Haemodynamics Flashcards

1
Q

Haemodynamics

A

Physical laws governing pressure/flow relationships in blood vessels

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2
Q

Why do they standard principles of fluid mechanics not technically apply to blood

A

Blood is a non newtonian fluid; red and white cells, platelets and lipids are suspended in a solution of proteins

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3
Q

Formula for flow of blood

A

Pressure gradient between arteries and veins (created by pumping) / Resistance of blood vessels against blood flow

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4
Q

What separates the vascular lumen from the media

A

Intima (endothelium)

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5
Q

In which layer of the vessel is smooth muscle contained

A

Tunica Media

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6
Q

Biggest artery

A

Aorta

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7
Q

Discuss elasticity of arteries as they get smaller (from aorta to arterioles/capillaries)

A

Elasticity decreases, with no elasticity at all at the capillaries

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8
Q

Compare elasticity & SM of capillaries, venules, veins and vena cava

A

No elasticity or smooth muscle in capillaries & venules, but there is some in veins and even more in the vena cava (not much still)

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9
Q

Biggest Vein

A

Vena Cava

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10
Q

Compare the individual vessel diameters

A

Aorta > Arteries > Arterioles > Capillaries

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11
Q

Compare combined Cross Sectional Areas (CSA) of vessels

A

Aorta < Arteries < Arterioles < Capillaries

BECAUSE THERE ARE SO MANY CAPILLARIES

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12
Q

Velocity of blood formula

A
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13
Q

Look at this graaph

A
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14
Q

4 Determinants of Flow

A

Directly related to pressure difference (Voltage)

Directly related to radius of tube
Inversely related to length of tube (Resistance)

Inversely related to viscosity of fluid (Current i guess but not really??)

**THINK OF IT LIKE A WIRE

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15
Q

Discuss importance of pressure difference in creating flow of blood vessels

A
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16
Q

Discuss importance of tube length in affecting flow of blood vessels

A

Longer vessels means less flow per unit time

17
Q

Discuss importance of viscosity in affecting flow of blood vessels

A

Think of it like drinking water vs millkshake from a straw

18
Q

Discuss importance of tube radius in affecting flow of blood vessels

(Quantify the effect with a formula)

A

The greater the diameter, the greater the flow

Think resistance

Flow related to r^4 (Remember) - exponential change

19
Q

Which blood vessels have the greatest capacity to change radius (Resistance vessels)

A

Small arteries & arterioles

20
Q

When is the blood flow pulsatile and when is it steady

A

At capillaries it is steady but upstream of that it is more pulsatile

21
Q

Role of small arteries and arterioles in terms of pressure

A

Dissipating the pressures and preventing the pressure form overwhelming the capillaries

22
Q

Calculate total peripheral resistance and renal vascular resistance

A
23
Q

Why must peripheral resistance be less than the parallel individual resistances

A

Think of parallel circuits

24
Q

Issue of turbulent flow in terms of force and flow

A

More force is needed to acheive the same flow when flow is turbulent

25
Q

Compliance (vessels) and how is it related to distensibility

A

Change in volume for a given change in pressure

Less compliant = Less distensible

26
Q

Role of Arterial compliance

A

Provides ‘filtering’/smoothing of pressure for smaller vessels

27
Q

Role of Venous compliance

A

Provides ‘capacity’ for storage

28
Q

Effect of venous constriction on blood flow to heart and circulation

A

Constriction of veins reduces venous capacity and increases return of blood to heart - increases effective circulating blood volume

29
Q

Factors affecting venous return

A
Venomotor tone (constriction)
Venous valve competence

Skeletal muscle pump
Respiration