The focus of my investigations is to build personalized mathematical models of the biophysical mechanisms underlying cancer growth and therapeutic response, with which I can make patient-specific forecasts of tumor prognosis using computer simulations. I believe that this predictive approach can dramatically contribute to advance clinical practice in oncology by delivering personalized solutions aiming at optimizing clinical outcomes for each patient.
I also work in modeling the mechanisms of development, treatment, and spread of other pathologies. Additionally, I am interested in constructing robust computational methods to efficiently and accurately solve my models in clinically-relevant times.
Thanks to a Ramón y Cajal Fellowship from the Spanish Ministry of Science, Innovation, and Universities, I am currently working at the Group of Numerical Methods in Engineering in the Department of Mathematics of the University of A Coruña in Spain. Additionally, I am a research affiliate at the Center for Computational Oncology at the Oden Institute in The University of Texas at Austin.
Check out my research below and feel free to contact me if you are interested in discussing my work or any of the topics in this webpage. I am always open to new collaborations, delivering academic and popular science talks, or having a drink to talk science and else.
Research
Patient-specific, imaging-based forecasting of prostate cancer growth
This research aims at integrating standard clinical and imaging data from individual patients into mathematical models to enable the prediction of tumor growth using computer simulations
Personalized prediction of PSA dynamics after external radiotherapy of prostate cancer
Exploring the biophysical mechanisms underlying PSA dynamics after external radiotherapy to define new biomarkers for the early identification of relapse
Optimal control of therapeutic regimens for advanced prostate cancer
This work aims at finding optimal combinations of cytotoxic and antiangiogenic therapies to treat advanced prostatic tumors by combining mathematical analysis and computer simulations
Personalized prediction of breast cancer response to neoadjuvant therapies by using biophysical models parameterized with patient-specific imaging data and constrained by comprehensive pharmacodynamic experimental data
Data-driven mechanistic models to forecast COVID-19 outbreaks
Constructing mathematical models to understand and predict the dynamics of COVID-19 infectious spread based on longitudinal epidemiological data series
Publications
G. Lorenzo, S.R. Ahmed, D.A. Hormuth II, B. Vaughn, J. Kalpathy-Cramer, L. Solorio, T.E. Yankeelov, H. Gomez
Annual Review of Biomedical Engineering, vol. 26, pp. 529-560
Orhun O Davarci, Emily Y Yang, Alexander Viguerie, Thomas E Yankeelov, Guillermo Lorenzo
Engineering with Computers, vol. 40, 2024, pp. 813–837
E. Beretta, C. Cavaterra, M. Fornoni, G. Lorenzo, E. Rocca
SIAM Journal on Applied Mathematics, vol. 84(5), 2024, pp. 2000-2027
Guillermo Lorenzo, Jon S Heiselman, Michael A Liss, Michael I Miga, Hector Gomez, Thomas E Yankeelov, Alessandro Reali, Thomas JR Hughes
Cancer Research Communications, vol. 4, 2024, pp. 617-633
Guillermo Lorenzo, Angela M Jarrett, Christian T Meyer, Julie C DiCarlo, John Virostko, Vito Quaranta, Darren R Tyson, Thomas E Yankeelov
Engineering with Computers, vol. 40, 2024, pp. 1469-1499
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Pages
List of my experience in teaching university courses and supervising students
Contact
[Contact picture]
Guillermo Lorenzo, PhD
Ramón y Cajal Research Fellow
Group of Numerical Methods in Engineering, Department of Mathematics
Grupo de Métodos Numéricos en Enxeñaría
ETSE de Enxeñaría de Camiños, Canais e Portos
Campus de Elviña s/n
15008 A Coruña
Spain