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Microfluidics, electronics and inkjet technology underlie a newly developed all-in-one biochip from Stanford that can analyze cells for research and clinical applications.

Effective anti-tumor activity requires a systemic, rather than only a local, immune response at the tumor site. A Stanford study may help clinicians pinpoint why only some cancer patients respond to immunotherapies.

Monitoring cancer DNA in blood can predict recurrence and prognosis and drive treatment decisions. A Stanford study of 92 lymphoma patients suggests similar techniques may work for other tumors.

Using the CRISPR gene-editing technique in stem cells, Stanford researchers repaired the gene that causes sickle cell disease, and the mended stem cells were successfully transplanted into mice.

Heart muscle cells made from induced pluripotent stem cells share gene expression patterns with native donor tissue, researchers discovered. These cells can be used to indicate people who should avoid certain medications that could damage their hearts.

A biological drug could be used to combat cardiovascular disease by targeting not mere risk factors such as high cholesterol or high blood pressure, but the actual lesions bearing direct responsibility: atherosclerotic plaques.

A Stanford-led national collaboration to procure and analyze human pancreatic tissue from deceased donors illustrates how the organ’s function changes as we age, and could point the way toward new diabetes treatments.

Doxorubicin is a chemotherapy drug used to treat many cancers, but it causes serious heart damage in some patients. Heart muscle cells made from the skin cells of breast cancer patients can be used to study this phenomenon.

People with cancer have tumor DNA in their blood. A new way to quiet background “noise” in the blood sample allows researchers to sequence minute quantities of these molecules to improve diagnosis and treatment.

Researchers have identified a link between the expression of a cancer-related gene and cell-surface molecules that protect tumors from the immune system.