Hemodynamic Measurements Flashcards

1
Q

CVP- a,c,v,x,y waves

A

a- RA contraction
c- tricuspid valve closing/RV contraction
v- RA filling
X- RA relaxation/ RA refilling / RV contraction
y- tricuspid opening/ RA empties

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2
Q

Where is p wave, qrs, t wave, in CVP wave form?

A

p wave- right before a wave
qrs- right before c wave (thats why c wave is conventionally known as ventricle contraction)
t wave- right before t wave

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3
Q

What can swan measure directly?

A

CVP
PCWP
PAP
CO
RA/RV pressure
SvO2

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4
Q

What can the swan measure indirectly?

A

SVR [(map-cvp)/co)]x80
PVR [(mean pap-pcwp/co)x80]
CI (co/BSA)
SVI (ci/hr)
DO2 (1.34 x hgb x spo2 x CI)
VO2 (1.34 x hgb x [spo2-cvo2] x ci)
LVSWI ()
RVSWI ()

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5
Q

Appropriate height of transducer

A

4th IC, 5cm below left sternal border

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6
Q

CO, SV, EF formula

A

HR x SV
EDV-ESV
(EDV-ESV)/EDV

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7
Q

Fick measurement

A

Cardiac Output= o2 absorbed by lungs/ AV O2 difference
200/40 = 5 1L portions of blood that must pass thru the pulmonary circulation each minute to absorb this amount
Thus, there is 5 liters of blood flow passing thru the lungs each minute, which is also a measurement of CO

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8
Q

What is the AV difference of O2 from LH and RH?

A

40ml/L
(LH -200ml/L) - (RH-160mlL)

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9
Q

How are samples taken for ficks measurement?

A

RH oxygen- SvO2- PA
LH oxygen - Any artery in body
O2 absorbed by lungs- oxygen meter detects rate of disappearance of oxygen

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10
Q

Thermodilution technique

A

A known amount of saline at a known temperature (below blood) is injected into the RA
The tip of the catheter is read and expresses area under the curve to calculate CO

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11
Q

Thermodilution graph

A

CO is inversely proportionate to AOC or graph height or graph size
Bc a poor CO would not move the injectate fast, the area is larger

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12
Q

L to R shunt displays ____ CO measurement

A

High!

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13
Q

Most common problem with obtaining accurate CO measurement in thermodilution method

A

improper injectate used

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14
Q

Most common method for CO

A

thermodilution

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15
Q

Velocity formula

A

V= q/A
q-flow
a-area

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16
Q

Poiseuille’s equation

A

For laminar/turbulent flow
Q= (pi[Pi-Po]r^4))/(8nl)
Radius is the most is important

17
Q

Cerebral vs coronary perfusion pressure

A

MAP-CVP or ICP, whichever is higher
DBP-LVEDP

18
Q

Flow is ___ related to the pressure gradient

A

Directly, think of a piggy back iv, how the higher one runs

19
Q

Doubling a radius does what to the flow?

A

16 fold increase

20
Q

Flow is ___ related to fluid viscosity

A

inversely
think, pb cant flow good

21
Q

Reynolds equation

A

NR= PDV/N
Reynolds number
p- density
diameter
velocity
viscosity

22
Q

Number value for laminar and turbulent flow

A

<2000- laminar usually
2000-3000- variable
>3000- usually turbulent

23
Q

Which vessels does turbulence occur?

A

Stenotic heart valves, narrowed arteries

24
Q

How does turbulence effect perfusion pressure?

A

Drops it

25
Q

How is turbulence heard by HCP?

A

As murmurs with a stethoscope

26
Q
A
27
Q

Ohms law

A

I=V/r
I flow
V voltage drop
R resistance

28
Q

How much oxygen is absorbed into the blood form the lungs each minute?

A

200ml