Lymphatics

Question 1

Throughout the vascular system, blood pressure _________.

Answer 1

Decreases

Question 2

Where in the vascular system is the cross sectional area the highest? What does this mean for blood pressure and blood flow velocity?

Answer 2

Capillaries
Slowest blood flow velocity
Low blood pressure

Question 3

How are solutes (lipid soluble and water soluble) exchanged at capillaries?

Answer 3

Lipid soluble (oxygen, carbon dioxide, urea) - through cell membrane

Water soluble (sodium, potassium, chloride, glucose) - through pores (intercellular clefts, fenestrations)

Question 4

At capillaries, what moves through the cell membrane?

Answer 4

Lipid soluble SOLUTES (oxygen, carbon dioxide, urea)

Question 5

At capillaries, what moves through pores? Specifically, what are these pores?

Answer 5

Water soluble SOLUTES (glucose, potassium, sodium, chloride).
Pores = intercellular clefts and fenestrations

Question 6

What do starling’s forces refer to in capillaries? What do they determine?

Answer 6

Hydrostatic pressure and colloid osmotic pressure.

Determines the EXTENT of filtration and absorption.

Question 7

Define hydrostatic pressure

Answer 7

Pressure a fluid exerts on capillary walls

In to out (draws water out of capillaries)

Question 8

Define osmotic pressure

Answer 8

Pressure which opposes hydrostatic (due to large solutes, e.g., plasma proteins)

Out to in (draws water into capillaries)

Question 9

What are the values for:

• HP arteriole side
• OP arteriole side
• NET arteriole filtration pressure
• HP venous side
• OP venous side
• NET venous filtration pressure
• NET overall

Answer 9

HP arteriole side = 35 mmHg out
OP arteriole side = 25 mmHg in
NET arteriole filtration pressure = 10 mmHg OUT
HP venous side = 17 mmHg out
OP venous side = 25 mmHg in
NET venous filtration pressure = -8 mmHg (8 mmHg IN)
NET overall = 2mmHg out, therefore net leakage of fluid out of cells into

Question 10

Is there a net leakage / net influx of fluid at cells? How much per day?

Answer 10

Net leakage of fluid at cells into the interstitial space (2mmHg outwards is net filtration pressure). This goes into the lymphatic system.

20L leaves capillaries per day. 75-85% reabsorbed. 4-8L taken up by lymphatic system

Question 11

How much fluid is taken up by the lymphatic system every day? What % is this?

Answer 11

20 L fluid leaves capillaries per day due to filtration
75-85% of fluid is reabsorbed
4-8 L taken up by lymphatics

Question 12

How does left heart failure affect fluid distribution?

Answer 12

Left heart failure - pulmonary congestion - increase pressure in pulmonary capillaries

Question 13

How does right heart failure affect fluid distribution?

Answer 13

Right heart failure - systemic congestion - increase pressure in systemic capillaries

Increases hydrostatic pressure - increase filtration - decrease reabsorption - fluid accumulates in tissue (lymphatics takes some away, but not all) - can cause oedema (swollen feet and ankles)

Question 14

How does histamine affect fluid distribution? Where is it released from?

Answer 14

Released by mast cells (involved in immunity - bite, stings, inflammation)

Increases permeability of capillaries - fluid leaves capillaries - oedema

Question 15

How could plasma protein concentration decrease? What effect would this have?

Answer 15

Decrease plasma protein - lower osmotic pressure - decrease reabsorption - oedema

Due to:

• lack of protein in diet
• liver disease / sclerosis
• kidney disease

Question 16

How can kidney disease affect fluid distribution?

Answer 16

Damaged kidney may excrete plasma proteins in urine. Therefore decreased osmotic pressure - decreased reabsorption - oedema

Question 17

How could liver disease or liver sclerosis affect fluid distribution?

Answer 17

Prevents liver from forming plasma proteins - decreased osmotic pressure - decreased reabsorption - oedema

Question 18

What are 2 major functions of lymphatics?

Answer 18

Return excess fluid and protein from extracellular tissue to main circulation (also fat absorption)

Filtration of tissue fluid at lamp nodes (immune - contain phagocytic cells and lymphocytes)

Question 19

Define lymph

Answer 19

Similar to blood plasma (not cells) with very low plasma protein concentration

Question 20

Lymphatic capillaries have _______ _________ that ______ each other - they are not ______ like tight junctions. They also have _________ which are anchored to _______ and as fluid accumulates in the interstitium, _________ is applied to the _______, which opens ______ and ensures blood flows into the lymph vessels.

Answer 20

Lymphatic capillaries have FLAPLIKE MINIVALVES that OVERLAP each other - they are not FUSED like tight junctions. They also have FILAMENTS which are anchored to FLAPS and as fluid accumulates in the interstitium, TENSION is applied to the filaments, which opens FLAPS and ensures blood flows into the lymph vessels.

Question 21

Lymphatic capillaries are permeable to what?

Answer 21

Proteins, cells, bacteria

Question 22

Where are lymphatic vessels found?

Answer 22

In skin - travel along superficial veins

Deep - travel along arteries

Question 23

Lymphatic collecting vessels have _________

Answer 23

Valves

Question 24

Which lymphatic vessels have valves?

Answer 24

Lymphatic collecting ducts

Question 25

Of the 8L of blood reabsorbed from lymphatic system per day, where is this reabsorbed?

Answer 25

40% at lymph nodes = 3.2 L

60% at subclavian vein = 4.8 L

Question 26

What do lymph nodes contain?

Answer 26

Macrophages

Question 27

What occurs at lymph nodes?

Answer 27

Filtration + immune system activation

Question 28

Name three sets of superficial lymph nodes

Answer 28

Cervical nodes (in neck)
Axillary nodes (under arm)
Inguinal node (in groin)

Question 29

What does a swollen lymph node indicate?

Answer 29

If there is an infection, the lymph nodes will likely be swollen. (Infection likely on the heart side)

Question 30

Name 5 other lymphoid organs

Answer 30

Tonsils, thymus gland, spleen, Peyer’s patches, appendix

Question 31

Trunks and ducts have __________. What does this do?

Answer 31

Smooth muscle in their wall - when stretched, it responds by contracting to move lymph

Question 32

What is the role of valves?

Answer 32

Ensure unidirectional movement

Question 33

What moves lymph through vessels?

Answer 33

Smooth muscle in wall. Valves.

Respiratory pump, skeletal muscle pump, pulse pump

Question 34

Why may lymph nodes be removed in a cancer patient?

Answer 34

Cancer cells can be taken up into lymphatic system and establish themselves in lymph nodes.

Question 35

What are the consequences of lymph node removal? How can this be overcome / treated?

Answer 35

Often tends to result in oedema as fluid cannot be drained as the lymph node is no longer there. .

Exercise recommended to promote circulation and fluid movement.