In the cancer research field, the preferred method for evaluating the proliferative activity of cancer cells invivo is to measure DNA synthesis rates. The cellular proliferation rate is one of the most important cance...In the cancer research field, the preferred method for evaluating the proliferative activity of cancer cells invivo is to measure DNA synthesis rates. The cellular proliferation rate is one of the most important cancer characteristics, and represents the gold standard of pathological diagnosis. Positron emission tomography(PET) has been used to evaluate in vivo DNA synthetic activity through visualization of enhanced nucleoside metabolism. However, methods for the quantitative measurement of DNA synthesis rates have not been fully clarified. Several groups have been engaged in research on 4′-[methyl-~11C]-thiothymidine(~11C-4DST) in an effort to develop a PET tracer that allows quantitative measurement of in vivo DNA synthesis rates. This minireview summarizes the results of recent studies of the in vivo measurement of cancer DNA synthesis rates using ~11C-4DST.展开更多
基金Supported by A Grant-in-Aid for Scientific Research from the Japan Society for the Promotion of Science,No.(B)25293271
文摘In the cancer research field, the preferred method for evaluating the proliferative activity of cancer cells invivo is to measure DNA synthesis rates. The cellular proliferation rate is one of the most important cancer characteristics, and represents the gold standard of pathological diagnosis. Positron emission tomography(PET) has been used to evaluate in vivo DNA synthetic activity through visualization of enhanced nucleoside metabolism. However, methods for the quantitative measurement of DNA synthesis rates have not been fully clarified. Several groups have been engaged in research on 4′-[methyl-~11C]-thiothymidine(~11C-4DST) in an effort to develop a PET tracer that allows quantitative measurement of in vivo DNA synthesis rates. This minireview summarizes the results of recent studies of the in vivo measurement of cancer DNA synthesis rates using ~11C-4DST.