CVS Session 1 (Lecture 1.2)

Question 1

Which arteries branch from the aortic arch?

Answer 1

1) Brachiocephalic
2) Left common carotid
3) Left subclavian

Question 2

What does the pulmonary trunk bifurcate into? Where does it arise?

Answer 2

Arises from right ventricle and bifurcates into right and left pulmonary arteries.

Question 3

Where does the aorta terminate? Which arteries does it turn into?

Answer 3

Abdominal cavity bifurcating into left and right common iliac arteries.

Question 4

What do arteries do?

Answer 4

Carry blood away from the heart to capillary beds.

Question 5

What property of the aorta allows it to maintain pressure during diastole?

Answer 5

Contain elastic fibres and smooth muscle cells which recoil giving back energy gained from systole.

Question 6

In what fashion is blood pressure observed near the heart?

Answer 6

Pulsatile

Question 7

What are the three major types of artery?

Answer 7

1) Elastic conducting
2) Muscular distributing arteries
3) Arterioles

Question 8

What are the three layers of an artery and vein?

Answer 8

Tunica intima, Tunica media, Tunica adventitia

Question 9

What makes up the Tunica Intima of elastic arteries

Answer 9

Endothelium and subendothelium of CT with discontinuous internal elastic lamina.

Question 10

What makes up the Tunica Media of elastic arteries?

Answer 10

40-70 fenestrated elastic membranes. SMC and collagen between lamellae. External elastic lamina may be present

Question 11

What makes up the Tunica Adventitia of elastic arteries?

Answer 11

Thin layer of fibroelastic CT containing vessels, lymphatic vessels and nerves

Question 12

What special feature is within the Tunica Adventita of elastic arteries?

Answer 12

Vasa vasorum

Question 13

What makes up the Tunica Intima of muscular arteries?

Answer 13

Endothelium, subendothelial layer. Thick internal elastic lamina

Question 14

What makes up the Tunica Media of muscular arteries?

Answer 14

40 layers of SMC (conncented by gap junctions for coordinated contraction). Prominent external elastic lamina.

Question 15

What makes up the Tunica Adventitia of muscular arteries?

Answer 15

Same as elastic but not as many vasa vasorum

Question 16

What do the nerves do in the tunica adventitia?

Answer 16

Release of NA to stimulate vasoconstriction by acting on SMC in the TM layer. Gap junctions allow depolarisation of all cells.

Question 17

What do protuding endothelial cells indicate?

Answer 17

Vasoconstriction

Question 18

What is an end artery?

Answer 18

Terminal artery supplying all or most of the blood to a body part without significant collateral circulation. They undergo extensive branching without the development of channels connecting with other arteries.

Question 19

Give three examples of an end artery and two anatomically true examples

Answer 19

1) Coronary artery
2) Splenic artery
3) Renal artery

Anatomically correct:

1) Central artery to the retina
2) Labyrynthine artery of the internal ear

Question 20

If an artery has a diameter less than 0.1mm what is it known as?

Answer 20

Arteriole

Question 21

How many layers of SMC do arterioles have in their TM ?

Answer 21

1-3

Question 22

What is present in large arterioles but absent in all arterioles?

Answer 22

Internal elastic lamina present

External elastic lamina absent

Question 23

Define a metarteriole..

Answer 23

Arteries that supply blood to capillary beds.

Question 24

How do they differ from arterioles? What is the special term for the SMC in metarterioles?

Answer 24

SMC layer is not continuous. They are spaced apart and each encircles the endothelium of a capillary arising from the metarteriole.

Called a precapillary sphincter

Question 25

What does the PCS do?

Answer 25

Control blood flow into the capillary bed.

Question 26

Can the capillary bed be bypassed? If so how?

Answer 26

Yes. Bypassed by the central channel (metarteriole + throughfare channel). Also known as a vascual shunt

Question 27

What do the lymphatic capillaries do?

Answer 27

Drain away excess ECF returning it to the blood at the junctions of the internal jugular and subclavian veins.

Question 28

Where is blood velocity at its lowest? Why?

Answer 28

Capillaries. Allows time for gas and nutrient exchange with surrounding tissues

Question 29

What makes up a capillary?

Answer 29

Once cell thick endothelium and its basement membrane

Question 30

What are the three types of capillaries?

Answer 30

1) Continuous
2) Fenestrated
3) Sinusoidal

Question 31

Where can these capillaries be found?

Answer 31

Continuous - most common, located in nervous, muscles and CT, exocrine glands and lungs
Fenestrated - parts of gut, endocrine and renal glomeruli
Sinusoidal - liver, spleen and bone marrow

Question 32

What are the defining features of each type of capillary?

Answer 32

Continuous - continuous endothelial layer (tight junctions and occludins)
Fenestrated - interruptions exist across thin parts of the endothelium.
Sinusoidal - slow blood flow, gaps exist allowing cells to move between blood and tissue

Question 33

What are pericytes and what can they do?

Answer 33

Form a brancing network on the outer surface of the endothelium. They can divide into muscle cells, fibroblasts during angiogenesis, tumour growth and wound healing.

Question 34

What are the four routes of transport across a wall of a fenestrated capillary?

Answer 34

1) Direct diffusion
2) Diffusion through intercellular cleft
3) Diffusion through fenestration
4) Pinocytic vesicle

Question 35

Post capillary venules are similar to what vessel? What occurs due to their low pressure and what is special about them?

Answer 35

Capillaries.

Even more permeable and low pressure so fluid tends to drain into them except in an inflammatory response. Preferred site of leukocyte emigration from blood.

Question 36

What signifies a venule?

Answer 36

50 micometre diameter with smooth muscle cells in the TM.

Question 37

What aspect of venules stop retrograde transport of blood?

Answer 37

Valves

Question 38

What are the main differences between an artery and a vein?

Answer 38

Veins have a larger diameter, thinner wall with more CT and fewer elastic and muscle fibres

Question 39

What do small and medium size veins have?

Answer 39

Well developed TA with a thin TI and TM 2-3 layers of SM.

Question 40

What do large veins have? (one exception is…?)

Answer 40

Diameter >10mm

TI is thick. TM is not prominent but well developed TA.

Exception are the superficial veins of the leg which have a muscular wall (resist distension by gravity)

Question 41

What are vena comitantes?

Answer 41

Deep paired veins that (in certain anatomical positions) accompany one of the smaller arteries on each side of the artery. The veins appear to anastomose. The three vessels are wrapped in one sheath.

Question 42

What is the advantage of vena comitantes?

Answer 42

Pulsing artery promotes venous return within the adjacent, parallel, paired veins

Question 43

Name examples of vena comitantes.

Answer 43

Brachial, ulnar and tibial vena comitantes

Question 44

What are the main features of large veins?

Answer 44

Well developed longitudinally orientated SM in TA and circular SM in TM.

Question 45

Name some examples of large veins.

Answer 45

Vena cavae, pulmonary, portal, renal, internal jugular, iliac and azygous

Question 46

What is the rate of lymphatic drainage back to the heart?

Answer 46

100ml/hr