biology 81(6):421-428.

Semenenko, V.A. and Stewart, R.D. (2005) Monte Carlo simulation of base and nucleotide excision repair of clustered DNA damage sites: II. Comparisons of model predictions to measured data. Radiation Research 164(2):194-201.

Semenenko, V.A., Stewart, R.D., Ackerman, E.J. (2005) Monte Carlo simulation of base and nucleotide excision repair of clustered DNA damage sites: I. Model properties and predicted trends. Radiation Research 164(2):180-193.

Schöllnberger, H., Stewart, R.D., Mitchel, R.E.J., and Hofmann, W. (2004) An examination of radiation hormesis mechanisms using a multi-stage carcinogenesis model. Nonlinearity in Biology, Toxicology and Medicine 2:317-352.

Semenenko, V.A. and Stewart, R.D. (2004) A fast Monte Carlo algorithm to simulate the spectrum of DNA damages formed by ionizing radiation. Radiation Research 161(4):451–457.

Guerrero, M., Stewart, R.D., Wang J., and Li, X.A. (2002) Equivalence of the linear-quadratic and two-lesion kinetic models. Phys. Med. Biol. 47(17):3197-3209.

Presentations:

"Biologically-Based Modeling of Human Health Effects of Low Dose Ionizing Radiation," In: Application of DNA damage and pathway-specific repair models to radiation mutagenesis. Fred Hutchinson Cancer Research Center, Seattle, WA., July 2005.