🥇 PULMÓN 3/3, Anatomía. (Vasos Sanguíneos, Linfáticos y Pedículo) Fácil y Sencillo

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Hello again, dear anatomical friends, we are going to talk then about the third installment

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of lung anatomy, in the two previous videos we elucidated what the macro

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structure of the lung is, we are now going to finish with the points that we need to touch on, which is irrigation,

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venous drainage, lymphatic drainage and how the pedicle is anatomically configured,

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in another separate video I will talk to you in depth about the pulmonary artery and vein so that

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this chest compendium ends, and the heart videos are also on the channel to that you can

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study well this cardiopulmonary anatomy, which is extensive but is without a doubt the most

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beautiful part of the entire anatomy, it is important to highlight that the pulmonary blood vessels are divided

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into two groups, we are going to study them in two groups, pay close attention, let's To first divide

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the group that is destined for hematosis, hematosis is nothing more than the gas exchange

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that occurs at the lung level through the alveoli and the blood vessels that are there and

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the nutritional vessels. Why do I tell you this? Well, the lung mobilizes a lot of blood that causes

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hematosis of the arteries and through the pulmonary veins, but this is blood that does not nourish the

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organ, this is blood that the lung simply oxygenates because its function is to oxygenate the blood,

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but it turns out that It is an organ that also has connective tissue, that has some smooth muscle tissue

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, that has structures like pneumocytes that need blood to live and needs some

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place to drain its venous blood as an organ, that has nothing to do with

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hematosis. and these are the nutritional vessels that are the bronchial arteries, the bronchial veins,

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the pulmonary veins, it is the same as the heart, the heart has the atria, the ventricles,

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the aorta, the vena cava, this is blood that the heart cannot use For him

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it is blood that the heart pumps, but what happens? The heart is a muscle and like every muscle it needs

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blood to live, to nourish itself like any other muscle can have, that is why

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the coronary arteries and veins of the coronary sinus exist, the same thing happens with the lung,

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so let's elucidate these vascular structures but first do not leave the video

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and do not forget to like the video, very important then that you subscribe to the

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channel here in the corner, At the bottom right you click and you are automatically

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subscribed to the channel. Let's start then with these blood vessels, we will talk first

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about the vessels that are for hematosis and then we will talk about the vessels that are for the

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lung's own nutrition, the vessels for hematosis if we start first with the pulmonary arteries that

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we already know here Since it is an image of the Netter, the netter puts the pulmonary artery in blue due to

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histological and characteristic characteristics that I will explain well in the video of pulmonary arteries,

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but this is the pulmonary artery that they always put in blue, so it starts with a

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name which is called the pulmonary trunk and then that pulmonary trunk is divided into two,

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which would be the right pulmonary artery, which is the one that goes through the right lung, and the

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left pulmonary artery, which will be in charge of bringing blood to the left lung,

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this blood coming from from the right ventricle is a blood that is completely deoxygenated

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so that the pulmonary arteries bring me deoxygenated blood, once they penetrate

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the hilus of the lung it is divided into branches that will go to each of the lobes of the lung,

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but first there are going to be two as I told you, this is a posterior view, in this case we are seeing

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the pulmonary artery on the left side, you will say well but because here it is red, because this

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is another book this is the anatomy sobotta, the previous book was the netter, see that

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the pulmonary arteries always accompany the bronchi because they know that the oxygenated air comes with

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the bronchi that is why they have to follow it to the end and those bronchi how they get

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inside the lung segments, see Here again the netter draws the

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pulmonary artery in blue, always accompanying the bronchus until it reaches the alveolus, which is why it is said

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In the literature, these pulmonary arteries are intrasedimentary because the bronchi go

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into the lung foundations and, well, the artery accompanies the bronchus and that is why it is intrasegmental

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. Why is it important to tell you this about intrasegmental? Because then we are going to talk

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about the pulmonary veins, which are the ones that the netter puts in red, see that the pulmonary veins

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are rather intersegmental, remember that the lung is divided into segments, do you remember

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that? Well, see that there is a space between each segment that are partitions of connective tissues,

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what is the pulmonary vein runs through there, these veins, which are avalvular veins, collect

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the blood since it has been, let's say, gas exchanged at the level of the alveolus, it is a blood

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which is already very rich in oxygen and is said to be intersegmental because you see how it runs

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between the lung segments, they no longer accompany the bronchi because it is not interested in being next

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to a bronchus, because it already gets oxygen, it is assumed that it already It carries oxygenated blood,

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but what happens? These pulmonary veins, in addition to collecting respiratory blood, that is,

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the blood that is for hematosis, also take advantage of and bring the blood that the lung as an

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organ is going to discard, which is why it is said that this is a mixed vessel that It collects visceral blood,

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that is, from the organ, but it also collects respiratory blood, unlike the pulmonary artery,

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which is only from the point of view of hematosis, because it is used by the body once

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these pulmonary veins bring that oxygenated blood. The lung reaches pulmonary hilum again but

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there will be 5, but we are not going to see 5, we are going to see 4. What is happening?

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why are there 5? Well, because there are 5 lobes in total, 2 left and 3 right, each one is supposed to

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bring me a large pulmonary vein, there will be 5, but before leaving through the hilum we are going to see

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that the right superior pulmonary vein with the pulmonary vein right half join together and form a single

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pulmonary vein, that is why we are going to see that in the end there will be four pulmonary veins that will

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drain into the left atrium of the heart, which is what receives the oxygenated blood through

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the veins pulmonary veins, remember that the netter puts these pulmonary veins in red

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because they bring oxygenated blood but they are veins because they reach the heart and reach

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an atrial cavity, now the pulmonary artery all turn blue because first, even though it is

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the only artery that carries deoxygenated blood but it comes out of a ventricle, it comes out of the

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right ventricle, that's why they turn the artery blue and these veins turn red, in fact

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there is an analogy that says that the only veins that carry oxygenated blood are the pulmonary arteries

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and the only arteries that carry deoxygenated blood are the pulmonary arteries and then you already know how these

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four veins drain into the left chamber of the heart. Now the nutritional vessels that

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irrigate the lung parenchyma itself will be provided by the bronchial arteries and their

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venous drainage from the lung parenchyma by the bronchial and pulmonary veins. These

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bronchial arteries will be direct or indirect branches of the aorta, specifically the descending aorta

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, which is the thoracic aorta, see how it is a single right bronchial artery and a single one that

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comes out in common with the third right posterior intercostal artery, see that it is a common trunk,

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see in the same pulmonary artery that is , not pulmonary, bronchial leaves from the same place where

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the third posterior intercostal artery leaves from the right side, while although

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it is a single right bronchial artery, there are two left bronchial arteries, direct branches

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of the aorta, they are direct branches of the aorta the two left, so these bronchial arteries,

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in addition to reaching the bronchi, irrigate most of the lung, an area that carries

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oxygenated blood so that the lung functions as an organ and uses energy like any other organ,

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its venous blood drained both by the veins bronchial veins mostly and a small amount

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of blood through the pulmonary veins that I already explained, these bronchial veins, the ones on the

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right side, which can be 3 or 2, drain into the azygos and the one on the left side, which can also be

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three or two, drain into the the hemiazygos vein, this was all from the arterial part we are going to

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Now talk about lymphatic drainage, which is easy, these lymphatic vessels of the lung drain from

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superficial to deep, in fact we divide them into superficial and deep lymphatic vessels,

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the superficial lymphatic vessels are also called sub pleural because they are below the

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visceral pleura, they drain the superficial part of the lung, they in turn drain towards the deep ones

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, the deep ones we are going to find a group of ganglia that were inside the

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lung parenchyma, which are these that you see here, which are the pulmonary ganglia, they drain towards

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some that are located level of the hilum which are the bronchopulmonary ganglia, they are called

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that because you see that they are between the bronchi and the lung, which are these that you see here,

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they in turn drain the lymph, remember that the lymph comes from the lung outwards, they drain

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the lymph the nodes that are between the trachea and the bronchi which are these that you see together

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are the tracheobronchial nodes and those tracheobronchial drain into the nodes

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that are on the side of the trachea which are the tracheal nodes that some authors

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call paratracheal nodes , the pedicle of the lung, you already know that you should not confuse hilum with

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pedicle as I told you in the first video, the hilum is the place, the hollow space that

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an organ has through which structures enter and exit and the pedicle is the set of structures;

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Let's talk about the structure as a whole, this is the right lung, this would be anterior and this is

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posterior and this is a right lateral view, likewise this would be anterior and this posterior,

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the most anterior are always the veins, the body always puts the veins exposed because it is the

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least important from the functional and anatomical point of view, all the

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pulmonary veins are always in front of the hilum, behind the pulmonary veins is

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the pulmonary artery as you can see here and behind it the bronchi main ones,

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this side, let's say the shape, the configuration that both the right and left lungs have,

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first the veins, then the artery and then the main bronchi, in addition to this in

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the pedicle we also find the lymph nodes that I already told you right now, the deep ones, specifically

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the which are found at the level of the pedicle of the hilum are the bronchopulmonary ganglia,

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we also find the bronchial arteries, see them behind the

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right main bronchus, here too and we also find what are the bronchial veins that drain

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venous blood from the lung as parenchyma. So this is a fairly short video, don't forget to

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