Respiratory

Question 1

Upper respiratory system is composed of?

Answer 1

• nose - sinuses - pharynx - larynx - trachea

Question 2

Components of the conducting zone

Answer 2

• nasopharynx - oropharynx - larynx - trachea - left and right bronchus - secondary bronchi - tertiary bronchi - bronchioles - terminal bronchioles - respiratory bronchioles

Question 3

Most common upper respiratory disorders

Answer 3

• viral Upper Respiratory Tract Infections (common cold) - influenza (the flu) - can lead to pneumonia, sinusitis and middle ear infections - Rhinitis, inflammation of the nasal cavities - sinusitis - pharyngitis (viral) - tonsilitis (bacterial) - strep infection can lead to glomerulonephritis (kidney) or rheumatic fever (heart) - epiglottitis (usually viral, uncommon but an emergency as blocks the airway) - laryngitis (usually viral, swollen vocal cords) - pertussis (whopping cough) - epistaxis (nose bleeds - trauma, cocaine abuse, underlying health disorder)

Question 4

Symptoms forming from inflammatory response

Answer 4

• swollen mucous membranes - nasal congestion and secretions - headache, fever, general malaise

Question 5

Components of the respiratory zone

Answer 5

• alveoli - alveolar ducts

Question 6

What main viruses cause URTIs?

Answer 6

• rhinovirus - adenovirus - coronavirus - parainfluenza virus - respiratory syncytial virus (RSV)

Question 7

Manifestations of the flu

Answer 7

Respiratory ■Coryza (runny nose) ■ Cough, initially dry becoming productive ■ substernal burning ■ sore throat Systemic ■ fever and chills ■ malaise ■ muscle aches fatigue

Question 8

Manifestations of tonsilitis and pharyngitis

Answer 8

Local ■ sore throat ■ Possible dysphagia and ear pain ■ Tender, swollen anterior cervical lymph nodes ■ Hoarse voice ■ Red, swollen pharyngeal mucous membranes and/or tonsils ■ Possible visible exudate on pharyngeal membranes and/or tonsils General ■ fever ■ general malaise ■ Arthralgia, myalgia

Question 9

Drugs to treat colds

Answer 9

• as usually viral, antibiotics are ineffective.
• Codeine and pholcodine to treat non-productive coughs
• anticholinergics reduce nasal discharge
• expectorants bring up mucus and other material from the lower respiratory tract
• mucolytics thin mucus
• antihistamines reduce sneezing and runny nose
• antipyretic analgesics (commonly, paracetamol)
• sympathomimetic decongestants open the nasal passages by shrinking blood vessels in the mucus membrane of the nose
• demulcent (soothing) liquids, flavouring and sweetening agents, and alcohol

Question 10

Structures of the lower respiratory system

Answer 10

• bronchi - lungs - alvioli - ribs - pleura - inter-costal muscles

Question 11

Structures of the respiratory zone (where gas exchange takes place - aka parenchyma)

Answer 11

• respiratory bronchiles - alveolar ducts - alvioli

Question 12

What is the carina?

Answer 12

the area between the bronchi at the end of the trachea, with sensitive nerves that cause bronchospasm or coughing

Question 13

What are the two layers of the pleura?

Answer 13

• visceral - envelops the lungs - parietal - lines the thoracic cavity - pleural cavity between the two; negative pressure to maintain lung inflation and filled with fluid to lubricate

Question 14

Respiratory volume and capacity are affected by?

Answer 14

• age - gender - weight - health status (disease, injury)

Question 15

What happens during inspiration?

Answer 15

diaphragm contracts and flattens rib cage elevates, intra pulmonary pressure decreases and air rushes in.

Question 16

What happens during expiration?

Answer 16

Expiration - diaphragm relaxes, ribs descend and intrapulmonary pressure rises and air flows out.

Question 17

What are the major inter-costal muscles involved in breathing?

Answer 17

• scalenus muscles - serratus - transversus thoracis - sternocleidomastoid - pectoralis minor - rectus abdominus

Question 18

What is tidal volume(TV)?

Answer 18

• the volume on regular inspiration ~500mL

Question 19

what is inspiratory reserve volume (IRV)?

Answer 19

The amount of extra air you can take in after tidal inspiration ~3000mL

Question 20

What is expiratory reserve volume(ERV)?

Answer 20

• the amount on top of tidal volume that you can breathe out in forced expiration ~1200mL

Question 21

what is inspiratory capacity?

Answer 21

TV+IRV ~3500mL

Question 22

what is vital capacity?

Answer 22

TV+IRV+ERV ~4000 - 5000mL

Question 23

What is residual volume (RV)

Answer 23

the amount of air remaining in the lungs after full exhalation ~ 1200mL

Question 24

What is functional residual capacity?

Answer 24

ERV+RV ~1800 - 2400mL

Question 25

What is total lung capacity?

Answer 25

TV+IRV+ERV+RV ~5500 - 6000mL

Question 26

What are the 4 steps of gas transport?

Answer 26

• ventilation of the lungs - diffusion in the lungs - perfusion in the lungs - diffusion in the tissues

Question 27

What is V/Q?

Answer 27

• the ventilation-perfusion ratio - should be about 0.8 (more perfusion than ventilation)

Question 28

What is the oxyhaemoglobin dissociation

Answer 28

• allows for more oxygen to be delivered to the cells when needed - right shift (reduced affinity) on increased temp, increased H+ encourages oxygen to detach from haemoglobin - left shift on decreased temp, decreased H+, increased CO encourages oxygen to remain linked to haemoglobin

Question 29

What are the normal values for ABGs?

Answer 29

pH - 7.35 to 7.45 PaCO2 - 41 - 51 mmHg PaO2 - 80-100mmHg HCO3 - 22 - 26 mmol/L Base excess - +2.0 to -2.0 mmol/L SaO2 - 95-100%

Question 30

Major lower respiratory disorders

Answer 30

Obstructive

• asthma
• Bronchiectasis
• COPD *emphysema * bronchitis

Restrictive

• acute respiratory distress syndrome (ARDS) Infections
• Pneumonia

Cancer

• Lung Cancer

Cystic Fibrosis (leads to mucus plugging, chronic inflammation and chronic infection)

Question 31

What are the characteristics of obstructive pulmonary disease?

Answer 31

• airway obstruction that worsens with expiration - common clinical manifestations: dyspnoea and wheezing, decreased FEV1, chronic fatigue - mismatched V/Q ratio

Question 32

What is asthma?

Answer 32

• hyper-responsive airways
• often reversible with treatment, but can become chronic inflammation of the airways

Question 33

What is the pathophysiological pathway of asthma leading to respiratory failure?

Answer 33

Question 34

What are the drug groups for asthma management?

Answer 34

• Relievers

* short or long-acting beta-agonists (aka adrenergic stimulants. eg. salbutamol, terbutaline)

* anticholinergics (bronchodilators; eg. Ipratropium, tiotropium bromide)

* theophyllines (aka mathylxanthines)

• controllers

* long-acting beta-agonists (eformoterol fumarate dehydrate, salmeterol xinafoate)

• preventers

* corticosteroids (eg ciclesonide, fluticasone propionate, budesonide)

* cromones (aka mast cell stabilisers; eg cromolyn sodium and nedocromil)

* leukotriene receptor agonists (montelukast)

* anti IgE antibody

Question 35

What is the pathophysiological pathway for COPD?

Answer 35

Question 36

Medication management of COPD?

Answer 36

• Broncho-dilators
• Indacaterol
• Cortico-steroids
• Anti-mucolytics
• Influenza vaccine
• Oxygen

Question 37

What is restrictive pulmonary disease?

Answer 37

• Less common in Australia compared to obstructive
• Different pathology but many similar clinical manifestations
• Lung tissue compliance decreases
• Increased respiratory effort
• Decreased lung volume and tidal volume
• Different causes
• Intrinsic (asbestosis, acute respiratory distress syndrome)
• Extrinsic (neuromuscular diseases)

Question 38

What is Acute Respiratory Distress Syndrome?

Answer 38

• A syndrome characterised by
• Acute lung inflammation
• diffuse alveolar-capillary disease
• Pulmonary oedema and severe hypoxaemia
• Often as a result of other serious disorders
• Sepsis,
• burns,
• pneumonia aspiration,
• overdose
• poisoning
• Due to oedema and collapsing alveoli, Lung compliance decreased and breathing effort increased
• Often escalates to body-wide inflammatory response and multi-organ failure

Question 39

What is the pathophysiological pathway of ARDS?

Answer 39

Question 40

Medications to treat ARDS:

Answer 40

• Oxygen
• Nitric oxide
• Artificial surfactant

Question 41

What are the most likely reasons for lower airway infectious pulmonary diseases?

Answer 41

• immunocompromise
• unrelated medical problems
• post-surgery
• forced bedrest
• smoking

Question 42

What is the pathophysiological pathway for pneumonia?

Question 43

What are the main clinical manifestations of pneumonia?

Answer 43

Rapid onset of:

• fever
• chills
• either productive (reddish or purulent green) or dry cough
• dyspnoea, hypoxaemia
• adventitious breath sounds

Question 44

What are the main medications used for pneumonia?

Answer 44

• Pneumococcal vaccination (prevent)
• Treat cause (antibiotics, antifungals)
• Broncho-dilators
• anticholinergic drugs
• antimucolytic
• Oxygen support

Question 45

Medications for lung cancer

Answer 45

• Chemotherapy (Doxorubicin, vincristine)
• radiotherapy, surgery
• Broncho-dilators
• Analgesics
• Oxygen

Question 46

What are the two primary variables used to determine lung volume and flow changes

Answer 46

• the forced expiratory volume in the first second of exhalation; abbreviated to FEV1
• the forced vital capacity (FVC), or the maximal amount of air that can be forcibly expelled from the lungs in one breath
• FEV1 / FVC ratio should be greater than 70%

Question 47

What are the three types of ling receptors that send impulses from the lungs to the dorsal respiratory group?

Answer 47

• irritant receptors (cause bronchoconstriction, increase in ventilatory rate)
• stretch receptors (size and volume of the lungs)
• J-receptors (cause shallow breathing, hypotension, bradycardia)

Question 48

What is forced expiratory volume (FEV1)?

Answer 48

The amount of air that can be forcibly exhaled in 1 second

Question 49

What is forced vital capacity (FVC)?

Answer 49

The amount of air that can be exhaled forcefully and rapidly after maximum air intake

Question 50

What is minute volume (MV)?

Answer 50

the total amount or volume of air breathed in 1 minute.

Question 51

What are the two pressures normally present in the thoracic cavity?

Answer 51

• Intrapulmonary pressure - within the alveoli of the lings
• Intrapleural pressure - within the pleural space (always less than intrapulmonary pressure

Question 52

What is the difference between chronic bronchitis and emphysema, the two diseases usually present in COPD?

Answer 52

Chronic bronchitis consists of airway inflammation and remodelling (hypersecretion of mucus and chronic productive cough) whereas emphysema is the destruction of alveolar tissue and decrease in elastic recoil.

Question 53

Treatments for the respiratory symptoms of cystic fibrosis

Answer 53

• techniques to promote mucus clearance, such as:
  
  • chest physical therapy
  • positive pressure devices
• bronchodilators
• aerosolised DNase which liquefies mucus
• inhaled mucolytics such as hypertonic saline and mannitol

Question 54

Types of lung cancer

Answer 54

• squamous cell carcinoma
• adenocarcinoma
• large cell carcinoma
• small cell carcinoma

Question 55

Conditions caused by pulmonary alterations

Answer 55

• Pulmonary oedema (excess water in the lungs)
• Hypoxaemia (reduced oxygenation of arterial blood)
• Hypercapnia (increased carbon dioxide in the arterial blood)
• Acute respiratory failure
• Atelectasis (the collapse of lung tissue)
• Pneumothorax (the presence of air or gas in the pleural space)
• Pleural effusion (the presence of excess fluid in the pleural space)
• Empyema (infected pleural effusion) - the presence of pus in the pleural space
• Aspiration (the inhalation of fluid and solid particles into the lung)

Question 56

Signs and symptoms of pulmonary alterations

Answer 56

• Dyspnoea
• Cough
• Hypoventilation and hyperventilation
• Abnormal breathing patterns
• Haemoptysis
• Cyanosis

Question 57

Diagnostic tests for pneumonia

Answer 57

• history and physical examination
• Chest X-ray
• CT scan
• Sputum Gram stain
• Sputum culture and sensitivity
• Full blood count
• Serology testing
• Pulse oximetry
• Arterial blood gases
• Fibre-optic bronchoscopy

Question 58

Common asthma triggers

Answer 58

• Environmental allergens (often small glycoproteins, e.g. dust mites, animal dander, pollen, fungi) Cigarette smoking
• Pollution
• irritants (fumes from volatile compounds, e.g. cleaning agents, glues, paints)
• Respiratory tract infections
• medications (aspirin, non-steroidal anti-inflammatory drugs, beta-blockers)
• Physical factors (exercise, changes in temperature)
• gastro-oesophageal reflux
• Emotional stress
• occupational exposure to organic compounds
• food additives

Question 59

manifestations of acute asthma

Answer 59

• dyspnoea
• tachypnoea
• tachycardia
• chest tightness
• wheezing
• cough
• anxiety

Question 60

Main pulmonary vascular disorders

Answer 60

• pulmonary embolism
• pulmonary hypertension

Question 61

Primary causes of respiratory failure

Answer 61

• airway obstruction (eg laryngospasm, foreign body aspiration, airway oedema
• respiratory disease (eg asthma, COPD)
• neurological causes (eg spinal cord injury, poliomyelitis, Guillain-Barre syndrome, drug overdose, stroke)
• chest wall injury (eg flail chest, pneumothorax)
• alveolar disorders (eg. pneumonia, pneumonitis, COPD)
• pulmonary oedema (eg heart failure, ARDS, near-drowning)
• ventilation-perfusion mismatch (eg pulmonary embolism)

Question 62

Conditions associated with the development of acute respiratory distress syndrome (ARDS)

Answer 62

• shock (eg haemorrhagic shock, septic shock)
• inhalation injuries (eg aspiration of gastric contents, smoke and toxic gases, near-drowning, oxygen toxicity
• infections (eg Gram-negative species, viral pneumonia, pneumocystis carinii)
• drug overdose (eg heroin, methadone, aspirin)
• trauma (eg burns, head injury, lung contusion, fat emboli)
• disseminated intravascular coagulation
• pancreatitis
• uraemia
• amniotic fluid and air emboli
• multiple transfusions
• open heart surgery with cardiopulmonary bypass

Question 63

Indications for oxygen therapy

Answer 63

• Used primarily to treat hypoxia and hypoxaemia (oxygen deficiency in arterial blood)
• PaO2 less than 50mmHg may result in tissue hypoxia
• Conditions that may decrease PaO2 include airway obstruction, hypoventilation or high altitude
• Used as a carrier gas in anaesthetics
• Treatment of cyanosis, shock, severe haemorrhage, cardiac and respiratory arrest, coronary artery occlusion

Question 64

adverse effects of oxygen administration

Answer 64

• Oxygen toxicity
  
  • Exposure to 80% to 100% oxygen for prolonged periods
  • Inflammatory response à destruction of the alveolar membrane
• Symptoms
  
  • ache or burning behind the sternum
  • respiratory distress with decreased vital capacity
  • nausea and vomiting
  • restlessness, tremors
  • twitching
  • paraesthesias
  • convulsions
  • a dry, hacking cough

Question 65

Info on salbutamol for asthma

Answer 65

• Short acting β2 agonists
• Rapid onset of action
  
  • 5-15 minutes onset
  • 1-2 hours peak
  • 3-6 hours duration
• Adverse Effects – tremor, palpitations, anxiety, restlessness, headaches, muscle cramps, hyperglycaemia, tachycardia.
• Adult dose – 1-2 inhalations (100mcg salbutamol per dose), second 1 minute after the first.
• Can also be given via nebuliser, orally or parenterally.

Question 66

Info on Beclomethasone for asthma

Answer 66

• Corticosteroid
• Maintenance treatment and prophylaxis
• Peak plasma levels – 3-5 hours after admin
• Local adverse effects – dysphonia (changed voice), oropharyngeal candidiasis (oral thrush) and allergic reactions
• Not useful in acute attacks
• Typical adult dosage – 50-200mcg up to a max of 400mcg twice daily.
• May be up to 2000mcg daily in severe persistent asthma

Question 67

Info for Salmeterol for asthma

Answer 67

• aka Serevent
• Long acting β2 agonist
• Half-life 6-12 hours administered BD or daily.
• Used in conjunction with inhaled corticosteroids
• Side effects – pharyngitis and upper respiratory tract infections and headache.
• Only be used when short or intermediate-acting drugs are unable to control the symptoms.

Question 68

Info for combination drugs for asthma

Answer 68

• Combination of preventer (inhaled corticosteroid) and reliever/controller (long-acting β2 agonists).
• Regular treatment when both drugs appropriate not for relief of acute symptoms.
• Advantages – convenience, cost reduction, better control of asthma and regular use of low dose steroid.
  
  • fluticasone and salmeterol (Seretide)
  • budesonide and eformoterol (Symbicort).

Question 69

Information for inhaled corticosteroids for asthma

Answer 69

• Useful in preventing asthma
• Decrease the degranulation of mast cells and have a role in the synthesis of inflammatory mediators and new antibodies.
• Administered via inhalation to reduce bronchial hyper-activity and minimise patho-physiological changes (oedema, excessive mucous)}Metered dose inhaler or nebuliser decreases incidence of systemic reactions.
• Beclomethasone, fluticasone and budesonide
• Does not act as a bronchodilator, may need to give bronchodilator first to increase the ability of corticosteroid to reach airways

Question 70

information for systemic corticosteroids for asthma

Answer 70

• Used when inhaled medication cannot adequately control asthma
• Prednisolone – short course
• In an emergency can be given parenterally – IV hydrocortisone, dexamethasone
• Can cause systemic adverse events – adrenal suppression, growth suppression, altered deposition of muscle, fat, skin, hair and bone, ocular changes, infections, mineralocorticoid effects and psychological disturbances

Question 71

What is an adrenal crisis?

Answer 71

• Prolonged use of corticosteroids suppresses the normal hypothalamic-pituitary axis.
• Leads to adrenal atrophy from lack of stimulation
• Sudden cessation of medication, extreme stress (MVA, surgical procedure, massive infection) → adrenal crisis
• Can result in → physiological exhaustion, hypotension, fluid shift, shock and even death.
• Treatment – massive infusion of replacement steroids, constant monitoring and life support measures.

Question 72

Info on glucocorticoids

Answer 72

• Anti-inflammatory action
  
  • –Stabilise lysosomal membranes and prevent neutrophil movement
  • –Suppresses virtually all the vascular and cellular events in the inflammatory response including wound healing and repair
  • –Inhibit many more mediators than NSAIDs
• Immunosuppressant action
• –Block production and release of cytokines and other mediators
• –Interfere with integrated role of T and B lymphocytes, macrophages and monocytes

Question 73

info on Mineralocorticoids

Answer 73

• Affect electrolyte levels and homeostasis
• Increase sodium reabsorption in renal tubules, leading to sodium and water retention and increase potassium excretion

Question 74

Bronchodilators for COPD

Answer 74

• Via inhaler with spacer or nebuliser
• Salbutamol (short-acting β2 agonists)
• Indacaterol (long-acting β2 agonists) – only used in long term management of COPD and often combined with a corticosteroid
• Relax tight muscles
• Quick relief from symptoms
• No effect on inflammation

Question 75

Inhaled corticosteroids for COPD

Answer 75

• Decrease inflammatory response
• Inhaled budesonide/fluticasone
• Slows respiratory decline
• Prone to chest (and other) infections
• Oral steroids may be required for severe exacerbation of symptoms

Question 76

oxygen therapy for COPD

Answer 76

• Long term home oxygen
• ~ 18 hrs per day to permanent
• Meet certain criteria and requires a prescription
• Likely to not relieve (though may reduce) breathlessness but ensures oxygen to vital organs
• Demonstrated to reduce mortality
• Safety precautions
• Titrated to individual needs but often 2 LPM to 4 LPM

Question 77

Key drug groups for respiration

Answer 77

◆ BRONCHODILATOR DRUGS:

✛ Anticholinergics (muscarinic antagonists):
long-acting: tiotropium, aclidinium, umeclidinium, glycopyrronium bromide (glycopyrrolate)
short-acting: ipratropium
✛ β-adrenoceptor agonists:
long-acting (controllers): formoterol (eformoterol), salmeterol, indacaterol
short-acting: salbutamol, terbutaline (DM 26.2)
✛ Methylxanthines: aminophylline, theophylline (DM 26.3)

◆ DRUGS FOR RESPIRATORY TRACT INFECTIONS:

✛ Antivirals: amantadine, neuraminidase inhibitors: zanamivir, oseltamivir
✛ Cough suppressants: codeine, pholcodine (DM 26.5)
✛ Decongestants: xylometazoline (DM 26.1)
✛ Drugs for influenza: vaccines (DM 26.6)

◆ DRUGS FOR RHINITIS: Antihistamines, nasal corticosteroids
◆ EXPECTORANTS: dilutents: normal saline, water; irritant expectorants: guaifenisin
◆ MEDICAL GASES: carbon dioxide, nitric oxide, nitrous oxide, oxygen
◆ MUCOLYTICS: dornase alfa, bromhexine, acetylcysteine
◆ PROPHYLACTIC ANTIASTHMA DRUGS (PREVENTERS):

✛ Cromones (cromolyns): sodium cromoglycate, nedocromil
✛ Inhaled (gluco)corticosteroids: beclometasone (DM 26.4), budesonide, fluticasone, ciclesonide
other drug groups
✛ Leukotriene-receptor antagonists: montelukast
5-lipoxygenase inhibitors: zileuton
monoclonal antibodies: omalizumab, mepolizumab

◆ PULMONARY SURFACTANTS: beractant, poractant alfa

Question 78

What is the bicarbonate buffer equation?

Answer 78

CO₂ + H₂O ⇄ H₂CO₃ ⇄ HCO₃⁻ + H⁺