Human Physiology Ch 14 Cardiovascular System
Chapter 14: Cardiovascular Physiology
Cardiovascular Physiology Chapter 14 "
Heart anatomy " Cardiac muscle cells " Autorhythmic cells " Cardiac cycle " Cardiac output "
1
Functions of Circulatory System "
Transportation"
– Respiration"
Transport 02 and C02."
– Nutrition"
Absorbed digestion products delivered to liver and tissues"
– Excretion"
Carry metabolic wastes to kidneys"
– Hormonal: "
Carry hormones to target tissues"
2
The cardiovascular system circulates blood to tissues "
Pulmonary circulation" Coronary circulation" Systemic circulation"
Fluid Mechanics "
Blood flow rate (vol/min) = Cardiac Output" 5 L/min at rest = total blood volume per minute" Pressure produced by heart pushes blood through vessels" Vessels become successively smaller" Blood pressure drops as blood moves away from heart"
3
4
Fig. 14.1, pg. 465"
Bio5, Denise Lim
1
Chapter 14: Cardiovascular Physiology
Pressure is measured in mm Hg "
Units refer to the force required to push mercury (Hg) up a barometer"
5
Pressure is greatest at aorta, lowest at vena cava "
Fig. 14.2, pg. 466"
6
Pressure drops over distance "
Drop in pressure over distance keeps blood moving "
Change in pressure over distance produces a pressure gradient" Without difference in pressure, blood would stop flowing"
Hydrostatic pressure: no flow" Pressure is constant"
Hydraulic pressure: fluid in motion" Pressure decreases" 7
Fig. 14-3a&b, pg. 468"
8
Bio5, Denise Lim
2
Chapter 14: Cardiovascular Physiology
Flow depends on the pressure gradient "
Resistance (friction) opposes flow "
Peripheral resistance = resistance in vessels (not in heart itself)" Resistance is determined by:"
– Viscosity = v" – Vessel length = l" – Vessel radius = r"
" R ∝ vl " r4"
Fig. 14.3, pg. 468"
9
10
Resistance
Cardiovascular Physiology Chapter 14 "
Heart anatomy " Cardiac muscle cells " Autorhythmic cells " Cardiac cycle " Cardiac output "
1
Functions of Circulatory System "
Transportation"
– Respiration"
Transport 02 and C02."
– Nutrition"
Absorbed digestion products delivered to liver and tissues"
– Excretion"
Carry metabolic wastes to kidneys"
– Hormonal: "
Carry hormones to target tissues"
2
The cardiovascular system circulates blood to tissues "
Pulmonary circulation" Coronary circulation" Systemic circulation"
Fluid Mechanics "
Blood flow rate (vol/min) = Cardiac Output" 5 L/min at rest = total blood volume per minute" Pressure produced by heart pushes blood through vessels" Vessels become successively smaller" Blood pressure drops as blood moves away from heart"
3
4
Fig. 14.1, pg. 465"
Bio5, Denise Lim
1
Chapter 14: Cardiovascular Physiology
Pressure is measured in mm Hg "
Units refer to the force required to push mercury (Hg) up a barometer"
5
Pressure is greatest at aorta, lowest at vena cava "
Fig. 14.2, pg. 466"
6
Pressure drops over distance "
Drop in pressure over distance keeps blood moving "
Change in pressure over distance produces a pressure gradient" Without difference in pressure, blood would stop flowing"
Hydrostatic pressure: no flow" Pressure is constant"
Hydraulic pressure: fluid in motion" Pressure decreases" 7
Fig. 14-3a&b, pg. 468"
8
Bio5, Denise Lim
2
Chapter 14: Cardiovascular Physiology
Flow depends on the pressure gradient "
Resistance (friction) opposes flow "
Peripheral resistance = resistance in vessels (not in heart itself)" Resistance is determined by:"
– Viscosity = v" – Vessel length = l" – Vessel radius = r"
" R ∝ vl " r4"
Fig. 14.3, pg. 468"
9
10
Resistance