More to the Point: Precision Oncology Meets Discovery Science

More to the Point: Precision Oncology Meets Discovery Science

Daniel Schmidt, Iva Gramatikov, Matthew Vander Heiden

Koch Institute at MIT, MIT Department of Biology

This image of the distal colon shows how a highly focused radiation beam can be precisely targeted to induce DNA damage to nuclei in a region of interest (pink) without affecting the neighboring cells (blue). The Vander Heiden Lab is studying the effects of spatially targeted radiotherapy on metabolism as well as immune and stromal (support) cells in the tumor microenvironment.


Understanding the molecular impacts of this approach will help physicians identify key pathways and therapeutic combinations to improve efficacy of radiotherapy in the clinic. For patients, the clear distinction between damaged and undamaged tissue offers hope for more strategic treatments with fewer side effects.

a narrow G-shaped loop of cells, with pink on the left and bottom, blue on the top right and vertical stem with red at the very end

Video

Daniel Schmidt presents on his image.

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