I never understood what it meant.
I found myself wondering.. What the heck is "The tightness with which the circulatory system is filled with blood." and what do you mean by "Pressure that exists in the vascular system if the cardiac output stops"?
Until one fine day I finally got it.
If you don't understand all those complicated (yet simple) terminologies and definitions.. You are just like me.. And I'm here to help you out =D
Here is how I understand it!
Imagine blood vessels are talking -
Once you understand what happens to blood volume in relationship to the vascular container size.. It's a piece of cake!
When blood volume increases relative to vascular container size, the mean systemic filling pressure increases. Examples of things that increase blood volume include transfusion and fluid retention by renal mechanisms (ADH, renin‑angiotensin, and aldosterone).
I hope the comics help you make sense of the definition!
Question: What happens to MSFP during hemorrhage? Why do they MSFP decreases when vasoconstriction due to sympathetic tone decreases the vascular compartment size, increasing the MSFP?
Explanation: Mean systemic filling pressure provides a measure of the degree to which vascular system is filled with blood. MSFP decreases because there is a blood loss. The decrease in blood volume and venous return decreases the baroreceptor firing and there is a reflex tachycardia and vasoconstriction.
If this increase in sympathetic tone compensates for the blood loss, the MSFP will increase back to normal. It won't increase more than it should.
Most of the time, especially when there is severe hemorrhage, the reflex isn't enough to bring the MSFP back to normal. That's why, we say there is a decrease in MSFP.
Cool fact: MSFP is "specially" used to measure haemodynamic changes during haemorrhage.
Updated on 3/1/14: Question on hemorrhage.
I found myself wondering.. What the heck is "The tightness with which the circulatory system is filled with blood." and what do you mean by "Pressure that exists in the vascular system if the cardiac output stops"?
Until one fine day I finally got it.
If you don't understand all those complicated (yet simple) terminologies and definitions.. You are just like me.. And I'm here to help you out =D
Here is how I understand it!
Imagine blood vessels are talking -
Mean systemic filling pressure simplified |
Increase in mean systemic filling pressure |
Increase in mean systemic filling pressure |
An increase in sympathetic tone decreases the vascular container size and increases mean systemic pressure. Circulating catecholamines act the same as an increase in sympathetic tone. Increased skeletal muscle tone and abdominal compression also decrease venous container size, increase the mean systemic filling pressure.
Other concepts about Mean systemic filling pressure:
The greater the MSFP the easier it is to push blood back into the heart.
The major part of the blood volume is held within the venules and small veins so it is changes in venomotor tone which most affect MSFP.
Sympathetic innervation producing venous constriction raises the tension in the walls of the venules and small veins and increases the pressure within the vasculature. Arteriolar vasoconstriction has an insignificant effect on total vascular compliance and so no direct effect on MSFP.
The greater the MSFP the easier it is to push blood back into the heart.
The major part of the blood volume is held within the venules and small veins so it is changes in venomotor tone which most affect MSFP.
Sympathetic innervation producing venous constriction raises the tension in the walls of the venules and small veins and increases the pressure within the vasculature. Arteriolar vasoconstriction has an insignificant effect on total vascular compliance and so no direct effect on MSFP.
This concept is graphically used in Cardiac Output and Venous Return curve.
Question: What happens to MSFP during hemorrhage? Why do they MSFP decreases when vasoconstriction due to sympathetic tone decreases the vascular compartment size, increasing the MSFP?
Explanation: Mean systemic filling pressure provides a measure of the degree to which vascular system is filled with blood. MSFP decreases because there is a blood loss. The decrease in blood volume and venous return decreases the baroreceptor firing and there is a reflex tachycardia and vasoconstriction.
If this increase in sympathetic tone compensates for the blood loss, the MSFP will increase back to normal. It won't increase more than it should.
Most of the time, especially when there is severe hemorrhage, the reflex isn't enough to bring the MSFP back to normal. That's why, we say there is a decrease in MSFP.
Cool fact: MSFP is "specially" used to measure haemodynamic changes during haemorrhage.
Updated on 3/1/14: Question on hemorrhage.
thanks
ReplyDeleteYou are most welcome =)
Deletehow is mean systemic pressure calculated?
DeleteI don't know. By clamping the aorta in anaesthetised rats or something.
DeleteCan you explain the difference between mean circulatory filling pressure and mean systemic filling pressure? These two concepts have me completely confused. They seem to be very similar; I am missing the distinction. Thanks in advance!
ReplyDeleteSadly, I have no idea :(
DeleteI think Mean Circulatory Filling Pressure (MCFP) is due to the elastic recoil of the blood vessels only and Mean Systemic Filling Pressure (MSFP) is due to both - elastic recoil and blood volume.
I say it because this article states:
http://www.ncbi.nlm.nih.gov/pubmed/8458763
A change in MCFP provides a uniquely useful index of a change in overall venous smooth muscle tone "if the blood volume is not concomitantly changed."
This article states:
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3220048/
MCFP represents the average integrated pressure throughout the circulatory system. It can be measured by stopping blood flow and allowing the pressures throughout the circulatory system to reach equilibrium. It may be thought of as a measure of the elastic recoil potential stored in the walls of the entire circulatory system (including the heart and pulmonary circulation). As such, it is a function of the volume of fluid within the system and the capacitance of the system. As more fluid enters the circulatory system (such as during transfusion), the MCFP increases because the elastic energy within the system increases.
Mean systemic filling pressure (MSFP), though often confused with MCFP and often similar in value, is different. MSFP represents the pressure generated by elastic recoil in the systemic circulation during a no-flow state. MSFP can be affected by the distribution of flow and volume prior to stopping circulation.
However, it did not make much sense to me and I am still not sure. Maybe you can read it and let us know?
What is difference between mean arterial pressure and MSFP
ReplyDeleteMean arterial pressure is dependent on the cardiac output.
DeleteMAP = CO X SVR
So if CO = 0, MAP will be approximately zero too.
Mean systemic filling pressure is independent of cardiac output.
MSFP = RAP + VR
In fact, it's the pressure when the cardiac output is zero!
Key:
MAP = Mean arterial pressure
CO = Cardiac output
SVR = Systemic vascular resistance
VR = Venous return
MSP = Mean systemic pressure
RAP = Right atrial pressure
Awww. Thank you so much! This was such a cute explanation!
ReplyDeleteYaay <3 ^__^
Deletegreat explanation:D
ReplyDelete