You explained to me in a few minutes what my professors couldn't do in 2 weeks .. they somehow just expected to understand all of this w/o teaching it to us. Thank you! Liked and subscribed!!
I don't know if you are still keeping up with these videos but you are doing wonders for students in the RT world, keep the good work up you are making us smarter.
Michelle: In pressure control you don't have the option of increasing/decreasing the flow, like you do in volume control. It is not a variable we decide on in pressure control, the flow rate will be the result of the pressures we set, and the patients lung mechanics etc.
A fantastic explanation!! Love the Mech Vent series. Have not watched the others yet but surely will. Just preparing for my first on-call and this explains stuff so clearly. Thank you so much.
Thank you for explaining me this. I have a better concept on the relationship. I do have a question, and can you correct me on my statement. I-time is inversely related to flow and is directly related to pressure and tidal volume. Would this statement be correct?
Hi, do you mind telling us what kind of equipment and app did you use for making the video? I would like to do similar thing but in my own language. thx u
I don't know whether you're still active on the channel but I wanted to ask if the last graph can be a case of inspiratory pause, and how can this help the patient.
hi there does Ti means we got to hold that 20mmhg for 1sec? or does it mean at the end of Ti we have a pressure of 20mmhg? + i do not understand how there can be added extra volume to the lung (left waveform) without raising the pressure? more volume= more pressure right?
Thank you for this video. Instead of increasing the (i time), can we increase the inspiratory rise? If not, what’s the relation between inspiratory rise and the amount of volume?
I'm still a student so I may not be accurate but I'm fairly certain that increasing inspiratory rise would be the same as increasing the flow. Instead of a smaller, more gradual rise, the flow would come faster. That faster speed would equal increased oxygenation because it would be in the alveoli longer, which means for a greater period of diffusion.
You’ll find all the mechanical ventilation videos in the playlist called “Principles of Mechanical Ventilation”. You can copy links to the whole playlist or individual videos there. Thanks
I hope these vents when backstopping at say 14 breaths a minute stop that automatic cycle if the patient breathes on their own, rather than superimposing assisted breaths with the backstop breaths.
8:57 I disagree that this was potentially lost lung volume. Flow is already minimal by this time, so it's more like you're wasting time, not air, if you waited until lungs were at capacity. If you want to get a proper answer you need to formulate this as a gas flow maximization problem and mathematically optimize it. Though the optimal solution probably won't make a big difference.
You explained to me in a few minutes what my professors couldn't do in 2 weeks .. they somehow just expected to understand all of this w/o teaching it to us. Thank you! Liked and subscribed!!
I don't know if you are still keeping up with these videos but you are doing wonders for students in the RT world, keep the good work up you are making us smarter.
This was freaking awesome. Seriously as soon as it finally clicked I stood up and yelled I’m the smartest person alive!!! Thank you
Really glad it helped!
Michelle: In pressure control you don't have the option of increasing/decreasing the flow, like you do in volume control. It is not a variable we decide on in pressure control, the flow rate will be the result of the pressures we set, and the patients lung mechanics etc.
A fantastic explanation!! Love the Mech Vent series. Have not watched the others yet but surely will. Just preparing for my first on-call and this explains stuff so clearly. Thank you so much.
I remember my first on call! You’ll be fine. Glad you like the videos.
Your vídeos are awsome man.
Please, don't stop on doing it... it's benn heloing me a lot
Thank you for explaining me this. I have a better concept on the relationship. I do have a question, and can you correct me on my statement. I-time is inversely related to flow and is directly related to pressure and tidal volume. Would this statement be correct?
Thank you,this was very helpful.
perfectly explained. Thank you very much !
Hi, do you mind telling us what kind of equipment and app did you use for making the video? I would like to do similar thing but in my own language. thx u
Great videos! I think I'm over thinking it, (I do that a lot), but if flow is decreasing how do we maintain the pressure throughout Ti. ?
how do you 'picture' things if your vent doesn't have the waveform graphs, like the lvt series
I don't know whether you're still active on the channel but I wanted to ask if the last graph can be a case of inspiratory pause, and how can this help the patient.
There is no inspiratory pause in pressure control ventilation. There is equilibration that can be reached by increasing insp. time.
hi there
does Ti means we got to hold that 20mmhg for 1sec? or does it mean at the end of Ti we have a pressure of 20mmhg?
+ i do not understand how there can be added extra volume to the lung (left waveform) without raising the pressure? more volume= more pressure right?
If the pt is breathing over the set vent rate on PC, are they being supported more in PC, than switching them over to PS...
you are my hero
Thank you for this video. Instead of increasing the (i time), can we increase the inspiratory rise? If not, what’s the relation between inspiratory rise and the amount of volume?
I'm still a student so I may not be accurate but I'm fairly certain that increasing inspiratory rise would be the same as increasing the flow. Instead of a smaller, more gradual rise, the flow would come faster. That faster speed would equal increased oxygenation because it would be in the alveoli longer, which means for a greater period of diffusion.
What is the name of the application that you use for explanation
Amazing 🎖
Well explained
I could not find Video number 11. Can you tell where is it ?
Thanks alot it was so useful
Amazing ! Thanks a lot
Very informative pls send me link for all videos on mechanical ventilation
You’ll find all the mechanical ventilation videos in the playlist called “Principles of Mechanical Ventilation”. You can copy links to the whole playlist or individual videos there.
Thanks
Pls add video about HFNC..AS IM WORKING IN COVID ICU .......,......AS MED CONSULTANT. WE DON'T HAVE RT IN OUR TEAM.........
@@rationalclinicalmedicine9732 there is a video on HFNC on my page.
@@RespiratoryReview thanks a lot......
@@RespiratoryReview great......thaks
Thanks so much
I hope these vents when backstopping at say 14 breaths a minute stop that automatic cycle if the patient breathes on their own, rather than superimposing assisted breaths with the backstop breaths.
Nope, they don't. Only when there is overlap of assisted breath with automatic breath
8:57 I disagree that this was potentially lost lung volume. Flow is already minimal by this time, so it's more like you're wasting time, not air, if you waited until lungs were at capacity. If you want to get a proper answer you need to formulate this as a gas flow maximization problem and mathematically optimize it. Though the optimal solution probably won't make a big difference.
Acid base balance basic concept
never mind lol i was overthinking lol