Pick a nanoparticle you described in a previous about breast cancer. Describe some of the different ways this nanoparticle could be functionalized to accumulate in your diseased tissue of interest. Would it be more beneficial to perform active or passive targeting? If you were to perform active targeting, what are 3 different tissue biomarkers you would try to target, and why? What sorts of targeting molecules would you put on the surface of your nanoparticle? What are your most important considerations when picking targeting molecules (size, charge, affinity, etc)? How do you expect this active targeting to change your overall nanoparticle accumulation in your tissue? If you were to perform passive targeting, what physical properties of your nanoparticle would you optimize, and why? How do you expect this passive targeting to change your overall nanoparticle accumulation in your tissue?
my topic is talking about breast cancer
Pick a nanoparticle you described in a previous about breast cancer. Describe some of the different ways this nanoparticle could be functionalized to accumulate in your diseased tissue of interest. Would it be more beneficial to perform active or passive targeting? If you were to perform active targeting, what are 3 different tissue biomarkers you would try to target, and why? What sorts of targeting molecules would you put on the surface of your nanoparticle? What are your most important considerations when picking targeting molecules (size, charge, affinity, etc)? How do you expect this active targeting to change your overall nanoparticle accumulation in your tissue? If you were to perform passive targeting, what physical properties of your nanoparticle would you optimize, and why? How do you expect this passive targeting to change your overall nanoparticle accumulation in your tissue?
my topic is talking about breast cancer