4. RESPIRATORY SYSTEM

Question 1

List four functions of the respiratory system

Answer 1

1. Exchange of gases
2. Warming/cooling and moistening of air
3. Removal of inhaled particles
4. Voice production and olfaction

Question 2

Describe specifically the route air flows through the respiratory tract, identifying key structures

Answer 2

Air flows in through the nose (and mouth) and through the paranasal sinuses down into the nasopharynx, oropharynx and laryngopharynx. Then through the larynx (voice box) into the trachea which branches into the left and right bronchi. These then branch into smaller bronchioles and finally into millions of alveoli where gas exchange occurs.

Question 3

Describe the difference between external and internal respiration

Answer 3

External respiration is the exchange of gases between the blood and lungs where the pulmonary capillaries carry blood around the alveoli.
Internal respiration is the exchange of gases between blood and cells.

Question 4

What is cellular respiration?

Answer 4

The process whereby energy (ATP) is obtained by metabolising carbs, fats and proteins.

Question 5

The mucous membrane of the respiratory tract is lined with a ________ epithelial membrane that contains mucous secreting _______ cells. Mucus traps ______ particles and acts as a surfactant. It also has _______ properties. Cilia move the particles towards the _________ where they can be coughed up and/or swallowed. This protects the lungs from inhaled ________.

Answer 5

ciliary
goblet
inhaled
antimicrobial
oesophagus
pathogens

Question 6

Describe the role of nasal concha

Answer 6

Nasal concha are shelves that increase surface area and trap water during exhalation. They also spin the air which filters it and encourages particles to become trapped in nasal mucous membranes.

Question 7

List four functions of the nasal cavity

Answer 7

1. Filtering air - hairs and concha
2. Warming air - lots of capillaries near surface
3. Humidification - air travelling over moist mucosa
4. Sneezing reflex - in case of mucosal irritation
5. Olfactory function - olfactory receptors

Question 8

List two functions of the paranasal sinuses

Answer 8

1. Moistening/humidifying the air
2. Resonance in speech
3. Lightening the cranial mass
4. Nasolacrimal ducts drain tears from the eyes

Question 9

Name two paranasal sinuses

Answer 9

Ethmoid
Frontal
Sphenoid
Maxillary

Question 10

List four functions of the pharynx

Answer 10

1. Passageway for air and food
2. Warming and humidifying of air
3. Taste
4. Speech
5. Equalising of pressure in the middle ear
6. Immune protection (adenoids0
7. Hearing

Question 11

Which hormone thickens and lengthens the vocal chords?

Answer 11

Testosterone

Question 12

List four functions of the larynx

Answer 12

1. Production of sound and speech
2. Warming and humidifying air
3. Protection (epiglottis closes and protects airway)
4. Air passageway

Question 13

What are the two main components that the trachea is made up of?

Answer 13

C-shaped rings of hyaline cartilage with interconnecting smooth muscle (trachealis).

Question 14

The larynx is also known as the ___________ and connects the _______________ with the trachea. It consists of _____ pieces of cartilage (including the thyroid cartilage and ___________ ) and _____ cords.

Answer 14

voice box
laryngopharynx
nine
epiglottis
vocal

Question 15

List four functions of the trachea

Answer 15

1. Air flow
2. Mucociliary escalator
3. Cough reflex
4. Warming, humidifying and filtering air

Question 16

Describe in specific detail the ‘cough reflex’

Answer 16

1. The coughing reflex starts when the highly sensitive epithelial receptors in the respiratory tract mucus membrane becomes irritated
2. Sensitive nerve endings gets stimulated in the larynx, trachea and bronchi
3. Via the vagus nerve, an impulse travels to the respiratory centre in the brainstem.
4. This leads to deep inhalation and closure of the glottis (and vocal chords)
5. Contraction of abdominal and respiratory muscles occur to increase pressure
6. Finally, there is a forced removal of irritation (at a speed of up to 600 miles/hr)

Question 17

The trachea divides into the left and right ______ at the vertebral level of T5. The ______ bronchi is more ________, shorter and wider. Where the trachea divides into two bronchi, an internal ridge called the _______ is formed. The latter is a sensitive structure and triggers the _____ _______.

Answer 17

bronchi
right
vertical
carina
cough reflex

Question 18

Why is an aspirated object more likely to enter the right lung?

Answer 18

Because the right bronchus is more vertical, wider and shorter.

Question 19

What role does the nervous system play in air entry into the bronchi?

Answer 19

The sympathetic nervous system stimulates bronchodilation and thus more air can be taken in.
The parasympathetic nervous system encourages bronchoconstriction during a restful state.

Question 20

Explain fully how alveoli are maximised for gaseous exchange.

Answer 20

The 250 million alveoli in each lung creates a large surface area (approx 80m2) and the alveolar walls are only a single cell layer thick. Each alveoli is surrounded by many blood capillaries and the alveolar surfaces are moist to enable gasses

Question 21

Describe the difference between Type I and Type II alveolar cells

Answer 21

Type I alveolar cells are simple epithelial cells, cover 90% of alveolar surface and are very thin to support gas exchange.
Type II alveolar cells secrete alveolar fluid that contains pulmonary surfactant which reduces surface tension, preventing alveolar collapse and allows gasses to diffuse through it.

Question 22

How many lobes in the

a) right lung
b) left lung

Answer 22

a) 3

b) 2

Question 23

Describe the main role of the pleura

Answer 23

The pleura are serous membranes that surround the lungs and have the characteristic visceral and parietal layers with a small quantity of serous fluid inbetween. Its main role is in preventing friction and as it adheres to the lungs, it helps the expansion of the lungs.

Question 24

Name two a) primary and two b) secondary muscles of ventilation

Answer 24

a) Intercostal muscles; diaphragm

b) scalenes; sternocleidomastoid; trapezius

Question 25

Name one pathology that could lead to over recruitment of ventilation muscles

Answer 25

Pulmonary fibrosis

Question 26

Define tidal volume

Answer 26

The normal volume of air that enters the lungs during inspiration when no extra effort is applied.

Question 27

Name two factors (not gender) that contribute to a larger lung volume

Answer 27

Living at higher altitudes
Taller individuals
Athletes
Non-smokers

Question 28

Why is there no difference between inspired and expired nitrogen gas levels?

Answer 28

Nitrogen doesn’t bind to haemoglobin and is not used or created in the body.

Question 29

What percentage of the following is oxygen

a. inspired air
b. expired air

Answer 29

a. 21%

b. 16%

Question 30

Which blood cells transport oxygen around the body?

Answer 30

Red blood cells

Question 31

List three ways (% highest to lowest) in which carbon dioxide is transported in the body

Answer 31

70% is found in plasma as bicarbonate (HCO3-)
23% is carried in RBSs (bound to haemoglobin)
7% is dissolved in blood plasma

Question 32

Explain in specific detail the role of carbon dioxide and the bicarbonate buffer reaction in controlling blood pH

Answer 32

1. CO2 diffuses down its concentration gradient from tissues into the blood
2. CO2 combines with the water in the blood to produce carbonic acid (H2CO3)
3. Carbonic acid is unstable and it decomposes immediately into bicarbonate (HCO3-) and hydrogen (H+)
4. Hydrogen is exhaled and excreted into urine to reduce the acidity. The bicarbonate that is formed, is alkaline and ‘buffers’ the acidity of the blood to keep the pH stable.

Question 33

What causes ‘respiratory acidosis’?

Answer 33

When higher amounts of CO2 dissolves in the blood, it causes an increase in H+ ions and thus an increase in acidity.

Question 34

Complete the following formula:

Carbon dioxide + water = ________ ______ = Bicarbonate + _________

Answer 34

CO2 + H2O = Carbonic acid (H2CO3) = Bicarbonate (HCO3-) + Hydrogen (H+)

Question 35

What is the normal range that blood pH should remain within?

Answer 35

pH of 7.35 -7.45

Question 36

List three ways in which an increase in blood acidity can be managed

Answer 36

1. Buffer system: Temporarily bind to H+, removing them from the solution (i.e. proteins, bicarbonate)
2. Increased exhalation of CO2
3. Kidney excretion of H+: This is a slow mechanism and the kidneys can also synthesise new bicarbonate and reabsorb bicarbonate, thus influencing pH

Question 37

Define ‘cell respiration’

Answer 37

Cell respiration describes the process of energy production (ATP) within cells.

Question 38

Which of the following yields more energy:

a) Aerobic respiration
b) Anaerobic respiration

Answer 38

a) Aerobic respiration [yields 36 (net) molecules of ATP]

Question 39

Which of the following yields more energy:

a) Aerobic respiration
b) Anaerobic respiration

Answer 39

a) Aerobic respiration [yields 38 molecules of ATP]

Question 40

How does chemical receptors in the brainstem play a role in ventilation?

Answer 40

The ‘respiratory centre’ is located in the medulla oblongata and pons in the brainstem. The chemical receptors here measure CO2 levels and acidity. If receptors detect high arterial CO2, this triggers hyperventilation in order to exhale excess CO2

Question 41

Describe how chemical receptors in the aorta and carotid arteries play a role in ventilation control

Answer 41

Chemical receptors in the aorta and carotid arteries measure CO2 and O2 levels and acidity and adjusts the heart rate accordingly.

Question 42

Define rhinitis

Answer 42

Rhinitis is inflammation of the nasal mucosa

Question 43

List two signs/symptoms of rhinitis

Answer 43

Itchy runny nose
Sneezing
Stuffy nose
Loss of smell

Question 44

Describe the difference between allergic and non-allergic rhinitis

Answer 44

Allergic rhinitis develops as a result of an allergic reaction to an allergen such as pollen, spores or mites and it involves IgE stimulating mast cells to release histamines which leads to inflammation.
Non-allergic rhinitis is associated with environmental and lifestyle changes such as pollution, diet, stress and drugs such as NSAIDs

Question 45

List one complication of rhinitis

Answer 45

Nasal polyps
Ear infections
Loss of smell

Question 46

List two ways in which smoking can contribute to respiratory disease.

Answer 46

Cigarettes contain carcinogens which compromises the immune system and can ultimately cause cancer.
Smoking damages the delicate cilia that line the respiratory tract and cause mucus and trapped particles to build up in the lungs causing smoker’s cough and increasing the risk of respiratory infections and disease.

Question 47

List one respiratory pathology that can cause cyanosis

Answer 47

Bronchitis

Question 48

List two respiratory pathologies that can cause finger clubbing

Answer 48

Lung cancer
COPD
Cystic fibrosis

Question 49

List possible respiratory pathology for:

a. purulent sputum
b. mucoid sputum
c. serous sputum
d. blood in sputum

Answer 49

a. purulent sputum - infections like bronchitis, pneumonia
b. mucoid sputum - asthma, bronchitis, CF
c. serous sputum - pulmonary oedema
d. blood in sputum - TB, lung cancer, pulmonary embolism, clotting disorders

Question 50

List two complications that could arise from influenza

Answer 50

• Secondary infections can take root while the immune system is depleted
• Post-viral syndrome (chronic fatigue syndrome) following a compromised immune system
• Morbidity / mortality

Question 51

List two causes of nasal polyps

Answer 51

Nasal polyps are usually the end product of chronic inflammation due to:

• Chronic rhinitis
• Viral, bacterial or fungal

Question 52

List two signs / symptoms of nasal polyps

Answer 52

Difficulty breathing, runny nose, persistant stuffiness
Chronic sinus infections, reduced sense of smell
Dull headaches, snoring, mouth breathing
Can cause sleep apnoea

Question 53

List two causes of tonsillitis

Answer 53

Viral (rhino or influenza virus)

Bacterial (Streptococci)

Question 54

List two symptoms of tonsillitis

Answer 54

Sore throat that becomes worse when swallowing
Fever over 38 degrees
Coughing, headache, red/inflamed tonsils

Question 55

List one sign that is more characteristic of quinsy

Answer 55

Severe unilateral throat pain
unilateral earache
trismus (limited mouth opening)

Question 56

List two key symptoms of laryngitis

Answer 56

Hoarseness
Weak voice / voice loss
Sore, dry, tickly throat

Question 57

What are ‘leukotrienes’?

Answer 57

Key chemical inflammatory mediators in asthma and they cause bronchoconstriction.

Question 58

What is the difference between intrinsic and extrinsic asthma?

Answer 58

Extrinsic (Atopic) Asthma: generally affects children and is immunologically mediated, with an increase in IgE antibodies, brought on by exposure to an allergen

Intrinsic Asthma: generally adult onset and is not due to antigen-antibody stimulation. Instead, it is a reaction to triggers such as anxiety, chemicals, exercise, dust, drugs (NSAIDs etc.), etc.

Question 59

Name three conditions that make up the atopic triad

Answer 59

Asthma
Eczema (Atopic dermatitis)
Hay Fever (Allergic Rhinitis)

Question 60

Using pathophysiology, describe the difference between asthma and COPD

Answer 60

Asthma is a chronic inflammatory airway disease in which REVERSIBLE narrowing of the bronchi and bronchioles occur, mediated by leukotrienes.

COPD is also a chronic inflammatory condition, but it is PROGRESSIVE and not fully reversible. The airflow limitation is due to damaged airways and functional lung tissue resulting from inhaled toxins or long-term irritation and inflammation.

Question 61

List three key signs / symptoms of asthma

Answer 61

Recurrent episodes of breathlessness and tight chest
Wheezing when exhaling
Nocturnal coughing

Question 62

Describe the difference between emphysema and chronic bronchitis associated with COPD

Answer 62

In emphysema, the walls of the alveoli are damaged and destroyed, leading to collapse of alveoli during expiration and reduced gas exchange (breathlessness).

In bronchitis, the bronchial lining is constantly irritated and inflamed which leads to thickening of the bronchial lining and hyper-secretion of mucus, coughing and wheezing.

Question 63

Name two signs common to bronchitis

Answer 63

Cackles on auscultation
Tachypnoea, tachycardia
Cyanosis

Question 64

List three main signs of COPD

Answer 64

Tachypnoea
Breathlessness on exertion, pursed lips breathing
Barrel chest (hyperinflation)
Patients leaning forward, resting arms on table
Flapping tremor (when arms stretched out forward)

Question 65

Using definitions, compare pneumonia to pulmonary fibrosis

Answer 65

Pneumonia is an infection of the alveoli and terminal bronchioles, mostly bacterial. [is associated with inflammation, oedema and an infiltration of neutrophils].

Pulmonary fibrosis is the replacement of the single layer epithelial lining in the alveoli, with fibrotic tissue.

Question 66

List two signs / symptoms of pneumonia

Answer 66

Breathlessness
Cough with purulent sputum (sometimes blood)
Crepitations on auscultation
Malaise
Fever

Question 67

List one autoimmune cause of pulmonary fibrosis

Answer 67

Rheumatoid Arthritis

Question 68

List two signs / symptoms of pulmonary fibrosis

Answer 68

Progressive dyspnoea
Chronic cough
Fatigue
Discomfort in the chest

Question 69

List two risk factors for sleep apnoea

Answer 69

Obesity
Nasal obstruction (rhinitis, polyps)
Smokers
Male gender
Alcohol, sedatives

Question 70

List two signs / symptoms of sleep apnoea

Answer 70

Loud snoring
Daytime sleepiness
Nocturnal choking
Morning headaches and drowsiness
Reduced libido

Question 71

Define pneumothorax

Answer 71

A medical emergency where air accumulates within the pleural cavity, causing all or part of the lung to collapse.

Question 72

Describe the nature of chest pain in pleurisy

Answer 72

Sharp chest pain while breathing

Question 73

Describe the pathophysiology of pleurisy

Answer 73

The pleural surfaces become coated with inflammatory materials and are hence roughened, producing a ‘friction rub’ on auscultation.

Question 74

In regards to pneumothorax, identify:

a. one spontaneous cause
b. one traumatic cause

Answer 74

a. Rupture of a cyst, TB, cystic fibrosis, emphysema

b. Fracture, surgical complication

Question 75

List two signs / symptoms of pneumothorax

Answer 75

Dyspnoea
Cyanosis
Loss of consciousness
Pleuritic chest pain (sharp)
Reduced breath sounds
Decreased cardiac output

Question 76

Explain how a pulmonary embolism develops

Answer 76

A pulmonary embolism results from obstruction within the pulmonary arterial tree, often as a result of a thrombosis travelling up from one of the deep veins in the legs

Question 77

Why is calf pain an important sign in pulmonary embolism?

Answer 77

Calf pain signifies a DVT being causative

Question 78

Outline the pathophysiology of Cystic Fibrosis

Answer 78

Cystic fibrosis is a multi-organ genetic disease (due to a mutation on gene 7) that affects chloride channels and subsequently key exocrine glands. Chloride channels help maintain the proper balance of salt and water within a cell. A genetic mutation causes a dysfunction of salt and water balance.

Question 79

List two signs / symptoms of Cystic Fibrosis

Answer 79

Persistant cough and sputum production
Recurring lung infections
Wheezing
Chest pain
Clubbed fingers
[GIT symptoms: bloating, obstruction, malnutrition, dyspepsia, bleeding]