I know that the patient is unstable when there is pulseless VT. But Why can't you synchronise pulseless VT and put patient risk at VF or Torsade by R on T?Pulseless doesnt mean that there is no electrical activity like PEA. It just means there is no cardiac output and blood pressure. Does anyone know?
Great question! When the patient is in VT with a pulse (aka stable VT) they are still producing a cardiac output and BP. Time is of the essence in cardioverting them back into a normal rhythm because they are most likely going to become unstable (lose their pulse) in a short period of time. Cardioversion is used to avoid shocking them at the wrong point of the cardiac cycle and put them into VFib. When they lose their pulse in VT, they are considered unstable and the QRS, R and T waves do not correspond to a cardiac output and BP. Therefore, it does not matter at what point of the cardiac cycle the patient is shocked (in this case, defibrillated). Another major difference is that the joules used for cardioversion are less than the ones used for defibrillation. Yes, the pt may end up in VFib, but the tx for pulseless VT and VFib is the same. Additionally, according to ACLS guidelines, the patient will receive medications (Epinephrine and antiarrhythmics like Amiodarone or Lidocaine) to try and stabilize the tachyarrhythmia in conjunction with defibrillation. Check out my video about VT: ruclips.net/video/mWamxIXNhJs/видео.html This article may also help to clear things up: acls-algorithms.com/rhythms/pulseless-ventricular-tachycardia/ (click on Cardiac Arrest Diagram) Hope this helps!
Hi Aya, thank you for your comment. In Vfib, the patient will be pulseless and apneic and therefore only defibrillation is indicated. I have updated the audio and video description to reflect this.
I always had trouble in which to use when, but this cleared up soo many things. Excellent explanation! Thank you!
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All doubts cleared! Great teaching 🙌
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Nicely explained. Thanks for your video. Keep up the good work!
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Thank you so much for helping nursing students like me
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I REALLY LOVE IT. YOU EXPLAIN SO EASILY
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THank you for a thorough explanation.
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Thank you for this video! Short and effective information
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your video was so helpful for me .. thank you so much!!
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Thanks for your work, very good explanation!
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Thank you. Nice and clear lecture. Help me a lot.
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Great explanation! Thank you!
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Thank you so much well explained !!
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Now I understand.. thnku ma'am 🙏
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Good explanation..,..love it .
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Thank you, so well explained, and absolutely invaluable information!
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super helpful! thank you!!
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excelllent senario
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Nice presentation but from next videos
1) audio need to be loud and clear
2) zoom in a little more for better visibility
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Thanks so much it was soo helpful for me
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I know that the patient is unstable when there is pulseless VT. But Why can't you synchronise pulseless VT and put patient risk at VF or Torsade by R on T?Pulseless doesnt mean that there is no electrical activity like PEA. It just means there is no cardiac output and blood pressure. Does anyone know?
Great question! When the patient is in VT with a pulse (aka stable VT) they are still producing a cardiac output and BP. Time is of the essence in cardioverting them back into a normal rhythm because they are most likely going to become unstable (lose their pulse) in a short period of time. Cardioversion is used to avoid shocking them at the wrong point of the cardiac cycle and put them into VFib.
When they lose their pulse in VT, they are considered unstable and the QRS, R and T waves do not correspond to a cardiac output and BP. Therefore, it does not matter at what point of the cardiac cycle the patient is shocked (in this case, defibrillated). Another major difference is that the joules used for cardioversion are less than the ones used for defibrillation. Yes, the pt may end up in VFib, but the tx for pulseless VT and VFib is the same. Additionally, according to ACLS guidelines, the patient will receive medications (Epinephrine and antiarrhythmics like Amiodarone or Lidocaine) to try and stabilize the tachyarrhythmia in conjunction with defibrillation.
Check out my video about VT: ruclips.net/video/mWamxIXNhJs/видео.html
This article may also help to clear things up: acls-algorithms.com/rhythms/pulseless-ventricular-tachycardia/
(click on Cardiac Arrest Diagram)
Hope this helps!
thank you! taking NCLEX soon
Best of luck! You got this!
well explained
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Very helpful ...
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💕
Vfib with pulse!?!
Hi Aya, thank you for your comment. In Vfib, the patient will be pulseless and apneic and therefore only defibrillation is indicated. I have updated the audio and video description to reflect this.
VFib will never have a pulse. Great lecture otherwise!
Good point! Thank you for your feedback. I have updated the description of the video to reflect this.
Well actually...
Torsade de Pointe (a form of v fib) CAN have a pulse. So technically v fib can.
@@harrypotterfan197 torsade De pointes is a form of ventricular tachycardia polymorphic
The Vfib is pulse less because ventricular contraction is so rapid that there is no time for the heart to refill, resulting in undetectable pulse