James Edgar Till is a biophysicist known for establishing the existence of stem cells along with Ernest McCulloch in 1963. Stem cells are undifferentiated cells that can shift, or differentiate, into specialized types of cells and serve as a repair system in the body by dividing indefinitely to replenish other cells. Till’s work with stem cells in bone marrow, which produces the body’s blood cells, helped form the field of modern hematology, a medical discipline that focuses on diseases related to the blood. He also worked on issues in the medical field including patient inclusion in clinical trials, matters of effective and ineffective clinical communication, and limitations of public access to medical and scientific research. Till’s work with stem cells furthered scientists’ understanding of abnormal blood cell development, which helped set the foundation for regenerative medicine.

In 2003, Sheila Singh and colleagues published “Identification of a Cancer Stem Cell in Human Brain Tumors” in the journal Cancer Research. The study examines a small population of cells within brain cancers that have abilities similar to those of neural stem cells and can maintain the growth of a brain tumor. The researchers identified the brain cancer stem cells by looking at the expression of proteins CD133 and nestin, which are usually present in neural stem cells. In addition, they characterized brain cancer stem cells as having the ability to quickly proliferate and self-renew, form tumor spheres, as well as differentiate in a manner that resembles characteristics of the original brain tumor from which those cells originated. “Identification of a Cancer Stem Cell in Human Brain Tumors” was one of the first studies to identify cancer stem cells in brain cancer and laid the framework for future research investigating the role of brain cancer stem cells in response to treatment, as well as the recurrence of a tumor after treatment.