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- MED DEFEATING ULTIMATE DISEASE TED TALKS THE MARIJUANA IS

shemetmisha
16.11.2018

Content:

  • - MED DEFEATING ULTIMATE DISEASE TED TALKS THE MARIJUANA IS
  • TED TALKS - MARIJUANA IS THE ULTIMATE DISEASE DEFEATING MED
  • HEALTH A-Z & MARIJUANA NEWS
  • TED TALKS - MARIJUANA IS THE ULTIMATE DISEASE DEFEATING MED. SON REDISCOVERS HIS OWN CULTURE BY CURING HIS. BEATING CANCER WITH CANNABIS OIL - TWELVE SUCCESS STORIES TED TALKS - MARIJUANA IS THE ULTIMATE DISEASE DEFEATING MED used herbal medicine called marijuana, a medicine that was literally. Talks, people, playlists, topics, and events about "marijuana" on 2016uggbaileybuttonsale.us Casarett was tired of hearing hype and half-truths around medical marijuana, on marijuana education and consulting in the substance use disorder treatment field. The best way to understand how an illegal online drugs market works is to buy.

    - MED DEFEATING ULTIMATE DISEASE TED TALKS THE MARIJUANA IS

    For about 5, dollars, I can have the power of a very powerful diagnostic device in my hand. Merging this now with the advent of electronic medical records — in the US, we're still less than 20 percent electronic; here in the Netherlands, I think it's more than 80 percent.

    Now that we're switching to merging medical data, making it available electronically, we can crowd-source the information, and as a physician, I can access my patients' data from wherever I am, just through my mobile device. And now, of course, we're in the era of the iPad, even the iPad 2. Just last month, the first FDA-approved application was approved to allow radiologists to do actual reading on these sorts of devices.

    So certainly, the physicians of today, including myself, are completely reliable on these devices. Already today, you don't need to go to your physician in many cases. Only in about 20 percent of visits do you need to lay hands on the patient.

    We're now in the era of virtual visits. From Skype-type visits you can do with American Well, to Cisco, that's developed a very complex health presence system,. And these are being augmented even by our devices, again, today. My friend Jessica sent me a picture of her head laceration, so I can save her a trip to the emergency room, and do diagnostics that way.

    We can actually now visit our patients robotically. This is the RP7; if I'm a hematologist, I can visit another clinic or hospital. These are being augmented by a whole suite of tools actually in the home now.

    We already have wireless scales. You step on the scale, tweet your weight to your friends, they can keep you in line. We have wireless blood pressure cuffs. A whole gamut of technologies are being put together.

    Instead of wearing kludgy devices, we put on a simple patch. This was developed at Stanford. It's called iRhythm; it completely supplants the prior technology at a much lower price point, with much more effectivity. We're also in the era today of quantified self. I can measure my steps, my caloric outtake. I can get insight into that on a daily basis and share it with my friends or physician. There's watches that measure your heart rate, Zeo sleep monitors, a suite of tools that enable you to leverage and have insight into your own health.

    As we start to integrate this information, we'll know better what to do with it, and have better insight into our own pathologies, health and wellness. There's even mirrors that can pick up your pulse rate. And just like the OnStar system in cars, your red light might go on. It won't say "check engine"; it'll be a "check your body" light, and you'll go get it taken care of. Probably in a few years, you'll look in your mirror and it'll be diagnosing you.

    For those of you with kiddos at home, how would you like a wireless diaper that supports your —. More information, I think, than you might need, but it's going to be here. Now, we've heard a lot today about technology and connection. And I think some of these technologies will enable us to be more connected with our patients, to take more time and do the important human-touch elements of medicine, as augmented by these technologies. Now, we've talked about augmenting the patient.

    How about augmenting the physician? We're now in the era of super-enabling the surgeon, who can now go into the body and do robotic surgery, which is here today, at a level that was not really possible even five years ago.

    And now this is being augmented with further layers of technology, like augmented reality. So the surgeon can see inside the patient, through their lens, where the tumor is, where the blood vessels are. This can be integrated with decision support. A surgeon in New York can help a surgeon in Amsterdam, for example. And we're entering an era of truly scarless surgery called NOTES, where the robotic endoscope can come out the stomach and pull out that gallbladder, all in a scarless way and robotically.

    Now, how about controlling other elements? For those who have disabilities — the paraplegic, there's the brain-computer interface, or BCI, where chips have been put on the motor cortex of completely quadriplegic patients, and they can control a cursor or a wheelchair or, potentially, a robotic arm.

    These devices are getting smaller and going into more and more of these patients. Still in clinical trials, but imagine when we can connect these, for example, to the amazing bionic limb, such as the DEKA Arm, built by Dean Kamen and colleagues, which has 17 degrees of motion and freedom, and can allow the person who's lost a limb to have much higher dexterity or control than they've had in the past.

    So we're really entering the era of wearable robotics, actually. If you haven't lost a limb but had a stroke, you can wear these augmented limbs.

    I took this video last week. Here's a paraplegic patient, walking by strapping on these exoskeletons. He's otherwise completely wheelchair-bound. This is the early era of wearable robotics. And by leveraging these sorts of technologies, we're going to change the definition of disability to, in some cases, be superability, or super-enabling.

    This is Aimee Mullins, who lost her lower limbs as a young child, and Hugh Herr, who's a professor at MIT, who lost his limbs in a climbing accident. And now both of them can climb better, move faster, swim differently with their prosthetics than us normal-abled persons. How about other exponentials? Clearly the obesity trend is exponentially going in the wrong direction, including with huge costs. But the trend in medicine is to get exponentially smaller.

    You can swallow this completely integrated device. It can take pictures of your GI system, help diagnose and treat as it moves through your GI tract. We get into even smaller micro-robots that will eventually, autonomously, move through your system, and be able to do things surgeons can't do in a much less invasive manner.

    Sometimes these might self-assemble in your GI system, and be augmented in that reality. On the cardiac side, pacemakers are getting smaller and much easier to place, so no need to train an interventional cardiologist to place them. And they'll be wirelessly telemetered to your mobile devices, so you can go places and be monitored remotely. These are shrinking even further. This one is in prototyping by Medtronic; it's smaller than a penny.

    Artificial retinas, the ability to put arrays on the back of the eyeball and allow the blind to see — also in early trials, but moving into the future. These are going to be game-changing. Or for those of us who are sighted, how about having the assisted-living contact lens? Bluetooth, Wi-Fi available — beams back images to your eye. Now, if you have trouble maintaining your diet, it might help to have some extra imagery to remind you how many calories are going to be coming at you.

    How about enabling the pathologist to use their cell phone to see at a microscopic level and to lumber that data back to the cloud and make better diagnostics? In fact, the whole era of laboratory medicine is completely changing. We can now leverage microfluidics, like this chip made by Steve Quake at Stanford. Microfluidics can replace an entire lab of technicians; put it on a chip, enable thousands of tests at the point of care, anywhere in the world.

    This will really leverage technology to the rural and the underserved and enable what used to be thousand-dollar tests to be done for pennies, and at the point of care. If we go down the small pathway a little bit further, we're entering the era of nanomedicine, the ability to make devices super-small, to the point where we can design red blood cells or microrobots that monitor our blood system or immune system, or even those that might clear out the clots from our arteries.

    Now how about exponentially cheaper? Not something we usually think about in the era of medicine, but hard disks used to be 3, dollars for 10 megabytes — exponentially cheaper. In genomics now, the genome cost about a billion dollars about 10 years ago, when the first one came out. Soon we'll have millions of these tests available.

    Then it gets interesting, when we start to crowd-source that information, and enter the era of true personalized medicine: Many different companies are working on leveraging these approaches.

    I'll show you a simple example, from 23andMe again. My data indicates I've got about average risk for developing macular degeneration, a kind of blindness. I might want to watch how much dessert I have at lunch, for example. It might change my behavior. Leveraging my knowledge of my pharmacogenomics: So again, it's not just genes, it's multiple details — our habits, our environmental exposures.

    When was the last time your doctor asked where you've lived? We can capture that information. Genomics, proteomics, the environment — all this data streaming at us individually and as physicians: How do we manage it? We're now entering the era of systems medicine, systems biology, where we can start to integrate all this information. And by looking at the patterns, for example, in our blood, of 10, biomarkers in a single test, we can look at patterns and detect disease at a much earlier stage.

    This is called by Lee Hood, the father of the field, P4 Medicine. We'll be predictive and know what you're likely to have. We can be preventative; that prevention can be personalized. More importantly, it'll be increasingly participatory. Through websites like PatientsLikeMe or managing your data on Microsoft HealthVault or Google Health, leveraging this together in participatory ways will be increasingly important.

    When you do watch a TED talk or read an article like this one, don't click away to something else right away. Instead, take 30 seconds and explain the content back to yourself. You'll be amazed to find that you often have difficulty doing that.

    Good speakers and good writers allow you to follow along with their chain of reasoning. Afterward, you come to believe you understand the material, because they were so fluent at presenting it to you.

    But, unless you can explain it back to yourself, you don't understand it--only they did. The gaps in your knowledge come along with an invitation to fill them. Watch the talk again or re-read the article and see whether there is enough information in that article to actually provide an explanation.

    You might also be surprised to discover that some of the gaps in your explanation reflect information in the talk or article that is missing. If so, you might want to spend a few minutes digging around looking for more information on the topic.

    The internet loves to present bite-sized bits of information that you can consume in minutes. Unfortunately, when it comes to innovation, the devil is in the details. The really successful innovators are the ones who hold themselves responsible for understanding the details of the things they learn. In that way, they can both recognize that they have knowledge that might help them to solve a new problem as well as sufficient understanding to use that knowledge when they need it.

    Few articles even this one have enough detail to provide a complete understanding of a topic. So, a TED talk or article is really just the visible part of an iceberg.

    From that sample, you can decide whether it worth drilling down to learn more.

    TED TALKS - MARIJUANA IS THE ULTIMATE DISEASE DEFEATING MED

    Viki Vaurora | TEDx Bangalore Published on Apr 4, Viki Vaurora talks about using Marijuana as the ultimate disease defeating drug. Explore Alexandra Petretta's board "((CBD OIL & MEDICAL CANNABIS))" on Viki Vaurora talks about using Marijuana as the ultimate disease defeating drug. Making peace with cannabis | Zachary Walsh | TEDxPenticton Ted Talks. Learn more about cannabis and how it interacts with the body. Concentrates are typically 2x to 5x as powerful as flower, so it's best to start with only a little bit. about choosing sativa strains of cannabis, as some tend to exacerbate this condition. CBD has shown great promise across a wide variety of potential medical.

    HEALTH A-Z & MARIJUANA NEWS



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