Saturday, December 14, 2019

A Way to Your Heart

A Way to Your Heart A Way to Your Heart A Way to Your Heart?Talk about surgeries that involve the heart and often people will think of the risks involved. But what if there was a device that could improve a patients chances for a positive outcome through a different angle of sight for surgeons? A chip-related technology being worked on at Georgia Tech might be leading to one more tool for the medical communitys arsenal.Chip AwayWeve been developing this invention involving transducers and a chip, explains F. Levent Degertekin, professor of mechanical engineering at Georgia Tech. It was clear that a small device could help. My brother, who is a cardiologist, said if you want to include devices like this then you need to include a camera. It helps to see in front of you while doing surgery and, really for devices before, it was like driving your car and looking from side windows but you dont have a front windshield.The chip Degertekins team has developed can actually get inside the hea rt and blood vessels. For example, if the artery is totally blocked, you can see beyond that blockage, he says.F. Levent Degertekin (left) and his colleague in the lab where new 3D medical imaging technology is being developed. Image Georgia TechYou need to understand that what we have are behauptung transducers and receivers distributed over that chip area and its very much like radar, Degertekin says. Information ultimately comes from a cable to a computer and since we know the location when it comes to a receiver, we do math to align those signals and create an intensity map and we can create a three dimensional image.One problem in this single chip technology is that it requires building transducers directly on top of the electronics, he says.Its like a sensing chip and building the imaging device directly upon it requires low temperature processes, Degertekin says. You wouldnt go to a temperature like 400 degrees centigrade because of the survival of the electronics. Another ch allenge was developing the design tools to predict performance of the devices. For this fabrication process, we basically had to design electronics compatible with this transducer array. We also had to bring a multidisciplinedteam together. We were combining aspects like vertical engineering, mechanical engineering and cardiology.A vital issue was reducing the number of cables. Because on that single chip there are more than one hundred receivers of ultrasound and you cant connect all of them individually from outside, he says. You have to build the electronics and get information from all those devices and get out like four at a time by sequencing. And then we do the circuit design. We send computer files to a foundry and they come back to us from silicon wafers and then at Georgia Tech we process the wafers to put these vibrating devices on them. Even then, you totenstill have to process to make them like a doughnut shape to be suitable to put on a catheter and theres even still m ore.They still want to make further improvements, including eliminating the catheter. The chip is around one millimeter in diameter at present and there are around ten cables, but we are even developing a new system which would need less cables, he explains. Theres more potential to explore.Eric Butterman is an independent writer. For Further DiscussionIt helps to see in front of you while doing surgery and, really for devices before, it was like driving your car and looking from side windows but you dont have a front windshield.Prof. F. Levent Degertekin, Georgia Tech

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