Lecture 8 - Blood Vessels

Question 1

What is referred to as the plumbing of the heart?

Answer 1

Blood vessels

Delivery of Oxygen and Nutrients to the body

Question 2

What are all blood vessels lined with?

Answer 2

SLIPPERY,SMOOTH surface of ENDOthelium (thin flattened layer of cells)

Question 3

What is the role of Elastin Fibres?

Answer 3

Allow vessels to stretch

Question 4

What is the role of Smooth Muscle Fibres?

Answer 4

Smooth Muscle Fibres are wrapped AROUND vessels allowing the DIAMETER to be ADJUSTED

Question 5

What is the role of Collagen Fibres?

Answer 5

Collagen Fibres are TOUGH, INelastic STRANDS which PREVENT the vessel wall from STRETCHING to the point of RUPTURE

Question 6

What is the role of Arteries?

Answer 6

Arteries carry blood away from the heart
Arteries have plenty ELASTIC fibres so have High COMPLIANCE - so walls can Easily STRETCH or EXPAND . and the walls are also THICKER as there is more pressure

heart has LARGE ELASTIC arteries, which divide into MEDIUM size MUSCULAR arteries which BRANCH OUT into various regions of the body (gradual (charge or vessel))

Question 7

What sort of arteries does the Heart consist of?

Answer 7

LARGE ELASTIC arteries, which divide into MEDIUM size MUSCULAR arteries which BRANCH OUT into various regions of the body (gradual (charge or vessel)

Question 8

What are Elastic Arteries?

Answer 8

also called CONDUCTING arteries
Elastic Arteries are the FIRST VESSELS which LEAVE the heart (first 15 cm)
they are GREATER than >1cm (FINGER size)

Question 9

What is the Function of Elastic Arteries?

Answer 9

1. very LARGE arteries NEAR the heart which have ELASTIC WALLS
2. during SYSTOLE (contraction) the heart is trying to Reduce Volume, generating More Pressure. Elastic arteries EXPAND to STORE the BOLUS of blood Leaving the ventricle. The KE from contraction is converted and STORED as ELASTIC ENERGY.(for use in diastole)
3. during DIASTOLE (relaxation) elastic arteries PUSH blood OUT into the ARTERIAL TREE by ELASTIC RECOIL of the elastiN SHEETS in the elastic artery wall. Elastic Energy is converted to KINETIC ENERGY. SMOOTHS out the PULSATILE nature/flow of pump/blood Leaving the Ventricles. Will only pump in SHORT SPURTS every second with the elastic arteries expanding and contracting to accommodate that.
   (PRESSURE ABSORBER)(rigid pipes would transmit pressure through the arterial tree, and your Capillaries CANNOT HANDLE High Pressure)

Question 10

What is the Structure of Elastic Arteries?

Answer 10

THIN SHEETS of ELASTIN in the MIDDLE tunic
acts as a PRESSURE RESERVOIR
Elastin has a Higher Proportion of Elastic Fibres (layers of up to 50 SHEETS of elastin fibres)-good at storing elastic energy and recoiling
Walls THIN comparatively

Question 11

Which is easier to see, arteries or veins?

Answer 11

arteries

veins collapse and fold onto itself without blood

Question 12

What is the first branch of the aorta called?

Answer 12

Brachiocephalic artery

Question 13

What are the main qualitative features of arteries?

Answer 13

rubbery
soft
pliant

Question 14

What is a bolus?

Answer 14

a “lump” of blood

Question 15

What is the nature of the cardiovascular pump?

Answer 15

pulsatile nature of blood/pump flow

Question 16

What do Elastic Arteries Always do?

Answer 16

Elastic arteries ALWAYS are pumping blood down the ARTERIAL TREEE, EVEN during Filling

Question 17

What is a comparison between Muscular arteries and Elastic arteries?

Answer 17

Muscular Arteries are MORE ABUNDANT than elastic arteries

more common

Question 18

What are Muscular Arteries?

Answer 18

0.1 - 10mm diameter
pen –> pin

Muscular Arteries as Tunica Media has More SMOOTH MUSCLE and Fewer elastin fibres than Elastic arteries

Question 19

What is the Function of Muscular Arteries?

Answer 19

“coarsely channel”/DISTRIBUTE blood around the body at HIGH PRESSURE (and the LUNGS at MEDIUM pressure)
very good at DIVERTING blood to WHERE it is NEEDED
BULK Transport
the Rate of blood flow is adjusted via BULK TUNING using SMOOTH MUSCLE (2-40 layers) to VARY the RADIUS of the vessel depending on how much pressure is needed via SYMPATHETIC NERVOUS CONTROL.
Vasoconstriction (narrowing of diameter)
vasodilation (increase in diameter)
Flow is proportional to the FOURTH power of the Radius
therefore a SMALL CHANGE in radius has a LARGE EFFECT on the flow rate

Question 20

How is the flow of blood calculated in Muscular Arteries?

Answer 20

The flow of blood in MUSCULAR arteries is proportional to the FOURTH POWER of the RADIUS

Question 21

What is the structure of Muscular Arteries?

Answer 21

consists of 3x TUNICs (outer, middle and inner tunics)

Externa –> Media –> Intima/Interna

Question 22

What does the Externa consist of?

Answer 22

Tunica EXTERNA =Outer Tunic

consists of ELASTIC and COLLAGEN fibres

Question 23

What does the Media consist of?

Answer 23

Tunica MEDIA = Middle Tunic
THICKEST layer
is often the FUNCTIONAL layer

consists of SMOOTH Muscle, CT and ELASTIC Fibres
the Smooth Muscle allows for VASOCONSTRICTION/DILATION

Question 24

What does the Intima/Interna consist of?

Answer 24

INTIMA =intimate
Tunica INTERNA=Inner Tunic

consists of inner ELASTIC LAMINA which is a THIN SHEET of ELASTIN FIBRES
\+
BASEMENT MEM. for PHYSICAL SUPPORT 
\+
ENDOthelium

Question 25

What is the change like as you go down the arterial tree?

Answer 25

There is a GRADUAL change in histology
gradual increase in the properties of the next class of arteries

Question 26

What does “arteries of the body” refer to?

Answer 26

Muscular arteries

as muscular arteries are more common and more abundant in the body

Question 27

What is Vasoconstriction?

Answer 27

DECREASE in diameter of arteries

Question 28

What is Vasodilation?

Answer 28

INCREASE in diameter of arteries

Question 29

What control is smooth muscle under?

Answer 29

Sympathetic and Parasympathetic control
+
under the right conditions

sympathetic and parasympathetic is involuntary control

Question 30

What is the function of Arterioles?

Answer 30

Controls blood flow into CAPILLARY BEDS
It is the FINAL place of FINE TUNING the blood before it Enters the CAPPILARIES
- Last Responsibility for CONTROL and have the CORRECT PRESSURE

THIN 10-100microns (HAIR) but have a THICK MUSCULAR wall (HALF the size of the LUMEN), relative to the size of any other blood vessel
undergoes the GREATEST PRESSURE DROP and the GREATEST RESISTANCE to flow
the Degree of Constriction of arterioles determines the TOTAL PERIPHERAL resistance (over ALL(hence total) arterioles), which IMPACTS the MEAN ARTERIAL blood pressure to decide WHICH capillary network the blood goes to

Question 31

What do arteries often flow beside?

Answer 31

Companion Veins

if the Artery Supplies the organ, the Companion Vein will often Drain the Organ

(flows are Usually similar)

Question 32

What is the difference between Artery and Vein wall thickness?

Answer 32

Reflects the Influence of PRESSURE

Question 33

What is the size of red blood cells and what do they look like?

Answer 33

Readily Looked for
9 microns
Black dots
Increase in # of red blood cells = Higher Power

Question 34

What are Arterioles?

Answer 34

Vessels which only have 2-3 layers of smooth muscle

Question 35

What is the Structure of Arterioles?

Answer 35

1-3 layers of circular SMOOTH muscle which is WRAPPED AROUND a vessel in the middle of the tunic lined by ENDOthelial cells

Question 36

What are all Red Blood cells lined with?

Answer 36

Endothelial Cells

Question 37

Which vessel has the thickest walls relative to their size?

Answer 37

Arterioles

wall is 1/2 size of lumen

Question 38

Where are arterioles situated?

Answer 38

between your elastic and muscular arteries

Question 39

What is important about the Mean Arteriol Pressure?

Answer 39

It is important to maintain it within a range
120/80
controlled by arterioles to COARSELY DISTRIBUTE the blood to a certain CAPILLARY NETWORK

Question 40

What determines Mean Arteriol Pressure?

Answer 40

Quantity of blood being pushed into the “cylinder”
and
Total Peripheral Resisitance

Question 41

What is the size of Capillaries?

Answer 41

very thin
the size of RBC(can fit one through)(edges touch therefore capillary)
4-10microns

Question 42

What is the function of capillaries?

Answer 42

Blood flow is SLOW(due to be small) in order to allow TIME for EXCHANGE to occur
Capillaries exchange and form (through leakage) with INTERSTITIAL Fluid (interstitial/tissue fluid interacts with cells)
capillaries are LEAKY vessels, meaning they have GAPS and PLASMA ESCAPES(so can form tissue fluid)
Cannot handle high pressures
HYDROSTATIC pressure in capillaries DRIVES fluid OUT
most of the LOST Plasma is IMMEDIATELY RECOVERED due to an OSMOTIC GRADIENT-draw back fluid into capillary but not all
Need to DRAIN EXCESS fluid form tissues (done by the LYMPHATIC SYSTEM)

Question 43

What is a Capillary?

Answer 43

TINY vessel which is THIN WALLED to allow the EXCHANGE of GASES,NUTRIENTS and WASTES between the BLOOD and the Surrounding TISSUE FLUID (not straight to the cells)

Question 44

What is EDEMA?

Answer 44

When capillary DRAINAGE is IMPAIRED
results in SWOLLEN TISSUE
filtration > reabsorption
MORE FLUID squeezed OUT of capillaries e.g. Lower limbs when Standing too long

Question 45

What is the Structure of Capillaries?

Answer 45

The diameter of a capillary is just Wide Enough to admit 1 RBC
Capillary wall is a SINGLE LAYER of ENDOthelium with an EXTERNAL BASEMENT MEMBRANE
Capillaries contain NO SMOOTH Muscle, therefore it CANNOT ADJUST its DIAMETER
Capillaries also contain NO CT

Question 46

What do capillaries look after?

Answer 46

Interstitial fluid

Question 47

What does interstitial fluid look after?

Answer 47

cells

interstitial fluid = “cell fluid”

Question 48

What cant capillaries tolerate?

Answer 48

High Pressures due to being SO THIN (only one layer of endothelial cells)

Question 49

What is the Function of Venules?

Answer 49

LOW Pressure vessels which DRAIN Capillary Beds
During INFLAMMATION and INFECTION, venules are the sites where WBC (=CT cells) LEAVE Blood Circulation to ATTACK Bacteria in the CT

Question 50

What is the Structure of Venules?

Answer 50

a venule is SIMILAR to CAPILLARIES (2-500RBC in diameter)therefore Larger than a Capillary
SMALL venule=ENDOthelium and CT
LARGE venule = SINGLE layer of SMOOTH Muscle

Question 51

Which vessels of the heart are involved in Exchange?

Answer 51

Elastic Arteries
Muscular Arteries
Arteriole
Capillary

Question 52

Which vessels of the heart are involved in Drainage?

Answer 52

Venule

Question 53

What does drainage involve?

Answer 53

bringing blood back to the heart

Question 54

What does Venule mean?

Answer 54

Little Vein

Question 55

Where are Venules situated?

Answer 55

immediately after capillaries

looks like a large cappilary

Question 56

How are WBC Transported?

Answer 56

WBC use the CARDIOVASCULAR System to be transported around the body.
move through the circulatory system
when alerted that they are needed they STICK to the WALLS of Venules (able to do this due to the SLOW flow) and then slip through the Endothelial cell wall, through the CT
Final goal is to get out into CT

Question 57

What features of vessels benefit exchange?

Answer 57

Capillaries have thin flattened single endothelial cell wall, with the cytoplasm stretched out and reduced to a very thin layer and overlaps neighbouring cells
designed to make fluid easy to GET OUT and be exchanged and flow into interstitial fluid outside

Question 58

What does longitudinal mean?

Answer 58

Along the LENGTH of the structure

Question 59

What does a RBC look like when it is damaged in capillaries?

Answer 59

Parachute
Mechanical Damage
edges are touching edge of capillary but fluid is coming in PUSHING the red blood cell forward and can DESTROY the red blood cells
only last a few weeks

Question 60

What happens to damaged RBCs?

Answer 60

spleen and bone marrow recycle

Question 61

What is the benefit of Capillaries only being 1 RBC in diameter?

Answer 61

the RBCs can RUB up again the capillary wall and SLOW it down, allowing MORE TIME for EXCHANGE

Question 62

What does a longitudinal slide of a venule in infection look like?

Answer 62

lots of RBC
WBC STICK to the wall
will eventually go through and look for the pathogens causing the infection

Question 63

What is the function of veins?

Answer 63

Veins are THIN walled, LOW pressure vessels with a BIG LUMEN which DRAIN blood back into the ATRIA at a SLOW rate
Except PORTAL veins which drain blood back into another Capillary Bed
A SMALL Change in Venous Blood PRESSURE causes a LARGE change in Venous Blood VOLUME
Veins act as a RESERVOIR (doesn’t ‘store’ as blood doesn’t ‘stop’)
64% blood volume = systemic VEINS and VENULES
13% blood volume = systemic ARTERIES and ARTERIOLES

Question 64

What are DVTs?

Answer 64

Deep Vein Thrombosis
Thrombi = little blood clots
blood stops,
This is what happens if you sit in a plane for too long

Question 65

What is the Structure of Veins?

Answer 65

Walls are THING, SOFT and they STRETCH easily (compliant)
-if veins need blood they VASOCONSTRICT - push blood from periphery
-if veins don’t need blood to the heart they VASODILATE
Adjust Diameter to change volume of blood
Similar structure to Muscular Artery, but with a Much THINNER wall for their size (much less Muscle and CT)
LARGER veins (e.g. in legs) have a Large LUMEN and VALVES which Prevent blood flow
DEEP veins also have Skeletal Muscle
As leg muscles alongside the vein Alternatively contract and relax during walking, the system acts as a Venous Pump, which returns blood right to the atrium

Question 66

What is Vasoconstriction?

Answer 66

what happens when veins NEED blood
the vein walls (Muscle Pumps) contract/shorten and thicken/Bulge (soft compliant)
which Compresses the blood and pushes the blood towards the heart(atria)
“Aided Superiorly” displacing any of the blood above it

Question 67

What is Vasodilation?

Answer 67

what happens when veins DONT need blood
Occurs in the veins which are CLOSER to the heart(atria)
the veins RELAX, allowing the blood to naturally flow
Aids Venous Return

Question 68

What are veins affected by?

Answer 68

Gravity
so are us bipedal organisms
Hard to push blood from a metre and a half under Low Pressure
Leg Veins have an Adaptation
they have BICUSPID VALVES
Bicuspid valves are found b/w something HARD and a MUSCLE (can be 2x muscles)
Muscle Pumps aid venous return

Question 69

What happens if you don’t walk enough?

Answer 69

You do not aid venous return to your heart
Stare your brain of oxygen = faint
need to use your Muscle Pumps

Question 70

Why do people get Varicose Veins?

Answer 70

Typically Elderly get Varicose veins on their Legs
Common in Lower Limb’s Superficial veins and in Oesophagus
Veins have STRETCHED so much that the valves no longer meet, and therefore Wont Function properly, and blood POOLS
Leaky venous valves(weakened) allow backflow of blood, which causes pooling of blood,creates pressure that distends the vein, allows fluid to leak into surrounding tissue (inflamed and tender), blood doesn’t reach brain (faintness), veins become Dilated and Twisted.
Cause: Congenital, Mechanical Stretch due to Prolonged Standing/Ageing
some young people get it
Itchy and Painful
Can be Cut out/Laser Treatments/Chemicals

Question 71

What is the function of Coronary Arteries?

Answer 71

Supply the heart (Myocardium) with Oxygenated blood, as the heart needs its own supply
Coronary arteries attach at the coronary Atria and exits the ascending aorta just above the aortic valve leaflets
on the Outside and send Branches into the myocardium
Forms a Crown around the top of the heart
Match Stick Thickness Common Muscular Arteries
Coronary arteries are critically important because of the tissues they supply (muscle is a very active organ, always contracting)
Get the Best Blood(O2 rich) and Best (Highest) Pressure
First branch of the aorta are the RH and LH Coronary arteries
Deoxygenated blood is drained from the myocardium by Cardiac Veins or Coronary Arteries, which return the blood to the Right atrium (no clinical importance)
1/3 of population have problems

Question 72

Where does the Left Coronary Artery supply blood?

Answer 72

Left side of the Heart

Front side of the heart

Question 73

Where does the Right Coronary Artery supply blood?

Answer 73

Right side of the Heart

Posterior side of the heart

Question 74

Is the Brachiocephalic branch the first branch off the aorta?

Answer 74

No

technically it is the coronary arteries

Question 75

Why are coronary artery branches needed?

Answer 75

Because the walls of the myocardium are too thick for oxygen to diffuse from the cappilaries

Question 76

How is deoxygenate blood drained from the myocardium?

Answer 76

Cardiac Veins

back to the Right side of the heart

Question 77

What is Atherosclerosis?

Answer 77

Wall of the Elastic artery become LESS COMPLIANT (stiff) so there is Less Energy stored in the stiffer arteries during Systole
Leads to CLOGGING,NARROWING and HARDENING of arteries
Occurs in Large Branches on the SURFACE of the heart
Fatty Plaque inside walls of vessels
-Narrows the Lumen of vessels, therefore Less Space for blood to flow
Blockage upstream affects many downstream branches
the Heart must Pump Harder to Maintain same blood flow
If a coronary artery is narrowed by 20% of normal cross section by ATHEROMA a significant obstruction to blood flow occurs
Myocardial Infarction/heart attach is when there is Not enough O2 delivered to heart, leading to Death of the Heart Wall
During exercise the myocardium supplied by a diseased artery runs low on O2 (ISCHEMIA) causing chest pain (ANGINA)(SNS to T1-T5 (arm,nipple,chest))
Sever ANGINA=death/Infarction of local area of myocardium
Sometime ANASTOMOSES (artery-artery junctions) between Small Penetrating branches of main coronary arteries WIDEN slowly so the Ischaemic area can be supplied with oxygenated blood from a Distant Artery.
More prevalent the older you get

Question 78

What is Ischemia?

Answer 78

“Without oxygen”
Inadequate blood supply to an organ or part of the body, especially the heart muscle
run out of O2 supply

Question 79

What is Angina?

Answer 79

severe chest pain and down arm (deferred pain)

Question 80

Where is the sympathetic nerve supply?

Answer 80

T1-T5

Question 81

Why does the heart wall look so?

Answer 81

Juicy and Red
because it is Rich in blood supply(lots of capillaries)
Aerobic Organ

Question 82

What is the danger of having a thrombus?

Answer 82

can Not know you have a thrombus (blood clot)
Grow
Break free and enter circulatory system
comes across an area of coronary artery which is narrowed can Block the artery
can result in an instantaneous effect of low O2 supply to having No O2 supply at all

Question 83

What does a survived myocardial infarction tissue look like?

Answer 83

white and scarred

developed collagen fibres and scarred over

Question 84

What can cause you to have sequential myocardial infarctions?

Answer 84

No change in Diet or Lifestyle