CVS 5: Microcirculation

Question 1

What are post-capillary venues also known as?

Answer 1

Pericytic venules

Question 2

What is Blood flow rate?

Answer 2

Volume of blood passing through a vessel per unit time

Question 3

What is the equation for flow rate?

Answer 3

Flow= delta P (pressrure gradient) / R (vascular resistance)

Question 4

What is resistance?

Answer 4

Hindrance to the blood flow due to friction between moving fluid and stationary vascular walls

Question 5

Give three factors which affect resistance

Answer 5

1. Blood Viscosity
2. Vessel Radius
3. Vessel Length

Question 6

Give the equation for resistance

Answer 6

R= 1/r^4

Question 7

How d you determine the pressure gradient?

Answer 7

Difference in pressure between arterial pressure and pressure in the capillary bed

Question 8

What is the normal blood pressure also called?

Answer 8

Mean Arterial Pressure (MAP)= blood pressure in many artery around the body

Question 9

What is the significance of the capillary beds?

Answer 9

Blood flows more slowly= Blood pressure decreases
More exchange of nutrients
more diluted= lower blood pressure

Question 10

How can you find the flow rate in an organ?

Answer 10

MAP/ Resistance of the organ

Question 11

How is vasodilation and vasoconstriction achieved?

Answer 11

• Arteriolar smooth muscle is in a state of partial constriction= VASCULAR TONE

Question 12

What are the two functions of changing the radii of arterioles?

Answer 12

1. Match blood low to metabolic needs of specific tissue (local intrinsic control)
2. Help regulate arterial blood pressure (extrinsic control)

Question 13

Give an example of arterioles responding to changes to the chemical environment

Answer 13

ACTIVE HYPERAEMIA

• muscle becomes more active
• metabolism increases and O2 consumption increases
• change is detected in the tissues–> signal sent to arterioles–> vasodilation

Question 14

Define Active hyperaemia

Answer 14

Increase in organ blood flow that is associated with increased metabolic activity of that tissue or organ

Question 15

Give an example of arterioles responding to the physical environment

Answer 15

Placing an ICEPACK on muscle

• tissue senses fall in temp
• arteriolar smooth muscle contracts so less blood reaches surface and less heat lost through radiation

Question 16

What is the equation for applying F= dP/R to the whole circulation?

Answer 16

CO= MAP/ TPR

• MAP because delta P= change in arterial and venous pressure and venous pressure is basically 0
• TPR= sum of resistance in all arterioles in the body

MAP= CO x TPR

Question 17

How is arterial blood pressure regulated?

Answer 17

Changing the ready of the arterial by neural and hormonal pathways

Question 18

Where in the brain is arterial blood pressure neurally regulated?

Answer 18

• Regulated by Cardiovascular control centre in the medulla

Question 19

Which receptors in the medulla sense arterial blood pressure and which cells cause dilation and constriction?

Answer 19

ADRENORECEPTORS
Alpha- constriction
Beta- dilation

Question 20

What are the two methods of hormonally regulating the arterial blood pressure and give examples of hormones for each of the mechanisms

Answer 20

1. Vasoconstrictors= increase in TPR
   a. Vasopressin
   b. Angiotensin II
2. Increasing Sympathetic activity= increase in CO
   a. Adrenaline/ Noradrenaline

Question 21

What is the function of capillaries?

Answer 21

Deliver metabolic substrate to the cells of the organism

Question 22

What is the thickness of capillary walls

Answer 22

1 micrometer

Question 23

What is Fick’s Law?

Answer 23

The factors which enhance diffusion:

• minimise diffusion distance
• maximise surface area
• maximise diffusion time

Question 24

What is the significance of capillary density?

Answer 24

The more metabolically demanding a tissue is, the greater the tissue density

Question 25

Which organs have a high capillary density and why?

Answer 25

Skeletal muscle
Myocardium- vulnerable to hypoxia
Brain- “
Lungs

Question 26

Which tissue has low capillary density?

Answer 26

Adipose tissue- has poor perfusion

Not metabolically active

Question 27

What does skeletal muscle possess to help reduce tissue perfusion during rest?

Answer 27

Pre-capillary sphincters

Question 28

What are the three main types of capillaries?

Answer 28

Continuous
Fenestrated
Discontinuous

Question 29

Describe the structure of continuous capillaries

Answer 29

• have small water-filled gap junctions between the endothelial cells
• allows passage of electrolytes and small molecules
• most substances move through the endothelial cells

Question 30

What are fenestrated capillaries?

Answer 30

They are leakier capillaries

Have slightly bigger holes called fenestra allowing bigger substances to go through

Question 31

Describe the structure of discontinuous capillaries and where they are found in the body

Answer 31

• Have large holes in the capillary

- important in the bone marrow where white cells have o get into the blood

Question 32

What is the most common type of capillary structure?

Answer 32

Continuous

Question 33

What sort of capillaries do you get in the blood brain barrier and why?

Answer 33

Continuous capillaries but DO NOT have water- filled gap junctions but have really tight gap junction
= access of substances to the brain is tightly regulated
Anything that wants to cross has to diffuse across the endothelial cell

Question 34

What sort of capillaries do you have in discontinuous blood brain barriers?

Answer 34

Water-filled gap junctions

Question 35

What are the two main factors affecting the movement of fluid in and out of capillaries? And what are these forces known as?

Answer 35

1. Hydrostatic pressure
2. Oncotic pressure
   STARLING FORCES

Question 36

What is oncotic pressure?

Answer 36

Osmotic force due to plasma proteins drawing water back in

Question 37

Describe the structure of lymph capillaries. What causes the flow of lymph in lymph vessels

Answer 37

• Blind ended
• Have valves in lymphatic vessels which means you don’t get backwards flow
• movement by lymphatic pressure (muscles, lung inflation)

Question 38

Which four places does lymph drain into?

Answer 38

Thoracic duct
Right Lymphatic duct
Right subclavian vein
Left subclavian vein

Question 39

What volume of fluid is returned to the circulatory system each day?

Answer 39

3L

Question 40

What is oedema?

Answer 40

Build up of interstitial fluid when rate of fluid production > rate of lymphatic drainage

Question 41

What might cause oedema?

Answer 41

• Parasitic blockage of lymph nodes (elephantiasis)
• removal of lymph nodes
• inflammation