Fantastic! That's my goal, and you are very welcome. Thank you for watching and commenting.

You're very welcome. Thanks for watching and leaving the kind comment!

Thank you so much for watching and kindly commenting. I'm glad it helped!

Thanks for that contribution and feedback. Sorry for the confusion, and thank you for watching.

But when we use CPAP mode with invasive ventilation we have no option of ti. In Non invasive we have option to set ti. Ti we adjust as per spontaneous breath rate. Secondly in other invasive modes to adjust I:E Ratio. Same in PC mode ti is adjusted to set I:E ratio as I use dragger. I think rise time only works there where no option of ti.

Most welcome 😊

Hello! 1. Flow hungry or neurally distressed patients. 2. No, becuase remember pressure is set when talking about rise time. Great questions!

Nice! Thanks for watching!

Your absolutely right. A slower rise time will promote more laminar flow through the airways, where as a quicker rise time will result in greater turbulent flow. In theory greater laminar flow should result in better volumes in PC or lower pressures in VC. The key with rise time is understanding that it does not affect I time, so you can still allow for an adequate expiratory time, so to avoid excessive airtrapping. Great question! Thanks for asking and watching.

Respiratory Coach thank you very much, now my patient’s getting better. Thank you again

Hello Andre! That's 100% correct!

You are exactly correct. Faster rise time = higher insp flow to reach set insp pressure quicker. There is no initial suggestion. Rise time should be assessed and tailored to the needs of each individual patient. I use it as a tool to help address flow hunger in my pressure control patients. I also use it during NIV (specifically bipap) to improve patient comfort. Don't forget about it with pressure support also. Sometimes the sudden rise to IPAP is too much for some patients, so if I slow that down, they'll be more compliant with the NIV attempts to avoid intubation. COPDers don't always need more PS, just a quicker rise time to satisfy their flow demands. You just have to play with it with the goal of making the vent breathe like the patient, not trying to make the patient breathe like the vent. Hope this helps and makes sense. Thank you for watching, Joyce. I appreciate you!

Pressure control and pressure support. Hope this helps, and thanks for watching.

@@RespiratoryCoach Can you apply the rise time to Volume control mode ? If not, what's the reason ?

I would adjust it to patient comfort. The more flow hungry, the quicker rise time. If they're complaining of too much pressure too fast, then slow rise time.

@@RespiratoryCoach Thank you so much. You are the best.

Is it just the rate and I time ? Because in BIPAP we can set the rate and i time unlike the cpap + PS

True, Yazan. First, yes, they are the same in terms of pressure support being applied. The difference is that the I time and RR in bipap are only activated IF and WHEN the patient is not initiating spontaneous breaths above the set rate. The rate and I time in NIV is only active when the patient is not breathing above that set rate. In other words, a patient with a set rate of 10 and set I time of 1.0 sec in NIV, is only getting that set I time when they do not initiate a spontaneous breath within 6 seconds of the previous breath. Let me know if that doesn't make since. Thanks for the view and comment!!!

@@RespiratoryCoachIt is crystal, Coach. your explanation is more than enough 👍

Absolutely! Rise time applies to any pressure controlled breath, regardless of it being volume targetted or not. Great question and thanks for watching!

No, because rise time is related to how quickly the set pressure is reached.

Got you on the list, Waruna. Thanks for watching!

Okay, let's break this down. Sounds like your desire is to increase your I:E, which means you either have to make I time shorter or E time longer. So if you are in volume control with an I:E of 1:1, then you have three options to increase the I:E to a more reasonable 1:2 or 1:3, or maybe longer for severe obstructive lung disease. 1. Increased flow = decreased I time = increased I:E. 2. Decrease tidal volume = decreased I time = increased I:E. 3. Decrease frequency or rate = increased total cycle time = increased E time = increased I:E ratio. Those are your only options in VC. Now for pressure control you only have 2 options. 1. Decrease set I time = decreased I time = Increased I:E. 2. Decrease frequency/rate = increased total cycle time = Increased E time = Increased I:E. Decreasing pressure in PC will only affect delivered tidal volume, and have no affect on I:E. Remember that PC is time cycled, not pressure cycled, so the pressure setting has no bearings on when inspiration ends. I hope this makes sense. Thanks for watching and asking your question. I'm going to do another video over this topic. It's a great lesson that can be difficult for students to grasp in the beginning. Good luck!

YESSSSSSSS AHHHH THANK YOU THANK YOU!!!! @@RespiratoryCoach

if you could that would be amazing with some example problems and whenever i know youre busy but i appreciate it so much !

She was, due to the increased RR. After the change, her tidal volume increased, her RR decreased and the asynchrony and air trapping resolved.

No, rise time only effects how quickly pip is reached. This will have a minimal effect on actual the actual resulting tidal volume. Hope this helps. Please let me know if not. Best wishes!!!

During spontaneous ventilation I time is determined by the patient.

Hey Nigel. Yes, .9 is a good starting point. From there assess your patient for asynchrony associated with flow hunger and adjust accordingly.

Not exactly. I time is how long the insp phase lasts from trigger to cycle. Rise time only effects hoe quickly the insp pressure is reached.

so the rise time doesn't change the I time?

and what about expiratory trigger?

Hello again! So when you say BPCO, you are referring to COPD, correct? In that case, yes, quicker rise time and short I times. This allows for longer E times, which will allow these patients to exhale more fully. They have a tendency to air trap due to their anatomical alterations. Long I times with short E times only exaggerates the airtrapping, which leads to excessive autopeep. Your restrictive lung diseases don't have a problem getting air out of the lungs, so they can tolerate a shorter E time, without the risk of airtrapping. Bipap is a term related to noninvasive ventilation, where the practitioner sets an Inspiratory pressure (IPAP) and an expiratory pressure (EPAP). The difference betwee IPAP and EPAP = Pressure Support. Pressure support is related to a setting within mechanical ventilation, which aids the patient in overcoming the resistance of the artificial airway and larger levels augment spontaneous tidal volume. In short, when you think of pressure support, think of an inspiratory pressure set to assist spontaneous ventilation. Expiratory trigger relates directly to pressure support. Commonly, exp. trigger is set at 25%. This setting tells the vent when to turn off the pressure support and allow the patient to exhale. It functions off of an inspiratory flow decay. Let's say the patient generates a peak inspiratory flow of 40lpm. The vent will terminate pressure support when the inspiratory flow decays to 10lpm, and at this point the patient will be allowed to exhale. If you increase the expiratory trigger to 50%, then the pressure support will terminate at 20lpm, thus inspiratory phase will be shorter and expiratory will begin sooner. Hope all this makes sense!

@@RespiratoryCoach Thanks... i know what bpap and psv are...but you distinguish between bpap and psv so i thought you meant a difference... what about neuromuscolar/obese patient...what about I:E and cycling time?