We are so happy this lecture worked for you! Check out our website for other lectures you might be interested in! www.louisvillelectures.org/test-imls-home-page
5:42 I'd suggest an alteration to that shock list. Here you have mixed pathophysiological and aetiological types of shock. Pathophysiological types describe how exactly the dysfunction of circulation and perfusion is happening, it is purely fluid mechanic question. Of those there are four: -hypovolaemic -distributive -cardiogenic -obstructive In other words, this is how "the pump, the tank and the pipes" can go wrong. Shock is rarely a matter of just one pathopyhsiological aspect. The aetiological classification describes how you get to those states, among others, there are: -septic (causing a mix of hypovolaemic (through capillary leak) and distributive (through vasoplegia) shock) -anaphylactic (causing a mix of hypovolaemic and distributive shock, similarly to septic shock) -neurogenic (causing a mix of distributive and cardiogenic shock) -haemorrhagic (causing hypovolaemic shock) And exactly because these types of shock have different pathophysiological aspects, they should not go with the items of the first list.
i guess Im randomly asking but does anybody know a trick to get back into an instagram account?? I stupidly lost my password. I would appreciate any assistance you can give me.
@Mohammad Maximilian thanks so much for your reply. I got to the site through google and I'm in the hacking process now. Looks like it's gonna take a while so I will get back to you later when my account password hopefully is recovered.
Good video. I do disagree with her illustration of preload. She says at 27:30 that a hose barely turned on is low preload and on high is high preload. But the valve on the hose controls pressure, not the preload of volume. The city water tank being filled provides the preload. If the tank is empty, you can open the valve all you want and you wont get the preload.
Nice lecture. But, if this is from 2015, why is it, that you're still quoting the American-European consensus definition for ARDS? The Berlin definition has kicked out the PCWP
32:39 Should the arrow for MvO2 in the Hypovolemic shock row be pointing down rather than up due to decreased flow rate and normal organ oxygenation ability
Great as always Dr. Brown. If you get wind of this you should drop a Billy Madison reference "stop looking at me swan" when talking about swanz ganz catheters. It would be supper funny... keep up these videos they are great!
Body primarily preserves MAP, pH and Osmolarity beacuse it can only sense pressure (vascular baroreceptors) or pH (cns chemoreceptors) or Osmolar pressure (cns osmoreceptors). These 3 constitution the circulatory sensors of the body. The circulatory actors include vagal tone, sympathetic drive, ADH, ACTH. These sensors & actors basically keep the circulation flowing enough to deliver adequate nutrients and remove adequate toxins.
I just learned more in an hour with this video than I have in 6 months in the CCU! It finally makes sense!
We are so happy this lecture worked for you! Check out our website for other lectures you might be interested in! www.louisvillelectures.org/test-imls-home-page
Best. Teacher. Ever.
+oOoironhideoOo We think she is pretty awesome as well!
Dimes, nickels, quarters!! This helped me so much!
Love ... No words to express my Thanks ... Best One
5:42 I'd suggest an alteration to that shock list. Here you have mixed pathophysiological and aetiological types of shock.
Pathophysiological types describe how exactly the dysfunction of circulation and perfusion is happening, it is purely fluid mechanic question. Of those there are four:
-hypovolaemic
-distributive
-cardiogenic
-obstructive
In other words, this is how "the pump, the tank and the pipes" can go wrong.
Shock is rarely a matter of just one pathopyhsiological aspect.
The aetiological classification describes how you get to those states, among others, there are:
-septic (causing a mix of hypovolaemic (through capillary leak) and distributive (through vasoplegia) shock)
-anaphylactic (causing a mix of hypovolaemic and distributive shock, similarly to septic shock)
-neurogenic (causing a mix of distributive and cardiogenic shock)
-haemorrhagic (causing hypovolaemic shock)
And exactly because these types of shock have different pathophysiological aspects, they should not go with the items of the first list.
Love it! Great prep for CVICU rotation.
Great interactive lecture! Really liked the "name that shock" activity!
i guess Im randomly asking but does anybody know a trick to get back into an instagram account??
I stupidly lost my password. I would appreciate any assistance you can give me.
@Jeffery Julio instablaster :)
@Mohammad Maximilian thanks so much for your reply. I got to the site through google and I'm in the hacking process now.
Looks like it's gonna take a while so I will get back to you later when my account password hopefully is recovered.
@Mohammad Maximilian It did the trick and I now got access to my account again. Im so happy:D
Thank you so much, you saved my ass!
@Jeffery Julio You are welcome =)
Very useful lectures. Thanks a lot 👍
Beautiful lecture .. thank you ..
Good video. I do disagree with her illustration of preload. She says at 27:30 that a hose barely turned on is low preload and on high is high preload. But the valve on the hose controls pressure, not the preload of volume. The city water tank being filled provides the preload. If the tank is empty, you can open the valve all you want and you wont get the preload.
Thank you for making this fun!, I understand hemo much better. Thank you!!!!
That's great news!
Nice lecture.
But, if this is from 2015, why is it, that you're still quoting the American-European consensus definition for ARDS?
The Berlin definition has kicked out the PCWP
When I started in the ICU EVERY PATIENT had a Swan. I think patients had faster outcomes with Swans. Great video.
32:39 Should the arrow for MvO2 in the Hypovolemic shock row be pointing down rather than up due to decreased flow rate and normal organ oxygenation ability
Yes MVO2 decreases in hypovolemic I observed the same thing
😊
Thank you! What a high quality lecture.
Great as always Dr. Brown. If you get wind of this you should drop a Billy Madison reference "stop looking at me swan" when talking about swanz ganz catheters. It would be supper funny... keep up these videos they are great!
excellent lecture!
can i download it so it can be easier to watch offline
Really awesome lecture!! I just wish there was video with it
Cool video, Just subscribed!
Great lecture!!! Thank you :)
Body primarily preserves MAP, pH and Osmolarity beacuse it can only sense pressure (vascular baroreceptors) or pH (cns chemoreceptors) or Osmolar pressure (cns osmoreceptors). These 3 constitution the circulatory sensors of the body. The circulatory actors include vagal tone, sympathetic drive, ADH, ACTH.
These sensors & actors basically keep the circulation flowing enough to deliver adequate nutrients and remove adequate toxins.
What is Nelson now ? I bet he must be either cardiologist or intesivist.
love the physio explanations of this video. makes so much sense. thank you. oh, and the dimes, nickels, quarters!! :)
thanks
Cardiovascular Critical Care Core Curriculum
amazing and i need to find out who Nelson is lol dude answering all the questions! lol #tutormoi
awesome!!!!!!!!!
629 Chasity Trail
Davis Mark Perez Richard Lopez Daniel
406 Lorena Mountain
wow
512 Pearl Estates
Champlin Row
Darius Estate
Candy? Ooh someone's been watching grey's anatomy.
I think I'm in love....
Martin Ronald Miller Michael Taylor George
Anderson Frank Lopez Mary Harris Christopher
Hall Laura Robinson Richard Jones Angela
Johnson Scott Walker Elizabeth Thomas Lisa
Jackson Michael Davis Donald Moore Linda
Robinson Michelle Williams Timothy Lopez Jeffrey
great lecture!
Taylor Anthony Rodriguez Larry Thompson Maria
Hall Kenneth Hernandez Frank Martinez Betty
Lewis Eric Davis Edward White Larry