Haemodynamics

Question 1

What is haemodynamics?

Answer 1

1. The study of physical and physiological principles governing the movement of blood through the circulatory system
2. Explains the physical laws that govern the flow of blood in the blood vessels

Question 2

The circulatory system

Function of circulation
How local blood flow is controlled

Answer 2

Function of circulation: supply nutrients to tissues and remove waste products
- Tissue blood flow needs to be maintained by ensuring adquate cardiac output
- Local blood flow is controlled by arterioles which function like a tap

Question 3

Factors affecting heart rate

Answer 3

Atrial reflex
1. Autonomic innervation
2. Hormones
Heart rate

Question 4

Factors affecting stroke volume

Answer 4

1. Venous return,Filling time,Autonomic innervation,Hormones,Vasodilation or Vasoconstriction
2. Preload, Contractility, Afterload
3. End-diastolic volume, End-systolic volume

Question 5

Stroke volume equation

Answer 5

Stroke volume=end diastolic volume-end systolic volume

Question 6

Cardiac output

Equation
Defintion

Answer 6

The total blood flow out of the heart (litres/min)
- volume of blood pumped from each ventricles per minute
- Cardiac output=heart rate x stroke volume

Question 7

Blood pressure in vessels

Answer 7

p=f/a
Blood pressure:force that the blood exerts on the surface area of the walls of the blood vessels
- Differences in blood pressure throughout the body keep blood flowing from high-pressure areas to low-pressure areas

Question 8

Systolic Blood pressure
Diastolic blood pressure
Pulse pressure

Definition
Range

Answer 8

1. Pressure during systole (maximum pressure in arteries, 120mmHg)
2. Pressure during diastole (minimum pressure in arteries, 80mmHg)
3. Difference in pressure between systole and diastole

Question 9

Mean arterial pressure

Definition
Range
Equation

Answer 9

1. Average arterial pressure during the cardiac cycle
2. Considered to be the perfusion pressure of tissues and organs
3. A MAP of >60mmHg is rquired to sustain organs of a healthy person
   MAP=2xDBP+SBP/3
   =1/3 SBP+2/3 DBP
   =1/3 PP+ 2/3 DBP
   2 DBP: 1 SBP (because most time is spent on the DBP)

Question 10

Why do we need high pressures?

Answer 10

If the blood pressure is high, then the flow through a particular organ can be regulated by relaxing or constricting its input arterioles. (vasoconstriction,vasodilation)

Question 11

Does high pressure not rupture vessels?

Answer 11

• Blood vessels are designed in such a way that can withstand significantly higher pressures that those generated in normal conditions
• The pressure vessels can withstand is determined by the vessel wall properties and the radius of the vessel
• Vessels damaged by high blood pressure can rupture or leak

Question 12

Laplace’s Law

What Laplace’s law is
How radius is connected to withstand

Answer 12

• Laplace’s law states that the pressure that an elastic vessel can withstand depends on the wall tension and the radius of the vessel
• The smaller the radius of a vessel,the greater the pressure tha a given wall strength can withstand.
• Thus smaller diameter arterioles only need thin walls to withstand normal arterial pressures

Question 13

What is an aneurysm?

How aneurysm is caused
What happens in aneurysm

Answer 13

• If an artery wall weakens its radius increases and so the pressure it can withstand decreases
• The wall balloons out and this further reduces the effectiveness of the wall to withstand the pressure
• Eventually an aneurysm may occur and the vessel may rupture

Question 14

What is blood flow?

Definition
Why blood pressure is different

Answer 14

1. Volume of blood that flows through a vessel or an organ over some period of time
2. Differences in blood pressure throughout the body keep blood flowing from high-pressures areas, like the arteries, to low-pressure areas, like the veins
3. Anlagous to hydraulic circuit
4. Flow=volume/time

Question 15

Ohm’s Law

Equation and what each symbolises in systemic ciruclation
What the equation means

Answer 15

• When a fluid is pumped through a closed system, its flow (Q) is determined by the pressure developed by the pump (P1-P2 or diff in P), and by the resistance to that flow
  F=P1-P2/R
• The flow equation applies to the systemic circulation
  F=CO
  P1=Mean arterial pressure (MAP)
  P2=Right atrial pressure (RAP)
  R=total peripheral resistance (TPR)
  Therefore:
  CO=MAP/TPR
  CO x TPR=MAP

Question 16

Resistance to flow and its determinants

Answer 16

Vascular resistance: as blood flows, it encounters various factors that resist flow and movement of blood
1. Blood viscosity decrease, resistance decrease
2. Vessel length decrease, resistance decrease
3. Vessel radius decrease, resistance increase
less tension and the radius of the vessels increases → withstand less pressure

Question 17

Poiseuille’s Law

What each means

Answer 17

Q=(P2−P1)πr^4/8ηl
Q=volume flux
(P2−P1)=change in pressure
r=vessel radius
η=viscosity
l=vessel length

Question 18

How vessel diameter affects blood flow?

how it can control blood flow

Answer 18

1. Flow is proportioinal to the radius^44
2. Therefore, small changes in arterial diameter produce large changes in flow
3. Radius can change from minute to minute,especially the radius of arteriole
   - Vasoconstrict: decrase diameter, increase resistance
   - Vasodilate: increase diameter, decrease resistance

Question 19

Atherosclerosis

What is it
How it affects blood flow, by how much

Answer 19

1. Atherosclerotic plaques (fatty deposits) in blood vessels reduce the diameter of the vessel
2. This dramatically reduces blood flow through that vessel
3. Halving vessel diameter would lead to a 16 times fall in blood flow

Question 20

Atherosclerosis

What is it
How it affects blood flow, by how much

Answer 20

1. Atherosclerotic plaques (fatty deposits) in blood vessels reduce the diameter of the vessel
2. This dramatically reduces blood flow through that vessel
3. Halving vessel diameter would lead to a 16 times fall in blood flow

Question 21

Blood viscosity

Definition
How it affects by haematocrit

Answer 21

1. Viscosity: quality that liquids have of being thick and sticky
2. A measure of a fluid’s resistance to flow caused by internal friction between neighbouring particles as a fluid is moving
3. Depends mainly on haematocrit
4. Blood flow is inversely proportional to the viscosity of blood (blood becomes thicker, flow reduces0

Question 22

Clinical conditions increasing viscosity

Answer 22

1. Polycythaemia: when a person has too many RBCs their blood becomes move viscous
2. Sickle cell disease: malformed RBC that are inflexible can make blood more viscous
3. Macrocytosis: If blood cells are big they can make the blood more viscous

Question 23

Blood vessel length

Definition, how it affects blood flow

Answer 23

1. Total blood vessel length is inversely proportional to flow, as longer vessels have higher friction
2. Shorter vessles -> less resistance, longer vessels -> more resistance

Question 24

What is compliance

Definition
how it affects when pressure increase

Answer 24

compliance=v(mL)/p(mmHg)
1. The ability of a blod vessel wall to expand and contract passively with changes in pressure
2. Blood vessels are stretchable tubes
- If the pressure increases, the walls of the tube can actually stretch out a bit to accomodate a larger volume
- How much they stretch out depends on their compliance
compliance: vein>arteries>hardened arteries

Question 25

How aging affects compliance

Answer 25

1. As people age, the elasticity of blood vessels reduce, vessels become less compliant
2. In order to pump the same volume of blood, a larger pressure is generated

Question 26

Compliance during the cardiac cycle

Answer 26

1. Because vessels are