This was amazing, I finally understand EKGs for the first time ever despite EKGs being "taught" to me numerous times before. Thank you for sharing your knowledge, Dr. Strong. You are a great teacher :)
This series is awesome especially for those re-entering into healthcare like myself. Dr. Eric provides both book and online resources in addition to his lectures., One should feel confident with their skills after completing the course. Bravo both thorough and well done, thank you Dr. Eric
Dr.STONG,THANK YOU VERY MUCH.YOUR EKG LESSONS &THIER EXPLANATIONS , CLARIFICATIONS ARE EXRAORDINARILY IMPRESSIVE ON HEART CHAMBERS ENLARGEMENT &THEIR CLINICAL APPLICATIONS , SPECIFICITY, SENEITIVITY .I KNEW SO MANY KEY NOTES TO COME AT EARLY DIAGNOSIS OF HEART ENLARGEMENT & FOR LAST QUESTION I MY SELF DIAGNOSED EXACTLY PRIOR TO YOUR S CLARIFICATION . SO MANY THANKS.
Many thanks Dr Eric, what takes dozens of books to read is clearly and systematically arranged for such easy learning here.its helped me so much, i can safely say i can properly read an EKG thanks to you.
I drew the P waves from this lecture on a large piece of paper for students in my most recent 12 lead class to illustrate the concept of atrial enlargement. The student feedback was very positive and requested the p wave paper drwaings be incorporated into the ppt lecture. I think this is just further evidence that the info presented is very clear and valued by beginning 12 lead students! thank you!
Dr. Strong, thank you so much for all this great lessons. I have only watch´t nine of them so far, this is truly one of the best training that one can get on TH-cam. This is helping a lot in my paramedic training. All the best from Iceland.
really so helpful! just putting the heart in the ribcage and showing the vector movements for each change makes understanding it so much easier. thanks!
Thank you- this was a very helpful review. I am a nurse that will teach this to other nurses. The pace of the lecture was good, clear and to the point. Thank you- the information I gained from the video will help me be a better teacher (I hope).
Great lecture. Often books have a schematic ecg portion showing only the findings. Your approach is better as we also get to know what and where to look. Very useful for clinical practice as well as for recent trend of post grad entrance exams in India (yup I'm from India) where they have introduced image based questions.These lectures not only give useful knowledge but also the confidence one needs to deal with ECGs in exams as well as in clinical practice. Kudos to you sir!
@ho littleho, none of the EKG tracings are upside down. However, a prior commenter was thrown off the orientation of the heart in the diagrams showing the relationship of the heart to the precordial leads (which is what I suspect you are referring to). That view is an axial cross section in which the front of the heart is at the top of the picture, and the heart's left side is on the right side of the screen. This view was unexpected and a little disorienting to me the first time I saw it, but it is the standard used in cross sectional anatomy, including CT and MRI scans. I know that some people would prefer the more intuitive view with the heart at the bottom, but for better or worse, convention puts it at the top. Hope that helps!
Thank you very much Dr Strong. It is very very helpful. My previous knowledge of EKG probably ,I could tell that this tracing call EKG :) now I could somewhat tell of chamber enlargement .
Thanks for pointing that out. I think there used to be an annotation calling attention to that error, but then frustratingly TH-cam got rid of all annotations years ago.
DODesertDweller, you're right that If a patient has evidence of RVH, and also has tall R waves with T wave inversion in V6, if would certainly suggest concurrent LVH. However, I don't think the RVH example shows these findings. I think u might be looking at a different lead?
hello, Dr, I would like to say that your youtube lessons have helped me alot, Im a 6th year med student and our classes on ECG were very poor since inthe hospital were I was working there was only one electrocardiogram and it belonged to the cardiologist who then left... I just wanted to ask you to increase the volume in your videos as the sound is very low and if you could provide exam exercises for us to work out?
Hello Dr Strong, excellent lecture - just one thing for my emphasis that at 10:42 when u said that the area under the curve enclosed as positive deflection should be more than 1 small square - but the colored area represents one large square - i did not understand that point - please would help a lot if u can answer that for me - appreciate.
Thanks for the great lecture, Dr Strong. Why in the discussion of RVH represented in the precordial leads do we see the initial positive deflection in V6? I would have expected a QS wave in V6, with no positive deflection: that is, the initial septal depolarization (physiologic Q), followed by the deeper negative deflection of RV depolarization, with the "electrically humble" left ventricular wave subsumed/concealed within the deep negative S wave. The early R wave/positive deflection in V6 suggests at some point (after septal depolarization?) that the summation vector is decidedly toward the LV, then reverses toward the hypertrophied RV. Does the normal-size LV depolarize faster than the hypertrophied RV, such that early in the QRS complex the summation wave is toward V6? Is conduction in the LBB faster than in the RBB? In conduction less efficient in a hypertrophied ventricle? Does the degree of RVH affect the precordial QRS complex, ie in a massively remodeled RV (or a newborn's), could we see the LV wave fully subsumed in the RV wave? Finally, in RVH, why have we lost the septal depolarization wave in V1 and V6, with the first deflection representing LV depolarization?
Hi Dr. Eric. In your explanation on ventricular hypertrophy, around 15:10, the V1 graph for RVH has an inverted T wave. Is that normal or possibly a consequence of something? Thanks.
In both right and left hypertrophy, it is common to have an inverted T wave in the leads which lie most directly over the affected ventricle (i.e. V1 and V2 in RVH. V5, V6, I, and aVL in LVH).
Great video! Amazing teaching skills. At 8:13 - If somebody has a left atrial enlargement, I could see this also on lead I's p wave, which should have now a higher amplitude, right? 25:46 - lead II has a r wave (major ventr. depol.) and a deep S wave (basal ventr. depol.), both due to the LVH as well? R because of the shift, S because of the incr. number of cells? BTW it is "one specific criteriON" :-)
I recorded the video many years ago, so I can't say that I remember exactly why I chose those specific words...but having said that, I do find that most ECG learners know early on that 1 small box (i.e. 1mm) = 40 ms, while even among practicing clinicians, very few know the scale for the y axis. But if one were to be technical about the criteria, it is measured in mV and ms.
I love your video series. It would be great if you would have a step wise technique for reading EKG's. for example step 1 find the axis, step 2 look at these leads and so on. Again thank you for your videos.
Thanks for the suggestion! A video on my recommended stepwise technique is on my shortlist for upcoming videos. Realistically, it will probably be posted by early March or so (though hopefully sooner).
Thank you so much for these great lectures. Would you be able to post pdf slides on your google drive for all your lectures (or at least for the EKG ones)? They would greatly enhance what is an already brilliant lecture series. Cheers, Jason
M having a doubt in RVH how come a deep S wave is formed in V6.. If the deep S wave is due to net deflection of vector towards right side then how come a positive 'r' wave is formed in V6? Its is due to? At the same time in RVH in V1 there will be tall R wave follwed by a small s wave . This s wave is due to ?
+alexandre diakhate There isn't one. Left atrial enlargement is suggested by the presence of either one of the following: the area under the negative part of the P wave in lead V1 being greater than 1 small box in area (as demonstrated at 27:38), OR a P wave duration greater than 120ms (3 small boxes) in lead II (as demonstrated at 25:30). You don't need both findings to be present in order for left atrial enlargement to be suggested. The double peak of the P wave often is seem with the prolonged P wave in lead II, but the presence of a double peaked P wave is neither necessary nor sufficient for atrial enlargement. Also, as mentioned in the video, some references also talk about a leftward "P wave axis" as suggestive of left atrial enlargement, but I literally can't think of a single time when this was brought up with me when discussing an ECG in actual practice.
Looks like a long notched p in II (ie alexandre's "double peak") is nearly sufficient to diagnose LAE, no? 99% specificity, and the most specific criterion.
I rather want to know what atrial repolarization wave is called (Ta????)wave and why it isn't seen in morbitz type ii or type 3 ab block and is there any correlation like secondary repolarization abnormalities like T waves. Would be thankful for this.
Hey Doc, great videos. I was wondering as a suggestion for new topics, if you could include videos on POCUS, basic bedside echo technique, image reading etc..? Would be awesome especially given your great teaching skills.
Thank you for the great series of videos! One question about the part of intrinsicoid deflection in LVH: On the example given, is there any relevance on the notch found on the abnormal QRS complex to suspect LVH or should we focus mainly on the intrinsicoid deflection duration itself?
Did I get that right? ....Nearly all studies were done before echocardiography entered into common usage and many therefore utilized LV mass measured directly at autopsy as the gold standard.... shiver... That must have been long studies then... (I hope they didn't speed up the process) ... :)
I still don't understand what the complex represent in RVH. My understanding is that in RVH 1. left to right septum depolarization 2. ventricular depolarization to the right. So shouldn't v1 show a rR' complex and qQ' complex in v6? What does the q wave in V1 and R wave in V6 represent?
Amazing video. Still struggling to grasp the interpretation aspect that was demonstrated at the end. I struggle to apply the systematic approach to interpreting to Rhythms.
Hi, thank you for the video, that's very pedagogistic. However, I have a question : I don't understand why, in the RVH, you have a Q wave which is negative. If I have well understood, this wave is the septal depolarisation which is in direction to the right ventricule, why does it change during the RVH ? Thank you.
Can anyone tell me why does q wave appear in V1 following RVH? you can see that at normal state it is absent (which makes sense), but why suddenly it pops out??
The combination of other findings - borderline right axis deviation, poor R wave progression, low QRS voltage, and right atrial enlargement - are all seen in patients with COPD. Also, because of the combination of decreased QRS voltage and occasional mild rotation of the heart in patients with severe hyperinflation, ECGs of patients with COPD + RVH often don't look like the classic RVH (tall R in V1) that one might expect. Although this classification system is not widely used (or even known about), one historically prominent ECG reference has defined 3 subtypes of RVH, of which this COPD varient is one: books.google.com/books?id=EMH82LTrZI8C&pg=PA58&lpg=PA58&dq=chou+types+of+rvh&source=bl&ots=3LPHeN5Cq6&sig=ACfU3U3NMSfS9o5Ao-zaaMq5jcEwakGFjQ&hl=en&sa=X&ved=2ahUKEwiSrKmi9_noAhUDKqwKHf0tAg8Q6AEwCXoECBwQAQ#v=onepage&q=chou%20types%20of%20rvh&f=false
Hi Dr. Strong, I think there is a mistake at the final example of right and left atrial enlargement. Tall R wave in lead II as an example of RAE must be Tall P wave instead
Thanks. There is an embedded annotation pointing out the error, but unfortunately, annotation don't work when viewed on mobile devices, and others may have them turned off.
Hi Dr. Strong, In the first example of RAE, why aren't any appropriate changes seen in lead V1? and If they would have appeared (>1 small box) would it increase the likelihood of a RAE based on the EKG?
I'm not sure which "first example of RAE" you're referring to, but the explanation is likely that the V1 changes expected in RAE (ie large initial positive deflection) have only 10% sensitivity (from Tsao et al paper Dr Strong references). In other words, the absence of V1 changes does not in any way help rule out RAE. It's only useful to rule RAE in (96% spec).
Hi, I am just wondering, in LVH the initial physiological q wave in V6 is often missing, and in RVH there is an initial small negative deflection in V1 (instead of the small positive deflection indicating septal depolarization), what is the cause of these changes? Does hypertrophy of either ventricle change the directionality of the septal depolarization? Your tutorials are brilliant btw,
Kim Ollivier Those are both great questions! The bottom line is I don't actually know why the details of the morphology of the QRS complexes in LVH and RVH don't always conform exactly to what one would predict. In the case of the missing septal q wave in LVH, I'm guessing it's because the left side of the interventricular septum (i.e. leftward of the left bundle) is hypertrophied enough that the depolarization vector leftward from the left bundle is greater than that of the vector directed rightward from the left bundle. (hard to explain without being able to draw it out - wish TH-cam allowed uploading photos in the comment section!). Unfortunately, I can't offer an explanation as to why there is sometimes an initial negative deflection in V1 in RVH - I agree that it doesn't make sense.
exactly my question, as according to how the electrical activity moves from right then left in ventricle. IN RVH in V1 there was initial Q deflection pointing the left ventricular depolarization but in normal the upward election R wave in V1 is right ventricular depolarization IN OTHER WORS HOW COME THE LEFT VENTRICULAR DEPOLARISATION IN V1 IN RVH COMES BEFORE THE RIGHT VENTRICUALR REPOLARISATION IN CONTRAST TO NORMAL LEAD IN V1 IN WHICH THE RIGHT VENTICULAR REPOLARIZATION COMES BEFORE.
My question is why would this show up on my heart ecg when they been normal till now I'm.60 year old female are these accurate in determining this condition and should I be concerned about my health?
That's a great question. I previously used this EKG with my students, but had to change it because they also got distracted by the ST elevations in V1-V4 (most prominent in V3, as you point out). In the right context, that might be very concerning for a possible STEMI. For example, if a patient came in to the emergency room with an hour of chest pressure, and a previous EKG from 6 months ago didn't have those elevations. However, there are plenty of other things which can cause mild ST elevations, particularly in the septal leads (V1-V2): LVH being one of them. LBBB is another common cause, as is a normal variant called "early repolarization". This is discussed in detail in the video on QRST changes, later in my EKG playlist.
That's a great question! I would frame the problem slightly differently: how to diagnose hypertrophy in the presence of bundle branch blocks. Bundle branch blocks are generally diagnosed using the same criteria as usual. However, since blocks impact QRS voltage (RBBB causes tall R waves in V1, LBBB cause deep QS complexes in V1), and blocks cause secondary repolarization abnormalities morphologically similar to hypertrophy, separating block alone from block + hypertrophy can be very difficult or impossible. I suspect someone has published some form of criteria or rules for determining this, but I've never heard anyone discuss them.
hello dr.Erics first of all thanks so much for your effort second . in minute 28.22 in the last example of both atrial enlargement you've mentioned that there tall R wave in the lead ll resulting in RAE its written like this but i heard you saying tall p.wave in lead ll so please correct me if i am wrong
I was able to solve most of the tracing on the ecg paper, but ngl, i still find it difficult... honestly speaking... ecg is the hardest thing in medicine for me... I am just going to cross my fingers during my finals.
Damm you should get a Nobel Prize from this, Nobel Prize of education!
Probably the Most Productive 30 Mins of My Medical Education so far , Thanks a lot Sir
Easily the best educational video on the topic. Crystal clear, nuanced yet concise. Heartfelt thanks
Greatly appreciate the effort put into making these videos. 30 mins video probably took many hours/days of preparation.
This was amazing, I finally understand EKGs for the first time ever despite EKGs being "taught" to me numerous times before. Thank you for sharing your knowledge, Dr. Strong. You are a great teacher :)
grt
This series is awesome especially for those re-entering into healthcare like myself. Dr. Eric provides both book and online resources in addition to his lectures., One should feel confident with their skills after completing the course. Bravo both thorough and well done, thank you Dr. Eric
this is a life-saver before med-school finals. hopefuly i pass everything.
thank you!
Dr.STONG,THANK YOU VERY MUCH.YOUR EKG LESSONS &THIER EXPLANATIONS , CLARIFICATIONS ARE EXRAORDINARILY IMPRESSIVE ON HEART CHAMBERS ENLARGEMENT &THEIR CLINICAL APPLICATIONS , SPECIFICITY, SENEITIVITY .I KNEW SO MANY KEY NOTES TO COME AT EARLY DIAGNOSIS OF HEART ENLARGEMENT & FOR LAST QUESTION I MY SELF DIAGNOSED EXACTLY PRIOR TO YOUR S CLARIFICATION . SO MANY THANKS.
Many thanks Dr Eric, what takes dozens of books to read is clearly and systematically arranged for such easy learning here.its helped me so much, i can safely say i can properly read an EKG thanks to you.
I drew the P waves from this lecture on a large piece of paper for students in my most recent 12 lead class to illustrate the concept of atrial enlargement. The student feedback was very positive and requested the p wave paper drwaings be incorporated into the ppt lecture. I think this is just further evidence that the info presented is very clear and valued by beginning 12 lead students! thank you!
Thanks very much! I'm glad your students found it helpful!
There are courses for WCG interpretation that are expensive. This is free and far more comprehensive. Thanks for your educational service
I havenot learnt enough in my 5 years of med school that i have learnt from your videos in last 3 4 months
Dr. Strong, thank you so much for all this great lessons. I have only watch´t nine of them so far, this is truly one of the best training that one can get on TH-cam. This is helping a lot in my paramedic training. All the best from Iceland.
This is the gold standard for education videos.
I feel like a new woman now that I finally understand EKGs. Thank you so much!!!!
really so helpful! just putting the heart in the ribcage and showing the vector movements for each change makes understanding it so much easier. thanks!
This is a beastly lecture. I put it away in 3rd year, but now I'm back to contend with it. Will take a few passes that's for sure.
Thank you- this was a very helpful review. I am a nurse that will teach this to other nurses. The pace of the lecture was good, clear and to the point. Thank you- the information I gained from the video will help me be a better teacher (I hope).
Can’t thank you enough Dr. Strong for this series ❤ surprisingly excellent 👌 🙏 29:13
Explaining it like a champ Dr. Strong!
i wished i had known about these great lectures earlier , many thanks for you
Really appreciated the quiz after the presentation. Hope you add that to more of your presentations.
Great job. Good example. Didn’t quit understand how to get deviations from EKG but the explanation makes perfect sence
Great lecture. Often books have a schematic ecg portion showing only the findings. Your approach is better as we also get to know what and where to look. Very useful for clinical practice as well as for recent trend of post grad entrance exams in India (yup I'm from India) where they have introduced image based questions.These lectures not only give useful knowledge but also the confidence one needs to deal with ECGs in exams as well as in clinical practice. Kudos to you sir!
@ho littleho, none of the EKG tracings are upside down. However, a prior commenter was thrown off the orientation of the heart in the diagrams showing the relationship of the heart to the precordial leads (which is what I suspect you are referring to). That view is an axial cross section in which the front of the heart is at the top of the picture, and the heart's left side is on the right side of the screen. This view was unexpected and a little disorienting to me the first time I saw it, but it is the standard used in cross sectional anatomy, including CT and MRI scans. I know that some people would prefer the more intuitive view with the heart at the bottom, but for better or worse, convention puts it at the top. Hope that helps!
Sir thank you so much. May you live long with the best of health and happiness Ameen ❤️ love and respect from your Pakistani student
Thank you very much Dr Strong. It is very very helpful. My previous knowledge of EKG probably ,I could tell that this tracing call EKG :) now I could somewhat tell of chamber enlargement .
This video is so helpful. Thanks from Łódź!
On 28:20 it should say "tall P wave on lead 2" on the box
Thanks for pointing that out. I think there used to be an annotation calling attention to that error, but then frustratingly TH-cam got rid of all annotations years ago.
very good lecture. Including what normal looks like next to the hypertrophied or enlarged chambers in the ECG interpretation was very helpful.
it was amazing just like all your other lectures
I just want to say thank you and I love you. Stress level down by 99% mv
Thank you for the beautiful and easy presentation sir. It's really helpful..
This is the best med yt channel
i watched this video the other day and had a pt that i was able to recognize RA right away. Thanks
Thanks. I really enjoyed your lectures so far!
15:07
Why in RVH v1 has qR since it records RV 1st
While v6 rS as it records LV 1st?
I have the exact same question
you’re way more pedagogical than any professor of mine ever been
Beautiful explanation!!! Loved it
DODesertDweller, you're right that If a patient has evidence of RVH, and also has tall R waves with T wave inversion in V6, if would certainly suggest concurrent LVH. However, I don't think the RVH example shows these findings. I think u might be looking at a different lead?
@27:49 How did you conclude that this was LAE, when the P waves in lead II look more like the patterns in @08:09 for RAE rather than LAE?
hello, Dr, I would like to say that your youtube lessons have helped me alot, Im a 6th year med student and our classes on ECG were very poor since inthe hospital were I was working there was only one electrocardiogram and it belonged to the cardiologist who then left... I just wanted to ask you to increase the volume in your videos as the sound is very low and if you could provide exam exercises for us to work out?
Hello Dr Strong, excellent lecture - just one thing for my emphasis that at 10:42 when u said that the area under the curve enclosed as positive deflection should be more than 1 small square - but the colored area represents one large square - i did not understand that point - please would help a lot if u can answer that for me - appreciate.
Thank you for the amazing video!!!! I LOVE STANFORD!! 👊 This was so hard to understand but know makes sense. :)
Absolute genius🤩🤩
Thanks for the great lecture, Dr Strong. Why in the discussion of RVH represented in the precordial leads do we see the initial positive deflection in V6? I would have expected a QS wave in V6, with no positive deflection: that is, the initial septal depolarization (physiologic Q), followed by the deeper negative deflection of RV depolarization, with the "electrically humble" left ventricular wave subsumed/concealed within the deep negative S wave. The early R wave/positive deflection in V6 suggests at some point (after septal depolarization?) that the summation vector is decidedly toward the LV, then reverses toward the hypertrophied RV. Does the normal-size LV depolarize faster than the hypertrophied RV, such that early in the QRS complex the summation wave is toward V6? Is conduction in the LBB faster than in the RBB? In conduction less efficient in a hypertrophied ventricle? Does the degree of RVH affect the precordial QRS complex, ie in a massively remodeled RV (or a newborn's), could we see the LV wave fully subsumed in the RV wave? Finally, in RVH, why have we lost the septal depolarization wave in V1 and V6, with the first deflection representing LV depolarization?
I have the exact same question
Thanks for your clearly lectures
Hi Dr. Eric. In your explanation on ventricular hypertrophy, around 15:10, the V1 graph for RVH has an inverted T wave. Is that normal or possibly a consequence of something? Thanks.
In both right and left hypertrophy, it is common to have an inverted T wave in the leads which lie most directly over the affected ventricle (i.e. V1 and V2 in RVH. V5, V6, I, and aVL in LVH).
Eric's Medical Lectures Thank you. I got your explanation when I continued the video
Very informative and easy to understand
This video is so helpful ❤️❤️ Thank you
Very helpful lecture,thanks a lot
You save me and i am trully greatful for it. Thank you
Thank you Eric Strong ❤
Great video! Amazing teaching skills.
At 8:13 - If somebody has a left atrial enlargement, I could see this also on lead I's p wave, which should have now a higher amplitude, right?
25:46 - lead II has a r wave (major ventr. depol.) and a deep S wave (basal ventr. depol.), both due to the LVH as well? R because of the shift, S because of the incr. number of cells?
BTW it is "one specific criteriON" :-)
When discussing RAE and LAE @7:39, why did you use >2.5 mm for RAE instead of >0.25 mV and >120 ms for LAE instead of >3 mm?
I recorded the video many years ago, so I can't say that I remember exactly why I chose those specific words...but having said that, I do find that most ECG learners know early on that 1 small box (i.e. 1mm) = 40 ms, while even among practicing clinicians, very few know the scale for the y axis. But if one were to be technical about the criteria, it is measured in mV and ms.
25:02 Is just me or it is impossible to count the small boxes without the zoom?
I love your video series. It would be great if you would have a step wise technique for reading EKG's. for example step 1 find the axis, step 2 look at these leads and so on.
Again thank you for your videos.
Thanks for the suggestion! A video on my recommended stepwise technique is on my shortlist for upcoming videos. Realistically, it will probably be posted by early March or so (though hopefully sooner).
Excellent.
thanks a lot. that was very helpful & clear
Thank you Sir it’s so helpful 🙏🏻
Excellent
Good voice to listen to as well btw
Thank you so much for these great lectures. Would you be able to post pdf slides on your google drive for all your lectures (or at least for the EKG ones)? They would greatly enhance what is an already brilliant lecture series.
Cheers,
Jason
I like your videos, but at 09:12 there is a mistake in the placement of ecg electrodes.
Nice work........
thank you so much .good bless you..you made it so simple
Thank you Dr Strong!
thanks a billion times. awesome video
M having a doubt in RVH how come a deep S wave is formed in V6.. If the deep S wave is due to net deflection of vector towards right side then how come a positive 'r' wave is formed in V6? Its is due to?
At the same time in RVH in V1 there will be tall R wave follwed by a small s wave . This s wave is due to ?
I didn't understand that axis.. Why did you say 45° .. at 26:20
27:38, where is the double peak to determine the Left Atrial Hypertrophy ? I am lost...
+alexandre diakhate There isn't one. Left atrial enlargement is suggested by the presence of either one of the following: the area under the negative part of the P wave in lead V1 being greater than 1 small box in area (as demonstrated at 27:38), OR a P wave duration greater than 120ms (3 small boxes) in lead II (as demonstrated at 25:30). You don't need both findings to be present in order for left atrial enlargement to be suggested. The double peak of the P wave often is seem with the prolonged P wave in lead II, but the presence of a double peaked P wave is neither necessary nor sufficient for atrial enlargement.
Also, as mentioned in the video, some references also talk about a leftward "P wave axis" as suggestive of left atrial enlargement, but I literally can't think of a single time when this was brought up with me when discussing an ECG in actual practice.
+Strong Medicine Thanks, you helped me a lot. I have exam tomorrow about ecg. MedStudent from brazil.
alexandre diakhate Good luck!
Looks like a long notched p in II (ie alexandre's "double peak") is nearly sufficient to diagnose LAE, no? 99% specificity, and the most specific criterion.
I rather want to know what atrial repolarization wave is called (Ta????)wave and why it isn't seen in morbitz type ii or type 3 ab block and is there any correlation like secondary repolarization abnormalities like T waves. Would be thankful for this.
Really interesting and explicit
Hey Doc, great videos. I was wondering as a suggestion for new topics, if you could include videos on POCUS, basic bedside echo technique, image reading etc..? Would be awesome especially given your great teaching skills.
Thank you for the great series of videos! One question about the part of intrinsicoid deflection in LVH:
On the example given, is there any relevance on the notch found on the abnormal QRS complex to suspect LVH or should we focus mainly on the intrinsicoid deflection duration itself?
Thank you so much for this!!! 😭
Did I get that right?
....Nearly all studies were done before echocardiography entered into common usage and many therefore utilized LV mass measured directly at autopsy as the gold standard....
shiver...
That must have been long studies then... (I hope they didn't speed up the process) ... :)
Yes, don't worry, I'm sure they collected the data over many years!
I still don't understand what the complex represent in RVH. My understanding is that in RVH 1. left to right septum depolarization 2. ventricular depolarization to the right. So shouldn't v1 show a rR' complex and qQ' complex in v6? What does the q wave in V1 and R wave in V6 represent?
Amazing video. Still struggling to grasp the interpretation aspect that was demonstrated at the end. I struggle to apply the systematic approach to interpreting to Rhythms.
Danilo, thanks for watching! A video on an approach to identifying arrhythmias will be posted next.
How do we know that rbbb and left posterior fascicle block are present at the same time as criteria for 1 omits another.
Hi, thank you for the video, that's very pedagogistic.
However, I have a question : I don't understand why, in the RVH, you have a Q wave which is negative. If I have well understood, this wave is the septal depolarisation which is in direction to the right ventricule, why does it change during the RVH ?
Thank you.
Can anyone tell me why does q wave appear in V1 following RVH?
you can see that at normal state it is absent (which makes sense), but why suddenly it pops out??
Hello Dr Strong, for the last EKG: it should be Tall P wave in lead II instead of tall R wave as you said. Anyway great jobs
Great lecture, thank you
Why is the last example probable COPD since there’s no RVH ? Thank you !
The combination of other findings - borderline right axis deviation, poor R wave progression, low QRS voltage, and right atrial enlargement - are all seen in patients with COPD. Also, because of the combination of decreased QRS voltage and occasional mild rotation of the heart in patients with severe hyperinflation, ECGs of patients with COPD + RVH often don't look like the classic RVH (tall R in V1) that one might expect. Although this classification system is not widely used (or even known about), one historically prominent ECG reference has defined 3 subtypes of RVH, of which this COPD varient is one: books.google.com/books?id=EMH82LTrZI8C&pg=PA58&lpg=PA58&dq=chou+types+of+rvh&source=bl&ots=3LPHeN5Cq6&sig=ACfU3U3NMSfS9o5Ao-zaaMq5jcEwakGFjQ&hl=en&sa=X&ved=2ahUKEwiSrKmi9_noAhUDKqwKHf0tAg8Q6AEwCXoECBwQAQ#v=onepage&q=chou%20types%20of%20rvh&f=false
Thank you !
Hi Dr. Strong, I think there is a mistake at the final example of right and left atrial enlargement. Tall R wave in lead II as an example of RAE must be Tall P wave instead
Thanks. There is an embedded annotation pointing out the error, but unfortunately, annotation don't work when viewed on mobile devices, and others may have them turned off.
Hi Dr. Strong,
In the first example of RAE, why aren't any appropriate changes seen in lead V1? and If they would have appeared (>1 small box) would it increase the likelihood of a RAE based on the EKG?
I'm not sure which "first example of RAE" you're referring to, but the explanation is likely that the V1 changes expected in RAE (ie large initial positive deflection) have only 10% sensitivity (from Tsao et al paper Dr Strong references). In other words, the absence of V1 changes does not in any way help rule out RAE. It's only useful to rule RAE in (96% spec).
Hi, I am just wondering, in LVH the initial physiological q wave in V6 is often missing, and in RVH there is an initial small negative deflection in V1 (instead of the small positive deflection indicating septal depolarization), what is the cause of these changes? Does hypertrophy of either ventricle change the directionality of the septal depolarization? Your tutorials are brilliant btw,
Kim Ollivier Those are both great questions! The bottom line is I don't actually know why the details of the morphology of the QRS complexes in LVH and RVH don't always conform exactly to what one would predict. In the case of the missing septal q wave in LVH, I'm guessing it's because the left side of the interventricular septum (i.e. leftward of the left bundle) is hypertrophied enough that the depolarization vector leftward from the left bundle is greater than that of the vector directed rightward from the left bundle. (hard to explain without being able to draw it out - wish TH-cam allowed uploading photos in the comment section!). Unfortunately, I can't offer an explanation as to why there is sometimes an initial negative deflection in V1 in RVH - I agree that it doesn't make sense.
exactly my question, as according to how the electrical activity moves from right then left in ventricle. IN RVH in V1 there was initial Q deflection pointing the left ventricular depolarization but in normal the upward election R wave in V1 is right ventricular depolarization
IN OTHER WORS HOW COME THE LEFT VENTRICULAR DEPOLARISATION IN V1 IN RVH COMES BEFORE THE RIGHT VENTRICUALR REPOLARISATION IN CONTRAST TO NORMAL LEAD IN V1 IN WHICH THE RIGHT VENTICULAR REPOLARIZATION COMES BEFORE.
This is awesome. Can I get the pdf file, please?
Why can't we see the septal depolarisation in LVH?
Thanks Dr. Strong; incredibly useful information. However, isn't the left ventricle *anterior* to the right ventricle, not the other way around?
Nope. RV is anterior to the LV. See: mrimaster.com/anatomy/heart/mri%20heart%20cross%20sectional%20anatomy%208.jpg
(1) thanks for the rapid response - you're a legend.
(2) we'll have to re-draw some textbooks, if not already done with that MRI; goo.gl/images/tA4J7B
Great! you rock, Eric!!!
My question is why would this show up on my heart ecg when they been normal till now I'm.60 year old female are these accurate in determining this condition and should I be concerned about my health?
I'm very sorry, but I can't offer individualized medical advice via this TH-cam channel. I recommend you discuss your concerns with your physician.
@@StrongMed thank you :)
Thank you Dr Strong
finally understood, thnks too much
You are the GOAT
V3 at 26:30, isn't that a STEMI?
That's a great question. I previously used this EKG with my students, but had to change it because they also got distracted by the ST elevations in V1-V4 (most prominent in V3, as you point out). In the right context, that might be very concerning for a possible STEMI. For example, if a patient came in to the emergency room with an hour of chest pressure, and a previous EKG from 6 months ago didn't have those elevations. However, there are plenty of other things which can cause mild ST elevations, particularly in the septal leads (V1-V2): LVH being one of them. LBBB is another common cause, as is a normal variant called "early repolarization". This is discussed in detail in the video on QRST changes, later in my EKG playlist.
How did you draw these man?
thanks a lot
tell how to diagnose blocks in presence of hypertrophy
That's a great question! I would frame the problem slightly differently: how to diagnose hypertrophy in the presence of bundle branch blocks. Bundle branch blocks are generally diagnosed using the same criteria as usual. However, since blocks impact QRS voltage (RBBB causes tall R waves in V1, LBBB cause deep QS complexes in V1), and blocks cause secondary repolarization abnormalities morphologically similar to hypertrophy, separating block alone from block + hypertrophy can be very difficult or impossible. I suspect someone has published some form of criteria or rules for determining this, but I've never heard anyone discuss them.
hello dr.Erics
first of all thanks so much for your effort
second . in minute 28.22 in the last example of both atrial enlargement you've mentioned that there tall R wave in the lead ll resulting in RAE its written like this but i heard you saying tall p.wave in lead ll
so please correct me if i am wrong
Whoops. Thanks for pointing that out. It's a typo. It should read "tall P wave..." as spoken.
thank you first
you did a great effort
thank you so much doctor Eric
I was able to solve most of the tracing on the ecg paper, but ngl, i still find it difficult... honestly speaking... ecg is the hardest thing in medicine for me... I am just going to cross my fingers during my finals.
What does it mean if axis P 125° QRS 57° and T124°