Location: Event DetailsDate/Time: Wednesday January 30, 2013 4:00 pm - 5:00 pm Location: Atlanta, GAPhone: (404) 894-1838 Email: events@chbe.gatech.eduFee(s): N/A Extras: Free food! Contact: ChBE Communications (404) 894-1838 events@chbe.gatech.edu Description: In addition to its annual lectures, ChBE hosts a weekly seminar throughout the year with invited lecturers who are prominent in their fields. Unless otherwise noted, all seminars are held on Wednesdays in the Molecular Science and Engineering Building ("M" Building) in G011 (Cherry Logan Emerson Lecture Theater) at 4:00 p.m. Refreshments are served at 3:30 p.m. in the Emerson-Lewis Reception Salon._______________Of Mice and Men: Computational models to investigate anti-angiogenic cancer therapies targeting the VEGF pathwayAngiogenesis, the formation of new blood vessels from pre-existing vasculature, is a tightly regulated biological process involved in physiological function such as wound healing and exercise, as well as in pathological conditions, including preeclampsia, ischemic heart disease, and cancer. Inducing angiogenesis is a hallmark of cancer, as tumors cannot grow beyond 1 mm in diameter without eliciting the formation of blood capillaries to supply oxygen and other nutrients. Vascular endothelial growth factor (VEGF) is a key regulator of angiogenesis and its role in cancer biology has been widely studied. Given the action of VEGF in promoting angiogenesis, it has been targeted in various cancer treatments.Systems biology approaches, including experiment-based computational modeling, are useful in gaining insight into the complexity of tumor angiogenesis. These models provide a framework to test biological hypotheses and optimize effective therapies that aim to inhibit tumor vascularization and growth. Here, I describe the development of whole-body, molecular-detailed compartment models of VEGF kinetics and transport in mice and humans and the application of these models to predict the effect of various anti-angiogenic therapies that inhibit VEGF. The mouse model has been fit to available experimental data and complements pre-clinical drug studies, and the human model is applied to interpret clinical data. Both models reproduce experimental observations and predict the dynamics of VEGF in the body. Importantly, the models simulate the effects of intravenous administration of anti-VEGF agents. The model predictions are relevant to the clinical application of VEGF-targeting therapies and generate testable hypotheses that can aid in elucidating the mechanism of action of anti-VEGF agents. This work is useful for the development and optimization of personalized cancer treatment strategies that target the VEGF pathway. Related Links ChBE Seminar Series Established in 1901, the School of Chemical & Biomolecular Engineering (ChBE) is one of eight schools in the College of Engineering at the Georgia Institute of Technology. Ranked among the top ten engineering programs in the nation, the school is also one of the oldest and most diverse programs. With 800 undergraduates, 200 graduate students, and more than 40 full-time faculty members, it is also one of the largest. ChBE faculty members are involved in 13 comprehensive areas of education, research, and commercialization with a strategic focus on energy and sustainability, biotechnology, materials and nanotechnology, and complex systems.