and tailor your treatment depending on the aneurysm. quarter of millimetres in the person s brain can make or break the procedure. for human minds, it s actually impossible to compute which one is best and what s going to happen if you put a particular one in those wiggly kind of structures, as you saw, those spaghetti kind of structures. there is, like, 102 different variations of diameters and lengths. tells you automatically, it has reconstructed the data for you. it s telling me that the artery, the stent is going to be small. it takes away all my pain away of trying to think and measure. the computer automatically tells me, just use this. perfect. nice, yes. it s perfect. yeah. up until now, stenting procedures have been around 75% successful, but this is a possible game changer. katerina says her solution is almost foolproof. this trial is first of its kind. we re building the software, so it s a software product, but it s considered to be a medical device. so it s treated as i
up until now, stenting procedures have been around 75% successful, but this is a possible game changer. katerina says her solution is almost foolproof. this trial is first of its kind. we re building the software, so it s a software product, but it s considered to be a medical device. so it s treated as if we were developing implants, manufacturing implants. so, it has to be the same level of scrutiny and certification. but, with all new tech, there s room for improvement. it needs more stents on the shelf. people don t have to have one stent, like, today i used one, but using presize i could have used four or five different types. but what i did was ijust gave a bit of a kick to the stent. how important is the work you do to you personally? it was. it was not a brain surgery, it was eye surgery. frankly, like, those fracture of millimetres meant that i could see versus that i could have gone blind. those pivotal seconds or minutes or hours in the surgical theatre, that will define the
for human minds, it s actually impossible to compute which one is best and what s going to happen if you put a particular one in those wiggly kind of structures, as you saw, those spaghetti kind of structures. there is, like, 102 different variations of diameters and lengths. tells you automatically, it has reconstructed the data for you. it s telling me that the artery, the stent is going to be small. it takes away all my pain away of trying to think and measure. the computer automatically tells me, just use this. perfect. nice, yes. it s perfect. yeah. up until now, stenting procedures have been around 75% successful, but this is a possible game changer. katerina says her solution is almost foolproof. this trial is first of its kind. we re building the software, so it s a software product, but it s considered to be a medical device. so it s treated as if we were developing implants, manufacturing implants. so, it has to be the same level of scrutiny and certification. but, with all
dr patankar is the chief investigator for the pilot. no one aneurysm is similar to another. they have different problems. the access will be a problem. they can have different comorbidities. some can be ruptured, some can be unruptured. some can be 4mm, some can be 4cm, you know. so you have to focus and tailor your treatment depending on the aneurysm. quarter of millimetres in the person s brain can make or break the procedure. for human minds, it s actually impossible to compute which one is best and what s going to happen if you put a particular one in those wiggly kind of structures, as you saw, those spaghetti kind of structures. there is, like, 102 different variations of diameters and lengths. tells you automatically, it has reconstructed the data for you. it s telling me that the artery, the stent is going to be small. it takes away all my pain away of trying to think and measure. the computer automatically tells me, just use this. perfect. nice, yes. it s perfect. yeah. up u
impossible to compute which one is best and what s going to happen if you put a particular one in those wiggly kind of structures, as you saw, those spaghetti kind of structures. there is, like, 102 different variations of diameters and lengths. tells you automatically, it has reconstructed the data for you. it s telling me that the artery, the stent is going to be small. it takes away all my pain away of trying to think and measure. the computer automatically tells me, just use this. perfect. nice, yes. it s perfect. yeah. up until now, stenting procedures have been around 75% successful, but this is a possible game changer. katerina says her solution is almost foolproof. this trial is first of its kind. we re building the software, so it s a software product, but it s considered to be a medical device. so it s treated as if we were developing implants, manufacturing implants. so, it has to be the same level of scrutiny and certification. but, with all new tech, there s room for imp