Robot performs first realistic surgery without human help: System trained on videos of surgeries performs like an expert surgeon
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A robot trained on videos of surgeries performed a lengthy phase of a gallbladder removal without human help. The robot operated for the first time on a lifelike patient, and during the operation, responded to and learned from voice commands from the team—like a novice surgeon working with a mentor.
The robot performed unflappably across trials and with the expertise of a skilled human surgeon, even during unexpected scenarios typical in real life medical emergencies.
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A robot trained on videos of surgeries performed a lengthy phase of a gallbladder removal without human help. The robot operated for the first time on a lifelike patient, and during the operation, responded to and learned from voice commands from the team—like a novice surgeon working with a mentor.
The robot performed unflappably across trials and with the expertise of a skilled human surgeon, even during unexpected scenarios typical in real life medical emergencies.
And then you‘re lying on the table. Unfortunately, your case is a little different than the standard surgery. Good luck.
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And then you‘re lying on the table. Unfortunately, your case is a little different than the standard surgery. Good luck.
realistic surgery
lifelike patient
I wonder how doctors could compare this simulation to a real surgery. I’m willing to bet it’s “realistic and lifelike” in the way a 4D movie is.
Biological creatures don’t follow perfect patterns you have all sorts of unexpected things happen. I was just reading an article about someone whose entire organs are mirrored from the average person.
Nothing about humans is “standard”.
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And then you‘re lying on the table. Unfortunately, your case is a little different than the standard surgery. Good luck.
and since its been the way its been for awhile sugeons know more theoretically how to do surgery rather than practically so can't really take over.
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A robot trained on videos of surgeries performed a lengthy phase of a gallbladder removal without human help. The robot operated for the first time on a lifelike patient, and during the operation, responded to and learned from voice commands from the team—like a novice surgeon working with a mentor.
The robot performed unflappably across trials and with the expertise of a skilled human surgeon, even during unexpected scenarios typical in real life medical emergencies.
Oh good it’s voice controlled. Because that technology works amazingly all the time.
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And then you‘re lying on the table. Unfortunately, your case is a little different than the standard surgery. Good luck.
At some point in a not very distant future, you will probably be better off with the robot/AI. As it will have wider knowledge of how to handle fringe cases than a human surgeon.
We are not there yet, but maybe in 10 years or maybe 20? -
A robot trained on videos of surgeries performed a lengthy phase of a gallbladder removal without human help. The robot operated for the first time on a lifelike patient, and during the operation, responded to and learned from voice commands from the team—like a novice surgeon working with a mentor.
The robot performed unflappably across trials and with the expertise of a skilled human surgeon, even during unexpected scenarios typical in real life medical emergencies.
SurgeonGPT?
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A robot trained on videos of surgeries performed a lengthy phase of a gallbladder removal without human help. The robot operated for the first time on a lifelike patient, and during the operation, responded to and learned from voice commands from the team—like a novice surgeon working with a mentor.
The robot performed unflappably across trials and with the expertise of a skilled human surgeon, even during unexpected scenarios typical in real life medical emergencies.
How does the success rate compare
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A robot trained on videos of surgeries performed a lengthy phase of a gallbladder removal without human help. The robot operated for the first time on a lifelike patient, and during the operation, responded to and learned from voice commands from the team—like a novice surgeon working with a mentor.
The robot performed unflappably across trials and with the expertise of a skilled human surgeon, even during unexpected scenarios typical in real life medical emergencies.
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realistic surgery
lifelike patient
I wonder how doctors could compare this simulation to a real surgery. I’m willing to bet it’s “realistic and lifelike” in the way a 4D movie is.
Biological creatures don’t follow perfect patterns you have all sorts of unexpected things happen. I was just reading an article about someone whose entire organs are mirrored from the average person.
Nothing about humans is “standard”.
I wonder how doctors could compare this simulation to a real surgery. I’m willing to bet it’s “realistic and lifelike” in the way a 4D movie is.
I think "lifelike" in this context means a dead human. The robot was originally trained on pigs.
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A robot trained on videos of surgeries performed a lengthy phase of a gallbladder removal without human help. The robot operated for the first time on a lifelike patient, and during the operation, responded to and learned from voice commands from the team—like a novice surgeon working with a mentor.
The robot performed unflappably across trials and with the expertise of a skilled human surgeon, even during unexpected scenarios typical in real life medical emergencies.
If we go by that logic, some worker from your supermarket should be able to do surgeries
Doctors have to learns this much so they can handle most really unusual stuff, not because they have to know this for a standard surgery.
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At some point in a not very distant future, you will probably be better off with the robot/AI. As it will have wider knowledge of how to handle fringe cases than a human surgeon.
We are not there yet, but maybe in 10 years or maybe 20?I'd bet on at least twenty years before it's in general use, since this is a radical change and it makes sense to be cautious about new technology in medicine. Initial clinical trials for some common, simple surgeries within ten years, though.
This is one of those cases where an algorithm carefully trained on only relevant data can have value. It isn't the same as feeding an LLM the unfiltered Internet and then expecting it to learn only from the non-crazy parts.
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At some point in a not very distant future, you will probably be better off with the robot/AI. As it will have wider knowledge of how to handle fringe cases than a human surgeon.
We are not there yet, but maybe in 10 years or maybe 20?Fringe cases yes, like rare conditions. It almost certainly won't be able to handle something completely unexpected.
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I'd bet on at least twenty years before it's in general use, since this is a radical change and it makes sense to be cautious about new technology in medicine. Initial clinical trials for some common, simple surgeries within ten years, though.
This is one of those cases where an algorithm carefully trained on only relevant data can have value. It isn't the same as feeding an LLM the unfiltered Internet and then expecting it to learn only from the non-crazy parts.
it'll definitely get the greenlight in countries like China before anywhere in the west, I believe
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realistic surgery
lifelike patient
I wonder how doctors could compare this simulation to a real surgery. I’m willing to bet it’s “realistic and lifelike” in the way a 4D movie is.
Biological creatures don’t follow perfect patterns you have all sorts of unexpected things happen. I was just reading an article about someone whose entire organs are mirrored from the average person.
Nothing about humans is “standard”.
Right I'm sure a bunch of arm chair docs on lemme are totally more knowledgeable and have more understanding of all this and their needed procedures than actual licensed doctors.
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A robot trained on videos of surgeries performed a lengthy phase of a gallbladder removal without human help. The robot operated for the first time on a lifelike patient, and during the operation, responded to and learned from voice commands from the team—like a novice surgeon working with a mentor.
The robot performed unflappably across trials and with the expertise of a skilled human surgeon, even during unexpected scenarios typical in real life medical emergencies.
My son's surgeon told me about the evolution of one particular cardiac procedure. Most of the "good" doctors were laying many stitches in a tight fashion while the "lazy" doctors laid down fewer stitches a bit looser. Turns out that the patients of the "lazy" doctors had a better recovery rate so now that's the standard procedure.
Sometimes divergent behaviors can actually lead to better behavior. An AI surgeon that is "lazy" probably wouldn't exist and engineers would probably stamp out that behavior before it even got to the OR.
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A robot trained on videos of surgeries performed a lengthy phase of a gallbladder removal without human help. The robot operated for the first time on a lifelike patient, and during the operation, responded to and learned from voice commands from the team—like a novice surgeon working with a mentor.
The robot performed unflappably across trials and with the expertise of a skilled human surgeon, even during unexpected scenarios typical in real life medical emergencies.
That’s ridiculous. Everyone knows that for a robot to perform an operation like this safely, it needs human-written code and a LiDAR.
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At some point in a not very distant future, you will probably be better off with the robot/AI. As it will have wider knowledge of how to handle fringe cases than a human surgeon.
We are not there yet, but maybe in 10 years or maybe 20?I doubt it. It simply would be enough, if the AI could understand and say when it reaches its limits and hand over to a human. But that is even hard for humans as Dunning & Kruger discovered.
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My son's surgeon told me about the evolution of one particular cardiac procedure. Most of the "good" doctors were laying many stitches in a tight fashion while the "lazy" doctors laid down fewer stitches a bit looser. Turns out that the patients of the "lazy" doctors had a better recovery rate so now that's the standard procedure.
Sometimes divergent behaviors can actually lead to better behavior. An AI surgeon that is "lazy" probably wouldn't exist and engineers would probably stamp out that behavior before it even got to the OR.
i mean, you could just as easily say professors and university would stamp those habits out of human doctors, but, as we can see… they don’t.
just because an intelligence was engineered doesn’t mean it’s incapable of divergent behaviors, nor does it mean the ones it displays are of intrinsically lesser quality than those a human in the same scenario might exhibit. i don’t understand this POV you have because it’s the direct opposite of what most people complain about with machine learning tools… first they’re too non-deterministic to such a degree as to be useless, but now they’re so deterministic as to be entirely incapable of diverging their habits?
digressing over how i just kind of disagree with your overall premise (that’s okay that’s allowed on the internet and we can continue not hating each other!), i just kind of find this “contradiction,” if you can even call it that, pretty funny to see pop up out in the wild.
thanks for sharing the anecdote about the cardiac procedure, that’s quite interesting. if it isn’t too personal to ask, would you happen to know the specific procedure implicated here?
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A robot trained on videos of surgeries performed a lengthy phase of a gallbladder removal without human help. The robot operated for the first time on a lifelike patient, and during the operation, responded to and learned from voice commands from the team—like a novice surgeon working with a mentor.
The robot performed unflappably across trials and with the expertise of a skilled human surgeon, even during unexpected scenarios typical in real life medical emergencies.
thank you for removing my gallbladder robot, but i had a brain tumor