Respiratory Physiology

Question 1

What are the 4 functions of the respiratory system?

Answer 1

Gas exchange
Acid base balance
Protection from infection
Communication via speech

Question 2

What gas is added from the air to the blood?

Answer 2

O2

Question 3

What gas is removed from the blood into the air?

Answer 3

CO2

Question 4

What is the respiratory system responsible for?

Answer 4

Acquiring oxygen

Removing carbon dioxide

Question 5

What system does the respiratory system need?

Answer 5

The cardiovascular system

Question 6

Where does the cardiovascular system transport oxygen?

Answer 6

To tissues

Question 7

Where does the cardiovascular system transport carbon dioxide?

Answer 7

Away from tissues

Question 8

What does cellular respiration need?

Answer 8

Oxygen

Question 9

What is the waste product of cellular respiration?

Answer 9

Carbon dioxide

Question 10

Where does the pulmonary artery travel?

Answer 10

Away from the heart

Question 11

Where does the pulmonary vein travel?

Answer 11

Towards the heart

Question 12

What is the function of pulmonary circulation?

Answer 12

Deliver CO2 to lungs and pick up O2

Question 13

What is the function of systemic circulation?

Answer 13

Deliver O2 to cells

Remove CO2 from cells

Question 14

In the steady state what is the relationship between the gases exchanged in the lungs and tissue?

Answer 14

The net volume of oxygen and carbon dioxide exchanged in the lungs per unit of time is equal to the net volume exchanged in the tissues

Question 15

What does gas exchange being equal in the lungs and tissues prevent?

Answer 15

The build up of gas in the circulation

Question 16

What is the main organ of the respiratory system?

Answer 16

Lungs

Question 17

What is a common name for the larynx?

Answer 17

Voice box

Question 18

Where does air enter the body?

Answer 18

Through the nose

Question 19

How many trachea are there?

Answer 19

1

Question 20

How many bronchus are there?

Answer 20

2

Question 21

What is the epiglottis?

Answer 21

Small flap of tissue that folds over the trachea preventing food from entering the air pipe when you swallow

Question 22

What does the upper respiratory system compose of?

Answer 22

Mouth
Nasal cavity
Pharynx
Larynx (voice box)

Question 23

What does the lower respiratory system compose of?

Answer 23

Trachea
Bronchi
Lungs

Question 24

How is the patency of airways maintained?

Answer 24

By C shaped rings of cartilage

Question 25

Where can gas exchange occur?

Answer 25

Alveoli

Systemic Capillaries

Question 26

What organ lying inferior to the right lung causes is to be shorter and broader?

Answer 26

The liver

Question 27

What are the 2 fissures of the right lung?

Answer 27

Horizontal fissure

Oblique fissure

Question 28

How many bronchi does the trachea branch into?

Answer 28

2

Question 29

How many more times does each bronchus branch?

Answer 29

22

Question 30

Where does the bronchus terminate?

Answer 30

At the alveoli

Question 31

Why are the alveoli covered in capillaries?

Answer 31

To minimise the distance of exchange

Question 32

What are the alveoli covered in?

Answer 32

Elastic fibres

Capillaries

Question 33

Describe the walls of the alveoli?

Answer 33

Thin walls

Question 34

Why does gas not exchange at the upper airways?

Answer 34

Because the walls are too thick

Question 35

What is the air in the upper airways known as and why?

Answer 35

Anatomical dead space

Because it cannot participate in gas exchange

Question 36

What features of the alveoli make it so effective for gas exchange?

Answer 36

Thin walls

Large surface area

Question 37

What is airway diameter altered by?

Answer 37

Activity of bronchial smooth muscle

Question 38

What is the function of mucous in the respiratory tract?

Answer 38

To moisten the air
To trap large and invasive particles
To provide a large surface area for cilia to work on

Question 39

What cells produce mucous in the respiratory tract?

Answer 39

Goblet cells

Question 40

What type of epithelium lines the respiratory tract?

Answer 40

Psuedo-stratified, ciliated, columnar

Question 41

What hair like structures line the respiratory tract?

Answer 41

Cilia

Question 42

In terms of pressure how do gases move?

Answer 42

From an area of high pressure to an area of low pressure

Question 43

What does Boyle’s Law state?

Answer 43

The pressure exerted by a gas is inversely proportional to its volume

Question 44

What does Daltons Law state?

Answer 44

The total pressure of a gas mixture is the sum of the pressure of the individual gases

Question 45

What does Charles Law State?

Answer 45

The volume occupied by a gas is directly related to the absolute temperature

Question 46

What is the lower respiratory system bound by?

Answer 46

Diaphragm
Spine
Ribs

Question 47

How many lobes is the right lung split into?

Answer 47

3

Question 48

How many lobes is the left lung split into?

Answer 48

2

Question 49

What volume of pleural liquid is there in the pleural cavity?

Answer 49

3ml

Question 50

What is function of pleural liquid?

Answer 50

To act as a lubricant

Question 51

How many pleural membranes is each lung enclosed by?

Answer 51

2

Question 52

What are the 2 pleural membranes?

Answer 52

Parietal pleura

Visceral pleura

Question 53

What is inflammation of the pleural membranes known as?

Answer 53

Pleurisy

Question 54

What is the purpose of the pleural membranes?

Answer 54

To anchor the lungs to the rib cage

Question 55

What does the parietal pleural membrane coat?

Answer 55

The inner surface of the lungs

Question 56

What does the visceral pleural membrane coat?

Answer 56

The outer surface of the lungs

Question 57

Explain pneumothorax

Answer 57

When there is a loss of relationship of the pleural membranes
The chest wall wants to expand
The lung wants to shrink
Leads to the collapse of the lung

Question 58

What muscles are used for inspiration?

Answer 58

Diaphragm
External intercostal muscles
Scalenes
Sternocleidomastoids

Question 59

What muscles are used for expiration?

Answer 59

Internal intercostal

Abdominals

Question 60

What is the very basic concept of breathing?

Answer 60

There is an increase of volume in the thoracic cavity
This decreases the pressure
Drawing air from higher pressure outside in

Question 61

Is inspiration passive?

Answer 61

No

Question 62

Is expiration passive?

Answer 62

Yes - AT REST

Question 63

When the diaphragm contracts what happens?

Answer 63

It moves down

Increasing thoracic volume

Question 64

What is the intra-thoracic (alveolar) pressure?

Answer 64

The pressure inside the thoracic cavity

Question 65

Is the intra thoracic pressure + or -?

Answer 65

Can be either compared to the atmospheric pressure

Question 66

What is the intra-pleural Pressure?

Answer 66

Pressure inside pleural cavity

Question 67

Should the intra-pleural pressure be + or -?

Answer 67

Always negative (in healthy lung at least)

Question 68

What is the transpulmonary pressure?

Answer 68

Difference between the alveolar pressure and intra-pleural pressure

Question 69

What is the major determinant of airway resistance?

Answer 69

The radii of the airways

Question 70

Are the lungs elastic?

Answer 70

Yes they are elastic structures

Question 71

Explain expiration

Answer 71

The inspiratory muscles cease to contract
Allowing elastic recoil of chest wall
Lungs return to normal size
Smaller volume - greater pressure than atmospheric
Driving air out of the lungs

Question 72

What do type I alveolar cells do?

Answer 72

Permit gas exchange

Question 73

What do type II alveolar cells do?

Answer 73

Secrete surfactant fluid

Question 74

What volume of gas does the average person breathe in and out in a breath?

Answer 74

500ml

Question 75

What is tidal volume?

Answer 75

The normal inspiration and expiration of gas

Question 76

What is the average volume of tidal volume?

Answer 76

500ml

Question 77

What volume of air is the anatomical dead space?

Answer 77

Around 150ml

Question 78

What volume is the inspiratory reserve volume?

Answer 78

3L

Question 79

What volume is the expiratory reserve volume?

Answer 79

1.1L

Question 80

Why is the residual volume in the lungs so crucial?

Answer 80

Prevents the alveoli from collapsing

Question 81

What is the vital capacity?

Answer 81

The maximum expiration after the maximum inspiration

Question 82

What is pulmonary ventilation?

Answer 82

Total air movement into-out of the lungs

Question 83

What is alveolar ventilation?

Answer 83

The fresh air getting to alveoli and therefore available for gas exchange

Question 84

Is the anatomical dead space air available for gas exchange?

Answer 84

No

Question 85

Between what volumes do the lungs normally operate?

Answer 85

2.3L and 2.8L

Question 86

How do you work out the air that reaches the alveoli?

Answer 86

Vol of air breathed in - 150ml of the dead space air

Question 87

What affects the amount of air that reaches the alveoli? Rate or depth of breathing?

Answer 87

Depth

Question 88

What do type I alveolar cells permit?

Answer 88

Gas exchange

Question 89

What do type II alveolar cells secrete?

Answer 89

Surfactant fluid

Question 90

What does surfactant fluid reduce?

Answer 90

Surface tension on alveolar surface

Question 91

What does the compliance of the lung represent?

Answer 91

The stretchability of the lung

How easy it is for air to get into the lungs

Question 92

Is low compliance good or bad?

Answer 92

Bad

Question 93

What happens to the compliance of our lungs with age?

Answer 93

Become less compliant

Question 94

Describe high compliance?

Answer 94

Large increase in lung volume for small decrease in ip pressure

Question 95

Describe low compliance?

Answer 95

Small increase in lung volume for large decrease in ip pressure

Question 96

What is the definition of compliance?

Answer 96

The change in volume relative to the change in pressure

Question 97

During inspiration what needs to be overcome?

Answer 97

Surface tension

Question 98

What does a shallower curve represent?

Answer 98

Lower compliance

Question 99

What does a steeper curve represent?

Answer 99

Higher compliance

Question 100

What is emphysema?

Answer 100

Loss of elastic tissue meaning expiration requires effort

Question 101

What is fibrosis?

Answer 101

Inert fibrous tissue means effort of inspiration increases

As the stretchability of the lung is affected

Question 102

What is the pleural membrane coating the outer surface of the lungs?

Answer 102

Visceral membrane

Question 103

What is the pleural membrane coating the inner surface of the ribs?

Answer 103

Parietal membrane

Question 104

Is inspiration passive?

Answer 104

No

Inspiration requires energy

Question 105

Upon inspiration does the diaphragm ascend or descend?

Answer 105

Descend

Question 106

Why does the diaphragm descend upon inspiration?

Answer 106

To increase thoracic volume

Question 107

What happens with asthma?

Answer 107

There is an over-reactive constriction of bronchial smooth muscle.
Increasing resistance making expiration of air difficult

Question 108

Why is intrapleural pressure always negative?

Answer 108

So it acts like a suction to keep the the lungs inflated

Question 109

What is the bulk flow of air between the atmosphere and alveoli proportional to?

Answer 109

The difference between the atmospheric and alveolar pressures

Question 110

What is the bulk flow of air between the atmosphere and alveoli inversely proportional to?

Answer 110

Airway resistance

Question 111

Describe the end of a unforced expiration

Answer 111

The dimensions of the lung and thoracic cage are stable as the result of opposing elastic forces
The lungs are stretched and attempt to recoil
The chest wall is compressed and attempting to move outwards

Question 112

What is the major determinant of airway resistance?

Answer 112

The radii of the airways

Question 113

What does airway resistance determine?

Answer 113

How much air flows into the lungs at any given pressure

Question 114

Does the increase in thoracic volume make the intrapleural pressure more negative or positive?

Answer 114

Negative

Question 115

What is vital capacity?

Answer 115

Tidal volume
+ ERV
+ IRV

Question 116

What is TLC?

Answer 116

Total lung capacity

Vital capacity + Residual volume

Question 117

At birth what volume do babies lack?

Answer 117

Residual volume

Question 118

What is hyperventilation?

Answer 118

When more air than normal reaches the alveoli

I.e when taking deep breaths

Question 119

What is hypoventilation?

Answer 119

When less air than normal reaches the alveoli

I.e when taking shallow breaths

Question 120

How do you measure the air to alveoli?

Answer 120

The tidal volume minus 150ml

Question 121

What unit is pressure commonly expressed in?

Answer 121

mmHg

Question 122

During hyper ventilation what does PO2 rise to?

Answer 122

120mmHg

Question 123

During hyper ventilation what does PCO2 fall to?

Answer 123

20 mmHg

Question 124

During hypo ventilation what does PO2 fall to?

Answer 124

30 mmHg

Question 125

During hypo ventilation what does PCO2 rise to?

Answer 125

100mmHg

Question 126

Why is the residual volume impossible to squeeze out ?

Answer 126

It stops the alveoli from collapsing

Question 127

What is ventilation?

Answer 127

The movement of air in and out of the lungs (breathing)

Question 128

What percentage of air in the alveoli is fresh?

Answer 128

70%

Question 129

What cells produce surfactant?

Answer 129

Type II alveolar cells

Question 130

What is the role of pulmonary surfactant?

Answer 130

To act like a detergent
Reducing the surface tension on the alveolar surface
Reducing the tendency for the alveoli to collapse

Question 131

What molecular interactions of the alveoli does pulmonary surfactant interrupt?

Answer 131

Acts like a detergent

Interfering with the water molecule interactions on the alveoli

Question 132

Why does pulmonary surfactant increase the compliance of the lungs?

Answer 132

As it reduces the lungs tendency to recoil

You do not have to apply extra pressure to stop the alveoli from collapsing

Question 133

When does surfactant pulmonary production start?

Answer 133

25 weeks

Question 134

Normally what is the expectation of healthy lungs regarding compliance?

Answer 134

Expected to be highly compliant

Question 135

Is compliance related to elasticity or stretchability?

Answer 135

Stretchability

Question 136

Describe high compliance of the lungs?

Answer 136

A large increase in lung volume for small decrease in ip pressure

Question 137

Describe low compliance of the lungs?

Answer 137

A small increase in lung volume for large decrease in ip pressure

Question 138

Why is low compliance bad?

Answer 138

Requires alot of effort for a small increase in lung volume

Question 139

Does compliance increase or decrease with age?

Answer 139

Decrease

Question 140

Where is alveolar ventilation greatest?

Answer 140

At the base of the lung

Question 141

Where is alveolar ventilation the least?

Answer 141

At the apex of the lung

Question 142

Why is alveolar ventilation greatest at the base of the lung?

Answer 142

Because the weight of the lung is pushing down on the base

Meaning the base of the lung has more potential to expand

Question 143

What does a shallower curve in pressure volume graph indicate?

Answer 143

Lower compliance

Question 144

What does a steeper curve on pressure volume graph indicate?

Answer 144

Higher compliance

Question 145

What does low compliance indicate?

Answer 145

A stiff lung

Question 146

What does high compliance indicated?

Answer 146

A pliable lung

Question 147

What is obstructive lung disease?

Answer 147

When there is obstruction to the flow of air especially on expiration

Question 148

Does obstructive lung disease particularly affect inspiration or expiration?

Answer 148

Expiration

Question 149

What does restrictive lung disease restrict?

Answer 149

Lung expansion

Compliance

Question 150

What happens to alveolar ventilation from the base to the apex of the lung?

Answer 150

It declines

Question 151

What happens to compliance from the base to the apex of the lung?

Answer 151

It declines

Question 152

Give 2 examples of obstructive lung disorders

Answer 152

Asthma
COPD
Chronic bronchitis
Emphysema

Question 153

What is lost in emphysema?

Answer 153

Lung elasticity

Question 154

What is chronic bronchitis?

Answer 154

Inflammation of the bronchi

Question 155

What is infant respiratory distress syndrome?

Answer 155

When there is insufficient surfactant production in the babies lungs
Surfactant production normally occurs at around 23 weeks

Question 156

What is oedema of the lungs?

Answer 156

Build up of fluid around the alveoli

Question 157

Is oedema restrictive or obstructive?

Answer 157

Restrictive

Question 158

What test is used to measure lung function?

Answer 158

Spirometry

Question 159

Is voluntary or involuntary lung action measured with a spirometer?

Answer 159

Voluntary

Question 160

What can be measured using spirometry?

Answer 160

Tidal volume
Inspiratory RV
Expiratory RV
Vital Capacity

Question 161

What is FEV1?

Answer 161

The forced expiratory volume in 1 second

Question 162

What is FVC?

Answer 162

The forced vital capacity

Question 163

In healthy individuals what should the forced expiratory volume be?

Answer 163

80% of the vital capacity

Question 164

Why does obstructive lung disease show a decrease in Vital capacity and FEV?

Answer 164

Because obstruction means they cannot blow as much air out in 1 second

Question 165

Why does restrictive lung disease show an increase in %?

Answer 165

Because the problem was getting the air in

Meaning they can get the air out quicker as they technically do not have enough in their lungs to begin with

Question 166

What are the 2 different blood supplies to the lungs?

Answer 166

Bronchial circulation

Pulmonary circulation

Question 167

What is the bronchial circulation supplied by?

Answer 167

The bronchial arteries

It is the nutritive one

Question 168

Explain bronchial circulation

Answer 168

Arises from systemic circulation

Supplies oxygenated blood to the airways smooth muscle, nerves and lung tissue

Question 169

What is the pulmonary circulation used for?

Answer 169

Gas exchange

Question 170

Is the pulmonary circulation a high or low pressure system?

Answer 170

Low

Question 171

Is the pulmonary circulation a high or low flow system?

Answer 171

High

Question 172

Where do the left and right pulmonary arteries arise from?

Answer 172

Right ventricle

Question 173

Where does the pulmonary circulation return oxygenated blood to via what?

Answer 173

To the left atrium

Via the pulmonary vein

Question 174

How does gas exchange occurs at the alveoli and tissues?

Answer 174

The gas moves from a high partial pressure to a low partial pressure

Question 175

What is the partial pressure of O2 and CO2 in the pulmonary vein?

Answer 175

100mmHg for O2

40mmHg for CO2

Question 176

What is the partial pressure of O2 at the tissues?

Answer 176

40mmHg

Question 177

Explain O2 partial pressure at the tissues?

Answer 177

High O2 pressure in blood (100mmHg)
Low partial O2 pressure in tissues (40mmHg)
Moves down pressure gradient

Question 178

Explain CO2 partial pressure at the tissues?

Answer 178

Low CO2 partial pressure in blood (40mmHG)
High CO2 partial pressure in tissues (46mmHg)
CO2 moves into blood down pressure gradient

Question 179

What does A stand for?

Answer 179

Alveolar pressure

Question 180

What does a stand for?

Answer 180

Arterial pressure

Question 181

What does v stand for?

Answer 181

Mixed venous blood

Question 182

What does PaO2 stand for?

Answer 182

Partial pressure of oxygen in arterial blood

Question 183

What does PACO2 stand for?

Answer 183

Partial pressure on carbon dioxide in alveolar air

Question 184

What rules does the diffusion of gas between the alveoli and blood follow?

Answer 184

The rules of simple diffusion

Moving down its partial pressure gradient

Question 185

What is the rate of gas diffusion directly proportional to?

Answer 185

Partial pressure gradient
Gas solubility
Available surface area

Question 186

What is the rate of gas diffusion inversely proportional to?

Answer 186

The thickness of the membrane

Question 187

Why is the rate of O2 and CO2 diffusion similar even though O2 has a much steeper conc. gradient?

Answer 187

Because CO2 is much more soluble than O2 therefore diffusing faster

Question 188

How thick is the alveolar membrane?

Answer 188

Thin as possible

Only one cell thick

Question 189

Where are the alveoli directly located by and why?

Answer 189

Blood vessels to decrease the distance needed for gas exchange

Question 190

Why does the alveolar surface have a large surface area?

Answer 190

To allow maximum rate of diffusion of gases

Question 191

How does emphysema affect gas exchange?

Answer 191

Destructs alveoli

Less surface area for gas exchange

Question 192

How does fibrotic lung disease affect gas exchange?

Answer 192

Thickened alveolar membrane slows gas exchange

Question 193

How does pulmonary oedema affect gas exchange?

Answer 193

Fluid build up increases diffusion distance

Question 194

What causes fibrosis?

Answer 194

Thickened walls of alveoli due to fibrosis tissue

Question 195

What is shunt?

Answer 195

A term used to describe the passage of blood though areas of the lung that are poorly ventilated

Question 196

Is inspiration controlled by smooth or skeletal muscle?

Answer 196

Skeletal

Question 197

What nerves innervate the diaphragm?

Answer 197

Phrenic nerves

Question 198

What controls the innervation of the muscles of breathing?

Answer 198

Pons, medulla

Question 199

From which vertebral levels do the phrenic nerves originate?

Answer 199

C3,4,5

Question 200

Do we have any voluntary control over our breathing?

Answer 200

Yes

Question 201

What modulates our breathing?

Answer 201

Emotion
Voluntary Over ride
Chemical composition of blood
Mechano-sensory input

Question 202

What is the most significant input that changes our breathing?

Answer 202

Chemoreceptor input

Question 203

What are the two types of chemoreceptors?

Answer 203

Central

Peripheral

Question 204

Where are central chemoreceptors located?

Answer 204

Medulla

Question 205

Where are peripheral chemoreceptors located?

Answer 205

Carotid and aortic

Question 206

What do central chemoreceptors reflect?

Answer 206

CO2

Question 207

What do peripheral chemoreceptors respond to?

Answer 207

Plasma (H+) and PO2

Question 208

What fluid bathes the central nervous system?

Answer 208

CSF

Cerebral spinal fluid

Question 209

Can the brain and spinal cord tolerate much change to their environment (CSF)?

Answer 209

No

Question 210

What is the blood brain barrier?

Answer 210

A selective barrier that protects the brain by only letting certain things cross

Question 211

Is the blood brain barrier permeable to gas?

Answer 211

Yes

Question 212

Is the blood brain barrier permeable to ions?

Answer 212

No

Question 213

When arterial PCO2 increases what crosses the blood brain barrier?

Answer 213

CO2

Question 214

What effect does an increase in arterial PCO2 have?

Answer 214

Feedback system

Increases ventilation

Question 215

What effect does a decrease in arterial PCO2 have?

Answer 215

Feedback system

Slows ventilation rate

Question 216

Below what level does haemoglobin lose a lot of saturation?

Answer 216

60mmHg

Question 217

What happens when PO2 mmHg falls below 60mmHg?

Answer 217

There is a significant increase in ventilation as an attempt to get more O2 into the body
Restoring normal O2

Question 218

Do alveoli have a small or large surface area?

Answer 218

Large

Question 219

Describe the thickness of the membrane at the alveoli?

Answer 219

Thin membrane

Question 220

What is perfusion?

Answer 220

The process of the body delivering blood to a capillary bed in its biological tissue

Question 221

Is blood flow at the base of the lungs high or low and why?

Answer 221

High because arterial pressure exceeds alveolar pressure

Question 222

Is vascular resistance at the base of the lung high or low?

Answer 222

Low

Question 223

Is the blood flow at the apex of the lungs high or low?

Answer 223

Low because arterial pressure is less than alveolar pressure

Question 224

Is vascular resistance at the apex of the lungs high or low?

Answer 224

Higher

Question 225

If ventilation decreases what happens at the capillary bed?

Answer 225

PCO2 increases
PO2 decreases
Blood flowing past those alveoli does not get oxygenated

Question 226

What is shunting?

Answer 226

Dilution of oxygenated blood from better ventilated areas

Question 227

When hypoxia is detected why do blood vessels in the lungs constrict?

Answer 227

To allow less blood to flow to the poorly oxygenated ares

Question 228

What happens to blood vessels in the rest of the body when hypoxia is detected?

Answer 228

They dilate

Question 229

What nerves stimulate the external intercostal muscles?

Answer 229

Intercostal nerves

Question 230

Where is emotion in the brain controlled?

Answer 230

Limbic system

Question 231

Where does a rise in (H+) conc. come from?

Answer 231

CO2

Question 232

If there is increased ventilation is more CO2 blown off or retained?

Answer 232

Blown off

Question 233

If there is decreased ventilation is more CO2 blown off or retained?

Answer 233

Retained

Question 234

Why can’t you stop yourself breathing and kill yourself?

Answer 234

Because after you have been knocked unconscious the innate breathing system will kick in and begin breathing again

Question 235

What is ventilation reflexly inhibited by?

Answer 235

Increase in arterial PO2 or a decrease in arterial PCO2

Question 236

When else is respiratory inhibited?

Answer 236

During swallowing to avoid aspiration of food or fluids

Question 237

What is swallowing folloed by?

Answer 237

Expiration

Question 238

Why is swallowing followed by expiration?

Answer 238

To dislodge outwards particles from the region of the glottis

Question 239

What volume of O2 dissolves in 1L of water?

Answer 239

3ml

Question 240

What does haemoglobin increase the carrying capacity of O2 to?

Answer 240

3ml to 200ml per litre

Question 241

What cells is haemoglobin found in?

Answer 241

Red blood cells

Question 242

What would gaseous phase gases travelling in the blood cause?

Answer 242

Bubbles in the blood causing fatal air embolism

Question 243

What is the resting oxygen demand of tissues?

Answer 243

250ml/min

Question 244

What % of O2 is extracted by peripheral tissues at rest?

Answer 244

25%

Question 245

Whats the difference between HbA and HbA2?

Answer 245

Where delta chains replace beta chains

Question 246

Whats the difference between HbA and HbF?

Answer 246

Where gamma chains replace beta chains

Question 247

What is glycosylated Hb associated with?

Answer 247

Glucose

Question 248

Is the glycolysation of Hb reversible?

Answer 248

No it is irreversible

Question 249

What is the major determinant of the degree to which haemoglobin is saturated?

Answer 249

The partial pressure of oxygen in the arterial blood

Question 250

How many subunits is haemoglobin composed of?

Answer 250

4

Question 251

When does oxygen stop entering the plasma?

Answer 251

When all Hb is saturated

Question 252

How much O2 does each litre of systemic arterial blood contain?

Answer 252

200ml

Question 253

At PO2 60mmHg how saturated is haemoglobin?

Answer 253

90%

Question 254

Do HbF and myoglobin have a higher or lower affinity for O2 than HbA?

Answer 254

Higher

Question 255

Does foetal haemoglobin have a higher or lower affinity than the mothers haemoglobin for oxygen?

Answer 255

Higher affinity

Question 256

Why does foetal haemoglobin have a higher affinity for O2?

Answer 256

So that it can acquire and pull in O2 from the mothers blood

Question 257

In anaemia is there any problem with ventilation?

Answer 257

No

Question 258

In anaemia is there any problem with diffusion?

Answer 258

No

Question 259

Even when O2 content is low why can PaO2 be normal?

Answer 259

Because the haemoglobin that is present is saturated

Question 260

What is anaemia?

Answer 260

Defined as the condition where the oxygen carrying capacity of the blood is compromised

Question 261

What factors can affect haemoglobin affinity?

Answer 261

pH
Temperature
CO2
(DPG)

Question 262

How is the affinity of haemoglobin decreased?

Answer 262

Decrease in pH
Increase in temperature
Increase in PCO2

Question 263

How is the affinity of haemoglobin increased?

Answer 263

Increase in pH
Decrease in temperature
Decrease in PCO2

Question 264

What does an increased affinity of haemoglobin cause?

Answer 264

Makes oxygen unloading more difficult

But aids the collection of oxygen in the pulmonary circulation

Question 265

Is shunt perfused or ventilated?

Answer 265

Perfused but not ventilated

Question 266

Is alveolar space ventilated or perfused?

Answer 266

Ventilated but not perfused

Question 267

What is shunting the opposite to?

Answer 267

Alveolar dead space

Question 268

Where does the majority of perfusion-ventilation mismatch occur?

Answer 268

At the apex of the lung

Question 269

What should the value of perfusion-ventilation ideally be?

Answer 269

1

Question 270

At which level does the trachea bifurcate?

Answer 270

T4

Question 271

Which spinal nerves innervate the phrenic nerve?

Answer 271

C3,4,5 (keep the diaphragm alive)

Question 272

What is hypoxic hypoxia?

Answer 272

This is when PaO2 is below normal

Question 273

What is anaemic hypoxia?

Answer 273

This is when the lungs are in perfect working condition however the carrying capacity of )2 of the blood has been reduced

Question 274

What is circulatory hypoxia?

Answer 274

This is when the heart cannot pump the blood to the tissues or lungs

Question 275

What is metabolic hypoxia?

Answer 275

When oxygen delivery to the tissue does not meet increase demand by cells

Question 276

Describe hypoventilation

Answer 276

Causes CO2 retention
Causes increase in H+ conc
Brings about respiratory acidosis

Question 277

Describe hyperventilation

Answer 277

Blowing off more CO2,
Decreased H+ conc
Brings about respiratory alkalosis