The purpose of this invention is to provide a simple and efficient method for Monitor Unit ("MU") calculation for intensity modulated radiation therapy (IMRT).
Researcher in Prof. Lei Xing's laboratory have developed an improved method for Monitor Unit ("MU") calculations in Intensity Modulated Radiation Therapy (IMRT).
Stanford researchers have invented a novel method and device for separating light of differing wavelengths. This method uses a very simple and compact multilayer dielectric structure having high angular dispersion at certain wavelengths and angles of incidence.
Researchers in Prof. Robert Byer's laboratory have patented a new fiber laser technology for generating frequency combs with broadband output (an octave or more).
Researchers have demonstrated that insulin-like growth factor-I (IGF-I) alone stimulates hippocampus-derived neural progenitor cells to differentiate into oligodendrocytes in an instructive (not selective) manner.
Researchers in the Ginzton lab at Stanford University have patented an all-dielectric laser-driven microstructure for producing controllable charged particle beam.
Stanford researchers have developed a highly specific, tunable system to improve the safety, efficacy and deliverability of gene therapy vectors and other biological therapies.
Researchers in Dr. Michael Cleary's laboratory at Stanford University have developed a highly specific monoclonal antibody for AF4, a proto-oncoprotein associated with pediatric and adult leukemia.
Researchers in Dr. Michael Cleary's laboratory at Stanford University have developed a highly specific monoclonal antibody for ENL, a proto-oncoprotein associated with pediatric and adult leukemia.