Dr. Sungwon Lee and Professor Takao Someya of the University of Tokyo's Graduate School of Engineering have developed a new pressure sensor which is thin and resilient enough to fit into a glove. These gloves supercharge the sense of touch allowing wearers to detect cancer very early on.
While getting a regular doctor's exam is a very effective way to catch early signs of breast cancer, the telltale hardness of a tumor is easy to miss when rubber surgical gloves are used. To combat this inconvenience, Dr. Sungwon Lee and Professor Takao Someya have created pressure sensors using organic transistors made of carbon nanontubes, graphene, carbon, and oxygen. These sensors can mold to the human hand and posses one fifth the thickness of a human hair strand.
Outfitted with the right software, these sensors could be used in lieu of surgical gloves to help doctors detect tumors by touch alone.
Cancer-Detecting Gloves
This New Type of Pressure Sensor Will Detect Tumors by Touch
Trend Themes
1. Cancer-detecting Gloves - Cancer-detecting gloves equipped with pressure sensors offer a disruptive innovation opportunity for early tumor detection.
2. Organic Transistors - The use of organic transistors in pressure sensors presents a disruptive innovation opportunity for various industries.
3. Tactile Technology - Advancements in tactile technology, such as thin and resilient pressure sensors, open up disruptive innovation opportunities for diverse applications.
Industry Implications
1. Healthcare - The healthcare industry can benefit from cancer-detecting gloves for early tumor detection, improving patient outcomes.
2. Biotechnology - Biotech companies can explore the use of organic transistors in pressure sensors to enhance medical diagnostics and treatments.
3. Technology - The technology industry can leverage tactile technology advancements to develop innovative products in healthcare, wearables, and beyond.