Respiratory Therapy - Mechanical Deadspace, Auto-Peep, and Patient Sensitivity!
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- Опубліковано 8 лип 2024
- Please subscribe, like and comment. Would love to hear what you think about the video. Also look for me on social media....
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Feel free to email me any questions or concerns @ respiratorycoach@gmail.com.
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Thank you so much, your videos has been so helpful.
I love your channel. you deserve a lot more subscribers. hope to see you one million plus subscribers . thank you for all you do.
Man, your videos are great! I always learn so many things! Thank you!
Thanks for watching and commenting, Andersen! Glad you get something out of them.
Thanks Joe!! Great video!!
Glad you liked it! Thank you!!!!
Wow ... excellent video... 👍👍
RN here just trying to understand the AUTO-PEEP. The waveform drawing definitely helped. Thanks
Hey, Tyler! Always love to hear from RNs. Thanks for stopping in and watching. Stick around and let me know what challenging respiratory concepts I can help you better understand from a nursing standpoint.
Thanks for the vid
Nice and easy understandable thank you
awesome. I learn more from these videos than from my professors
Thanks, Raptor. I guess that's a blessing and a curse. Glad the channel is here to supplement your classroom learning. Thanks for watching and keep up the strong work!
Always a life saver...
Hi Marilyn! When do you graduate? May?
@@RespiratoryCoach yess May the 4th
@@marilyntorresrrt6763 Got it on my calendar!!!! Start the count down!
@@RespiratoryCoach 5 months 11 days 8 hrs haha
@@marilyntorresrrt6763 but who's counting!!!! Lol
While you are explaining the sensitivity values on the vent,I would like you to explain the effects that can cause when certain Rts don't pay quite attention to reduce these numbers.
Hey respiratory coach
You are a fantastic respiratory therapist.
All of your videos are knowledgeable.
I want to ask how to increase and decrease mechanical dead space. In other words what settings we need to change in this case.
brother can you discuss about Neonates mechanical ventilator in your next video. thanks
great explanation sir , thank you for the video lecture , sir please if you can explain how to add or remove mechanical dead space , thank you sir
Thank you coach it’s very helpful. Do you have a video about the waveform between different mode in MV?
You're welcome and I believe I do! Here ya go...ua-cam.com/video/491udmy7K1E/v-deo.html
"You don't understand a subject until you can explain it so simply that even an 8 year old could grasp it"...... You are a freakin' savage!
LOL....Did I say that in this video? I may have to go back and watch. Thanks for watching Mamado!!!
@@RespiratoryCoach naw it was a quote from (or attributed to) Einstein, it applies here
@@Ortega35mf Got it! I didn't think so. Not on Einstein's level! LOL. Thanks again!
How much external peep should b after we calculate intrinsic peep
its really helpfull.there is one more question plz explain exaltation sensitivity
I mean flow sensitivity like 10 % or 20 %
Hi Madina! I got you coming up in a video soon concerning expiratory sensitivity. Stay tuned!!!
what is bias flow
My question is that how we calculate lungs complain
Thanks Joe. How to add mechanical dead space? I mean what is the procedure.
Hi! To add mechanical dead space you simply add 6 inches of flex tubing in between the ventilator wye and the patient's artificial airway. This is a rarely used practice anymore. Thanks for asking and watching!!!
Please till me , If you Increase peep , AP will be decreased true or false???
how to decrease mechanical dead space ?
I hv 1 question
when static compliance is given
Pip given
P plat given
Tidal volume given
Peep not given
Can we calculate driving pressure from above equation?
Hey Roshan. To calculate driving pressure we must know what peep is. Driving pressure = Plat - peep. The above info does not provide us with a peep, but with the given information we can figure out the peep from the static compliance formula. Static compl = Vt / (Plat-Peep). So plug all the appropriate given values into that formula and you'll be able to solve for peep and driving pressure. You recognize that driving pressure is the bottom half of the static compliance formula. In other words, it's true to say that...Static compliance = Vt / Driving Pressure. Hope this makes sense and helps. Thanks for asking and watching!!!
Please explain about bias flow..?
Got it! Stay tuned.
@@RespiratoryCoach always be 😊
Is it tru dat external peep should be 20%less than intrinsic peep?
I've never heard this, which doesn't mean it's not true, I've just never heard it like this. Can you point me to where you learned this 20% less idea? Thank you again, Roshan, for watching and commenting.