Jan Medlock
Postdoctoral Associate
Yale University
School of Medicine
Epidemiology and Public Health
Epidemiology of Microbial Diseases
Galvani Group
jan.medlock@yale.edu
60 College Street
Office Number 501F
P.O. Box 208034
New Haven, Connecticut 06520-8034
USA
(203)785-2610
(203)785-3260 (fax)
Curriculum Vitae
- Curriculum Vitae (PDF)
Publications
- T.C. Reluga, J. Medlock, & A.S. Perelson. Backward bifurcations and multiple equilibria in epidemic models with structured immunity. Journal of Theoretical Biology, 252: 155–165, 2008.
- C. Hu, R.V.M. Rio, J. Medlock, L.R. Haines, D. Nayduch, A.F. Savage, N. Guz, G.M. Attardo, T.W. Pearson, A.P. Galvani, & S. Aksoy. The fitness cost of harboring an immunogenic parasite: tsetse–trypanosome interactions. PLoS Neglected Tropical Diseases, 2(3): e192, 2008.
- T.C. Reluga, J. Medlock, E. Poolman, & A.P. Galvani. Optimal timing of disease transmission in an age-structured population. Bulletin of Mathematical Biology, 68(8): 2711–2722, 2007.
- T.C. Reluga & J. Medlock. Resistance mechanisms matter in SIR models (PDF). Mathematical Biosciences and Engineering, 4(3): 553–563, 2007.
- A.P. Galvani, J. Medlock, & G.B. Chapman. The ethics of influenza vaccination. Science, 313(5788): 758–759, 2006.
- T.C. Reluga, J. Medlock, & A.P. Galvani. A model of spatial epidemic spread when individuals move within overlapping home ranges. Bulletin for Mathematical Biology, 68(2): 401–416, 2006.
- M. Kot, J. Medlock, T.C. Reluga, & B.D. Walton. Stochasticity, invasions, and branching random walks. Theoretical Population Biology, 66: 175–184, 2004.
- J. Medlock & M. Kot. Spreading disease: Integro-differential equations old and new Mathematical Biosciences, 184(2): 201–222, 2003.
Talks
- A talk entitled "Integro-differential–equation models for infectious disease" (PDF) I gave at Worcester Polytechnic Institute about models for the spatial spread of infectious diseases.
- A talk entitled "Mathematical modeling of epidemics" (PDF) that I gave in the ACMS Seminar at UW, in the Math Department at Bucknell University, and in the Mathematical Biology Seminar at UW. The talk is a basic overview of epidemic models.
- A talk entitled "Making flashy presentations with LaTeX" I gave in the Graduate Student Seminar at UW. It shows how to make somewhat flashy presentations with graphics, backgrounds, page transitions, etc. using LaTeX, FoilTeX, PDFTeX and PPower4.
- A talk entitled "Some stochastic SIR models for HIV" (PDF) that I gave in the Graduate Student Seminar at UW on research I did mostly at Los Alamos National Lab.
Theses
- My Ph.D. thesis entitled "Integro-differential–Equation Models in Ecology and Epidemiology" (PDF).
- My master's thesis entitled "The effect of stochastic migration on an SIR model for the transmission of HIV" (PDF).