#Question id: 11025
#Unit 7. System Physiology – Animal
Listed below are the hydrostatic and oncotic
pressures within a microcirculatory bed:
Plasma colloid osmotic pressure = 25 mm Hg
Capillary hydrostatic pressure = 25 mm Hg
Venous hydrostatic pressure = 5 mm Hg
Arterial pressure = 80 mm Hg
Interstitial fluid hydrostatic pressure = −5 mm Hg
Interstitial colloid osmotic pressure = 10 mm Hg
Capillary filtration coefficient = 10 ml/min/mm Hg
What is the rate of net fluid movement across the capillary wall?
#Question id: 11026
#Unit 7. System Physiology – Animal
Listed below are the hydrostatic and oncotic
pressures and filtration rate across a muscle capillary wall:
Capillary hydrostatic pressure (Pc) = 25 mm Hg
Plasma colloid osmotic pressure (Πp) = 25 mm Hg
Interstitial colloid osmotic pressure (ΠI) = 10 mm Hg
Interstitial hydrostatic pressure (PI) = −5 mm Hg
Capillary filtration rate = 150 ml/min
What is the capillary filtration coefficient?
#Question id: 11027
#Unit 7. System Physiology – Animal
Which of the following is the correct sequence of blood flow in birds and mammals?
#Question id: 11028
#Unit 7. System Physiology – Animal
A patient with a heart rate of 70 beats per minute and a stroke volume of 70 mL/beat will have a cardiac output of ________.
#Question id: 11029
#Unit 7. System Physiology – Animal
Damage to the sinoatrial node in humans would ________.
#Question id: 11030
#Unit 7. System Physiology – Animal
While jogging, a person has a stroke volume of 130 ml/beat and a heart rate of 120 beats per minute. If their resting stroke volume was 70 ml/beat and resting heart rate was 60 beats per minute, how did this person's cardiac output change?