How COVID Kills Some People But Not Others - Doctor Explaining COVID

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This is extremely informative, clear and in-depth. Really helpful. Thanks for posting

👍︎︎ 3 👤︎︎ u/Positive-Vibes-2-All 📅︎︎ Apr 19 2020 🗫︎ replies

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COVID 19 how does this coronavirus SARS coronavirus to kill people why does it kill some people but not others welcome to another video for those of you who don't know me I'm Doctor Mike Hanson a real doctor who specializes in pulmonary medicine critical care medicine and internal medicine when I'm not working in the hospital or the pulmonary clinic I'm at home working on making these videos for you to deliver you accurate medical expertise to the best of my ability especially during this pandemic if you want to verify my credentials feel free to do so on this website from the American Board of Internal Medicine here you can see that I'm board-certified in all of my specialties Wow I look so young back then so this virus we know is mainly transmitted by respiratory droplets and through contact and it gets into our mucosa of our mouth our nose and our eyes although less common it can also be transmitted through aerosol meaning airborne most likely when you have people in an enclosed space such as an elevator or when someone sneezes or coughs without covering their mouth especially an elevator and then someone can inhale that aerosol and that's how that is mainly transmitted when it's done through aerosol but most of the transmission is going to be through respiratory droplets and or through contact this virus attaches to cells in our body by the ACE to receptor this h2 receptor is only located on certain cells in our body it's on our tongue it's in our nose it's in the back of our throat and it's in our lungs specifically within the lungs it's only located on our type ii alveolar cells what's that you ask let's take a closer look at our lungs all right so we're gonna deep dive into this power point that I created and we're gonna start off by getting into the lungs here is our windpipe aka the trachea this is going to divide into our right mainstem bronchus and this is our left mainstem bronchus and just like branches on a tree these gonna keep branching the smaller and smaller branches same thing with this long and then eventually it's gonna bring so small that it's gonna become like that the leaves on the tree and this is called the alveolus here alveolus is me comprised of type 1 alveolar cells that is what actually forms a structure of the alveolus here but that's not everything the other kind of cell is the type 2 alveolar cell and that's this thing right here and that's important because that's where the taste to accept is located within our alveoli this right here is a macrophage this is a kind of white blood cell macro means big and then phage means to eat this yellow stuff right here is called surfactant it's like lubrication for the alveoli it's very important to keep the lvi oh oh the alveoli open but also it's important to make sure that the alveoli is not too stiff so that's lubrication makes it nice and smooth here we have a fibroblast this is a cell that is responsible for maintaining the structure of the lung tissue and they also do maintenance shut up - all the maintenance people custodians thank you very much this right here is a capillary this is a pulmonary capillary and you can see it's gonna come in close proximity to the alveolus and this is where gas exchange occurs so when we breathe in air comes down here the oxygen and air is gonna diffuse through the type 1 alveoli into a capillary and go into the red blood cell and carbon dioxide is gonna go from our red blood cell carbon dioxide to co2 it's gonna diffuse from the red blood cell through this membrane then through this membrane and then into the alveoli and then we're gonna exhale that co2 it's gonna go up that way now besides this red blood cell you see you also have a neutrophil here that's another kind of white blood cell think of a neutrophil as like the police or the military they're just coming by here and they're just making sure everything is all good not needed here and then just gonna keep on moving through here and notice of what this white blood cell this neutrophil is much bigger compared to the red blood cell now let's look at how the virus gets into this alveolar cell this type to alveolar cell as I said before the type 1 viola don't have these h2 receptors but the type to do have them so the coronavirus are gonna come down to the type 2 alveolar cell and is gonna go up to the receptor anybody like and then this h2 receptor is like well it's a good fit it's a good bind here so let's the corona virus into the house and the next thing you know he's asking if she wants eggs for breakfast so at this point the corona virus enters a cell the type 2 alveolus and we have the D I'm sorry the RNA of the virus here and then it's gonna unravel and it's gonna make copies of its own messenger RNA and then it's also going to use that messenger RNA that it has and use the cell machinery to make proteins so it's gonna make the proteins for Spike protein that's gonna make different parts of proteins for different parts of its cell the bottom line is it's gonna replicate itself and make multiple copies and then this new corona virus that's formed is gonna go and attack other type ii alveolar cells now this is important because it's gonna trigger a cascade of reactions it's gonna trigger this cytokine storm but it's also gonna down regulate this ace 2 receptor which is very important and I'll explain that a little bit at some point the nucleus of the cell which is right here is gonna recognize that this whole process of the virus replicating itself this is not supposed to be here this is a foreign invader and it's gonna trigger a release of chemicals that send a distress signal this is the initiation of the cytokine storm the other thing this virus is affecting this nucleus when it comes to the down regulation of this base 2 receptor this is an enzyme in the body that serves a specific purpose and we're gonna talk about the importance of that in a little bit so as I mentioned the distress signals that are being sent in the cytokine storm that's gonna be il-1 il-6 I'll eat in aisle 29 these are all very important but I want you to pay attention to aisle 6 now IL stands for no clothes Ken but it's actually interleukin the down regulation of this ace to receptor is so important because as if the cytokine storm isn't bad enough triggering all the inflammation that's about to happen the other thing is it does this when there's down regulation of the h2 there's less ability to convert angiotensin 2 to injure tensed 1-7 and there's also less ability to convert angiotensin 1 to angiotensin 1-9 why is this important take a closer look angiotensin again is a protein made in the liver renan is a protein made in the kidneys renin is an enzyme that converts angiotensinogen to angiotensin one angiotensin one is converted to angiotensin 2 by this enzyme angiotensin converting enzyme these two molecules by way of the h2 enzyme are converted to angiotensin 1-9 into tensed 1-7 this is very important because this pathway here is going to lead to vasodilation meaning the blood vessels the pulmonary arteries get dilated when there's more into your tent and two and less into tenths of one seven this is what happens the angiotensin one receptor gets stimulated and that leads to base of constriction leads to more information and more fibrosis so we want the balance of this cascade this series of reactions to be shifted more towards this way and less towards this way but that's not what's happening with this virus in between the cytokine storm in between the down regulation of this ace two enzyme and what ultimately happens is you have more angiotensin 2 in the lungs and less angiotensin 1-7 this is gonna trigger a crazy chaotic reaction within the lungs okay back to our type 2 alveolar cell here remember when we were talking about this things are normal before but now they're not so normal remember we talked about this cell releasing these cytokines this il-6 this I'll aid this il-1 I'll 29 and also the down regulation of h2 well that's gonna trigger all this chaos to happen the red blood cells come in here but guess what remember that neutrophil we talked about it's actually attracted to these chemicals better released so it's gonna find its way into this alveolar space and here it is here and it's gonna release more chemicals leukotrienes pif oxidants proteases these all destroy stuff they destroy cells remember this guy the macrophage means big eater well guess what just like Guns and Roses he's now got an Appetite for Destruction he's gonna release tnf-alpha il-6 i'll a il-1 destroying stuff just eating everything in its path the alveolar wall here that's gonna be destroyed through all this destruction this membrane here of the endothelium that's gonna be destroyed fluid is gonna seep from this capillary into the alveolus all this yellow stuff here that's all fluid all this pink stuff that's hyaline membrane that's protein deposition proteins are being deposited there and also because of the destruction in this membrane here the red blood cells they're gonna leak into there that's called bleeding this fibroblast is gonna make more destructive stuff more cytokine storm il8 it's gonna lay down pro collagen which is the precursor to collagen that's gonna bleed to scarring in the area this is all bad stuff this is what it looks like underneath the microscope this is normal this is normal alveoli underneath the microscope this is what it looks like with ARDS from COVID 19 this was actually taken from a patient who died of COVID 19 and you can see what I was talking about the Highland membrane formation that deposition of all those proteins and cellular debris it's all crazy here right and then you have lymphocytes the white blood cells in here and then you have this is of the other lung the same patient you have a big macrophage here and all these lymphocytes spread throughout with this hyaline membrane deposition this is chaos this looks like the end of Avengers endgame in a final scene this is a normal chest x-ray okay here we have the heart we have the vertebrae here we have the ribs okay we have the diaphragm that's the biggest muscle that controls your breathing okay you have a scapula here the collarbone the clavicle there all right now all this black that represents air that normal this kind of white hazy stuff that's the pulmonary blood vessels okay that's all normal then this happens from a COVID patient with aired yes look at all that it's hardly any black there all the air is gone all right how is that oxygen supposed to get into or through the alveoli into the pulmonary capillary how is that supposed to happen this is a cat scan of a normal person normal lungs okay so they're laying down on their back here alright and then you're standing at their feet and you're looking towards their head and this is a thin slice in cross-section the black stuff represents air and this white stuff is actually the pulmonary vessels the pulmonary arteries and pulmonary veins alright so this is normal this is the CT scan of someone with air - yes there's some normal lung in here but there's also areas of ground glass of pacification that's partial or pacification or partial filling of the alveoli and then you see it's more dense here okay that's complete or pacification that's complete filling of the alveoli with fluid and inflammation now as if this isn't bad enough where the alveoli are either partially or completely filled with fluid and inflammation and protein and all that stuff well what I didn't mention to you before was these purple dots here that represents very tiny thrombi very tiny clots that form as a result of all this inflammation what does that do that's gonna clutter those little capillaries that's gonna clutter the blood flow that goes to the lungs and as if that's not bad enough there's another thing that's very very bad when it comes to ARDS especially in COVID 19 patients and that has to do with pulmonary hypertension meaning the pulmonary arteries that go to the lungs they're gonna constrict and that's not good the reason why they're constricting so much at least part of the reason why is because they have angiotensin ii so much angiotensin ii related to that ACE 2 receptor down regulation so this increase in angiotensin 2 is going to cause the blood vessels to constrict and that makes it harder for the right side of the heart to pump and this is going to ultimately mean less oxygenation than normal as if oxygenation wasn't a big enough problem already now we've got a third reason why the oxygenation is gonna be so bad let's review our heart physiology so the pulmonary vein this is the blood that's coming back from the lungs it's gonna be oxygenated because the blood that goes to the lungs gets oxygenated there so now it's coming back and it's gonna go into the left atrium of the heart then it goes to the left of ventricle to heart then it's gonna be pumped out to the body through the aorta and this blood gets pumped to the body it's gonna go to the brain it's gonna go to the intestines to the kidneys it's gonna go to your legs to your arms to your muscles more if it goes to your muscles when you're working out let's say you drain your biceps blood is rushing into your muscles and that's would record a pump Thank You Arnold now when the blood comes back from the body from those places that I just mentioned it's gonna come back through the vena cava the biggest fan in the body there's a superior vena cava and an inferior vena cava and that's gonna land that blood into the right atrium then the blood from the right atrium is gonna go to the right ventricle and then to the pulmonary artery and then from the pulmonary artery it's gonna be sent off to the lungs to go pick up oxygen again because it's deficient in oxygen but the problem like a dis mention is now that vasoconstriction of those pulmonary arteries that's gonna lead to less blood flow getting to the lungs so there's less blood flow that can get oxygenated and so what ultimate is gonna happen is you're gonna have even lower oxygen levels than you would expect normally with ARDS because of that reason so there's really three reasons why patients with ARDS have such a difficult time with oxygenation ones because of all the inflammation from air ds2 is because the micro thrombi that developed this tiny little clots that form in the capillaries and three is this pulmonary vasoconstriction it's pulmonary hypertension that develops and ultimately the oxygen levels are just gonna drop very very low now there's a lot of people asking about ACE inhibitors angiotensin receptor blockers so ACE inhibitors are things like captopril of sinop rael ramipril and due attention receptor blockers are things like losartan Telma Sartain candy Sartain or bizarre tan here's how these things work ACE inhibitors inhibit the ACE enzyme so there's gonna be a blockage in this part of the cascade and what happens here is if you put a roadblock here that's gonna shift this sequence to this way alright it's gonna go down that way now if you have a blockade right here in this part of the pathway by an angiotensin receptor blocker such as a low start in these medications inhibit binding to this receptor here alright so if you inhibit it here it's gonna shift everything towards this way and towards this way and you're gonna have this right here that's good that's what we want we want to dilate those pulmonary arteries we want to reduce inflammation we want to reduce fibrosis that's good so that's why I think the trials that these medications are in right now for over 19 I think we're gonna have great results of that but only time will tell and everything I just mentioned to you about a stew in angiotensin 2 in angiotensin 1-7 this is all backed by small studies going back 10 years ago or so and there's even more so in the last couple of years because this is a very hot area of research and I'll show you some of the studies real quick you got this one this one there's the intensive one seven how it relates to here yes and a type ii alveolar cells there's just lots and lots of studies they have to do with exactly what I'm talking about so how do we get COVID 19 patients with ARDS how do we get these patients better it's gonna be a combination of things including individualizing various ventilator settings including adjusting the tidal volume and adjusting the peep it's also gonna involve trying different ventilator modes with assist control possibly aprv it's gonna involve proning patients meaning lying patients on their chest instead of their back it's gonna include the possibility of using pulmonary vasodilator such as inhaled nitric oxide or process cycling for IV eople process and all flow and it's gonna vol the possibility of steroids possibly ECMO and of course the medications that are coming out for COVID 19 veteran clinical trials and some are more promising than others and that's going to be the topic of my next video okay so we know that ARDS develops in about four to five percent of patients with COVID 19 and all these people who get COVID 19 the mortality rate is around one to two percent so why do some COVID patients get ARDS and why do some die it could be one of these reasons but more likely it's a combination of these reasons so here we go number one the virus only gains entry into our cells that Express the ACE 2 receptor they're located in multiple sites besides being in your lung during your mouth nose throat stomach during their small intestine the colon skin not on the outside of the skin but on the underneath the skin lymph nodes thymus bone marrow spleen liver kidneys brain and one more place yeah that's right there in your testes if you have those all right number two it makes sense that if the virus only gets into your mouth or nose or throat but not the lungs that it recalls only cold like symptoms but if the virus gets all the way down into your alveoli your lungs specifically the type 2 alveoli that's where you're gonna have ARDS potentially developed and by the way the ace 2 receptors that are in your gut probably explained by some patients end up getting nausea vomiting diarrhea okay number three the amount of virus that you get into your body likely determines how sick you get this is what we call the viral load and this was demonstrated in this study number four the inflammatory reaction that occurs with COVID 19 is extremely complicated with lots of different proteins and hormones in interleukins at play but there are several known genetic polymorphisms of these proteins that make the illness potentially worse than others a genetic polymorphism simply means a variation on a particular gene for example there are genetic polymorphisms of the ACE gene not the ACE 2 but the ACE gene as well as il-6 basically a lot of it comes down to our genes and sex because the fifth reason has to do with estrogen estrogen is known to inhibit the effects of il-6 which plays a huge role in the cytokine storm this might explain why women overall have less severe disease compared to men see ladies aren't you glad you don't have and the sixth reason has to do with some people are already on medications that might impact COVID 19 for people who are already on ACE inhibitors such as lisinopril or an ARB such as losartan or telma start an whatever or people who take hydroxychloroquine for lupus or rheumatoid disease are people who take tousle ISM AB in il-6 receptor inhibitor are these patients less prone to getting severe illness my guess is yes and now I know there's a theory circulating out there about how the virus might be attacking our hemoglobin the theories based on this non peer-reviewed study that showed that the virus in a test tube not on our body or in animals but in the test tube could attack hemoglobin which is in our blood specifically it's speculated that it might attack the beta 1 chain of hemoglobin in our blood even if it could attach to the beta 1 chain of hemoglobin I can tell you that it's not the way the virus is causing disease we know this for several reasons one we know abides to the h2 receptor in gates entry into our cells that way too we see that with our own eyes the destruction that it causes to the alveoli on the pathology number three we know that the COVID 19 patients have a low P to F ratio which means that the reason for low oxygen is because the lungs reduced ability to move oxygen from the air into your bloodstream and people who have low oxygen levels due to an issue with the hemoglobin for example with methemoglobinemia they have a normal p2f ratio patients with met him aglow of anemia have a low oxygen saturation but in normal PDF ratio in COVID 19 ARDS these patients have a low p2f ratio okay number four the red blood cell does not have h2 receptors located on it so the virus is not able to invade the red blood cell number five hemoglobin normally does not exist outside of the red blood cell except when the red blood cell bursts what we call hemolysis and COVID 19 patients were not seeing any hemolysis therefore there's no way the virus is able to attack hemoglobin except for perhaps a very tiny bit of hemoglobin that can exist in alveoli as a result of the alveolar damage from ARDS all right so that's all for this video in my next one it's going to be on the new drugs that are in clinical trials some of these drugs are looking more promising than others so I'm excited to get this one to you

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Channel: Doctor Mike Hansen

Views: 4,596,163

Rating: 4.8358045 out of 5

Keywords: how covid kills some people but not others, how covid works inside your body, how covid works in human, how covid kills, how covid kills a person, how covid kills i'm a doctor, how covid kills human, how covid kills patients, how covid kills u, how covid kills some people, how covid virus kills you, covid virus how it kills you, how does covid kills you, covid explained by doctor, how does covid affect, how does covid affect the body, why some people die from covid, covid

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Length: 22min 41sec (1361 seconds)

Published: Wed Apr 15 2020