We develop nanosensor technologies to accurately identify cancer at the earliest stages. Early detection improves the chances that cancer treatments will be effective. We are building implantable sensor technologies to facilitate the real-time monitoring, to enable the detection of cancer biomarkers at the earliest possible timepoints. Some of these sensors can even interface with wearable devices.
We are also developing sensor technologies that use artificial intelligence to detect many biomarkers simultaneously, to improve sensitivity and specificity.
These technologies could monitor people with heightened risk for cancers, or in successfully treated patients who have a high risk of recurrence. In people who are undergoing treatment, the sensors could signal immediately whether a biomarker is going up or down and, when needed, alert a doctor to switch to a different course of therapy. We are pursuing the translation of these sensor platforms from the laboratory to the clinic.
A Sensor Sniffs for Cancer, Using Artificial Intelligence
To Detect Ovarian Cancer Early, Researchers Look to Nanotechnology
Science Meets Art to Build a Paintable Diagnostic Test for Cancer
Detective Work: How Implantable Nanosensors Could Monitor Cancer Activity
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