쉐도잉 연습: A pediatric cerebrovascular approach: techniques and challenges - YouTube로 영어 말하기 배우기
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Music My
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practice is unique in the fact that I do about 90 percent,
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85 percent of what I do is all children.
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children with vascular malformations, both of the brain and the neck, maxillofacial areas.
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We receive them from newborn actually to 19, 18 years of age.
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We do of course also adults with vascular malformations,
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but as things are evolving and you can see how fantastic this course is and the tremendous progress that has exist.
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So children are not small adults and that has happened throughout medicine.
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There was the general doctor first,
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then became pediatricians, which was obviously that required different things.
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So within the vascular lesions of the human body,
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there's a certain amount of diseases that occur in children primarily,
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and that affect children sometimes exclusively.
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So, based on my practice,
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I have dedicated myself to improve the treatment in those children,
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decrease the radiation, decrease the time of the procedure,
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being very meticulous with the technique, very meticulous with fluids.
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For small children that are in severe heart problems with brain problems,
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if you use the same techniques in adults,
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you actually could have a lot of harm.
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So there are dedicated, specific problems that occur in children.
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There are specific, dedicated challenges,
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technical, medical, physiological, that are specific for children.
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And there's even difference between children and newborns.
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We have newborns that are born in severe heart failure with a disease called vein of gallant malformation
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that even treated is lethal within the first year of life.
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So those children require techniques,
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for example, we develop techniques to go through the umbilical artery.
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So we can actually place a cathode from the umbilical artery to enter the body,
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to then navigate into the brain.
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In this pediatric population, the diseases are rare,
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so it's very hard to do really trials.
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We're more involved in developing devices,
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actually because coming from children,
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they can be translated towards adults.
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We also have a lot of patients,
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or practices, patients of rare diseases,
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such as vascular malformation of the maxillofacial area.
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very difficult to treat.
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So we have developed techniques like direct percutaneous puncture.
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Instead of going from the femoral artery and trying to catheterize them,
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it's to actually use 3D angiography or the eye guide
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or the different types of technologies that have been developed for adults
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and try to use them to place catheters or needles directly into the malformation.
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And that has changed the whole ballgame.
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We also involve trying to develop things which are called sclerotherapy.
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Sclerotherapy is a technique in which you inject something that will damage the endothelium.
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And then the healing of that scarring,
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that will produce scarring, will actually sclerose or thrombose or close and scar those vascular malformations that they cannot feel.
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And that includes venous malformation.
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That includes lymphatic malformations.
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That includes arteriovenous malformation.
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And we're using biological substances such as chemotherapeutic agents, bleomycin for example.
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And they've made a tremendous change in the outcome of this patient.
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Actually, we're trying to use more and more ultrasound to guide ourselves to do these procedures.
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Also, within the medical industry of x-rays,
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we're forcing the manufacturers to create things like last image hold.
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And then with that last image hold,
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will, for example, collimate, try to center memories so that we don't have to radiate these children.
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Mothers come to me and ask me that,
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will my child have a stroke while you're doing this horrible malformation?
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They ask me how much radiation are they gonna get?
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Or the anesthesia?
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Well, there is a potential role for endovascular radiosurgery.
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I worked like 15, 20 years ago to try to treat vascular malformations that way.
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But radiation is a difficult thing to control.
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It's a difficult thing to prove,
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a difficult thing to get approved through a regulatory pathway like the Food and Drug Administration and so on.
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And dangerous for everyone, including you as an operator.
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Everything is dangerous if it's improperly used.
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You know, if you have a genie and you let the genie out of the box and there's no control,
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it can be very, very dangerous.
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So I would say that radiation has a potential,
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but it is not something that is around the corner.
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The tools that we have today are pretty much adaptation of adults to children.
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So we're still at the beginning.
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We're very much interested in developing tools that are designed for newborns and for children,
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which today do not exist.
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So we take a catheter that is a meter and a half,
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because it's the only catheter that we have.
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The technology exists, but the market is so small
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that industry is not very interested in developing high technology for a very small market.
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And this is not simply the question of smaller arteries.
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It's a whole question of a different anatomy that you're dealing with.
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It's a different anatomy.
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It's a different technology necessary for the stiffness, for example.
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You know, the blood vessels in children are more fragile in a sense.
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But on the other hand, they're more elastic.
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So they have their own specific problems,
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both technically as well as physiological.
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One of the biggest questions that we have is if we take a device,
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for example a stent, that is developed for adults which have stopped growing and we put them in small children,
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what would happen to those vessels as we increase in size?
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And therefore, personally, we have a lot of skepticism of using stents unless we are really forced.
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And the other side of the coin is we're going to press
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and push industry to develop bioactive or biodegradable devices so that
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if I put a stent in a little child and that stent will then be reabsorbed,
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it will permit then the normal physiologic growth.
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Biodegradable, bioabsorbable, biocompatible.
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It's one of the great, great, great potential expansion.
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If we can develop it for children,
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it can then be transferred to adults.
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What is interesting is that we've done very small devices based on trying to do it for pediatrics,
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and those have translated to go to the adult,
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which permits you to go to more distal circulation.
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I think that's very valuable for the training of physicians.
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You know, when I started,
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it was see one, do one,
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teach one, that no longer applies.
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We're not, it's just so much better to train,
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and I'm very involved in the training of physicians,
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training physicians in a in vitro model.
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You know, get all, I mean,
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you actually today, the reproduction is, Dr. Moret, so fantastic.
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You know, it's literally like the real thing.
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But then you get the physician to learn.
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You get the physician to train,
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you get the physician to try,
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you get the physician to make the mistake in a model.
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By the time you transfer that to the real patient,
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you have a much better trained physician.
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And I think industry is now more and more turning to these models.
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And the regulatory agencies are saying,
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wait a second, you not only have to go and train in a model first.
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You know, it used to be sometimes an animal.
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Then, you know, as you know,
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there's a lot of movement against training in animals.
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So these things have replaced a lot of the training.
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The regulatory agencies will force us to train physicians in this type of models that are now readily available.
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3D printing can make exactly the same aneurysm immediately, right away.
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And not only that, I can make 20 of those,
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or 50, or 100 to train physicians.
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So that I do believe that following that comes the proctoring.
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In other words, now you're going to go,
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this individual who's trained in the model is going to go do humans.
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So when you go humans,
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you go with somebody experience,
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the fracture you, I think that is absolutely the way to go.
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문법 및 표현 분석
비디오에서 사용된 몇 가지 중요한 문법 구조와 표현을 살펴보겠습니다:
- "There are specific, dedicated challenges": 여기서 'there are' 구조를 사용하여 존재를 나타내는 방식으로 문장이 시작됩니다. 이는 설명적인 컨텍스트에서 자주 사용됩니다.
- "I have dedicated myself to improve the treatment": 'dedicated myself to' 구문은 어떤 목표를 위해 자기를 헌신했음을 나타냅니다. 이와 같은 표현은 공적이거나 전문적인 서술에서 자주 쓰입니다.
- "that affect children sometimes exclusively": 'affect'와 'exclusively'의 조합은 특정 대상을 강조하는 데 도움을 줍니다. 이 표현은 의학적 문제를 논할 때 특히 유용합니다.
- "we can actually place a cathode from the umbilical artery": 이 문장은 명확한 지시를 제공하며 사실적 정보를 전달합니다.
일반적인 발음 함정
이 비디오에서 주의해야 할 발음의 어려운 단어와 억양을 살펴보겠습니다:
- vascular: 'vascular'라는 단어는 'vask-yuh-lar'처럼 발음되며, 자주 발음할 때 어려움을 겪을 수 있습니다.
- malformation: 이 단어는 'mal-for-MAY-shun'으로 발음되며, 특히 빠르게 말할 때 틀리기 쉽습니다.
- therapeutic: ‘therapeutic’이라는 단어는 ‘ther-uh-PYOO-tik’으로 발음되며, 음절이 억제될 수 있으니 주의해야 합니다.
이 비디오를 통해 영어 발음과 표현을 연습하면, 유튜브 영어 공부의 좋은 자료가 될 뿐만 아니라 전문성을 높이는 데도 큰 도움이 됩니다. 이를 통해 보다 효과적으로 shadow speak에 참여할 수 있을 것입니다.
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쉐도잉(Shadowing)은 원래 전문 통역사 훈련을 위해 개발된 언어 학습 기법으로, 다언어 학자인 Dr. Alexander Arguelles에 의해 대중화된 방법입니다. 핵심 원리는 간단하지만 매우 강력합니다: 원어민의 영어를 들으면서 1~2초의 짧은 지연으로 즉시 소리 내어 따라 말하는 것——마치 '그림자(shadow)'처럼 화자를 따라가는 것입니다. 문법 공부나 수동적인 청취와 달리, 쉐도잉은 뇌와 입 근육이 동시에 실시간으로 영어를 처리하고 재현하도록 훈련합니다. 연구에 따르면 이 방법은 발음 정확도, 억양, 리듬, 연음, 청취력, 말하기 유창성을 크게 향상시킵니다. IELTS 스피킹 준비와 자연스러운 영어 소통을 원하는 분들에게 특히 효과적입니다.
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