Respiratory System II

Question 1

Gas composition in the alveoli determines rate of __ and ___ diffusion between alveoli and capillaries

Answer 1

O2, CO2

Question 2

PO2 and PCO2 remain relatively constant during _____ respiration

Answer 2

quiet

Question 3

Alterations in ventilation rate independent of changes in the CV system will alter partial pressures of O2 and CO2, thus altering _____

Answer 3

diffusion

Question 4

As alveolar ventilation increases, alveolar ___ increases and ___ decreases. The opposite occurs as alveolar ventilation decreases

Answer 4

Po2, Pco2

Question 5

Ventilation and alveolar blood flow (perfusion) are ____

Answer 5

matched

Question 6

What is the first step of external respiration?

Answer 6

Bringing O2 from the atmosphere into the alveoli

Question 7

More negative intrapleural pressure due to gravity at apex means alveoli are _____ open and filled even at rest and therefore ?

Answer 7

partially, do not take in much air during ventilation

Question 8

_____ helps to ensure that ventilation and perfusion is matched within larger sections of the lung

Answer 8

Gravity

Question 9

Blood pressure is the highest at the ___ of the lung

Answer 9

base

Question 10

Ventilation is highest at the ___ of the lung

Answer 10

base

Question 11

Perfusion is ______ at the apex, ______ in the middle, and _____ at the base of the lung

Answer 11

absent, sporadic, constant

Question 12

There is very _____ autonomic innervation of the pulmonary arterioles

Answer 12

little

Question 13

Pulmonary arterioles primarily influenced by decreasing ___ levels around them

Answer 13

O2

Question 14

In the pulmonary arterioles, decreases in O2 cause ______.

Low O2→___ channel closure →________

Answer 14

constriction, K+, depolarization

Question 15

Bronchioles are sensitive to ____ levels, increases causes _____ or decreases causes _____

Answer 15

CO2, dilation, constriction

Question 16

If ventilation decreases in a group of alveoli, Pco2 _____ and Po2 _____. Blood flowing past those alveoli does not get ______

Answer 16

increases, decreases, oxygenated

Question 17

Decreases tissue Po2 around under-ventilated alveoli _____ their arterioles, diverting blood to better ventilated alveoli

Answer 17

constricts

Question 18

When Pco2 increases, the bronchioles _____, when Pco2 decreases, the bronchioles ____

Answer 18

dilate, constrict

Question 19

When Po2 decreases, the pulmonary arteries ____

Answer 19

constrict

Question 20

Arteriole smooth muscle sensitive to decreases in O2 and _____

Answer 20

constricts

Question 21

What is hypoxia?

Answer 21

Too little oxygen

Question 22

What is hypoxia often paired with? and what is it?

Answer 22

Hypercapnia, excess CO2

Question 23

Hypercapnia causes ___ level changes in your body which can cause proteins to ____ and ?

Answer 23

pH, unfold, irregular cellular function

Question 24

Order these statements according to “pulmonary gas exchange and transport:”
1. Oxygen is transported in blood dissolved in plasma or bound to hemoglobin inside RBCs
2. Oxygen diffuses into cells
3. CO2 enters alveoli at alveolar-capillary interface
4. CO2 diffuses out of cells
5. Oxygen enters the blood at alveolar-capillary interface
6. CO2 is transported dissolved, bound to hemoglobin, or as HCO3-

Answer 24

5, 1, 2, 4, 6, 3

Question 25

To avoid hypoxia and hypercapnia the body has sensors to monitor the arterial blood and respond to three variables: ?

Answer 25

Oxygen: ATP production
Carbon dioxide: CNS depressant/ acid precursor
pH: denaturing of protein

Question 26

What is the normal systemic blood value for Po2?
Arterial: ?
Venous: ?

Answer 26

Arterial: 95 mmHg (85-100)
Venous: 40 mmHg

Question 27

What is the normal systemic blood value for Pco2?
Arterial: ?
Venous: ?

Answer 27

Arterial: 40 mmHg (35-45)
Venous: 46 mmHg

Question 28

What is the normal systemic blood value for pH?
Arterial: ?
Venous: ?

Answer 28

Arterial: 7.4 (7.38-7.42)
Venous: 7.37

Question 29

What is the definition and typical causes of Hypoxic hypoxia?

Answer 29

Definition: considered widespread (the whole body), low arterial Po2
Causes: high altitude, alveolar hyperventilation, decreased lung diffusion capacity, abnormal ventilation-perfusion ratio

Question 30

What is the definition and typical causes of Anemic hypoxia?

Answer 30

Definition: decreased total amount of O2 bound to hemoglobin
Causes: blood loss, anemia, carbon monoxide poisoning

Question 31

What is the definition and typical causes of Ischemic hypoxia?

Answer 31

Definition: reduced blood flow
Causes: heart failure (whole body hypoxia), shock (peripheral hypoxia), thrombosis (localized hypoxia)

Question 32

What is the definition and typical causes of Histotoxic hypoxia?

Answer 32

Definition: failure of cells to use O2 because cells have been poisoned
Causes: cyanide and other metabolic poisons

Question 33

In the alveoli:
Po2 = ____ mmHg
Pco2 = ____ mmHg

Answer 33

Po2 = 100 mmHg
Pco2 = 40 mmHg

Question 34

In the arterial blood:
Po2 = ____ mmHg
Pco2 = ____ mmHg

Answer 34

Po2 = 100 mmHg
Pco2 = 40 mmHg

Question 35

In the cells:
Po2 ≤ ____ mmHg
Pco2 ≥ ____ mmHg

Answer 35

Po2 ≤ 40 mmHg
Pco2 ≥ 46 mmHg

Question 36

In the venous blood:
Po2 ≤ ____ mmHg
Pco2 ≥ ____ mmHg

Answer 36

Po2 ≤ 40 mmHg
Pco2 ≥ 46 mmHg

Question 37

Alveolar gas exchange is influenced by 3 variables: ?

Answer 37

1. O2 reaching the alveoli
2. Gas diffusion between alveoli and blood
3. Adequate perfusion of alveoli

Question 38

O2 reaching the alveoli is influenced by 2 variables: ?

Answer 38

Composition of inspired air, and alveolar ventilation

Question 39

Alveolar ventilation is influenced by 3 variables: ?

Answer 39

Rate and depth of breathing
Airway resistance
Lung compliance

Question 40

Gas diffusion between alveoli and blood is influenced by 2 variables: ?

Answer 40

Surface area and diffusion distance

Question 41

Diffusion distance is influenced by 2 variables: ?

Answer 41

Barrier thickness and amount of fluid

Question 42

________ _______ is a major cause of opioid overdoses, as it shuts down the respiratory center

Answer 42

Alveolar ventilation

Question 43

If atmospheric PO2 normal and alveolar PO2 still low then it must be a ______ issue (hypoventilation).

Answer 43

ventilation

Question 44

What 4 variables are going to affect the random movement of gas molecules between the alveoli and capillaries?

Answer 44

1. Concentration gradient
2. Surface area
3. Barrier permeability/solubility of gas
4. Diffusion distance

Question 45

Technically when we are looking at the concentration gradient of gases, we are referring to _____ ____ gradients

Answer 45

partial pressure

Question 46

Diffusion rate ∝ ______ ____ × _____ _____ × ______ _____

Answer 46

surface area, concentration gradient, barrier permeability

Question 47

Diffusion rate ∝ 1 / _______^2

Answer 47

distance

Question 48

Under normal conditions surface area, diffusion distance and barrier permeability are ______

Answer 48

constant

Question 49

In a healthy individual concentration gradient is variable and the main determinant of _____

Answer 49

diffusion

Question 50

______: destruction of alveoli means less surface area for gas exchange

Answer 50

Emphysema

Question 51

______ _____ _____: thickened alveolar membrane slows gas exchange. Loss of lung compliance may decrease alveolar ventilation. Aka decreased barrier permeability

Answer 51

Fibrotic lung disease

Question 52

_______ _____: fluid in interstitial space increases diffusion distance. Arterial Pco2 may be normal due to higher CO2 solubility in water

Answer 52

Pulmonary edema

Question 53

______: increased airway resistance decreases alveolar ventilation, aka decreased concentration gradient

Answer 53

Asthma

Question 54

The movement of gas molecules from air to liquid is directly proportional to three factors: ?

Answer 54

The pressure gradient of the gas
Solubility of gas in liquid
Temperature-relatively constant

Question 55

CO2 is very soluble, _____ diffusion distance doesn’t affect PCO2

Answer 55

increased

Question 56

Why do we use partial pressure gradient and not concentration gradient when referring to gases?

Answer 56

Because oxygen is not readily soluble in liquid

Question 57

Usually when you have hypoxia you have hypercapnia, but what pathology is an exception?

Answer 57

pulmonary edema

Question 58

Oxygen transport in circulation and oxygen consumption by tissues illustrate the general principles of ____ ___ (movement of X per minute) and ____ ______ (any substance in the body must remain constant).

Answer 58

mass flow, mass balance

Question 59

How to calculate Mass Flow?

Answer 59

O2 transport = CO × O2 concentration

Question 60

How to calculate Mass Balance?

Answer 60

Qo2 = Arterial O2 transport - Venous O2 transport

Question 61

What is the Fick Equation?

Answer 61

Qo2 = CO × (Arterial [O2] - Venous [O2])

Question 62

What is Qo2?

Answer 62

Cellular oxygen consumption, or O2 consumption by systemic tissues

Question 63

Generally, we only use about ___ of the oxygen brought to us

Answer 63

25%

Question 64

More than __% of the oxygen in blood is bound to hemoglobin in RBCs, and less than __% is dissolved in plasma

Answer 64

98, 2

Question 65

Within each globin protein there is a ____ group which is has perforin ring with an iron atom in the center that oxygen can reversibly bind to

Answer 65

heme

Question 66

Each heme group can bind __ globulins

Answer 66

4

Question 67

Oxygen binding obeys the law of ___ ____

Answer 67

mass action

Question 68

As the concentration of free O2 increases, more oxygen binds to Hb producing ____. Free O2 will be taken up until the plasma and Hb reach _____ for that given partial pressure of oxygen that it is exposed to

Answer 68

HbO2, equilibrium

Question 69

Transfer of O2 from alveoli air, to plasma, to red blood cells, onto hemoglobin occurs very ____

Answer 69

rapidly

Question 70

Blood travels to the tissues that have a low ____, this draws O2 out of the plasma, which disrupts the equilibrium and causes Hb to release its O2 into the ____

Answer 70

PO2, plasma

Question 71

_______ ensure that equilibrium is not reached right away because it would be and would cause inadequate amounts of oxygen

Answer 71

Hemoglobin

Question 72

At rest we consume about ___ml O2/min

Answer 72

250

Question 73

Plasma O2 is determined by alveolar PO2 which depends on 3 variables: ?

Answer 73

Composition of inspired air
Alveolar ventilation rate
Efficiency of gas exchange

Question 74

The amount of oxygen bound to hemoglobin depends on 2 variables: ?

Answer 74

Plasma O2 and Amount of hemoglobin

Question 75

The amount of oxygen bound to hemoglobin depends on plasma O2, which determines ?

Answer 75

% saturation of hemoglobin

Question 76

The amount of oxygen bound to hemoglobin depends on amount of hemoglobin, which determines ?

Answer 76

Total number of Hemoglobin binding sites

Question 77

Total number of Hemoglobin binding sites is calculated from?

Answer 77

Hemoglobin content per RBC × Number of RBCs

Question 78

Individuals whom have lost a lot of blood need transfusion to replace _______

Answer 78

hemoglobin

Question 79

The amount of O2 bound to hemoglobin at any given PO2 is expressed as the ?

Answer 79

% saturation of hemoglobin

Question 80

The oxyhemoglobin saturation curve is determined in ____ the laboratory

Answer 80

vitro

Question 81

In the Oxygen-Hemoglobin binding curve, a resting cell at 40 mmHg has a hemoglobin saturation % of ___?

Answer 81

~75%

Question 82

In the Oxygen-Hemoglobin binding curve, alveoli at 100 mmHg have a hemoglobin saturation % of ___?

Answer 82

~98%

Question 83

____ cells can have a lower PO2

Answer 83

Active

Question 84

What are the 4 physical factors altering hemoglobin’s affinity for O2?

Answer 84

1. pH
2. Pco2
3. Temperature
4. 2,3-BPG

Question 85

What is the Bohr Effect?

Answer 85

Shift in hemoglobin saturation as a result in pH or CO2 change

Question 86

What would cause a decreasing shift in pH?

Answer 86

Maximal exertion produces excess CO2 and pushes a cell into anaerobic metabolism. Results in increased H+ and lactic acid in the cytoplasm and extracellular space

Question 87

Describe the effect of pH on hemoglobin’s affinity for O2

Answer 87

The lower the pH, the more H+, the higher the carbon dioxide level and the LESS affinity Hemoglobin has for oxygen.

Question 88

Increased aerobic metabolism results in increased CO2 production, this increases the PCO2 in the blood which: ?

Answer 88

1. readily binds Hb altering conformation
2. CO2 is readily converted to acid

Question 89

Describe the effect of Pco2 on hemoglobin’s affinity for O2

Answer 89

Carbon dioxide increases [H+] and lowers tissue pH. As a consequence, hemoglobin’s affinity for oxygen decreases

Question 90

Describe the effect of temperature on hemoglobin’s affinity for O2

Answer 90

Increased heat causes a conformational change in Hb leading to decreased affinity and more O2 to be dropped at the very active muscles

Question 91

? : a by-product of glycolysis in RBC’s

Answer 91

2,3-BPG

Question 92

Describe the effect of 2,3-BPG on hemoglobin’s affinity for O2

Answer 92

The presence of 2,3-BPG decreases hemoglobin’s affinity for oxygen

Question 93

Chronic hypoxia _____ 2,3 BPG production; as well as ascent to higher altitude (low atmospheric PO2) and anemia can _____ 2,3 BPG production

Answer 93

increases, increase

Question 94

RBC’s release ___ during hypoxia

Answer 94

ATP

Question 95

Fetal hemoglobin has a _____ affinity for oxygen compared to adult (maternal) hemoglobin

Answer 95

higher

Question 96

______ hemoglobin (2 α (alpha), 2 γ (gamma))
_____ hemoglobin (2 α (alpha), 2 β (beta))

Answer 96

Fetal, Adult (maternal)

Question 97

The total oxygen content of arterial blood depends on the amount of oxygen ? and bound to ______

Answer 97

dissolved in plasma, hemoglobin

Question 98

Although very soluble, cells produce far ___ CO2 than plasma is capable of carrying

Answer 98

more

Question 99

Only about __% of CO2 carried by venous blood is dissolved in plasma

Answer 99

7

Question 100

Remaining __% of CO2 diffuses into red blood cells

Answer 100

93

Question 101

Of the 93% of CO2 diffused into RBCs, __% binds to hemoglobin HbCO2, and __% is converted to HCO3-

Answer 101

23, 70

Question 102

CO2 is transported 3 ways: ?

Answer 102

1. Dissolved in plasma (7%)
2. Bound to hemoglobin (23%)
3. Converted to bicarbonate, HCO3- (70%)

Question 103

HCO3- moves out of the RBC in exchange for ?, which is known as the _____ ____

Answer 103

Cl-, chloride shift

Question 104

Order these statements according to “CO2 transport:”
1. Nearly 1/4 of the CO2 binds to Hb
2. By the law of mass action, CO2 unbinds from Hb and diffuses out of the RBC
3. HCO3- enters the plasma in exchange for Cl-
4. CO2 diffuses out of cells into systemic capillaries
5. The carbonic acid reaction reverses, pulling HCO3- back into the RBC and converting it back to CO2
6. At the lungs, dissolved CO2 diffuses out of the plasma
7. Only 7% of the CO2 remains dissolved in plasma
8. 70% of the CO2 load is converted to HCO3- and H+. Hemoglobin buffers H+

Answer 104

4, 7, 1, 8, 3, 6, 2, 5

Question 105

The conversion of CO2 to HCO3- serves two purposes: ?

Answer 105

Provides an additional means of CO2 transport from cells to the lungs
HCO3- is available to act as a buffer for metabolic acids, stabilizing body’s pH

Question 106

To ensure equilibrium is not reached two mechanisms exist: ?

Answer 106

one to remove HCO3- from RBC and another mop up excess H+

Question 107

Hemoglobin acts as a buffer and binds excess H+ ions:
-It prevents large changes in the ____ __
-If blood CO2 is elevated too high Hb cannot soak up all the H+ and ______ ___ can result

Answer 107

body’s pH, respiratory acidosis

Question 108

When O2 leaves Hb at the tissues, CO2 binds with free hemoglobin at exposed ______ _____ (-NH2), forming carbaminohemoglobin

Answer 108

amino groups

Question 109

Breathing is a rhythmic process that often occurs ______ similar to the beating of the heart

Answer 109

subconsciously

Question 110

Skeletal muscles that control ventilation cannot contract ________

Answer 110

spontaneously

Question 111

There is believed to be spontaneously firing networks of neurons in the brainstem. This network is influenced by _____ and ______, as well as by ?, with the neural control of ventilation considered to be a “_______”

Answer 111

sensory, chemoreceptors, higher brain centers, Blackbox

Question 112

What is a “Blackbox?”

Answer 112

An area we do not fully understand

Question 113

There are 4 pieces to our current model for control of respiration:
1. Respiratory neurons in the ____ control inspiratory and expiratory muscles
2. Neurons in the ____ integrate sensory information and interact with ______ neurons to influence ventilation
3. Rhythmic pattern of breathing arises from a neural network with spontaneously discharging neurons – “______”
4. Ventilation is continuously modulated by various _____ and ________-linked reflexes and by ?.

Answer 113

1. medulla
2. pons, medullary
3. pacemaker
4. chemo, mechanoreceptor, higher brain centers

Question 114

Various chemoreceptors in controlling respiration will continuously monitor the _____; mechanoreceptors will monitor the level of ? of the walls of the lungs; and irritant receptors that will monitor the ______

Answer 114

blood, inflation/filling of the lungs/stretching, airways

Question 115

3 main groups of neurons that are known to be involved in ventilation: ?

Answer 115

1. Dorsal Respiratory Group in the medulla
2. Ventral Respiratory Group in the medulla
3. Pontine Respiratory Group in the pons

Question 116

Nucleus tractus solitaris (NTS) receives input from the _____ mechano and chemoreceptors

Answer 116

peripheral

Question 117

NTS of the medulla contains the ? that mainly control inspiratory muscles via phrenic nerve and intercostal nerve

Answer 117

dorsal respiratory group of neurons (DRG)

Question 118

_____ Respiratory Group: controlling inspiration mainly through muscles, quiet and active, receives sensory input

Answer 118

Dorsal

Question 119

_______ Respiratory Group: coordinate a smooth respiratory rhythm, not “absolutely” necessary for respiration if you were to cut the brainstem between the PRG and the medulla, ventilation would still occur, but it would be rough and not regulated (gasping)

Answer 119

Pontine

Question 120

______ respiratory group (PRG): receives sensory info from DRG; provides tonic input to DRG to help the medullary networks coordinate a smooth respiratory rhythm; coordinates but does not create the rhythm

Answer 120

Pontine

Question 121

______ Respiratory Group: contains the pre-botzinger complex (believed to be the location of the pacemaker neurons that initiate respiration), also controls muscles that are included in the accessory active inspiration and expiration, as well as output that keeps the airways open (usually constant, but slowing down causes the disorders)

Answer 121

Ventral

Question 122

During inspiration, the activity of inspiratory neurons increases steadily, apparently through a _____ ______ mechanism. At the end of inspiration, the activity shuts off abruptly (it could be that the _____ can shut off the positive feedback loop) and expiration takes place through recoil of elastic lung tissue. Believed to be initiated by a _______: the positive feedback loop recruits more neurons “______” recruiting more outputs to inspiratory muscles

Answer 122

positive feedback, pons, pacemaker, ramping

Question 123

CO2, O2 and pH influence _______

Answer 123

ventilation

Question 124

Peripheral chemoreceptors: ____ and _____ ______ sense changes in arterial PO2, PCO2 and pH and adjust ventilation accordingly

Answer 124

aortic, carotid bodies

Question 125

Where is the location of the aortic and carotid bodies?

Answer 125

Located on the aortic arch, as well as the carotid artery

Question 126

? : the ones responsible for sensing the changes, neuronal like cells, excitable cells and contain neurotransmitters. Usually, they synapse on a sensory neuron that goes back to the respiratory control center.

Answer 126

Type I (glomus) cell

Question 127

______ ______: allow glomus cells to be exposed to systemic arteries. Capillaries that allow glomus cells to sense these variables in the blood

Answer 127

Sinusoidal capillaries

Question 128

Glomus cells function through inhibition of ___ channels

Answer 128

K+

Question 129

Glomus cells have an ___ sensitive potassium channel, where if levels drop (takes a significant drop to trigger) within that systemic arterial blood that’s being fed through the carotid bodies then the cells themselves would be exposed to a low ____ that would cause ______ of a potassium channel within the glomus cell which causes ______ of potassium which causes the cell to ______, which would open voltage-gated _____ channels. This leads to the exocytosis of ________ (there is a variety)

Answer 129

O2, Po2, closure, retention, depolarize, calcium, neurotransmitters

Question 130

It takes a ____ drop in arterial PO2 to trigger peripheral chemoreceptors in glomus cells

Answer 130

large

Question 131

Glomus cells respond to PO2 in ______ changes, not the overall carrying capacity

Answer 131

plasma

Question 132

Glomus cells can also respond to increases in ___/___, and decreases in ___

Answer 132

H+, CO2, pH

Question 133

_____ _______: are located in the medulla, provide continuous input to respiratory control center and respond mainly to changes in Pco2

Answer 133

Central chemoreceptors

Question 134

_____ _______: tonically active neurons that are always firing action potentials at some level, they will increase their firing rate in response to increased CO2 and will decrease their firing rate in response to CO2

Answer 134

Central chemoreceptors

Question 135

In central chemoreceptors, the neurons themselves that are in the ______ do not respond directly to CO2 they respond to changes in pH in the ______ ____ caused by CO2

Answer 135

medulla, cerebrospinal fluid

Question 136

Neurons in central chemoreceptors contain ? that become activated and transmit AP’s to the respiratory control center

Answer 136

H+ sensitive channels (ASIC),

Question 137

In central chemoreceptors:
______ CO2 = increased H+ = increased activity
______ CO2 = decreased H+ = decreased activity

Answer 137

Increased, Decreased

Question 138

Order these statements according to “decreased arterial O2:”
1. Increased firing of peripheral chemoreceptors
2. Decreased alveolar Po2
3. Increased ventilation
4. Decreased arterial Po2
5. Decreased inspired Po2
6. Increased contractions in respiratory muscles
7. Return of alveolar and arterial Po2 toward normal

Answer 138

5, 2, 4, 1, 6, 3, 7

Question 139

Order these statements according to “increased arterial H+:”
1. Decreased alveolar Pco2
2. Increased firing of peripheral chemoreceptors
3. Decreased arterial Pco2
4. Increased ventilation
5. Increased arterial [H+]
6. Return of arterial [H+] toward normal
7. Increased contractions in respiratory muscles
8. Increased production of non-CO2 acid

Answer 139

8, 5, 2, 7, 4, 1, 3, 6

Question 140

____ changes in arterial Pco2 cause very _____ changes in ventilation

Answer 140

Small, drastic

Question 141

Arterial CO2 is mediated by both central chemoreceptors (___%, primary) and peripheral chemoreceptors (___%)

Answer 141

70, 30

Question 142

Very high Pco2 will actually _____ ventilation

Answer 142

depress

Question 143

Protective reflexes guard the ______

Answer 143

lungs

Question 144

Lungs contain ______ receptors that respond to inhaled particles or noxious gases

Answer 144

irritant

Question 145

Irritant receptors send input into the ____, parasympathetic outputs then respond by causing ___________ which leads to rapid shallow breathing and turbulent airflow to deposit irritant in mucosa

Answer 145

CNS, bronchoconstriction

Question 146

Protective reflexes can initiate _____ or _______

Answer 146

coughing, sneezing

Question 147

______ receptors in the lung prevent over inflation of the lungs

Answer 147

Stretch

Question 148

What is the Hering-Breuer inflation reflex?

Answer 148

a reflex triggered to prevent the over-inflation of the lung

Question 149

How can the Limbic system and Hypothalamus influence breathing?

Answer 149

If you’re embarrassed/excited you may start breathing heavier or shallower

Question 150

? : can control breathing patterns where we can selectively control ventilation to a certain degree (we can actively hold our breath (until chemoreceptors take over and override the higher brain centers) and we can breathe out for set amounts of time indicating higher control)

Answer 150

Higher brain centers

Question 151

We have a feedforward mechanism (anticipation response) that kicks in at the onset of ______

Answer 151

exercise