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Evan sort of mentioned it, but as a clinician, this is so useful. Also, when I’m going to our satellite clinics, I’ll take it with me that way, I know I’ll have the right modality as soon as I arrive. Micro C makes me a more efficient surgeon. In surgery, the agility is excellent for the hard-to-capture views, and in the clinic, having the imaging device right there when I’m doing an exam is terrific. I use the device in both surgery and the clinic. The device allows for capturing the distal extremity from the shoulder to fingertips and knees to toes. Gregory Kolovich: Micro is a six-pound emitter paired with a digital 6” x-ray cassette. Medgadget: Please give us an overview of the Micro C system and its uses. It’s revolutionary in the radiographic space. What other safety and quality systems can we create with all that positioning information? That’s how our team came up with the sensor-based, AI-powered dose determination engine, as well as new technologies built around improving image quality for less radiation.
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Once OXOS tested the system to sub-millimeter accuracy, we started building on the concept. We do these computations in less than a millisecond, allowing us to do live x-ray imaging, making the fluoroscopic approach obsolete.
#Peachtree orthodontics how to
The positioning system is the core OXOS intellectual property, and it describes how to make sure the user can only emit radiation when the device is in a safe orientation. That’s when we came up with the idea of the positioning system. The challenge then becomes how do we make sure the emission is safe and that the energy is used to create clinically relevant images. Those were hard, but then, you’ve got all the safety and regulatory issues.Įssentially, you’ve built an ionizing radiation gun, and you don’t want people accidentally emitting radiation all over the place. In addition to the highly volatile electrical pulses, you’ve got radiation going everywhere, so how do you shield the emission without the thing weighing 400 lbs. The problem is, how do you make a 60,000-volt pulse in someone’s hand and then manage to get all that heat out of there. So, there’s an entire technical set of challenges around generating that much energy in such a small space. Medgadget: What challenges did you encounter while developing a miniaturized X-ray system?Įvan Ruff: Oh, yeah, well… quite a few. With two thirds of the world lacking access to medical imaging, OXOS has an opportunity to open access to these life-saving technologies, changing the way we deliver medical care across the globe. That’s what led to my design for the Micro C.Īs we started solving the power, safety, and regulatory challenges presented by the distal extremity problem, we discovered that OXOS could also apply those solutions to general radiography. I have a background in electrical engineering, so I started researching x-ray machines and the components and felt there had to be a better way.
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My concentration is in hand, so deploying an 800 lbs device to image these small, intricate bones seemed counterintuitive. I was operating by myself, trying to stabilize the anatomy while wrestling this gigantic machine. Gregory Kolovich, OXOS Medical: My inspiration for the Micro C really started while I was doing an emergent replant procedure at Mass General during my fellowship at Harvard. This means that the Micro C can be used for dynamic digital radiography, meaning that it can produce ‘X-ray videos’, allowing clinicians to perform guided injections or study bones in motion. OXOS reports that the device emits very low levels of radiation compared with traditional X-ray systems.
#Peachtree orthodontics portable
The small size and portable nature of the system may also help to increase access to medical imaging in low-resource and remote areas of the world. The device can be deployed during surgical procedures, and allows surgeons to more easily capture images that could be difficult to obtain using large, fixed equipment. The device is intended to prevent situations in which clinicians have to handle and operate large machinery to perform simple X-ray imaging of small bones in the extremities, and allows them to conduct imaging right at the point of care. OXOS Medical, a medtech spin-off out of Georgia Tech, has created the Micro C, an FDA cleared handheld X-ray system that is designed to image the distal extremities, from the shoulder to the hand and from the knee to the foot.