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Lung Cancer. By: Phillip Pulley David Shaw Paul Farag. Lung Cancer.
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Lung Cancer By: Phillip Pulley David Shaw Paul Farag
Lung Cancer Lung cancer is a disease characterized by uncontrolled cell growth in tissues of the lung. If left untreated, this growth can spread beyond the lung in a process called metastasis into nearby tissue or other parts of the body.
Causes • Smoking • Radon Gas • Asbestos • Genetics • Other: Production and Manufacturing
Method The most general equation describing the dynamics of tumor growth can be written: x' = xf(x) x is the cell population size at time t and f(x) specifies the density dependents of in the proliferation and death of tumor cells. f(x) = p(x) - d(x) where p(x) is cell proliferation and d(x) is cell death.
Method The single equation can be properly used if it incorporates a time-dependent treatment term: x' = x(p(x) - d(x)) - a[phi](t)x a represents the strength of the chemotherapeutic agent and phi(t) represents the concentration of the agent during the treatment schedule
Method This solves a macro not micro system of cells. A two equation model is necessary to take into account effector cells and immune cells. Immune cells play the role of the predator, while the tumor cells are the prey.
Method x' = x(fx) - dx(x,y) y' = py(x,y) - dy(x,y) - ay(y) + phi(t) x represents size of the tumor cell population and y represents size of the effector cell population. py(x,y) is the growth term for the immune cells. dy(x,y) is the death term for the immune cells. ay(y) is the apoptosis term.
Method phi(t) is the time dependent treatment term. The result will depend on the interaction of the two equations on each other. Also, the functions can be reduced to form other functions.
Method Also, the functions can be reduced to form other functions. f(x) = a(1-[beta]x) dx(x,y) = nxy py(x,y) = (pxy)/ (g + x) dy(x,y) = mxy ay(y) = dy phi(t) = s
Results A=0.41418153 B=0.1262651 a=0.41418153 b=0.30485449
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