About 90% of successful cancer treatment is done through damaging, invasive procedures. The Italian Centro Nazionale di Adroterapia Oncologica (CNAO) is changing this. This video explains how hadron therapy allows, in many cases, the treatment of tumors that otherwise could not be treated.
During a Formula 1 race, a car sends hundreds of millions of data points to its garage for real-time analysis and feedback. So why not use this detailed and rigorous data system elsewhere, like ... at children’s hospitals?
Welcome to the Pulse, brought to you by MDT TV. Today, we're implanting an MRI-safe spinal cord stimulator, sorting blood with a microchip, building robots out of biocompatible hydrogel, and making hydrogel move with light.
Today, United Hatzlah uses a smartphone app and a fleet of “ambucycles” to help nearby patients until an ambulance arrives. With an average response time of 3 minutes, last year, they treated 207,000 people in Israel. And the idea is going global.
The handheld biosensor was developed by researchers at the University of Illinois, Urbana-Champaign. A series of lenses and filters in the cradle mirror those found in larger, more expensive laboratory devices. Together, the cradle and app transform a smartphone into a tool that can detect toxins and bacteria, spot water contamination and identify allergens in food.
Polyurethane studded with gold nanoparticles can conduct electricity even when stretched, Michigan engineers have discovered. This feat could pave the way for flexible electronics and gentler medical devices. The nanoparticles start out randomly arranged, but they drift into wire-like formations as the material is stretched.
U-M engineers have developed a new robotic tool which will make performing minimally invasive surgery cheaper and easier, but provides higher functionality over existing low-cost tools. The tool, called Flex Dex, acts as an extension of the surgeon's arm, allowing the doctor to control it with just a turn of the wrist.
At the Walter Reed National Military Medical Center, custom prosthetic attachments, cranial-facial implants, and surgical models are constantly being churned out, layer by layer, in an additive manufacturing process commonly referred to as 3D printing.
These digital musical instruments are designed in the form of prostheses to make music by utilizing the performer's movements in a non-traditional way. They were designed and created by Joe Malloch and Ian Hattwick at the Input Devices and Music Interaction Laboratory at McGill University.
Welcome to the Pulse, brought to you by MDT TV. Today, we’re patenting new biomaterial to make artificial bones, creating pain-free prosthetics, using ultrasound waves to improve your mood, and using magnets to steer stem cells.
The IBIS system, developed at the Tokyo Institute of Technology, uses many off-the shelf devices to perform the same or similar tasks that the more well-known da Vinci surgical robot can perform. Essentially, providing a quality keyhole surgery technology for potentially one tenth the cost, according to the researchers.
Over 85 percent of all pancreatic cancers are diagnosed late, when someone has less than two percent chance of survival. How could this be? Jack Andraka talks about how he developed a promising early detection test for pancreatic cancer that’s super cheap, effective and non-invasive -- all before his 16th birthday.
Amid yet more claims of illegal drug-taking by high-profile athletes, scientists in Switzerland say they may have found a foolproof way to prevent the use of banned substances in sports. They say their chip implant, designed to monitor naturally-occurring substances in the blood, could also be used as a weapon against drug cheats.
Nikolai Begg grew up in a box of LEGO bricks and hasn’t stopped tinkering since. He is an accomplished inventor with a portfolio of novel medical devices, and today, Begg was named the recipient of the prestigious $30,000 Lemelson-MIT Student Prize for his inventions that are making surgical procedures less invasive.
On this episode of The Pulse, a device that helps train the brain to turn sounds into images, detecting cancer by imaging the consumption of sugar, biomedical applications for a new hydrogel, and a nanofiber mesh that treats tumors with both thermotherapy and chemotherapy.