cardio-respiratory system

Question 1

What are the 3 functions of the respiratory system?

Answer 1

• ventilation (external)
• gas exchange (external and internal)
• oxygen utilization (internal)

Question 2

What’s the role of the pulmonary alveoli?

Answer 2

Where gas exchange occurs

Question 3

Why is there a large amount of pulmonary alveoli?

Answer 3

Creates large surface area for efficiency and effectivity

Question 4

What are the two types of alveolar cells and their functions?

Answer 4

Type 1: thin; where gas exchange occurs
Type 2: secrete pulmonary surfactant; prevent fluid buildup in the alveoli

Question 5

What are the components of the conducting zone?

Answer 5

trachea, primary bronchus (left and right), terminal bronchioles

Question 6

What are the components of the respiratory zone?

Answer 6

respiratory bronchioles, alveolar sacs, alveoli

Question 7

What’s the role of the respiratory zone?

Answer 7

responsible for gas exchange

Question 8

What’s the role of the conducting zone?

Answer 8

sending air to the respiratory zone, as well as warming, humidifying, as well as mucociliary cleaning (mucus filters small particles and clears them by propelling mucus to the pharynx to be swallowed).

Question 9

How does air enter the trachea?

Answer 9

passes through the glottis found between the folds of the larynx (vocal chords)

Question 10

What’s the thoracic cavity?

Answer 10

cavity above the diaphragm

Question 11

What’s the role of the parietal pleura and visceral pleura?

Answer 11

keep the lungs connected to the thoracic wall; they also produce a mucus-rich pleural fluid that fils the space between the two membranes (pleural space)

Question 12

What’s a pneumothorax?

Answer 12

a collapsed lung; lung becomes disconnected from thoracic wall, resulting in a large intrapleural space.

Question 13

What are the 3 physical properties of the lungs?

Answer 13

• compliance: must be distensible
• elasticity: must return to original size after being distended
• surface tension: fluid in alveoli act to collapse the alveolus due to bonds between water molecules, and increase the pressure of air within (law of laplace)

Question 14

What is lung compliance?

Answer 14

change in lung volume per change in transpulmonary pressure (∆V / ∆P)

Question 15

What is surfactant?

Answer 15

substance (mostly made of phospholipids) in alveolar fluid that reduces surface tension; it prevents H-bonds between water molecules (most effective during expiration)

Question 16

What is Respiratory Distress Syndrome?

Answer 16

disorder common in premature newborns due to production of surfactant late in fetal development; babies struggle to get oxygen due to collapsed alveoli

Question 17

What are the components of pulmonary ventillation?

Answer 17

inspiration and expiration

Question 18

What muscles are essential for inspiration?

Answer 18

• sternocleidomastoid (laboured breathing only)
• scalenes (laboured breathing only)
• external intercostals
• parasternal intercostals
• diaphragm

Question 19

What muscles are essential for expiration?

Answer 19

• internal intercostals
• abdominal muscles

Question 20

What happens during inspiration?

Answer 20

• diaphragm lowers and flattens as it contracts
• external and parasternal intercostal muscles contract, raising the ribs and increasing thoracic volume
• sternocleidomastoid and scalenes elevate ribs in an anteroposterior direction, making intercostals more effective (in laboured breathing only)

> overall, intrapulmonary pressure decreases, causing air to flood into the lungs

Question 21

What happens during expiration?

Answer 21

• internal intercostals contract to deepen the ribcage
• thorax and lungs recoil due to elastic tension
• abdominal muscles contract and force organs up against the diaphragm, further decreasing volume in the thorax

> overall, increase in intrapulmonary pressure, and air is pushed from the lungs

Question 22

What are Pulmonary Function Tests?

Answer 22

recording breathing to create a spirogram in order to determine pulmonary function (done via spirometry)

Question 23

What is Inspiration Capacity?

Answer 23

the maximum amount of gas that can be inspired after a normal tidal expiration

Question 24

What is Inspiratory Reserve Volume?

Answer 24

the maximum amount of gas that can be inspired during forced breathing in addition to the tidal volume

Question 25

What is Tidal Volume?

Answer 25

the amount of gas in an unforced respiratory cycle

Question 26

What is Residual Volume?

Answer 26

the volume in the lungs after a maximum expiration

Question 27

Why is there always at least some air in the lungs at any given time?

Answer 27

the alveoli and bronchioles do not collapse

Question 28

What is Vital Capacity?

Answer 28

the maximum amount that can be expired after a maximum inspiration

Question 28

What is Expiratory Reserve Volume?

Answer 28

the maximum volume of gas that can be expired during forced breathing in addition to the tidal volume

Question 28

What is Functional Residual Capacity?

Answer 28

the amount of gas in the lungs after a normal tidal expiration

Question 29

What is Total Lung Capacity?

Answer 29

the amount of gas in the lungs after a maximum inspiration

Question 30

What is Total Minute Volume?

Answer 30

tidal volume x breaths per minute

Question 31

What is Anatomical Dead Space

Answer 31

the volume of the conducting airways to the zone where gas exchange occurs (where O2 is low and CO2 is high)

> since this air enter the alveoli first, the fresh air per breath is actually less than the tidal volume

Question 32

How do you calculate the amount of fresh air received in the lungs?

Answer 32

fresh air received = dead space / tidal volume x 100%

Question 33

What is a Restrictive Disorder?

Answer 33

a disorder that causes the reduction of a person’s vital capacity

Question 34

What is an Obstructive Disorder?

Answer 34

a disorder that causes the reduction of a person’s rate of respiration

Question 35

How do you diagnose an Obstructive Disorder?

Answer 35

conduction of a forced expiratory volume (FEV) test – measures the percent of vital capacity exhales in the first second

Question 36

What is Decompression Sickness?

Answer 36

when bubbles of N2 form in the tissue fluids and enter the blood stream (caused by scuba divers surfacing too fast; when surfacing slow, N2 diffuses through alveoli)

Question 37

What is Oxygen Toxicity?

Answer 37

when oxidation of enzymes causes nervous system damage (caused by breathing high pressure O2)

Question 38

What is Nitrogen Narcosis?

Answer 38

caused by large amounts of dissolved high pressure N2 in the body (resembled alcohol intoxication)

Question 39

What is hemoglobin?

Answer 39

compound made of 4 polypeptide chains (globins) and 4 hemes; chemically bonds to O2

Question 40

What is oxyhemoglobin?

Answer 40

an oxygenated hemoglobin

Question 41

What is deoxyhemoglobin?

Answer 41

a deoxygenated hemoglobin

Question 42

What is methemoglobin?

Answer 42

an oxidized hemoglobin; does not take part in oxygen transport

Question 43

What is carboxyhemoglobin?

Answer 43

a hemoglobin bonded to a carbon monoxide molecule

Question 44

What is Percent Oxyhemoglobin Saturation?

Answer 44

the ratio of oxyhemoglobin / all other hemoglobins

Question 45

What happens during oxygen transport in the lungs?

Answer 45

• bicarbonate ion (HCO3-) spontaneous reacts with a proton to form carbonic acid (H2CO3), which is converted into CO2 and water by carbonic anhydrase
• CO2 floods into the alveoli from the blood plasma
• Flooding of CO2 results in an increase in pH
• O2 reacts to the increase in pH and floods into the red blood cell

Question 46

What happens during oxygen transport in the tissues?

Answer 46

• CO2 floods from the cell and enter the blood plasma
• CO2 reacts with water in the plasma to form carbonic acid (H2CO3) by carbonic anhydrase, which spontaneously breaks into a bicarbonate ion (HCO3-) and a proton
• Flooding of CO2 results in a decrease in pH
• O2 reacts to the decrease in pH and floods into the cell from red blood cell

Question 47

What is a Chloride Shift?

Answer 47

• Occurs during oxygen transport in the tissues
• CO2 and water are originally within the plasma, are are able to enter into the red blood due to active transport of the bicarbonate ion (HCO3-) into the red blood cell, and transport of a chloride ion (Cl-) out of the red blood cell

Question 48

What is a Reverse Chloride Shift?

Answer 48

• Occurs during oxygen transport in the lungs
• Bicarbonate ion (HCO3-) is originally within the red blood cell, and exits into the plasma as a chloride ion (Cl-) is transported into the red blood cell

Question 49

The thoracic cavity is lined with…

Answer 49

pleural membranes known as parietal pleura (lines thoracic wall) and visceral pleura (lines outside of lung)