Respiratory COPY COPY Flashcards

Question 1

Q

What is Chronic Obstructive Pulmonary Disease (COPD)?

Answer

A

Progressive irreversible airway obstruction characterised by persistent airflow limitation caused by long term damage to lung tissue.

Question 2

Q

What are the conditions that are classed as COPD?

Answer

A

Chronic Bronchitis
Emphysema

Question 3

Q

What is the epidemiology of COPD?

Answer

A

1.2 million people with COPD in the UK
4th leading cause of death globally
Typically diagnosed >45 yrs
More common in males
Strongly related to Smoking.

Question 4

Q

What are the risk factors for COPD?

Answer

A

Cigarette smoking
Air pollution
Occupational exposure to dusts, chemical agents, and fumes
A1AT deficiency - can lead to early onset COPD

Question 5

Q

What is the most important cause/aetiological factor for COPD?

Answer

A

Cigarette smoking

Question 6

Q

Define Chronic Bronchitis?

Answer

A

A inflammatory lung condition that develops over time in which the bronchi and bronchioles become inflamed and scarred.

Question 7

Q

What is Chronic Bronchitis as a clinical definitions?

Answer

A

Chronic Bronchitis is a clinical term relating to a chronic productive cough for at least 3 months over 2 consecutive years.
Alternative explanations for the cough should also be excluded.

Question 8

Q

What is Emphysema as a pathological Definition?

Answer

A

Refers to abnormal air space enlargement distal to terminal bronchioles with evidence of alveoli destruction and no obvious fibrosis.

Question 9

Q

What is the pathophysiology of Chronic Bronchitis?

Answer

A

Initial exposure to irritants and chemicals (cigarette smoke)
Hypertrophy and hyperplasia of bronchial mucinous glands and goblet cells. There is also ciliary destruction.
This increases the production of mucus in the lumen causing narrowing and obstruction
Epithelial layer becomes ulcerated and there is the stimulation of immune cells causing inflammation of the bronchus and bronchioles.
This leads to scarring and thickening of the walls further narrowing the airways.
This causes air trapping causing poor exchange of O2 and CO2 and increases risk of infection.

Question 10

Q

What are the pathological changes that occur in Chronic Bronchitis?

Answer

A

Goblet cell hyperplasia
Mucus hypersecretion
Chronic inflammation and fibrosis
Narrowing of small airways

Question 11

Q

What are the symptoms of chronic bronchitis?

Answer

A

Chronic Cough - high sputum production

Dyspnoea

Wheeze

Recurrent respiratory tract infections - due to mucus plugging

Question 12

Q

What are the Signs of Chronic Bronchitis?

Answer

A

Wheeze - narrowing of airway creates higher pitch sound.

Crackles - popping open of small airways

Hypoxaemia and Hypercapnia - mucus plugs block airflow and lead to partial pressures of CO2 to rise and subsequent decline of O2.

Cyanosis (if hypoxaemia is really bad leading to the term blue bloaters).

Pulmonary Hypertension - due to Hypoxic vasoconstriction leading to increased pulmonary vascular resistance

Question 13

Q

What is Emphysema?

Answer

A

A lung disease characterised by dilatation and destruction of the lung tissue causing enlarged air spaces distal to the terminal bronchioles

Question 14

Q

What is the Pathophysiology of Emphysema?

Answer

A

Occurs in the ACINUS

Irritants/chemicals lead to damage and destruction of the alveoli wall.

Causes and inflammatory reaction and immune cell infiltration releasing Leukotriene B4, IL-8 and TNF-a

Proteases (elastases and collagenases) are also produced which break down alveolar wall structural proteins.

This leads to permanent enlargement of the alveoli and loss of their elasticity.

Alveolar wall septa break down reducing the total surface area. This leads to gas exchange dysfunction.

Loss of elasticity in the airways means that the airways collapse upon exhalation causing air trapping distally.

Question 15

Q

What are the different types of Emphysema?

Answer

A

Centriacinar Emphysema

Panacinar Emphysema:

Paraseptal Emphysema:

Question 16

Q

What is Centriacinar Emphysema?

Answer

A

Most common

Damage to central/proximal acini due to smoking

Typically affects upper lobes

Question 17

Q

What is Panacinar Emphysema?

Answer

A

Entire acinus affected

Due to A1AT Deficiency (protease inhibitor deficiency) cannot prevent breakdown.

Typically affects Lower lobes

Question 18

Q

What is Paraseptal Emphysema?

Answer

A

Affects peripheral lung tissue.
Peripheral ballooned alveoli can rupture causing pneumothorax

Question 19

Q

What are the pathological changes seen in emphysema?

Answer

A

Related to loss of Elastin:
Collapse: the alveoli are prone to collapse.
Dilation and bullae formation: alveoli dilate and may eventually join with neighbouring alveoli forming bullae

Question 20

Q

How is Chronic Bronchitis and Emphysema classified differently?

Answer

A

Chronic Bronchitis is defined by clinical features

Emphysema is defined by structural changes (enlarged alveoli)

Question 21

Q

What are the symptoms of Emphysema?

Answer

A

Dyspnoea - diminished gas exchange
( can improve this by exhaling slowly through pursed lips giving the name pink puffers)

Hypoxaemia

Weight loss

Cough - with some sputum

Pulmonary HTN

Question 22

Q

What are the main features of COPD phenotypes (emphysema/chronic Bronchitis)?

Answer

A

Pink puffer - emphysema
- Weight loss
- Breathless
- Emphysematous
- Maintained pO2

Blue bloater – chronic bronchitis
- Cough
- Phlegm
- Cor pulmonale
- Type 2 Respiratory failure

Question 23

Q

How does Emphysema lead to pulmonary hypertension?

Answer

A

Widespread Hypoxic vasoconstriction.

Too many blood vessels are constricted increasing the pressures in others.

Leads to pulmonary hypertension.

Question 24

Q

What is the cause of the barrel shaped chest in COPD?

Answer

A

Both chronic bronchitis and emphysema leads to air trapping within the Bronchi/acini.

This leads to Hyperinflation of the lungs giving a barrel chest appearance.

Question 25

Q

What are the main complications of COPD?

Answer

A

Recurrent Respiratory Tract Infections: S. pneumoniae/H. influenzae
Respiratory failure
Pneumothorax: rupture of bullous disease
Polycythaemia or anaemia
Depression

Question 26

Q

What is a the most serious complication of COPD?

Answer

A

Cor Pulmonale:

Both Chronic bronchitis and Emphysema will lead to pulmonary hypertension due to excessive hypoxic vasoconstriction.

This causes R sided ventricular hypertrophy which will eventually lead to RHF and “Cor Pulmonale”

Question 27

Q

Who typically presents with COPD?

Answer

A

Older Px
Long term smokers
Occupational exposure: such as dust, cadmium (in smelting), coal, cotton, cement and grain

Question 28

Q

What are the Symptoms of COPD?

Answer

A

Chronic cough: usually productive
Sputum production
Breathlessness: usually on exertion in early stages
Frequent episodes of ‘bronchitis’: usually in the winter
Wheeze

Question 29

Q

What are the Signs of COPD?

Answer

A

Dyspnoea
Pursed lip breathing: (prevents alveolar collapse by increasing the positive end expiratory pressure)
Wheeze
Coarse crackles
Loss of cardiac dullness: due to hyperexpansion of lungs from emphysema
Downward displacement of liver: due to hyperexpansion of lungs from emphysema
Signs of C02 retention
Drowsy
Asterixis
Confusion

Question 30

Q

What symptoms may be concerning in a COPD patient that suggests an alternative pathology?

Answer

A

Weight loss
Haemoptysis
Anorexia
Chest pain
Lymphadenopathy
Finger clubbing
Unexplained fatigue

May suggest cancer

Question 31

Q

Do patients with COPD typically present with Chronic Bronchitis or Emphysema?

Answer

A

Often Px will present with both conditions as COPD due to the same triggers causing both.

Question 32

Q

What is an acute exacerbation of COPD?

Answer

A

Presents similarly to chronic stable COPD however there is an acute and sustained worsening of symptoms in the patient

Question 33

Q

Who typically presents with COPD?

Answer

A

Older Px
Long term smokers
Occupational exposure: such as dust, cadmium (in smelting), coal, cotton, cement and grain

Question 34

Q

How is COPD Diagnosed?

Answer

A

Clinical Dx with Spirometry Test for confirmation

Spirometry shows Obstruction:
FEV1/FVC ration <0.7

Negative Reversibility Testing: <12% Inc FEV1
Obstruction does not show good response to salbutamol.

CXR - Lung hyperinflation + Bullae

Question 35

Q

What other investigations may be done in COPD on top of spirometry?

Answer

A

Bloods: FBC (assess for anaemia) and A1AT levels

CXR: Hyperexpanded, flattened hemidiaphragms, hypodense, Saber sheath trachea

ECHO if Cor Pulmonale Suspected

Question 36

Q

What features of a Px are supportive of a COPD diagnosis?

Answer

A

Smoker or ex-smoker
Symptoms in older adults (> 35 years old)
Chronic productive cough
Persistent/progressive breathlessness
Night time waking with symptoms uncommon
Variability uncommon (diurnal or day-to-day)

Question 37

Q

How is Breathlessness assessed in COPD?

Answer

A

Using the MRC Dyspnoea Scale:

Breathlessness on strenuous exercise.
Breathlessness on hurrying or slight hill.
Walks slower than contemporaries on ground level due to breathlessness OR have to stop to catch breath when walking at own pace.
Stops to catch breath after 100 metres OR a few minutes of walking
Breathlessness on minimal activity (dressing) or unable to leave the house due to breathlessness

Question 38

Q

How does Asthma respond to Reversibility testing?

Answer

A

Bronchodilator (salbutamol) will increase FEV1 by >12%

Question 39

Q

What is FVC?

Answer

A

Forced Vital Capacity:
The total amount of air forcibly expired

Question 40

Q

What is FEV1?

Answer

A

Forced Expiratory Volume in 1 second

Question 41

Q

What is an Abnormal FEV1?

Answer

A

The result is compared with the predicted values, if the FEV1 is 80% or
greater than the predicted value = NORMAL
Thus is the FEV1 is less than 80% of the predicted value = LOW i.e
abnormal

Question 42

Q

What is an Abnormal FVC?

Answer

A

The result is compared with the predicted values, if the FVC is 80% or
greater than the predicted value = NORMAL
Thus is the FVC is less than 80% of the predicted value = LOW i.e
abnormal

Question 43

Q

What does a low FVC suggest?

Answer

A

Airway Restriction

Question 44

Q

What does a Low FEV1/FVC ratio suggest?

Answer

A

<0.7 = Airway Obstruction

If FEV1/FVC ratio is high/normal but FVC is low (<80%) then airway restriction.

Question 45

Q

Do patients with COPD typically present with Chronic Bronchitis or Emphysema?

Answer

A

Often Px will present with both conditions as COPD due to the same triggers causing both.

Question 46

Q

What other tests may be done to look for the cause of COPD?

Answer

A

DLCO (diffusing capacity of CO across lung):
Low in COPD, Normal in Asthma

Genetic testing for A1AT Def.

ABG - may show T2RF
ECG - heart function
CXR - flattened diaphragm
Bloods - anaemia

Question 47

Q

How is the severity of COPD and airflow graded?

Answer

A

Post Bronchodilator when FEV1/FVC ratio < 70%
Stage 1: Mild - FEV1 >80% of predicted
Stage 2: Moderate - FEV1 50-79% of predicted
Stage 3: Severe - FEV1 30-49% of predicted
Stage 4: Very Severe - FEV1 <30% of predicted

Question 48

Q

What are the management Principles for COPD?

Answer

A

Education
Smoking cessation
Vaccination
Pulmonary rehabilitation
Self-management plans
Management of co-morbidities
Pharmacotherapy

Question 49

Q

What is the treatment of COPD?

Answer

A

Stop risk factors - smoking
Prophylactic Vaccines - Pneumonia

Medication:
1. SABA (Salbutamol) OR SAMA (Ipratropium Bromide)

(a = Non steroid Responsive. B = Steroid Responsive)
a. LABA (Salmeterol) + LAMA (Tiotropium
b. Steroid Responsive = LABA + ICS (Beclometasone)

3.
a. 3 Month Trial of LABA + LAMA + ICS
b. Steroid Responsive = LABA + LAMA + ICS

Question 50

Q

What management can be provided for severe COPD?

Answer

A

Nebulisers - Salbutamol and/or ipratropium
Long term Oxygen therapy

Question 51

Q

What is an Exacerbation of COPD?

Answer

A

worsening of symptoms such as cough, shortness of breath, sputum production and wheeze. It is usually triggered by a viral or bacterial infection.

Question 52

Q

How are Exacerbations of COPD treated?

Answer

A

At Home:
Prednisolone 30mg once daily for 7-14 days
Regular inhalers or home nebulisers
Antibiotics if there is evidence of infection (Doxycycline / Co-amoxiclav)

In Hospital:
Oxygen - carefully monitored
Nebulised Bronchodilators
Prednisolone 30mg once daily for 7-14 days
Antibiotics if there is evidence of infection
Physiotherapy

Question 53

Q

What is the main risk of COPD exacerbations?

Answer

A

Respiratory Failure:
COPD patients are chronic retainers of CO2 and therefore their kidneys adapt to produce extra HCO3 to compensate the acidotic state.

In acute exacerbations the kidneys cannot produce enough HCO3 quickly leading to RF.

Question 54

Q

What are some Impacts of COPD exacerbations?

Answer

A

Negative impact on quality of life
Impact on symptoms and lung function
Increased economic costs
Increased mortality
Accelerated lung function decline

Question 55

Q

What are the differential Diagnoses of COPD?

Answer

A

Asthma
Heart Failure

Other causes of SOB:
Bronchiectasis (airways become abnormally widened resulting in build-up of excess mucus making lungs more susceptible to infection)
Allergic fibrosing alveolitis
Pneumoconiosis
Pulmonary Embolus
Lung cancer
Asbestosis

Question 56

Q

What are the indications for hospital admission in a Px with COPD?

Answer

A

Marked increases in symptom intensity
Severe underlying COPD
Onset of new physical signs
Failure of an exacerbation to respond to initial medical management
Presence of serious comorbidities
Frequent exacerbation
Older age
Insufficient home support

Question 57

Q

Define Asthma?

Answer

A

Chronic reversible inflammatory airway condition characterised by reversible airway obstruction, airway hyperresponsiveness and inflamed bronchioles

Question 58

Q

What are the types of Asthma?

Answer

A

Eosinophilic (Allergic) (70%) - Extrinsic IgE mediated T1 Hypersensitivity

Non-Eosinophilic (Non Allergic) (30%) - Intrinsic non IgE mediated.

Question 59

Q

Explain the pathophysiology IgE mediated asthma?

Answer

A

Environmental trigger against specific allergens leads to sensitisation reaction where IgE Abs against antigen bind to mast cells.

Secondary exposure leads to an immune system activation and activation of Th2 cells.

Th2 cells produce cytokines such as IL3, 4, 5, 13.
IL-4 leads to IgE Crosslinking and degranulation of mast cells releasing histamine and leukotrienes.

IL-5 leads to eosinophil activation and release of proteins

This leads to a Hypersensitivity Rxn which causes Smooth muscle bronchospasm and increased mucus production leading to narrow airways and airway obstruction.

Question 60

Q

What happens to the airways in chronic asthma?

Answer

A

Initially asthma and inflammation of the airways is reversible.

Over chronic asthma the inflammation in the airways causes irreversible damage such as scarring and fibrosis causing thickening of the epithelial BM causing permanent narrowing of the airways.

Question 61

Q

What pathological changes are responsible for airway narrowing in Asthma?

Answer

A

Increased number of and hypertrophy of smooth muscle
Constriction of smooth muscle cells (bronchoconstriction)
Increased mucous production
Swelling and inflammation (of mucosa)
Thickened basement membrane
Airway hyperreactivity, cellular infiltration

Question 62

Q

What is the cause of asthma

Answer

A

Causes are unknown:
Genetics may play a factor

Environmental Factors:
Hygiene hypothesis

Question 63

Q

What is the Hygiene Hypothesis?

Answer

A

Reduced early exposure of bacteria and viruses when young leads to an altered proportion of immune cells.
This can subsequently lead to later onset asthma

Question 64

Q

What are the risk factors for asthma?

Answer

A

History of Atopy
FHx of asthma
Allergens - pollen, fur, smoke
Occupation
Obesity
Premature Birth

Answer 65

A

Infection
Night time or early morning
Exercise
Animals
Cold/damp
Dust
Strong emotions
Drugs

Answer 66

A

Aspirin
Beta blockers

Answer 67

A

Aspirin inhibits COX1/2
Shunts more arachidonic acid down LPOX pathway.
Produces leukotrienes (LTB4, 5, 6)
These are proinflammatory

Answer 68

A

5.4 Million in UK receiving treatment
More common in developed countries
More common in children/young people compared to COPD
Commonly starts age 3-5. Peak prevalence age 5-15

Answer 69

A

Chest tightness
Episodic Dyspnoea/SOB
Wheeze
Dry Cough (typically but can be wet)

Answer 70

A

Diurnal PEFR variation

Dyspnoea and Expiratory Polyphonic wheeze

Hyper resonant Percussion

Samter’s Triad: Nasal polyps, Aspirin sensitivity, Asthma

Answer 71

A

Signs of Respiratory Failure

Tachypnoea
Tachycardia
Inability to complete sentences
Exhaustion
Reduced respiratory effort
Silent chest
Altered conscious level

Answer 72

A

Curschmann spirals:
Mucus plugs that look like casts of the small bronchi

Charcot-Leyden crystals:
From break down of eosiophils.

Answer 73

A

Episodic symptoms

Diurnal variability. Typically worse at night.

Dry cough with wheeze and shortness of breath

A history of other atopic conditions such as eczema, hayfever and food allergies

Family history

Bilateral widespread “polyphonic” wheeze

Answer 74

A

Wheeze related to coughs and colds more suggestive of viral induced wheeze

Isolated or productive cough

Normal investigations

No response to treatment

Unilateral wheeze. This suggests a focal lesion or infection.

Answer 75

A

Diurnal PEFR variation

Dyspnoea and Expiratory Polyphonic wheeze

Samter’s Triad: Nasal polyps, Aspirin sensitivity, Asthma

Atopic Triad: Atopic Rhinitis, Asthma, Eczema

Answer 76

A

Nasal Polyps
Asthma
Aspirin sensitivity

Answer 77

A

Atopic Rhinitis (Hayfever)
Allergic Asthma (Asthma)
Atopic Dermatitis (Eczema)

Answer 78

A

According to:
Frequency of symptoms (night/early morning)
FEV1
PEFR (peak expiratory flow rate)
Frequency of medication use

Answer 79

A

Intermittent
Mild Persistent
Moderate Persistent
Severe Persistent

Answer 80

A

NICE advise to carry out tests and not make a clinical Dx:

1st Line Ix:
Spirometry w/ Bronchodilator Reversibility
(shows reversible obstruction)
Fractional Exhaled NO

2nd Line:
PEF variation measurements - 2-4 weeks
Direct bronchial challenge test with histamine or methacholine

Answer 81

A

16+: Avoid Triggers

SABA (salbutamol)
SABA + ICS (beclomethasone)

3a. Before adding more drugs assess inhaler technique and compliance

3b. SABA + ICS + Leukotriene Receptor Antagonist (LTRA = montelukast)

SABA + ICS + LABA (Salmeterol) +/- LTRA
Consider change to MART (maintenance and reliever therapy)
Increase ICS Dose

Answer 82

A

OSHITME:
O2 if oxygen sats are low
Saba (Salbutamol nebulised)
Hydrocortisone (ICS)

IV MgSO4
Theophyline (IV) - MgSO4 / Escalate

Answer 83

A

Asthma Exacerbation

Pneumothorax

Answer 84

A

Characterised by eosinophilic inflammation:
Lots of inflammation
Smooth muscle hypertrophy
Basement membrane thickening
Little fibrosis and little alveolar disruption

Answer 85

A

Characterised by neutrophilic inflammation:
Lots of inflammation
Lots of fibrosis
Lots of alveolar disruption
Little smooth muscle hypertrophy and basement membrane thickening

Answer 86

A

Tuberculosis
Pneumonia

Answer 87

A

An infectious disease caused by Mycobacteria characterised by caseating granulomas.

Answer 88

A

MTC organisms = TB causing:

M. tuberculosis
M. africanum
M. microtis
M. bovis (from unpasteurised milk)

Answer 89

A

Gram Positive Rod Bacilli
Non motile + non spore forming

Mycolic acid capsule: Acid fast staining (w/ ZN)

Resistant to phagocytic killing.

Slow growing (15-20 hrs)

Answer 90

A

1.7Bn people have latent TB
Top infectious killer in the world
Affects immunocompromised more
More common in South Asia (India, China, Pakistan) and Sub-Saharan Africa

Answer 91

A

Via airborne transmission

Answer 92

A

Contact with someone w/ active TB
Country/recent travel to associated countries
Immunocompromised (HIV etc)
IVDU
Homelessness
Smoking and alcohol
Increased age

Answer 93

A

Active TB - active infection

Latent TB - Previous infection where the immune system has encapsulated and prevented progression of TB

Secondary TB - When Latent TB reactivates

Miliary TB - Where immune system cannot control the infection and it becomes disseminated

Extrapulmonary TB - where TB infects other areas

Answer 94

A

Lymph nodes
Pleura
Central nervous system
Pericardium
Gastrointestinal system
Genitourinary system
Bones and joints
Cutaneous TB affecting the skin

Answer 95

A

Infection of TB via droplets/aerosol

TB phagocytosed (but resistant to killing)
Granulomatous formation (typically in hilar lymph nodes)

T cells recruited and Centre of granuloma undergoes caseating necrosis (1’ Ghon Focus)

Ghon Focus spreads to nearby lymph nodes forming a Ghon Complex

Latent TB:
In most people TB is contained within granuloma and becomes latent TB.

Miliary TB:
If TB spreads from Ghon complex
systemically then it becomes Miliary TB

Answer 96

A

High lipid content with mycolic acids in cell wall makes mycobacteria resistant to gram stain

Answer 97

A

No - ASx as bacteria is contained within granuloma and causes no Sx

Answer 98

A

Systemic Sx:
Fatigue
Fever + night sweats + weight loss (characteristic of TB)
Lymphadenopathy

Cough w/haemoptysis >3 weeks
Chest pain
Dyspnoea
Erythema Nodosum

Answer 99

A

Auscultation - often normal (may have crackles)
Consolidation in lung
Lung Collapse
Clubbing

Answer 100

A

CNS - Meningism
Skin rash
Cardiac - TB pericarditis Sx
Bone - Join pain
Spinal Pain (spinal TB)
GU - Epididymitis, LUTS
Abdo - Ascites

Answer 101

A

Latent Disease - Mantoux Test
Interferon Gamma release assay

Answer 102

A

CXR - patchy consolidation, pleural effusions, Granulomata in chest

Sputum culture - AFB bright red on ZN stain.
NAAT/PCR

Solid Culture on Lowenstein-Jensen Agar

Answer 103

A

Protein derived from organism (Tuberculin)
Inject intradermally
Stimulates type 4 delayed hypersensitivity reaction

Not sensitive – immunosuppressed or miliary TB won’t react (false negatives)

Only moderately specific (false positives)

Won’t easily distinguish infection from disease

Drawback of Tuberculin skin test:
If patient has had BCG vaccine, there will be a reaction
Cannot tell if patient has latent TB

Answer 104

A

Doesnt necessarily need Tx
If risk of reactivation then:
6 months of isoniazid with pyridoxine (6H) or
3 months of isoniazid (with pyridoxine) and rifampicin (3HR)

Answer 105

A

RIPE: Combination Abx for 6-12 months
R – Rifampicin for 6 months
I – Isoniazid for 6 months
P – Pyrazinamide for first 2 months
E – Ethambutol for first 2 months

Answer 106

A

Rifampicin - Haematuria (red/orange Urine)
Isoniazid - Peripheral Neuropathy / inhibitor of CYP450
Pyrazinamide - Hepatitis and gout
Ethambutol - Optic neuritis/eye problems

Answer 107

A

Inform Public Health England

Answer 108

A

Vaccination - BCG vaccine for neonates

Detection and Tx of latent TB via Mantoux Test and Treat

Answer 109

A

6 months of isoniazid with pyridoxine (6H) or
3 months of isoniazid (with pyridoxine) and rifampicin (3HR)

Answer 110

A

Infection of the lung parenchyma leading to inflammation of the lung tissue and fluid exudation (sputum) collecting in the alveoli.

Answer 111

A

Incidence 350/100, 000/year (>1 in 300)
20-50% hospitalised, 5-10% require ITU
Hospitalisation average 6-8 days
Mortality
1% in community, 10% in hospital, 30% in ITU
UK 2012, 28,952, 5.1% of all deaths
Costs > £400 million/year to UK
Significant short- and long-term mortality from other causes after pneumonia

Answer 112

A

Classified by the setting in which a Px has contracted infection
Community Acquired Pneumonia
Hospital Acquired Pneumonia
Aspiration Pneumonia

Answer 113

A

Pneumonia that develops out in the community or <48hrs after hospital admission

Answer 114

A

Pneumonia that develops more than 48 hours after hospital admission.

Answer 115

A

Pneumonia that develops as a result of inhaling foreign material (food etc)

Answer 116

A

Bacterial infection

Can also be Viral (Influenza/CMV) or fungal (P. jirovecii)

Answer 117

A

S. pneumonia (50%)
H. influenzae (20%)
Mycoplasma pneumoniae (Atypical pneumonia)

Answer 118

A

S. aureus
Legionella (atypical)
Moraxella
Chlamydia pneumoniae (atypical)

Answer 119

A

Often from Spain.
Recent Travel Hx and staying in hotels with air conditioning.

Answer 120

A

P. aeruginosa
E. coli
S. aureus
Klebsiella

Answer 121

A

Most of the causative organisms have multi drug resistance

Answer 122

A

Klebsiella

Answer 123

A

pneumonia caused by an organism that cannot be cultured in the normal way or detected using a gram stain.

They dont respond to penicillins

Tx with Macrolides, Fluoroquinolones and tetracyclines.

Answer 124

A

Legionella
Chlamydia psittaci
Mycoplasma pneumoniae
Chlamydophila pneumonia
Q fever (Coxiella)

Answer 125

A

Pneumocystis jiroveci (PCP)
Occurs in immunocompromised Px
AIDS defining illness

Answer 126

A

Co-trimoxazole
(combination of Trimethoprim and Sulphamethoxazole)

Answer 127

A

Extremes of age
Preceding infection (viral)
Immunosuppressed
IVDU
Smoking
CO-Morbidities - DM, HIV
Respiratory conditions - asthma, COPD, CF

Answer 128

A

Bacteria “translocate” to normally sterile distal airway - bacteria from URT that has either came in quickly or colonised for a while are micro-aspirated into lower lung
Resident host cells become overwhelmed
Develop an inflammatory response – neutrophils and inflammatory exudate fill alveolar space
Resolution phase – when bacteria cleared
- Inflammatory cells removed by apoptosis
- Resolution phase leads to complete recovery

Bacteria invades
Infection and inflammation
Exudate forms inside alveolar lumen
Sputum production

Answer 129

A

Bacteria invades
Infection and inflammation
Exudate forms in interstitium of alveoli
Dry cough

Answer 130

A

Productive cough w/purulent sputum (rusty suggests S. pneumoniae)
Fever - due to infection
Pleuritic chest pain
Dyspnoea
Malaise

May cause confusion in elderly
Dry cough in atypical pneumonia

Answer 131

A

Reduced breath sounds
Bronchial Breathing w/ coarse crepitations
Crackles and Wheeze
Consolidation
Dull Percussion
Hypoxia
Tachycardia
Pyrexia
Confusion
Cyanosis

Answer 132

A

Fever
Sweats
Rigors

Answer 133

A

1st Line:
CXR (diagnostic) shows consolidation

Sputum Microscopy culture and Sensitivities (MC+S) + Gram Stain to ID organism

FBC - Raised WCC
U&E - urea
CRP - raised due to inflammation
Legionella Urinary Antigen - Doesn’t respond well to Abx

Answer 134

A

CURB65:
C – Confusion
U – Urea > 7
R – Respiratory rate ≥ 30
B – Blood pressure < 90 systolic or ≤ 60 diastolic.
65 – Age ≥ 65

Score 0/1: Consider treatment at home
Score ≥ 2: Consider hospital admission
Score ≥ 3: Consider intensive care assessment

Answer 135

A

0 = Low risk (<1% mortality)
1-2 = Intermediate risk (1-10% mortality)
3-4 = High Risk (>10% mortality)

Answer 136

A

S. pneumoniae
S. aureus
Legionella

Answer 137

A

S. aureus

Answer 138

A

Klebsiella

(but first exclude TB)

Answer 139

A

Oxygen Saturation 94-98%
IV Fluids if dehydrated
Appropriate Analgesia - Paracetamol/NSAIDs

Antibiotics: Initially start on Broad Spec:

Mild CAP (CURB65 0-1): Amoxicillin 5 days (clarithromycin/Doxycycline if allergic)
Moderate-severe CAP (CURB65 2): Amoxicillin + Macrolide 7-10 days
Severe CAP (CURB65 3-5): IV Co-Amoxiclav + Macrolide 7-10 days or 14-21 if S.aureus

(If legionella (notify PHE) and Clarithromycin)

Answer 140

A

S. pneumoniae - Amoxicillin (Clarithromycin/Cefotaxime)
H. Influenzae - Doxycycline
S. aureus - Flucloxacillin (cefuroxime)
MRSA - Vancomycin
Klebsiella - Cephalosporins (cefotaxime) or carbapenems
P. Aeruginosa - Piperacillin-Tazobactam (Tazocin)
Atypical - Macrolides/Fluoroquinolones

Answer 141

A

Polysaccharide pneumococcal vaccine – protects against 23 serotypes
Influenza vaccination to those >65, immunocompromised or with medical co-morbidities
Smoking cessation

Answer 142

A

Sepsis
Pleural effusion
Empyema
Lung abscess
Death

Answer 143

A

An autosomal recessive condition that affects the mucus glands multi-systemically

Answer 144

A

autosomal recessive mutation on Chromosome 7 affecting the CFTR protein.

There are multiple mutations but Del-F508.
(phenylalanine is deleted)

This affects chloride channels.

Answer 145

A

1 in 25 are carriers of the gene

1 in 2500 are affected by CF

Answer 146

A

FHx
Known parental carriers
Caucasian (CF is the most common inherited condition in caucasians)

Answer 147

A

CFTR is an epithelial cAMP regulated chloride channel that normally actively secretes Cl- ions and passively secretes Na+ ions along with water into ductal secretions

This makes the ductal secretions thin and watery

Answer 148

A

Mutation in CFTR causes it to become dysfunctional.

CFTR has reduced function meaning that less Cl-, Na+ and water are released into ductal secretions leading to the thickening of the mucus secretion.

Answer 149

A

CFTR mutation leads to thick mucus secretions.

This causes impaired mucociliary clearance as the mucus is extra thick.

This leads to stagnation of mucus that contains pathogens which leads to increased infection risk.

The thicker mucus causes difficulty breathing

Trapping of mucosal pathogens can cause a inflammatory reaction which leads to an increased risk of bronchiectasis

Answer 150

A

Can lead to Meconium Ileus:
Stool becomes too thick to pass through the bowel leading to bowel obstruction.

Failure to thrive

Answer 151

A

Thick secretions from the pancreas can lead to pancreatic duct obstruction.
Pancreatic insufficiency and malabsorption of foods.
Bowel obstructions

Answer 152

A

Thicker biliary secretions leads to an increased risk of biliary obstruction.

Could lead to liver cirrhosis

Answer 153

A

CFTR mutation can cause atrophy of the vas deferens leading to infertility

Answer 154

A

Chronic cough w/Thick sputum production

Recurrent respiratory tract infections

Loose, greasy stools (steatorrhoea) due to a lack of fat digesting lipase enzymes

Abdominal pain and bloating

Most common cause of Meconium Ileus in infants

Parents may report the child tastes particularly salty when they kiss them, due to the concentrated salt in the sweat

Poor weight and height gain (failure to thrive)

Answer 155

A

Low weight or height on growth charts
Nasal polyps
Recurrent respiratory infections
Salty Sweat
Pancreatic Insufficiency
Finger clubbing
Crackles and wheezes on auscultation
Abdominal distention

Answer 156

A

New-born Blood spot test (Immuno-reactive Trypsin Test)

Sweat Test (gold standard)

Genetic testing for CFTR mutation)

Faecal Elastase Test - Pancreatic Insufficiency

CXR - Hyperinflation, Increased Pulmonary Markings, Bronchiectasis

Answer 157

A

Pilocarpine and electrodes placed on skin make it sweat.

Tested for Chloride Concentration.

A result of > 60 mmol/L (sweat chloride) is positive and requires referral to a cystic fibrosis specialist (normal value < 40 mmol/Ll)

Answer 158

A

Patients with cystic fibrosis struggle to clear the secretions in their airways.
This creates a perfect environment with plenty of moisture and oxygen for colonies of bacteria to live and replicate.

Answer 159

A

S. aureus
P. aeruginosa

+Haemophilus influenza
Klebsiella pneumoniae
Escherichia coli

Answer 160

A

Conservative:

Chest physiotherapy
Exercise
No smoking

Medication:

Anti-mucolytics - rhDNase
Prophylactic Flucloxacillin (prevent S. aureus), Amoxicillin (H. Influ), Ciprofloxacin (p.aeur)
Bronchodilators (SABA) + ICS
Vaccinations - Pneumococcal, Influenza, Varicella
Lung Transplant in progressive RF

Systemic Tx:

Pancreatic enzyme replacement
Vitamin Supplements
High calorie diet.

Answer 161

A

Chronic inflammation of the bronchi and bronchioles leading to permanent dilatation of central and medium-sized airways. This is due to inflammatory destruction of airway walls resulting in persistently infected mucous.

Commonly occurs secondary to CF

Answer 162

A

More common in women than men
May develop after lung infections
Pathological end point of many disease
Presents at any age but incidence increase with age

Answer 163

A

Chronic bronchial inflammation caused by :

Obstruction - Foreign bodies, Tumour, Thick Mucus
Previous infection - P. aeruginosa, TB
Allergy and Inflammatory conditions
Immunodeficiency - AIDS, Immunoglobulin Deficiency
Congenital - CF

Answer 164

A

Post Infection (TB/Pneumonia)
Increased Age
Smoking
Females
Genetics

Answer 165

A

Infection or chronic inflammatory conditions cause immune system activation.

This will secrete proteases that break down elastin in the bronchi walls leading to irreversible dilation of the bronchi

This leads to increased risk of microbial colonisation.

This causes mucus hypersecretion and trapping due to the dilated bronchi and damaged cilia there is impaired mucociliary escalator

This will lead to airway obstruction.

Answer 166

A

Emphysema is dilation of the acini and alveoli due to loss of elastin.

Bronchiectasis is dilation of the bronchi due to loss of elastin.

Answer 167

A

Dyspnoea/SOB
Productive cough with Copious sputum production
Haemoptysis (maybe)
Wheeze
Chest Pain

Answer 168

A

Hx of Chronic Productive cough and recurrent Chest infections
Foul Smelling Sputum

Auscultation:
Coarse Crackles on inspiration
High pitched inspiratory squeaks
Ronchi - Low pitch snore

Finger Clubbing

Answer 169

A

High resolution CT Chest: Gold Standard:
shows bronchial dilation and bronchial wall thickening (signet ring sign)

CXR - dilated airways with thickened walls appear as ‘tram-tracks’

Sputum cultures - infective organisms

Spirometry: Obstructive (FEV1/FVC < 0.7)

Answer 170

A

COPD
Asthma
TB
Chronic sinusitis
Pneumonia
Pulmonary fibrosis
Inhalation of foreign body

Answer 171

A

Non curative: Tx underlying cause if present.
Reduce RFs (stop smoking) and Chest Physiotherapy

Mucoactive agent (carbocisteine)
Bronchodilator - for asthma/COPD sufferers
Prophylactic Abx for acute exacerbations: (Pseudo (Ciproflox), Haem (Doxyc), S.aureus (fluclox)

Answer 172

A

Infective exacerbation
Chronic respiratory failure
Haemoptysis (may be massive and life-threatening)
Cor pulmonale
Pneumothorax
Chest pain

Answer 173

A

Excess fluid accumulation between the visceral and parietal pleura (pleural cavity)
Clinically detected when >500ml present
Detected on CXR when >300ml Present

Answer 174

A

Whether the fluid is:

Exudative - high protein count (>3g/dL)

Transudative - lower protein count (<3g/dL)

Answer 175

A

Exudative:
Occurs due to increased permeability and therefore leakiness of pleural space and/or capillaries, usually as a result of inflammation, infection or malignancy

Transudative:
Occurs when the balance of hydrostatic forces in chest favour accumulation of pleural fluid i.e. increased pressure due to the backing up of blood in left-sided congestive HF

Answer 176

A

Related to inflammation:
Trauma
Lung cancer
Pneumonia
Empyema
Rheumatoid arthritis
Tuberculosis

Answer 177

A

Fluid Moving (transport) across into the pleural space:
Increase Hydrostatic Pressure:
Congestive cardiac failure
Fluid Overload
Constrictive pericarditis
Meig’s syndrome

Decreased Oncotic Pressure:
Hypoalbuminaemia
Hypothroidism
Nephrotic Syndrome

Answer 178

A

right sided pleural effusion with ovarian malignancy

Answer 179

A

Inflammation leading to increased vascular permeability

This leads to increased protein leaking out of the vessels and accumulates in the pleural cavity.

Increased pleural oncotic pressure draws fluid into the pleural cavity leading to pleural effusion

Answer 180

A

Fluid shifting due to and increase in hydrostatic pressure (eg. in HF) or a decrease in oncotic pressure (eg.hypoalbuminaemia) causing leaking of fluid into pleural cavity

Answer 181

A

Pneumonia and malignancy

Answer 182

A

(congestive) Heart failure

Answer 183

A

Dyspnoea
Pleuritic chest pain (often exudate due to pleural inflammation/irritation)
Cough

Sx of underlying pathology:
Peripheral oedema - HF
Ascites - LF
Cough & fever - RTI

Answer 184

A

Reduced Chest expansion on affected side
Reduce breath sounds on affected side

Dull percussion (increased fluid)

Pleural friction rub/bronchial breathing

Tracheal Deviation

Answer 185

A

Pneumothorax

Answer 186

A

GS + 1st Line: CXR:
Shows Blunting of Costophrenic angles
Fluid in lung fissures (fluid appears white)
Tracheal/Mediastinal deviation (if massive effusion)

Thoracocentesis (Pleural fluid aspiration):
pH, Lactate, WCC, Microscopy
Determine Transudate or Exudate

Answer 187

A

Transudates - Bilateral (TB)
Exudates - Unilateral (EU)

Answer 188

A

Transudate – clear
Exudate – cloudy
Lymphatic – looks like milk

Answer 189

A

Conservative Mx:
Small effusions can be treated by Tx of underlying cause (often Transudative)

Infective Effusions:
Chest Drain - remove fluid (often Exudative)

Non-malignant:
Thoracocentesis - needle drainage for Sx effusions.

Recurrent:
Pleurodesis - injection that adheres visceral and parietal pleural

Answer 190

A

Pleurodesis:
Surgical fusing/injection that adheres the pleural layers together to prevent fluid accumulation between them

Answer 191

A

An infected Pleural Effusion (pus collects in pleural cavity)

Answer 192

A

PHAL:
Pus,
High LDH.
Acidic pH (pH < 7.2),
Low glucose

Answer 193

A

chest drain to remove the pus and antibiotics

Answer 194

A

An excess accumulation of air within the pleural space causing ipsilateral lung collapse.

Answer 195

A

Occurs spontaneously or secondary to chest trauma
Spontaneous pneumothorax most common in young males
Generally, more common in males
Patients often tall and thin
Most commonly occurs between 20-40

Answer 196

A

Spontaneous

Trauma

Iatrogenic - lung biopsy, mechanical ventilation or central line insertion

Lung pathology - infection, asthma or

COPD

Answer 197

A

Tall thin males
Connective tissue disorders (MF, EHD)
FHx
Smoking
Underlying Lung disease - COPD, Asthma
RA

Answer 198

A

Pleural space is normally a vacuum (no air) with a negative pressure

Breach in the pleura (trauma/CT disorders)
Leads to air entry into pleural cavity
Elastic recoil of the lung causes it to deflate

eg. Subpleural bullae burst
eg. Abnormal connection between pleural space and airways

Answer 199

A

Sudden onset
Sharp Pleuritic Chest pain
SOB

As pneumothorax enlarges, patient becomes more breathless and may develop pallor and tachycardia

Answer 200

A

Reduced breath sounds on affected side
Hyper resonant percussion (increased air)
Reduced chest expansion
Trachea Deviation away

Tachycardia/Tachypnoea
Hypotension - in Tension Pneumothorax

Answer 201

A

If suspected Tension Pneumothorax - Do not wait for Ix

GS + 1st Line: erect CXR
Excess air appears black
Tracheal Deviation to other side

CT thorax can be more sensitive for small pneumothoraxes (GS for smaller Pneumothoraxes)

Answer 202

A

Loss of lung markings
Visible visceral pleural edge
Radiolucent space

Avoid request in Tension-Pneumothorax as this wastes time

Answer 203

A

Primary:

No SOB / <2cm - Self limiting and discharge
SOB/>2CM - Needle aspiration

Secondary:

NO SOB/<1cm - Self limiting and Discharge
NO SOB/1-2cm - Needle Aspiration
SOB & >2cm - Chest Drain (5th ICS)

Tension:

Urgent Needle Decompression
ABCDE Management
High Flow Oxygen

Answer 204

A

MEDICAL EMERGENCY:
Caused by trauma to the pneumothorax where air can flow into the pleural space but it cannot lead due to the creation of a one way valve

Answer 205

A

Trauma creates a one way valve

During inspiration air is drawn into the pleural space and during expiration, the air is trapped in the pleural space.

More air keeps getting drawn into the pleural space with each breath and cannot escape.

Creates pressure inside the thorax that will push the mediastinum across, kink the big vessels in the mediastinum and cause cardiorespiratory arrest.

Answer 206

A

Tracheal deviation away from side of pneumothorax
Reduced air entry to affected side
Increased resonant to percussion on affected side
Tachycardia
Hypotension

Answer 207

A

High Flow Oxygen and Urgent Needle Decompression

LEARN BY HEART:
“Insert a large bore cannula into the second intercostal space in the midclavicular line on the side of the pneumothorax.”

Once pressure is relieved then chest drain.

Answer 208

A

Triangle of Safety:
The 5th intercostal space (or the inferior nipple line)
The mid axillary line (or the lateral edge of the latissimus dorsi)
The anterior axillary line (or the lateral edge of the pectoris major)

Answer 209

A

Umbrella term to describe conditions that affect the lung parenchyma (the lung tissue) causing inflammation and fibrosis.

Answer 210

A

Idiopathic Pulmonary Fibrosis
Pneumonoconiosis
Sarcoidosis
Hypersensitivity Pneumonitis

Answer 211

A

High resolution CT Thorax:
Shows Ground Glass appearance and honeycombing (mainly in the lower zones)

Spirometry - Restrictive Pattern

Lung Biopsy can confirm diagnosis on Histology

Answer 212

A

Generally the damage is irreversible and so supportive Tx to prevent progression.

Mx options:
Remove or treat the underlying cause
Home oxygen where they are hypoxic at rest
Stop smoking
Physiotherapy and pulmonary rehabilitation
Pneumococcal and flu vaccine

Answer 213

A

Progressive fibrosis and scarring of the lung parenchyma.

Answer 214

A

Idiopathic PF
Drug induced PF
Secondary PF

Answer 215

A

Condition of PF where there is no clear cause.

This is the most common ILD that is typically seen in older men who smoke.

Answer 216

A

Amiodarone
Cyclophosphamide
Methotrexate
Nitrofurantoin

Answer 217

A

Alpha-1 antitripsin deficiency
Rheumatoid arthritis
Systemic lupus erythematosus (SLE)
Systemic sclerosis

Answer 218

A

Smoking
Occupational causes (dust)
Increased age (60-70s)
Male
FHx

Answer 219

A

Progressive chronic lung damage
Causes Type II pneumonocytes to over proliferate during repair leading to excessive myofibroblast activation
Leads to Replacement of damaged lung parenchyma with collagen.
Causes excessive scarring and fibrosis.
Lungs fail to expand on inhalation
Thickens the interstitium between the capillary and alveoli causing impaired gas exchange

Can lead to Type 1 Respiratory Failure.

Answer 220

A

Pneumonoconiosis
Silicosis
Hypersensitivity Pneumonitis
Cystic Fibrosis
Sarcoidosis
Tuberculosis

Answer 221

A

Idiopathic Pulmonary Fibrosis
Drug Induced PF
Connective tissue Disorders (SLE)

Answer 222

A

Progressive Dyspnoea
Dry cough (no sputum)
Malaise

Answer 223

A

Bibasal fine inspiratory crackles (end respiratory)

Finger clubbing

Cyanosis

+ Sx of underlying pathology if Secondary PF

Answer 224

A

Spirometry: Restriction (FVC reduced, FEV1/FVC normal)

CXR - non specific but can be used to exclude other DDx

Gold Standard:
High CT thorax to confirm diagnosis = Ground glass & Honeycombing

Answer 225

A

Supportive Tx:
Smoking cessation
Pulmonary Rehabilitation
Oxygen Therapy
Vaccines

Antifibrotic Agents:
Pirfenidone or nintedanib (indicated if FVC is 50% - 80% of predicted)

Consider Lung Transplant

Answer 226

A

IPF has a poor prognosis, with median survival ranging from 2.5 - 3.5 years after diagnosis.

Answer 227

A

Interstitial lung fibrosis that occurs secondary to inhalation of occupational triggering antigens that cause an inflammatory reaction.

Answer 228

A

Silicosis - Inhalation of silicon dioxide
Asbestosis - Inhalation of asbestos

Answer 229

A

Particles (Dust, asbestos, silica) are inhaled, they reach the terminal bronchioles and are ingested by interstitial and alveolar macrophages.

Dust particles are carried by macrophages and expelled as mucus.

In chronic exposure (occupation), this process is no longer functional and macrophages accumulate in alveoli,

Resulting in immune system activation and lung tissue damage.

Fibroblasts then arrive and deposit excess collagen to cause lung fibrosis

Answer 230

A

Male
Increasing age
Substance exposure - Coal, dust, silicon, asbestos etc

Answer 231

A

Exertional Dyspnoea
Dry Cough
Haemoptysis
Wheezing
Weight loss

Answer 232

A

Mesothelioma

Answer 233

A

CXR:
Coal Workers Lung - Nodular opacities in upper lobes
Silicosis - Eggshell calcification of hilar lymph nodes
Asbestosis - Pleural Thickening and Calcification

Spirometry: Restrictive and reduced DLCO

High-Res CT chest: interstitial fibrosis

Microscopic Exam - Ferruginous Bodies - Asbestos fibres coated in macrophages

Answer 234

A

Conservative Mx as incurable:

Stop smoking
Avoid exposure

Answer 235

A

A Type of Interstitial Lung disease

A multi-systemic Granulomatous inflammatory condition characterised by non-caseating granulomas depositing in many tissues

Answer 236

A

Unknown: Thought to be a type 4 Hypersensitivity reaction.

Idiopathic

Answer 237

A

Afro-Caribbean and Scandinavian ethnicity
Young adults: 20-40 yrs
Female gender
Family history

Answer 238

A

Sx can range from ASx to life threatening

Typical patient:
patient is a 20-40 year old black woman presenting with a dry cough and shortness of breath. They may have nodules on their shins suggesting erythema nodosum.

Answer 239

A

Typically affects the lungs (90%)

But can present will many extra-pulmonary symptoms as it can affect any system of the body

Answer 240

A

Dry cough
Dyspnoea
Mediastinal lymphadenopathy

Constitutional Sx:
Weight loss, Fatigue and fever

Answer 241

A

Common: (PESH)

Peripheral lymphadenopathy
Eye – anterior uveitis
Skin –Erythema nodosa, skin papule
Hepatosplenomegaly

Less common:

Bone
Heart – arrhythmias
CNS
Kidney

Answer 242

A

specific presentation of sarcoidosis. It is characteristic by a triad of:

Erythema nodosum
Bilateral hilar lymphadenopathy
Polyarthralgia (joint pain in multiple joints)

Answer 243

A

Tuberculosis (caseating)
Lymphoma
Hypersensitivity pneumonitis
HIV
Toxoplasmosis
Histoplasmosis

Answer 244

A

First Line:

CXR - Bilateral Hilar lymphadenopathy and pulmonary infiltrates/nodules
CXR often used for staging

CT Chest (may also be used)

GS Diagnostic:

Biopsy (non caseating granuloma)

Other:

Spirometry - Restrictive
Bloods:
- Hypercalcaemia - Excess Vit D produced by macrophage
- Elevated ACE due to granulomas

Answer 245

A

Staging
Stage 0 – no changes
Stage I – bilateral hilar lymphadenopathy
Stage II – bilateral hilar lymphadenopathy and diffuse interstitial disease
Stage III – interstitial disease only (reticulonodular pattern)
Stage IV – pulmonary fibrosis (honeycombing)

Answer 246

A

U&Es - kidney involvement
Urine dipstick - proteinuria indicating nephritis
LFTs - liver
Ophthalmology review - eye
ECG/ECHO - heart
Abdo USS - liver and kidney

Answer 247

A

ASx/Mild: No Tx is 1st Line:
85% of stage 1 resolve spontaneously
50% of stage 2 resolve spontaneously

When Tx required:
1st Line: Oral Prednisolone (+bisphosphonates to protect against OP)

2nd Line: Methotrexate/Azathioprine

Answer 248

A

Can progress to Pulmonary Fibrosis
Pulmonary HTN

Answer 249

A

Type 3 hypersensitivity reaction to an environmental allergen that causes parenchymal inflammation and destruction.

Answer 250

A

Allergen is inhaled and picked up by alveolar macrophages which take it to the nearest lymph node.

antibodies against allergen (IgG) form Ab-Ag complexes.

These complexes get deposited in the lung tissues and alveoli.

Complement is activated which causes acute inflammation of the lung tissue causing pneumonitis

Chronically this can lead to pulmonary fibrosis

Answer 251

A

Bird-fanciers lung is a reaction to bird droppings

Farmers lung is a reaction to mouldy spores in hay

Mushroom workers’ lung is a reaction to specific mushroom antigens

Malt workers lung is a reaction to mould on barley

Answer 252

A

Acute - Sx develop <12 hrs post exposure and resolve typically < 48 hrs

Chronic - Develop often after lower levels but prolonged exposure to allergens

Answer 253

A

Sx develop <12 hrs after a good amount of exposure and resolve after 48 hrs

Fever
Rigors
Headache
Myalgia
Shortness of breath
Cough
Chest tightness

Answer 254

A

Sx develop over prolonged exposure (often lower levels for long time)

Progressive cough
Progressive Dyspnoea
Fatigue
Weight loss

Fibrosis is evident

Answer 255

A

Bronchoscopy with Bronchoalveolar lavage:
Biopsy shows raised T Lymphocytes in bronchi, alveoli and non-caseating granulomas

High Res CT - Ground glass (upper lobes) and centrilobular nodules. Reticular opacity

Spirometry/ Pulmonary function test - Restrictive

Serology - Specific Igs

Answer 256

A

Remove the allergen

Steroids (glucocorticoids) can help with symptoms

Give oxygen if necessary

Answer 257

A

An autoimmune disease characterised by Anti-GBM autoantibodies that attack the lungs and kidneys.
A type of Pulmonary Vasculitis

Answer 258

A

Type II Hypersensitivity Reaction

Lung alveolar basement membranes and kidney glomerular basement membranes are made up of Type IV collagen (containing alpha 3, 4, and 5 strands)

Environmental toxins (smoking/infection) pass through the kidneys (via blood) or the lungs (inhalation) and damage the collagen exposing the strands.

Autoantibodies against the alpha3 chain of collagen bind and activate the Classical complement system.

This leads to inflammation of the lungs and kidneys that can cause pulmonary fibrosis and glomerular nephritis.

Answer 259

A

Genetics - HLA-DR15

infection
Smoking
Oxidative stress

Answer 260

A

Constitutional Sx:
Lethargy
Fever
Anorexia
Weight loss
Myalgia

Pulmonary Sx:
Cough
Haemoptysis
Dypsnoea

Kidney Sx:
Haematuria and proteinuria

Answer 261

A

Biopsy often of kidney /lung:
Shows inflammation of BM and fluorescence testing for auto Abs
Microscopy - Crescent Glomerulonephritis

Serology: Anti-GMB +tve

Answer 262

A

Corticosteroids
Immunosuppressants - Cyclophosphamide
Plasmapheresis

Answer 263

A

Resting mPAP >25mmHg at rest.

Answer 264

A

Right heart catheterisation.

Answer 265

A

Reactive pulmonary vasoconstriction due to hypoxaemia

The increased resistance in the pulmonary vasculature leads to increased pressure in the right ventricle

This results in increased ventricular filling and stroke volume, which further increases pulmonary arterial pressure

Over time, right ventricular hypertrophy develops as it compensates for the increased afterload.

Answer 266

A

Primary pulmonary HTN - Idiopathic/CT disorders (MF, EHD)
Left heart disease - VHD, HF, HOCM
Chronic Lung disease - COPD, Asthma
Pulmonary vascular disease - PE/Tumour
Unclear/multifactorial - Sarcoidosis, Haematological disorders

Answer 267

A

Progressive breathlessness
Exertional Dizziness/syncope
Fatigue

Sx of underlying pathology

Answer 268

A

Loud S2 heart sound - pulmonary side
Raised JVP
Pulmonary/Tricuspid regurgitation
Tachycardia
Hepatomegaly
Peripheral oedema
Right parasternal heave - due to RV hypertrophy

Signs of underlying pathology

Answer 269

A

1st Line: ECHO:
RV function, enlargement and Pressures

Gold Standard (diagnostic) Right heart Catheter

CXR - RVH, Enlarged proximal PA

ECG:
Right Ventricular Hypertrophy
Right axis deviation
Right bundle branch block

Answer 270

A

Larger R waves on the right sided chest leads (V1-3) and S waves on the left sided chest leads (V4-6)

Answer 271

A

Primary P HTN:
Phosphodiesterase-5 inhibitors (SILDENAFIL)
IV prostanoids (Epoprostenol)
Endothelin receptor antagonists (Macitentan)

Secondary P HTN:
Tx underlying cause

Supportive Tx for complications:
Respiratory failure, HF, arrythmias

Answer 272

A

Right heart failure: due to increasing pulmonary pressures
(Can lead to biventricular failure)

Pericardial effusion and tamponade

Hepatic congestion: due to worsening right heart failure

Answer 273

A

A malignant neoplasm of the mesothelial cells of the pleura

Answer 274

A

Asbestos Exposure

Typically doesnt present until decades after the exposure

Answer 275

A

Asbestos Exposure (85% of cases have Hx)
Increasing age (40-70)
Males

Answer 276

A

More common in men
Often presents between 40-70
Latent period between exposure and development of tumour may be up to 45 years

Answer 277

A

SOB
Cough
Persistent Pleuritic chest pain

Constitutional Cancer Sx:
Fatigue, fever, night sweats, weight loss

Sx of metastases: bone pain etc

Answer 278

A

Tumour presses on recurrent laryngeal nerve

Answer 279

A

Finger clubbing
Reduced breath sounds
Stony Dull Percussion

Ascites (if peritoneal disease present)

Answer 280

A

First Line: Imaging:
CXR - pleural thickening +/- effusion
Contrast Enhanced CT

Bronchoscopy + Biopsy (Gold Standard for Dx)

Answer 281

A

Surgery (if operable) otherwise Palliative:
Extrapleural pneumonectomy
Pleurectomy with decortication
Rarely curative

+/- Chemotherapy:
Cisplatin
Pemetrexed

+/- Radiotherapy

Answer 282

A

Primary Bronchial Carcinomas

Answer 283

A

By Histology:

Small Cell Lung Cancer (SCLC): 20%

Non-Small Cell Lung Cancer (NSCLC): 80%
- Adenocarcinoma (40%)
- Squamous cell Carcinoma (20%)
- Large Cell Carcinoma (10%)
- Carcinoid/other (10%)

Answer 284

A

Bones
Liver
Adrenal Glands
Brain
Lymph Nodes

Answer 285

A

3rd most common cancer in the UK and 1/3rd of all cancer deaths
(behind breast and prostate)

Male:Female - 2:1

Kills 35,000 people in the UK
(more than Breast and Colorectal combined)

Answer 286

A

Smoking (BIGGEST CAUSE)
Asbestos
Coal
Ionising radiation
Underlying lung disease

Increasing age
FHx

Answer 287

A

SHOE:
Smoking (most common - 90%)
Host factors - Pre-existing lung disease, Genetics, HIV
Occupational - Coal, Asbestos, Nickel
Environmental - Ionising Radiation, Radon

Answer 288

A

15% of primary lung cancers.
Derived from neuroendocrine APUD cells
Has Central lung lesions

Rapidly grows and Px often present at an advanced stage.

Answer 289

A

Exclusively smokers

Answer 290

A

No of Cases - 15% of Lung Cancer

Location - Central lesions near main bronchus

Derived - From neuroendocrine cells - makes them responsible for paraneoplastic syndromes

Paraneoplastic Syndromes:
Ectopic ACTH - Cushing’s
Ectopic ADH - SIADH
Lambert Eaton Syndrome (NMJ disorder)

Answer 291

A

Adenocarcinoma

Answer 292

A

Number of cases: 40% of NSCLC

Location: Peripheral Lesion

Originates: Mucus Secreting Glandular Cells

Affects: Non-smokers mainly

Paraneoplastic Syndromes:
- Hypertrophic Pulmonary Osteoarthropathy
- Gynaecomastia

Answer 293

A

Number of cases: 20% NSCLC

Location: Central Lesion

Originates: From Lung Epithelium and has central necrosis

Affects: Smokers typically

Paraneoplastic Syndromes:
- Hypertrophic Pulmonary Osteoarthropathy
- PTHrp - Hypercalcaemia

Answer 294

A

Number of cases: <10% NSCLC

Location: Rare Peripheral

Originates: From mature Neuroendocrine cells related to MEN1 mutation

Affects: MEN1 mutations and neurofibromatosis

Paraneoplastic Syndromes
Secretes Serotonin

Answer 295

A

Number of cases: <10% NSCLC
Location: Peripheral lesion commonly but can be found anywhere in lungs
Originates: Lacks both glandular and squamous differentiation

Paraneoplastic Syndromes
- Ectopic B-hCG production

Answer 296

A

Cough w/haemoptysis
Shortness of breath
Pleuritic Chest pain

Constitutional Sx of Cancer:
Fever
Night sweats
Weight loss
Loss of appetite

Answer 297

A

Reduced Breath sounds
Stony Dull Percussion - suggests malignant pleural effusion
Hoarseness (press on RLN)
Lymphadenopathy
Clubbing
Recurrent chest infections
Paraneoplastic Changes

Answer 298

A

First line: CXR
Hilar enlargement
Peripheral opacity – a visible lesion in the lung field
Pleural effusion – usually unilateral in cancer
Collapse

Staging - CT Thorax with contrast scan if abnormal CXR

GS Diagnostic: Bronchoscopy + Biopsy

Answer 299

A

TNM classification
Tumour – how big it is
T1 – <3cm
T2 - >3cm
T3 – invades chest wall, diaphragm and pericardium
T4 – invades mediastinum, heart, great vessels, trachea, oesophagus, vertebra, carina

Nodes – how many and where they are
N0 - none
N1 – Hilar nodes
N2 – same side mediastinal nodes or subcarinal
N3 – contralateral mediastinum or supraclavicular

Metastases
0 - none
1a – tumour on same side
1b – tumour elsewhere
X - unknown

Answer 300

A

SCLC is more aggressive

Answer 301

A

Often Diagnosed late and Px have metastatic disease:

Therefore
Chemo/radiotherapy (Cisplatin)
palliative care

Answer 302

A

Early: Surgical Excision + adjuvant therapy

Late/Metastatic:
palliative treatment with immunotherapy, chemotherapy, and radiotherapy

(Nb. NSCLC has poor response to chemotherapy)

Answer 303

A

Recurrent laryngeal nerve palsy
Horner’s syndrome (Pancoast tumour)
SVC obstruction
Paraneoplastic Syndromes
Bone pain/Hypercalcaemia

Answer 304

A

Secondary are More common than Primary:

Lungs oxygenate 100% of blood and therefore they come into contact with all blood. This increases the risk of metastasis.

Answer 305

A

Mets from:
Breast
Kidney
Bowel
Bladder

Answer 306

A

A tumour in the lung apex that commonly metastasises to the necks sympathetic plexus and can press on the sympathetic ganglion causing Horner’s Syndrome:
Triad of Ptosis, Miosis and Anhidrosis

Answer 307

A

HORNERS Syndrome characterised by:
Ptosis - Droopy eyelids
Myosis - Excessive Pupil Constriction
Anhidrosis - Lack of sweating

Answer 308

A

Obstruction of the pulmonary vasculature, secondary to an embolus.

Answer 309

A

Embolus enters Right heart via IVC
It enters pulmonary vasculature
This causes occlusion of small blood vessels
Causes V/Q mismatch as blood cannot gas exchange.
Causes Hypoxic vasoconstriction and reactive bronchoconstriction.
Narrows airways leading to Dyspnoea

Hypoxic vasoconstriction increases pulmonary vascular resistance causing Pulm HTN.
This causes RV heart strain and hypertrophy.
Eventually this leads to RHF (Cor Pulmonale)

Answer 310

A

Anything affecting Virchow’s Triad:

Endothelial Injury:
Smoking, HTN, Trauma

Venous Stasis:
Immobility, Post surgery, AF, Obesity

Hypercoagulability - OCP, Polycythaemia, Malignancy

Answer 311

A

Sudden onset Shortness of breath
Cough with or without blood (haemoptysis)
Pleuritic chest pain
Dyspnoea/Tachypnoea
Syncope (RED FLAG)

Answer 312

A

Hypotension
Tachypnoea
Tachycardia
Raised respiratory rate
Low grade fever
Haemodynamic instability causing hypotension
Raised JVP
Hypoxia

Answer 313

A

Tachypnoea (RR >16/minute): 96%
Crackles: 58%
Tachycardia (HR >100): 44%
Fever (temp >37.8°C): 43%

Answer 314

A

WELLS Score:
<4 Unlikely PE - perform D-dimer. - if >500ng/ml then perform CT Pulmonary Angiogram.

> 4 Likely PE - Perform CTPA (GS): Will diagnose PE clot.

CXR - Exclude other pathology (typically normal in PE)
ECG - S1Q3T3

Answer 315

A

ECG: S1Q3T3
Deep S waves in lead I
Deep Q waves in lead III
T waves inverted in Lead III
RBBB V1-3 & Sinus Tachycardia

CXR - usually normal

CTPA - GS diagnostic

Bloods:
D-Dimer
Anti-phospholipid Abs - in unprovoked DVT/PE

Answer 316

A

Anticoagulants:
1st Line:
DOAC (Rivaroxaban, Apixaban)
(LMWH if DOAC CI)

2nd Line: Warfarin

Answer 317

A

Thrombolysis (clot busting) - Alteplase

If fails - Catheter embolectomy

Answer 318

A

Compression Stockings
Regular walking
SC LMWH

Answer 319

A

A symptom of difficult or laboured breathing

Answer 320

A

Assess degree of baseline functional disability due to Dyspnoea

Grade 0: I only get breathless with strenuous exercise

Grade 1: I get short of breath when hurrying on level ground or walking up a slight hill

Grade 2: On ground level I stop for breath when walking at own pace

Grade 3: I stop for breath after walking about 100 yards or after a few minutes on level ground

Grade 4: I am too breathless to leave the house or I am breathless when dressing/undressing

Answer 321

A

Pneumonia
Asthma
PE
Pneumothorax

Answer 322

A

COPD
Idiopathic Pulmonary Fibrosis
Bronchiectasis

Answer 323

A

ACS
Stable angina
Chronic HF
Pericarditis

Answer 324

A

Pleural Effusion
Lung Cancer
Interstitial Lung Disease (pneumonoconiosis)

Answer 325

A

Carditis (end, myo, peri)
Valvular dysfunction
Cardiomyopathy
Acute HF

Answer 326

A

Musculoskeletal
Anxiety
Metabolic acidosis:
- DKA
- Acute renal failure

Answer 327

A

Impaired Ventilation:
Neural problems
Mechanical problems (obstruction);
- COPD
- Asthma
- OSA
- Pneumonia

Impaired Perfusion:
Pulm HTN
HF
PE
Shunt (VSD)

Impaired Gas Exchange:
Emphysema
ILD
Idiopathic Pulmonary Fibrosis

Answer 328

A

Type 1 respiratory failure occurs when the respiratory system cannot adequately provide oxygen to the body, leading to hypoxemia.

Answer 329

A

Type 1 = 1 change (O2)

pO2 (partial O2 pressure) is low
pCO2 (partial CO2 pressure) is low or normal

Answer 330

A

Pulmonary Embolism

Answer 331

A

Type 2 respiratory failure occurs when the respiratory system cannot sufficiently remove carbon dioxide from the body, leading to hypercapnia

Answer 332

A

Type 2 = 2 changes (O2 & CO2)

pO2 is low
pCO2 is high

Answer 333

A

Hypoventilation: Caused by
COPD
Neuromuscular weakness
Obesity
Chest wall deformity
Reduced respiratory drive (opiates)

Answer 334

A

Bounding pulse
Flapping tremor (asterixis)
Confusion
Drowsiness
Reduced consciousness

Answer 335

A

Transfer Coefficient of oxygen/CO

the ability of the lungs to transfer gas from inhaled air to the red blood cells in pulmonary capillaries

Answer 336

A

Can calculate by inspiring a small amount of carbon monoxide (not too much since can kill)
hold breath for 10 seconds at total lung capacity (TLC) then the gas transferred is measured

Answer 337

A

Pulmonary haemorrhage - can absorb O2 very efficiently due to bleeding resulting in more red blood cells being available

Answer 338

A

Severe emphysema
Fibrosing alveolitis
Anaemia
Pulmonary hypertension
Idiopathic pulmonary fibrosis
COPD

Answer 339

A

Due to restriction, lung volumes are small (lower TLC and therefore FVC) and most of breath is out in first second (normal FEV1)

Answer 340

A

Epiglottitis.
Laryngitis.
Pharyngitis (sore throat).
Sinusitis (sinus infection).
Whooping Cough
Croup
(Otitis Media)

Answer 341

A

Between the nose to the larynx above the vocal cords

Answer 342

A

Old age
Smoking
Alcohol use
ETT/nasotracheal intubation
Respiratory therapy
Hypoxaemia
Acidosis
Toxin inhalation
Immunosuppression
Malnutrition

Answer 343

A

Adults will have 2-3 URTIs each year.
Most commonly caused by Viruses (rhinovirus)

Answer 344

A

Rhinoviruses (45-50%)
Influenza A virus (25-30%)
Coronaviruses (10-15%)
Parainfluenza viruses (5%)
Respiratory syncytial viruses (5%

Answer 345

A

Coryzal Sx:
Nasal stuffiness, runny nose, sneezing, sore throat, and cough.

Answer 346

A

Inflammation of the pharynx w/wo exudate production

Answer 347

A

Viral - EBV, Adenovirus

Bacteria - Group A Strep (S. pyogenes)

Answer 348

A

Sore throat
Fever
Cough (viral + bacterial)
Nasal congestion (viral)
Exudate (bacterial)

Answer 349

A

Rheumatic fever
(typically 2-4 weeks post S. pyogenes infection.

Answer 350

A

Viral - self limiting

Bacterial - Amoxicillin/Flucloxacillin

Answer 351

A

inflamed mucosa of nasal cavity and nasal sinuses

Answer 352

A

Viral infection - Most common
Bacterial infection - S. Pneumo / H. Influ

Answer 353

A

Symptoms
Fontal headache
Facial pain
Fever

Signs
Purulent nasal discharge
Tenderness

Answer 354

A

Symptoms
Fontal headache
Facial pain
Fever

Signs
Purulent nasal discharge
Tenderness

Answer 355

A

Self limiting
Usually lasts <10 days and has non-purulent discharge

Answer 356

A

May last >10 days and have purulent discharge

Symptoms for less than 10 days: No antibiotics.

No improvement after 10 days: 2 weeks of high-dose steroid nasal spray

No improvement after 10 days and likely bacterial cause: consider delayed or immediate prescription of antibiotics (Amoxicillin)

Answer 357

A

Middle ear infection and inflammation
(commonly affects children)

Presents with ear pain

Answer 358

A

Bacterial or Viral

Answer 359

A

Otoscopy examination will reveal a bulging red tympanic membrane.

If the ear drum perforates there can be discharge from the ear.

Answer 360

A

Otitis media usually resolves within 3-7 days without antibiotics.

An appropriate initial antibiotic in the community:
Amoxicillin

Alternatives in penicillin allergy:
Clarithromycin
Erythromycin

2nd Line: Co-Amoxiclav

Answer 361

A

Epiglottitis refers to inflammation and localised oedema of the epiglottis, which can result in potentially life-threatening airway obstruction.

Answer 362

A

Haemophilus Influenza B

Answer 363

A

Peak age 6-12 (can occur at any)
Male gender
Unvaccinated
Immunocompromised

Answer 364

A

Rapid Onset:
Dysphagia
Dysphonia (stridor)
Drooling
Distress

Answer 365

A

Stridor
Tripod Position: A sign of respiratory Distress
Lean forward, mouth open, tongue out = max air in)
Pyrexia

Answer 366

A

If acutely unwell then NO Ix but immediate Tx

Laryngoscopy (GS):
swelling and inflammation of the epiglottis or supraglottis.

Lateral neck radiograph:
Thumb print sign

Answer 367

A

EMERGENCY
First Line:
- Secure airway
- Nebulised adrenaline
- IV antibiotics - Amoxicillin, Co-Amoxiclav, Erythromycin, Doxycycline

Second Line:
- Dexamethasone

Answer 368

A

Acute infective upper respiratory infection causing oedema in the larynx
(Acute Larygnotracheobronchitis)

Answer 369

A

Children between 6 months and 2 years old

Answer 370

A

Main cause: Parainfluenza virus

Influenza
Adenovirus
Respiratory Syncytial Virus (RSV)

Answer 371

A

Usually improves in <48 hours

Increased work of breathing
“Barking” cough, occurring in clusters of coughing episodes
Hoarse voice
Stridor
Low grade fever

Answer 372

A

Oral Dexamethasone (single dose 150mcg/kg)

Answer 373

A

Upper respiratory tract infection caused by Bordetella pertussis

Answer 374

A

Mainly children
90% <5yrs

Answer 375

A

Haemagglutinin and fimbriae adhere to cilia of URT.
Adenylate cyclase toxin inhibits phagocyte chemotaxis
Pertussis toxin inhibits alveolar macrophages

Answer 376

A

Catarrhal stage (1-2 weeks):
- Dry, unproductive cough
- Low-grade fever
- Conjunctivitis
- Coryzal symptoms

Paroxysmal stage (1-6 weeks):
- Coughing fits: typically consist of a short expiratory burst followed by an inspiratory gasp, causing the ‘whoop’ sound
- Post-tussive vomiting

Convalescent stage (lasts up to 6 months):
Gradual improvement in symptoms

Answer 377

A

Whoop sound caused sharp inhalation of breath during coughing bout

Answer 378

A

Nasopharyngeal swab/aspirate:
Culture/PCR

Anti-pertussis toxin immunoglobulin G (IgG) serology

Answer 379

A

Notify PHE
Hospital admission if severe

Antibiotics: if Cough Sx is within 21 days
Macrolids - Clarithromycin, Azithromycin

School work absence: highly contagious

Answer 380

A

Pneumonia
Encephalopathy
Otitis media
Injuries from coughing - pneumothorax
Seizures.

Answer 381

A

Acute - Sx develop <12 hrs post exposure and resolve typically < 48 hrs

Chronic -

Answer 382

A

Rule of L:
Shifts to L → Lower oxygen delivery, caused by
Low [H+] (alkali)
Low pCO2
Low 2,3-DPG
Low temperature

Answer 383

A

‘CADET, face Right!’
For CO2, Acid, 2,3-DPG, Exercise and Temperature

Raised [H+] (acidic) (from exercise)
Raised pCO2
Raised 2,3-DPG*
Raised temperature

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Respiratory COPY COPY Flashcards

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