Lecture 4: compliance, FRC, respiration volumes

Question 1

2 major collapsing fources of the lungs

Answer 1

surface tension

lung elastic recoil

Question 2

Lung Elastic Recoil

Answer 2

lung has connective tissue network composed of elastic fibers; stretching them from rest position creates a retracting force that acts when stretching force is released

Question 3

Pressure- Volume Curve

Answer 3

expand lung in volume increments and measure trans-pulmonary pressure

Question 4

stretchability nonlinear

Answer 4

more force needed at lower and higher lung volumes

Question 5

Compliance

Answer 5

slope of the curv; greater, easier lung compliesto disteniding; normal is .2L/cm

Question 6

Stiffening of the lung casues?

Answer 6

Compliance (fibrosis)

Question 7

Emphysema

Answer 7

Causes increased compliance

Question 8

Net compliance

Answer 8

combination of lung elastic recoil and surface tension

Question 9

Residual Volume

Answer 9

volume of air that remains when you expire as much as possible

Question 10

Minimal Volume

Answer 10

natural collapsing force of lug down to a very small lung volume

Question 11

P-V Curve

Answer 11

nonlinear; rest position of chest wall is very high; chest at lowest volumes is associated with negative pressure

Question 12

FRC

Answer 12

functional residual capacity; where pressure of lung collapsing and chest wall expanding are equal due to mechanically linked systems; resting lung volume; energetically favorable

Question 13

combined PV curve

Answer 13

total respiratory system (lung and chest wall); nonlinear

Question 14

Low lung volumes

Answer 14

airway pressure is very negative

Question 15

high lung volumes

Answer 15

airway pressure is positive

Question 16

compliance

Answer 16

effects magnitude of stretch of lungs and pressure required to produce that stretch

Question 17

lung expansion

Answer 17

pleaural pressure becomes more negative

Question 18

As lung volume increases above FRc

Answer 18

net deflating force and inspriation active and expiration is passive return to FRC

Question 19

Increased Compliance

Answer 19

increase FRC, PV curve, curve shifts left

Question 20

Decreased Compliance

Answer 20

greater collasping force, decreases FRC, PV curve shufts right

Question 21

Tidal volume (Vt)

Answer 21

normal breath above FRC

Question 22

Vital Capacity (VC)

Answer 22

inspiration to maximum capacity followed by expiration to lowest volume possible

Question 23

Total Lung capacity (TLC)

Answer 23

vital capacity plus residual volume