Respiratory Disease

Question 1

Asthma

Answer 1

• Hyper reactivity response which results in reversible airway obstruction
  
  • Most commonly tiggered by an allergen- dust, pet dander, pollen, viral infection, exercise
  • Results in a cascade which releases histamine, leukotrienes and prostaglandins from mast cells
    These, along with eosinophils, then cause airway inflammation and respiratory

Question 2

Asthma symptoms

Answer 2

• Breathlessness
  
  • Tight chest
  • Wheezing
• Cough

Question 3

Asthma Diagnosis

Answer 3

• Diagnosis is based on the pattern of symptoms, patient history, peak flow readings and reversibility testing (spirometry). NICE also recommend the use of FeNO test
  
  • Need variable airflow obstruction and >1 of the following symptoms
  • Cough
  • Shortness of breath
  • Wheeze
    -Chest tightness

Question 4

Patient history Asthma

Answer 4

• History of atopy
  
  • Recurrent symptoms
  • Symptom variability
  • Peak flow readings are monitored to look for variability during the day
  • Serial peak flow measurements showing 20% or greater diurnal/day-to-day variability
  • Wheeze heard on auscultation
  • Bronchodilator reversibility test
  • An improvement of 12% or more, with an increase in volume of at least 200ml=positive result
  • An improvement in lung volume of greater than 400ml is strongly suggestive of asthma
  • A large (>400ml) response to 2 weeks, 30mg a day of oral prednisolone
    FeNo levels of 40ppb or greater in adults (17+) with either positive bronchodilator reversibility or positive peak flow variability

Question 5

Peak flow readings

Answer 5

A measure of how quickly you can blow air out of your lungs. If you have asthma, you may sometimes have narrow airways . This will make it more difficult to blow the air out of your lungs quickly and can change your peak flow score.
Used to diagnose and monitor asthma

Question 6

Bronchodilator reversibility testing

Answer 6

Monitors how well patient responds to bronchodilator medicine
1. A healthcare professional performs a spirometry test to measure how much and how fast you can exhale.
2. You take a bronchodilator medicine, such as a reliever inhaler.
3. You wait 15–20 minutes.
4. The healthcare professional performs another spirometry test to measure how your airways have responded to the bronchodilator

Question 7

Goals of Asthma treatment

Answer 7

The aim of asthma management is control of the disease
* No daytime symptoms
* No night time awakening due to asthma
* No need for rescue medication
* No asthma attacks
* No limitations on activity including exercise
* Normal lung function (FEV1 and or PEF >80% predicted or best)
Minimal side effects from medication

Question 8

Assessing symptom control

Answer 8

ACT test
* Series of FIVE questions where the patient can rate the severity of their asthma over the past 4 weeks
C ACT for children 4-11years
The first 4 questions relate to symptom control and the final question is about how well the patient feels their asthma is controlled

Question 9

Spacer counselling

Answer 9

• Rinse mouth after using inhaler
  
  • Appropriate inhaler technique
  • Check expiry dates of SABA if used infrequently
  • Return finished/unused inhalers to pharmacy for correct disposal
    Aerochamber will whistle if breathing is too quick

Question 10

Stepping down treatment

Answer 10

Recommended once asthma is controlled
Consider reductions at 3 month intervals with 25-50% dose decreases each time
Aim is to get to lowest dose while still controlling symptoms
Considerations
* Asthma severity
* Side effects to medication
* Duration of current treatment
* Patient preference
* Achieved benefits
* Slow reductions in ICS
Regular review

Question 11

Treatment of acute exacerbation of asthma

Answer 11

• Supplemental o2 if hypoxamia, titrate to spo2 94-98%
  
  • Steroids: prednisolone 40-50mg OD (minimum 5 days)
  • High dose inhaled beta agonist (bronchodilator)
  • Ipratropium nebs (severe/life threatening or poor response to SABA alone)
    IV Magnesium sulfate 1.2g-2g acute severe asthma

Question 12

COPD

Answer 12

• chronic bronchitis
• emphysema

Question 13

chronic bronchitis

Answer 13

recurrent inflammation causes:
- Ciliary dysfunction
- An increase in the presence and size of goblet cells causing excessive mucus production

Question 14

emphysema

Answer 14

destruction of alveolar wall, less surface area for gaseous exchange

Question 15

different to asthma

Answer 15

In contrast to asthma, eosinophils have a smaller role in the inflammatory process in COPD, where neutrophilic inflammation is more prominent- why ICS are not used

Question 16

Risk factors for COPD

Answer 16

• Smoking
  
  • Past history of smoking
  • Older age
  • Genetic pre disposition
  • Occupational exposure to dust or chemicals
  • Infection: history of childhood respiratory infections and tuberculosis
  • Asthma
    Poor socioeconomic status

Question 17

COPD should be considered in adults over 35 with risk factors presenting with

Answer 17

• Exertional breathlessness
  
  • Dyspnoea
  • Chronic cough or sputum production
  • History of recurrent LRTI
    History of exposure to risk factors

Question 18

COPD clinical signs on examination

Answer 18

• Cyanosis
  
  • Raised jugular pressure
  • Cachexia
  • Hyperinflated chest
  • Use of accessory muscles
  • Pursed lip breathing
  • Wheeze
    Peripheral oedem

Question 19

COPD non pharmacological interventions

Answer 19

• Exercise and physical fitness
  
  • Smoking cessation
  • Vaccinations
  • Dietary input
  • Breathing techniques
    Referral for LTOT

Question 20

bronchodilators

Answer 20

• Help open up the airways to relieve SOB and wheeze by reducing resistance in the lungs
  
  • Provide symptomatic relief without curing the underlying pathology
  • Cause relaxation of the smooth muscle within the airways
    Can work on sympathetic nervous system or parasympathetic nervous system

Question 21

s/e of bronchodilators

Answer 21

• Palpitations
  
  • Headaches
    Tremor

Question 22

LABA/LAMA combo

Answer 22

• Generally superior to either constituent ingredient given alone when looking at FEV1 and symptom control
  
  • Choice of combination inhaler should be based on cost, dosing regime and patient preference
  • More cost effective and adherence likely to be better vs LAMA plus LABA in separate inhalers
    E.g Duaklir

Question 23

ICS

Answer 23

• Use is controversial
  
  • ICS have been associated with an increased risk of non fatal pneumonia
    Only given to patients with frequent exacerbations >2 a year

Question 24

triple therapy

Answer 24

• Beclometasone/Formoterol/Glycopyrronium- Trimbow
  
  • Fluticasone/umeclidinium/vilanterol- Trelegy
    Budesonide/formoterol/glycopyrronium- Trixeo

Question 25

s/e ICS

Answer 25

• Oral candidiasis
  
  • Pneumonia
  • Bronchospasm
    Adrenal suppression

Question 26

mucolytics

Answer 26

Role of these drugs are to disrupt mucus production in the airways, making it easier to breakdown and clear. E.g. carbocisteine

Question 27

Prednisolone

Answer 27

• Long term treatment with oral prednisolone is generally not recommended
  Consider bone protection in patient on long term steroids due to the risk of developing osteoporosis

Question 28

prednisolone s/e

Answer 28

• Cushing’s syndrome
  
  • Electrolyte imbalance
  • Fluid retention
  • Increased risk of infection
    Osteoporosis

Question 29

theophylline

Answer 29

A xanthine bronchodilator in asthma and COPD. It is generally not effective for exacerbations of COPD. It may have an additive effect when used in combination with small doses of beta agonists
Narrow therapeutic window

Question 30

prophylactic antibiotics

Answer 30

• Azithromycin 250mg 3 times a week is generally used for prophylaxis

Antibiotics should only be used during an exacerbation if sputum is purulent

Question 31

rescue packs

Answer 31

• These may contain oral prednisolone, antibiotics and a salbutamol inhaler
  
  • Education is vital
  • Patients need to inform their GP practice so they can be reviewed before further packs are issued
    Recurrent rescue pack use may be indicative of poor management

Question 32

cor pulmonale

Answer 32

Right sided heart failure- remodelling around the pulmonary vasculature. Causes pulmonary vasoconstriction, which leads to pulmonary hypertension, increases right ventricular pressure and therefore ultimately can result in right sided heart failure.

Question 33

pneumonia

Answer 33

Pneumonia is an infection of the lower respiratory ling tissue
Caused by bacterial/viral or fungal pathogens causing migration of inflammatory cells
Consolidation results as the alveoli fill with inflammatory fluid, bacteria and white blood cells

Question 34

CAP

Answer 34

CAP occurs when bacteria breaches the natural defenses of the lung to reach the usually sterile levels below the larynx

Question 35

HAP

Answer 35

Acute LRTI acquired after at least 48h of hospital admission and not incubating at time of admission

Question 36

Pulmonary embolism

Answer 36

• PE is defined as a clinically significant obstruction of part or all the pulmonary vascular tree, usually caused by clots from a distant site
  
  • There are several risk factors for developing a PE
    There are usually identified as part of the patient history

Question 37

PE S/e

Answer 37

• Sudden onset breathlessness
  
  • Pleuritic chest pain
  • Haemoptysis
  • Haemodynamic disturbances
    Circulatory failure, pulmonary artery necrosis, lung ischaemia