I'm so pleased to hear that. That's the best possible outcome for me, and it's what motivates me to keep making videos. Thank you for watching and for your kind words.🙏
Great video, thanks! Having the graphics parallel with the auscultation is very helpful. My only suggestions would be that when I teach this I use a dotted line for the S1 and S2 in VSD to highlight that they are muffled and obscured by the turbulence (having the full line makes it diagrammatically S1-murmur-S2, which is an AS sound not a VSD sound). Also, I would suggest having the PDA barcharts not all the same height as the systolic and diastolic components sound slightly different (ie the top line is more wavelike that a straight horizontal line). Yes, these are VERY minor suggestions but I think would add to the precision of what is otherwise a VERY beautiful and accurate presentation. Thank you very much (from a colleague who teaches this in Australia!)
So mitral regurgitation and ventricular septum defect sound the same? Do you just diferentiate between them by location of sound(5.ICR med.clav.sin./parastern.sin.)? Great video!
I had an external speaker on to hear better, little did I know, I could feel the vibration of each murmer wirh the speaker restong on my chest. I would like it better if the print were a larger font but listening closely made it better understandable.
Thank you very much Sir! I still have a confuse in the “Ventricular septal defect”, when the shunt flow from LV to RV, it increased the blood volume in RV, so the RV have to contract longer to push all the extra blood to the pulmonary arteries. As a result, the pulmonary valve would be closed later after the aortic valve. So is there a “split S2” in diastole phase? Please help, thank you Sir!
Great question! You do not typically get splitting of the S2 in VSD because the right ventricular pressure will not usually get high enough to force all of the blood through the pulmonary valve. This could happen however if the pressure became excessive. I hope this helps. Thanks for watching 🙏
The best, clearest and most concise video describing this online, thank you!
Wow, thanks! Comment's like this just make my day !🙏😍
1:23 ASD
6:16 VSD
9:15 PDA
Soooo useful , i never understood the murmurs before and now because of you i do ; thank you very much
I'm so pleased to hear that. That's the best possible outcome for me, and it's what motivates me to keep making videos. Thank you for watching and for your kind words.🙏
as a nursing professor, I use your videos all the time, so thorough, uses excellent scaffolding to build on prior knowledge!!
Wow thank you ! So pleased you have found this series useful!🙏
So clear and meticulous ❤
Wow thank you 🙏😍
The best presentation I have heard and seen .. Thanks for these information which I am going to depends on in my future lectures
wow thank you 🙏
Great video! I would only suggest to remove the music in the background, but other than that a very clear explanation
I’m agree with you about this bro
Thank you doctor great effort may God bless you
It's my pleasure 🙏🫶
Great video, thanks! Having the graphics parallel with the auscultation is very helpful. My only suggestions would be that when I teach this I use a dotted line for the S1 and S2 in VSD to highlight that they are muffled and obscured by the turbulence (having the full line makes it diagrammatically S1-murmur-S2, which is an AS sound not a VSD sound). Also, I would suggest having the PDA barcharts not all the same height as the systolic and diastolic components sound slightly different (ie the top line is more wavelike that a straight horizontal line). Yes, these are VERY minor suggestions but I think would add to the precision of what is otherwise a VERY beautiful and accurate presentation. Thank you very much (from a colleague who teaches this in Australia!)
Thank you so much, the lecture is amazing
Glad you think so! 😍
Amazing lecture
Brilliant explanation Sir, TY!
You are welcome! 🙏🙂
It makes so much sense! Thank you so much!
You're so welcome!
Really it was a awesome….clearly understood…thank u so much sir…khudoos to ur hardwork sir
so pleased you found this useful! Thank you for watching 🙏
very clear explanation Doctor! more videos please! God blessed you!
They are coming - ECG will be available soon 😆
Thank u so much for such a great explanation 😊
My pleasure 😊
Perfect 👏🏻👏🏻❤️🔥❤️🔥
😍😍😍🫶
Verrrrry nice and clear 🤎🤎🤎
thank you🙏
Awesome!
Thank you! 🫶
Excellent 💫
Thank you 🙏
Please dont add that background music, your voice is great. Thank you for making this video❤
Noted - i have uploaded versions without the background music 🙏
very good job , thank you
You're welcome! I'm glad you think so. I always try my best, and it's always nice to hear that it's appreciated.
Thank you ❤️
You’re welcome 😊
Thanks ❤️💐
No problem 😊. Good luck with the exam 🙏 and don’t forget to vote on the topic for the next show 👍
@@TheLearnMedicineShow I choosed ECG 😁 really thankful to u our doc and good luck with ur awesome vedios 🫀❤️
Thank you
You're welcome🙏
thanks 🙏
you are welcome 🙏
Excelente vídeo. Obrigado.
obrigado por assistir!
Best
Thank you 🙏 🫶
could you please show us the murmur of AVSD?THX❤
So mitral regurgitation and ventricular septum defect sound the same? Do you just diferentiate between them by location of sound(5.ICR med.clav.sin./parastern.sin.)?
Great video!
Yes, exactly. Both will produce a pan systolic murmur and differentiating this should be achieved by using other clinical clues 👍
Perfect thank you so much!
🎉🎉🎉
🤩🫶
I had an external speaker on to hear better, little did I know, I could feel the vibration of each murmer wirh the speaker restong on my chest. I would like it better if the print were a larger font but listening closely made it better understandable.
@joanforrest6516 Thank you for the feedback ! i'll make note of this for future videos. Thanks for watching😊
❤
Thank you very much Sir!
I still have a confuse in the “Ventricular septal defect”, when the shunt flow from LV to RV, it increased the blood volume in RV, so the RV have to contract longer to push all the extra blood to the pulmonary arteries. As a result, the pulmonary valve would be closed later after the aortic valve. So is there a “split S2” in diastole phase? Please help, thank you Sir!
Great question! You do not typically get splitting of the S2 in VSD because the right ventricular pressure will not usually get high enough to force all of the blood through the pulmonary valve. This could happen however if the pressure became excessive. I hope this helps. Thanks for watching 🙏
I got it, very helpful! Thank you Sir! 😁
Could uh make a video on S3 and S4 murmurs
Have you seen the video on heart sounds s1, 2, 3 and 4. Have a look on my channel :)
6:15
Great video but the music was annoying
Many thanks for the feedback - there is a music free version ! Link is posted in the description area 🙏
backgrond sound is annoying
Thankyou ❤
You are welcome 🙏