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enseignants",{"title":54,"url":55},{"title":57,"url":58},{"title":186,"group":48,"menu":187},"Produit",[188,189,190,191,192,193,194],{"title":38,"url":7},{"title":65,"url":66},{"title":68,"url":69},{"title":71,"url":72},{"title":74,"url":75},{"title":15,"url":77},{"title":195,"url":10},"Tarification",{"title":197,"group":48,"menu":198},"Mentions légales",[199,200,201,202,203],{"title":197,"url":84},{"title":86,"url":87},{"title":89,"url":90},{"title":92,"url":93},{"title":95,"url":96},{"title":205,"group":48,"menu":206},"Service client",[207,208,209],{"title":101,"url":102},{"title":104,"url":105},{"title":107,"url":108},{"content":211,"related":270,"meta":336,"internal":345},{"title":212,"leadIn":213,"category":214,"elements":217,"becomeAnExpert":252,"author":254,"readDuration":268,"readDurationFormatted":269},"Determining the cardiac axis—made super easy","Determining the cardiac axis on the ECG is sometimes perceived as a secret art. But it’s really much easier than most people think.",{"id":215,"name":216},1,"Course previews",[218,229,234,239,247],{"type":219,"data":220},"video",{"readDurationInSeconds":221,"video":222},868,{"platform":223,"name":224,"url":225,"size":226},"Vimeo","FPC1: Video 1 (Axis)","https:\u002F\u002Fvimeo.com\u002F98573221",{"width":227,"height":228},480,300,{"type":230,"data":231},"free_text",{"readDurationInSeconds":232,"text":233},15.2,"\u003Cp>Determining the cardiac axis on the ECG is sometimes perceived as a secret (i.e., confusing) art. But it’s really much easier than most people think. There are just too many ways that you can do it–some super hard, some not so hard. In this short video from our \u003Ca href=\"https:\u002F\u002Fapp.medmastery.com\u002Fcourses\u002F14044\">ECG Mastery: Yellow Belt\u003C\u002Fa> course, I’ll explain the simple Medmastery way of doing it. In fact, it’s so simple, even a monkey could do it (or so they say).\u003C\u002Fp>",{"type":230,"data":235},{"readDurationInSeconds":236,"title":237,"text":238},15.466666666666667,"Join our ECG Mastery: Yellow Belt course now!","\u003Cp>This easy-to-understand and no-nonsense course teaches all the ECG basics you need to know to follow a case discussion and learn the ECG on the job. Plus, you will learn how to diagnose important structural heart problems, like myocardial infarction, hypertrophy, and volume overload. Recommended for anyone wanting to improve or refresh their ECG analysis skills.\u003C\u002Fp>",{"type":240,"data":241},"cta",{"readDurationInSeconds":242,"text":243,"buttonText":244,"buttonUrl":245,"teachIllustration":246},4,"Start the first chapter of our ECG Mastery: Yellow Belt course for free","Start chapter 1 now","https:\u002F\u002Fwww.medmastery.com\u002Fuser\u002Fregister?target=%2Fcourses%2Fecg-mastery-yellow-belt","https:\u002F\u002Fmedmastery-backend-prod-kjbeds.s3.eu-west-1.amazonaws.com\u002Fmedia\u002Fimages\u002F9c872c50-878d-4427-bac2-4876391cc4b1",{"type":230,"data":248},{"readDurationInSeconds":249,"title":250,"text":251},435.20000000000005,"Video Transcript","\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:00:00] \u003C\u002Fb>With the complicated geometry of the ventricles, you can imagine that at each point in time, there are vectors of different amplitudes, showing into different directions, in the heart. From all these momentary vectors, an average vector can be constructed for each point in time. The sequence of these average vectors, \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:00:30] \u003C\u002Fb>over the time of a ventricular depolarization, enables us to construct the vector loop, which you can see here. The vector loop is the line that connects the tip of the arrows, here. The strongest or longest of these average vectors shown in red, here, is called the main vector and where this vector is showing determines the electrical axis of the heart in the frontal plane. The most exact way would be to exactly determine \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:01:00] \u003C\u002Fb>and calculate the direction of the main vector in the frontal plane. For example, we could calculate if the main cardiac vector is showing into the direction of -60 degrees, -90 degrees or +120 degrees on the Cabrera circle. However, this is way too time-consuming and really not worth the effort because there are only a few situations where knowledge of the axis really makes a difference and we'll get to those a little later. But, in \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:01:30] \u003C\u002Fb>almost all countries, it is the rule to include information about the electrical axis in a complete ECG report, so we should be able to find the most important abnormalities of the electrical axis and here is a simple trick of how you can do it. We should remember that if the cardiac axis is showing into the direction of a certain lead, as lead 1, here in this example, then the deflection in that lead will be mainly positive. When the vector points away from that \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:02:00] \u003C\u002Fb>lead, we will get a negative deflection in that lead. Of course, the same also works for lead 2. So, if the main vector points into the direction of lead 2, then lead 2 will be mainly positive. Taking these two informations together, we can see what happens when lead 1 and lead 2 have predominantly positive deflections. Let's check it out. So, we said lead 1 is mainly positive. The cardiac axis is showing \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:02:30] \u003C\u002Fb>somewhere in the direction of the yellow area. Now, we take lead 2 and if lead 2 is also mainly positive, we know that the cardiac axis has to show somewhere at the intersection of the yellow and blue areas. And the mixture of yellow and blue is green as we know, so the cardiac axis has to show somewhere in the direction of the green area, which is -30 degrees to +90 degrees. And since most vectors in humans \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:03:00] \u003C\u002Fb>show into that direction, this is called a normal axis. The terminology in nomenclature, however, varies in different medical schools in different countries but we will use the terms mostly used in English and American textbooks. So, let's move on. When we have lead 1 positive, meaning that the cardiac axis shows into the direction of lead 1 and lead 2 mainly negative, meaning that the main cardiac axis shows away \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:03:30]\u003C\u002Fb> from lead 2, we know that the cardiac axis actually has to show at the intersection of these two areas, at the dark yellow area, here, from -30 to -90 degrees and this area is called left axis deviation. When lead 1 is negative, we know that the main vector will be found in the grey area. To be more precise, we have to look at aVF now. So, when lead 1 is negative, look at aVF \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:04:00] \u003C\u002Fb>and when lead 1 is positive, we look at lead 2, as we've just seen. So, when lead 1 is negative, we look at aVF and if aVF is mainly positive, we know that the main cardiac vector has to show somewhere into the direction of this dark blue or dark grey area, down here. And this is called right axis deviation. That's when the vector points into the direction of +90 \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:04:30] \u003C\u002Fb>to 180 degrees. And lastly, if lead 1 is negative and lead aVF is also mainly negative, we know that the main cardiac axis has to show into this area, up here and this area is actually called a north west axis. It's actually quite rare to find an axis that points into the direction of the north west axis and you shouldn't bother \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:05:00] \u003C\u002Fb>about it too much for now. So, let's recap. If the main cardiac vector points into the direction of the green area from -30 to +90 degrees, that's called a normal axis. If the cardiac vector points into the direction of the yellow area, from -30 to -90 degrees, that's called left axis deviation. And if the cardiac vector points into the direction of the blue area from +90 \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:05:30] \u003C\u002Fb>to 180 degrees, that's called a right axis deviation. And lastly, if the main cardiac axis points into the direction of +180 or ±180 to -90 then that's called a north west axis. You should only care about right axis deviation and left axis deviation for now. Why? Well, actually, if you have a normal axis then that doesn't help you that much in your diagnosis. A north west axis \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:06:00] \u003C\u002Fb>is very rare but if you have a left axis deviation or right axis deviation, that can really give you important clues as to the underlying diagnosis. Now, let me show you a simple trick to determine the cardiac axis really, really fast in most patients. Here's how it goes. The first thing to do is to hold the ECG printout as, shown here. Make sure that lead 1 is close to your left thumb. If lead 1 is \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:06:30] \u003C\u002Fb>positive, then look at lead 2, which should be next to your right thumb. If both leads are mainly positive, as in this example and as we've already learned then the patient has a normal axis. If lead 1, the lead to your left is mainly positive and lead 2, the lead to your right is mainly negative, then you're dealing with left axis deviation. If lead 1 is mainly negative, \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:07:00]\u003C\u002Fb> you should look at lead aVF instead of lead 2. Make sure that the left thumb is next to lead 1 and that your right thumb is next to lead aVF, in this case then, we'll carry on just as before. If the lead next to your left thumb, that is lead 1 is mainly negative and the lead next to your right thumb, that is lead aVF is mainly positive, then you're dealing with right axis deviation. And if both leads \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:07:30] \u003C\u002Fb>1 and aVF are negative, then you're dealing with one of the rare cases of a north west axis. Some people also call this an extreme axis. So, here are the different instances again. On the top half, lead 1 is mainly positive. So, we have to look at lead 2 in addition to lead 1. If both leads 1 and 2 are mainly positive, then the patient has normal axis. If the left lead, that is lead 1 \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:08:00] \u003C\u002Fb>is mainly positive and the right lead, that's lead 2 is mainly negative, the patient has left axis deviation. In the examples on the bottom, lead one is mainly negative. So, we have to look at lead aVF in addition to lead 1. If the lead to your right, that's lead aVF is mainly positive and the lead to your left, that's lead 1 is mainly negative, the patient has right axis deviation. And if both \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:08:30] \u003C\u002Fb>leads are mainly negative, the patient has a north west axis. One more thing, sometimes you don't have access to lead aVF, in which case, you can use lead 2 instead of lead aVF. So, instead of switching to aVF, when lead 1 is negative, you stick with lead 2. That's not as ideal but you'll still get fairly accurate results. As I've said, there are not a lot of clinical situations where knowledge of the cardiac axis really helps you come up \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:09:00] \u003C\u002Fb>with a better diagnosis. But now let's turn to the clinical situations where knowledge of the cardiac axis really makes a difference. Situation number one. This is the cardiac conduction system, that's the AV node, that's the bundle of HIS, that's the left bundle branch, which is subdivided into the left anterior fascicle, left anterior fascicle, and the left posterior fascicle. And then there's the right bundle branch.\u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:09:30]\u003C\u002Fb> Electrical depolarization that comes from the atria has to travel through the AV node and the bundle of HIS, to the bundle branches, to the Purkinje fibers. Now, in any of these structures, there can be so-called blocks, that is when the depolarization cannot travel through the structure. You can have an AV nodal block, you can have a block in the bundle branches, you can have a block in the left anterior fascicle, left posterior fascicle, and also in the right bundle branch, \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:10:00] \u003C\u002Fb>of course. And then you can also have a combination of all those blocks. And when you have a block of the right bundle branch and an additional block in one of the fascicles, we have what is called a bifascicular block. And whenever that happens, you get a deviation of the cardiac axis. So, let's assume you have a right bundle branch block. You see this M form over the right ventricle in V1 and V2 and as we've learned, that's a sign \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:10:30] \u003C\u002Fb>of right bundle branch block. If an addition to that, you also have a left axis deviation then, that means that you not only have a block of the right bundle branch but also of the left anterior fascicle. And this entity is easy to remember because there is a pneumonic that's called LAFT. LAFT meaning when you have a block of the left anterior fascicle, you have a deviation of the cardiac axis to the left. \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:11:00] \u003C\u002Fb>So, left axis deviation is equal to left anterior hemiblock. Now, let's turn to another scenario. Let's say you have right bundle branch block, plus a right axis deviation, what does that mean? That means that you have a block in the right bundle branch, plus a block in the left posterior fascicle. So, the take-home message here is \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:11:30]\u003C\u002Fb> if you have a right bundle branch block, always look for axis deviation. If you have left axis deviation, that means that the left anterior fascicle is also blocked. If you have right axis deviation, that means that the left posterior fascicle is also blocked. So, that's the first situation in which knowledge of the cardiac axis helps you come up with the more refined and better diagnosis. Now, let's turn to the second situation. Whenever you suspect \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:12:00]\u003C\u002Fb> right ventricular stain or right ventricular hypertrophy, it helps to look for the presence of right axis deviation. So, for example, let's assume you have a patient who comes into the emergency room with symptoms that are compatible with a right heart problem, with dyspnea and subtle signs of cyanosis. You write an ECG and see signs of right ventricular hypertrophy with the tall R wave in V1 and a deep S wave in V5 and the R to S ratio \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:12:30] \u003C\u002Fb>is above 1. Now, this constellation of science already suggests a high likelihood that something's wrong. Remember our RSS criteria. But when there's also right axis deviation, you almost have certainty that something's wrong here and that the right heart has a problem. So, whenever you have a suspicion of a right heart problem, of a right ventricular hypertrophy for example, with a V1 and V5 that look like this, plus a right axis deviation then you have almost certainty that right ventricular \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:13:00] \u003C\u002Fb>hypertrophy is present. In other words, signs of right ventricular hypertrophy, plus right axis deviation, increases the likelihood of right ventricular hypertrophy. Let's turn to situation number three. Let's assume you have a patient who has this ECG—V1, V2, V5, V6. What's the problem here? Right. This ECG suggests left ventricular hypertrophy. \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:13:30] \u003C\u002Fb>The Sokolow index is positive. The R in V5 is 2.2 mV. The S in V2 is 3.1 mV. 3.1 plus 2.2 equals 5.3 and 5.3 is way over our threshold of 3.5 mV. So, we have a strong suspicion of left ventricular hypertrophy. Now, let's assume that this patient also has right axis deviation. What does that mean? \u003C\u002Fp>\u003Cp dir=\"ltr\">\u003Cb id=\"docs-internal-guid-4e6ce718-7fff-d7f0-be11-8ac53f8faadd\">[00:14:00] \u003C\u002Fb>Well, it means, or suggests, that we have biventricular hypertrophy, that both the left and the right ventricles are hypertrophic. These were the situations where knowledge of the electrical axis will provide you with valuable information. What do I mean when I say valuable information? Well, I'm talking about information that will actually help you to refine your clinical diagnosis and make it better.\u003C\u002Fp>",{"courses":253,"showAwardsBelow":48},[],{"id":255,"name":256,"image":257,"profession":258,"relativeUrl":261,"specializations":262},1563,"Franz Wiesbauer, MD MPH","https:\u002F\u002Fmedmastery-backend-prod-kjbeds.s3.eu-west-1.amazonaws.com\u002Fmedia\u002Fimages\u002F9c43cef0-41ee-4005-9e4a-d8711c816401",{"name":259,"description":260},"Internist","Franz is the founder and CEO of Medmastery. He is an internist with a specialization in cardiology and a master’s in public health from Johns Hopkins University.","\u002Fteachers\u002Ffranz-wiesbauer-md-mph",[263,264,265,266,267],"Nephrology","Professional development","Cardiology","Ultrasound","Emergency medicine and critical care",477,"8m",[271,292,311],{"id":272,"title":273,"text":274,"image":275,"author":283,"path":285,"readDuration":286,"readDurationFormatted":287,"internal":288},1350,"How to Recognize INOCA (ANOCA) on an Exercise Stress Test ","Angina, abnormal stress test, clean coronaries—that's INOCA (or ANOCA), and it carries real risk. 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