46% of women avoid mammograms due to the pain experienced during breast compression. This pain is largely avoidable if the right amount of force is applied. Mammosense addresses these issues by using LiDAR technology to provide radiographers with the optimal compression force.
Pilot studies shown that Mammosense reduces pain by 25% and the force exerted by 34%, tackling one of the main deterrents to routine mammogram screenings.
It is built to be adaptable to routine mammogram machines and is easy to use. It stands to significantly improve the comfort of mammograms, the consistency of imaging captured, and the gap between senior and junior radiographers.
By improving the screening experience, Mammosense encourages more women to undergo this crucial procedure, ultimately aiding in early detection and better health outcomes.
Patent filed in 2024
Pilot studies shown that Mammosense reduces pain by 25% and the force exerted by 34%, tackling one of the main deterrents to routine mammogram screenings.
It is built to be adaptable to routine mammogram machines and is easy to use. It stands to significantly improve the comfort of mammograms, the consistency of imaging captured, and the gap between senior and junior radiographers.
By improving the screening experience, Mammosense encourages more women to undergo this crucial procedure, ultimately aiding in early detection and better health outcomes.
Patent filed in 2024
Luke Goh
2024 Design Final Project, NUS DID in Collaboration with NUH
Winner of James Dyson Award (Singapore) 2024
International Top 20 James Dyson 2024
Winner of iF Student Design Award 2025
2024 Design Final Project, NUS DID in Collaboration with NUH
Winner of James Dyson Award (Singapore) 2024
International Top 20 James Dyson 2024
Winner of iF Student Design Award 2025
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