Pulmonary Embolism
-Disruption of the flow of blood in the pulmonary artery due to a thrombus
- Part of a thrombus in the leg (DVT) breaks off and travels to the lungs
- Other causes = air, fat, tumour cells
Causes
- Virchow's Triad: Hypercoagulability, venous stasis, endothelial injury |
- Genetic |
- Prolonged immobilisation: Bed rest >3 days, >4 hours travel, recent orthopaedic surgery, malignanct, venous catheter, obesity, pregnancy, smoking, oral contraceptive pill |
- F# of lower limb |
- Hospitalisation for heart failure/atrial fibrillation/flutter within 3 months |
- Hip/knee replacement |
- Major trauma |
- Hx of previous DVT/PE |
- Central venous lines |
- Chemotherapy |
- Heart failure/respiratory failure |
- Hormone replacement therapy |
- Postpartum period |
- Infection (UTI, pneumonia, HIV) |
- Cancer ( Pancreatic, haemtological, lung, gastric, brain highest risk) |
Types
- Haemodynamically unstable: PE that results in hypotension (<90mmHg) or drop of systolic blood pressure of >40mmHg more likely to die from obstructive shock (severe right ventricular failure) |
- Haemodynamically stable: Small can be symptomatic/asymptomatic , mild hypotension stablises with fluid therapy or right ventricle dysfunction |
Pathology
- Can be multiple - lower lobes more affected |
- Large ones obstruct pulmonary artery, smaller ones block peripheral arteries |
- Impaired gas exchange occurs |
- Mismatch in ventilation to perfusion ratio - dead space ventilation and hypoxemia |
- Serotonin released - vasospasm and pulmonary flow further decreased |
- Inflammatory mediators - alteration of lung surfactant - hypocapnia and respiratory alkalosis |
- Right ventricular dilation and flattening/bowing of the interventricular septum due to increased PVR |
- RBB |
Presentation
- Dyspnea |
- Pleuritic chest pain (pleural irritation) |
- Cough |
- Haemoptysis |
- Presyncope/syncope |
- Arrhymias |
- Haemodynamic collapse |
- Assess risk factors with Virchows triad |
- Tachypnea and Tachycardia |
- DVT signs (Calf swelling/redness/warmness), palpable cords, pedal oedema, rales, decreased breath sounds, pulmonary hypertension ( elevated neck veins, loud P2, right sided gallop, right ventricular parasternal lift) |
Investigations
- Arterial Blood Gas analysis - Widened alveolar-arterial gradient for oxygen, respiratory alkalosis, hypocapnia |
- Brain Natriuretic Peptide (BNP) - RV pressure overload releases B-type natriuretic peptide and N-terminal - proBNP (Blood test) |
- Troponin - RV dysfunction |
- D-Dimer (ELISA) - thrombotic process (high negative predictive value) |
- ECG - usually nonspecific - tachycardia, nonspecific ST and T-wave changes |
- Chest X-ray - usually normal/nonspecific, Hamptons hump, Westermark's sign |
- Computed Tomographic Pulmonary Angiography (CTPA) - |
-Lung Scintigraphy |
- Pulmonary Angiography |
- MRA - low sensitivity, low availability |
- US for DVT |
CXR
Left: Hampton's Hump: Dome/wedged shaped opaque
Right: Westermark's sign lucency of the lung on x-ray due to lack of blood in the lung
CPR (Geneva)
- Previous PE/DVT - 3/1 |
- Heart Rate
- 75-94 BPM - 3/1
- >95 BPM - 5/2 |
- Surgery/f# within past month - 2/1 |
- Haemoptysis - 2/1 |
- Active Cancer - 2/1 |
- Unilateral lower limb pulses - 3/1 |
- Pain on lower limb deep palpation and unilateral oedema - 4/1 |
- Age >65 years - 1/1 |
Three level score =
Low /0-3/0-1
Intermediate/4-10/2-4
High - >11/>5
Two level score:
PE unlikely - 0-5/0-2
PE likely - >6/>3
Management
- Send to A&E |
- Anticoagulant: Heparin then oral anticoagulant therapy |
- Prophylaxis in severe cases |
Pneumonia
- Acute inflammation of and around the alveolis and terminal bronchioles - neutrophils
- Oedema and inflammation consolidate the affected lobe
- Can be bacterial/viral/fungal/parasitic
Pathogens
Viral: |
Bacterial: |
- Respiratory Syncytial Virus (RSV) |
- Streptococcus pneumoniae |
- Rhinovirus |
- Haemophilis influenzae |
- Influenza A,B,C (A greatest cause of mortality) |
- Staphylococcus aureus |
- Human Metapneumovirus (SARS) |
- Group A strep |
- Parainfluenza 1,2,3,4 |
- Moraxella catarrhalis |
- Human Bocavirus Coronavirus |
- Anaerobes and aerobic gram negative bacteria |
- Adenovirus |
- Legionella |
- Enteroviruses |
- Mycoplasma pneumoniae |
- Varicella-Zoster virus |
- Chlamydia pneumoniae |
- Hantavirus |
- Chlamydia psittaci |
- Epstein-Barr (EBV) |
- Human Herpesvirus 6 &7 |
- Herpes simplex virus |
- Minimi virus Cytomegalovirus (CMV) |
- Measles |
- MERS (Coronavirus) |
- Metapneumovirus |
Causes
- Age (Young children/elderly) |
- Pregnancy (usually viral) |
- Immune compromised
- Chemotherapy/Radiation
- Immunosuppresive medications
- HIV/AIDS
- Inherited diseases : |
- Trauma/ Severe burns |
- Uncontrolled diabetes |
- Malnutrition |
- Poverty |
- Environmental exposure |
- Group living |
Presentation
Viral: |
Bacterial: |
- Gradual |
- Sudden |
- No/lower temperature |
- Purulent/bloody sputum |
- Hx of immunosuppression |
- Temperature (>38C) & increased RR (>18 breaths per minute) |
- Hx of HIV |
- Exposure to animals, crowds, water, air conditioning , aspiration |
- Hx of solid organ/haemtopoietic transplantation |
- Tachycardia/Tachypnoea |
- Hx of neoplasm |
- Chills |
- Flu/GI symptoms |
- Myalgia/arthralgia |
- Tachycardia/Tachypnea |
- Fatigue |
- Usually affects lungs bilaterally |
- Headache |
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- Atypical pneumonia presents with GI and altered mental state |
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- Pleuretic chest pain |
Both: Dull on percussion, chest expansion reduced unilaterally, crackles heard on auscultation (lung bases) |
Sputum:
S.pneunomiae: Rust coloured
Pseudomonas , haemophilius: Green
Kiebsella: Red currant jelly
Anaerobes: Foul smelling, bad tasting
Investigations
Laboratory: |
- ELISA (viral) |
- Blood cultures (not sensitive) |
- CRP, ESR |
- Urine testing |
- Sputum culture |
Chest X-ray - can differentiate between viral and bacterial pneumonia |
- Chest CT - if normal chest x-ray and high suspicion of pneumonia (+ve parenchymal defects) |
Chest X-ray
Bacterial:
Alveolar infiltrates
Lobar consolidation
Nodular densities
Pleural effusion
Viral:
Interstitial infiltrates - patchy and bilateral
X-ray usually unremarkable
Management
Viral: |
Bacterial: |
Influenza: Oseltamivir/preamivir/zanamivir |
Fluoroquinolone/macrolide and beta-lactam |
RSV: Ribavirin |
Stop smoking |
Parainfluenza: Ribavirin |
Hydration |
HSV: Acyclovir |
Chest physical therapy |
Adenovirus: Ribavirin |
Upright position |
Measles: Ribavirin |
Nutrition |
CMV: Ganciclovir/foscarnet |
Bronchodilators |
VZ: Acyclovir |
Pulse oximetry monitoring |
DDx
- Any other type of pneumonia |
- Bronchitis/Bronchiectasis/bronchiolitis |
- Sarcoidosis |
- Amyloidosis |
- Pulmonary oedema/hypertension/embolism/fibrosis |
- Hyperreactive airway disease |
- Aspiration of a foreign body |
- Atelectasis |
- Lung abscess |
- Respiratory failure |
If in children consider: Asthma , Bronchiolitis, Croup, Respiratory distress syndrome, Epiglottitis as DDx |
Prognosis
Viral: |
Bacterial: |
- Depends on virulence of the virus - hantavirus, SARS, MERS worse prognosis |
- Age (>60 most at risk) |
- Immunocompromised patient - HIV worse prognosis |
- Comorbidities |
- Comorbidities (COPD, CHF, Diabetes, cancer, haematological dyscrasias increase risk of death and complications) |
- Antibiotic resistance of bacteria |
- Presence/absence of concomitant bacterial infection |
- Type of bacteria - pseudomonas, staphylococcus aureus highest mortality |
- Time between diagnosis and treatment |
Complications
Viral: |
Bacterial: |
- Abscess |
- Respiratory failure |
- Empyema |
- Sepsis/meningitis |
- Pleural effusion |
- Multiorgan failure |
- Sepsis |
- Coagulopathy |
- Acute respiratory failure |
- Exacerbation of preexisting conditions |
- Cardiovascular collapse |
- Lung fibrosis |
- Multiorgan failure |
- Destruction of lung parenchyma |
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- Necrotising pneumona |
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- Cavitation |
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- Empyema |
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- Lung abscess |
Pleurisy
- Localised chest pain |
- Inflammation of the pleura |
- Can be primary or secondary |
Pleural anatomy
- Visceral Pleura: |
- Parietal pleura |
- Surrounds lung tissue |
- Lines inner chest wall |
- Single mesothelial cells |
- Contains stomata which drains pleural fluid to lymphatic capillaries in connective tissue |
- No connective tissue |
- Innervated by intercostal nerves (sensory) + phrenic nerve |
- Supplied by vagus nerve |
- Sensitive to pain |
- Both are supplied by the bronchial arteries
- Function is to allow frictionless movement between the chest wall and chest, helps expand the lung outwards during inspiration and prevents infection into the lungs
- A space inbetween the visceral and parietal pleura is where the pleural fluid lies (pleural cavity)
Causes
- Hyperacute:
- Pneumothorax
- Acute coronary syndrome
- Pulmonary emboli
- Acute pericarditis
- Chest wall trauma |
- Acute: Viral and bacterial pneumonia |
- Subacute/Chronic:
- RA
- Malignancy (Metastases, pleural lymphoma, fibrous tumour, angiosarcoma, pleuropulmonary blastoma, synovial sarcoma, mesothelioma)
- Tuberculosis |
Presentation
- Sharp and localised thoracic/shoulder pain |
- Exacerbated by coughing, sneezing, chest wall/trunk movement |
- Can be dull, achy, burning or "catching" |
- Travel hx, alcohol use, tobacco/e-cig/drug use |
- +ve Friction rub in inspiration on auscultation (pericardial friction rub heard on both inspiration and expiration) |
- Dullness to percussion |
- Diminished breath sounds |
- Vocal/tactile resonance |
Investigations
- If pleurisy left sided acute coronary syndrome should be ruled out |
- ECG, serum troponin |
- Rule out acute pericarditis and aortic dissection |
- Blood count, serum protein, albumin, lactate dehydrogenase, serum lipase (if acute pancreatitis suspected) |
- Sample of pleural fluid if effusion present (pH, Glucose, cell count, lactate dehydrogenase, bacterial gram stain and cultures) |
- Chest x-ray/CT |
Management
- Treat underlying cause |
- Drainage of the fluid to relieve pressure on the lungs |
DDx
- Acute coronary syndrome |
- Aortic dissection |
- Pneumothorax |
- Pericardial effusion/tamponade |
- PE |
- Intrathoracic malignancies |
- Infection in the lung |
- Pericarditis |
Pleural Effusion
- Accumulation of fluid between parietal and visceral pleura (pleural cavity) |
- Fluid maintained by oncotic and hydrostatic pressure and lymph drainage |
- Pleural fluid can build up if one or more of the processes above is disturbed |
Causes
- Fluid can be transudate and exudate |
- Exudate if:
- Fluid protein/serum protein ratio >0.5
- Lactate dehydrogenase(LDH)/serum LDH ratio >0.6
- Serum LDH >2/3 of upper limits of normal |
- Exudate causes: Pulmonary infections, malignancy, inflammatory disorders (pancreatitis, lupus, RA, post-cardiac injury syndrome, chylothorax, haemothorax, benign asbestos pleural effusion) , PE, drug induced, post-radiotherapy, oesphageal rupture, ovarian hyperstimulation syndrome (increased hydrostatic pressure) |
- Transudates: Congestive left heart failure, nephrotic syndrome, liver cirrhoris, hypoalbuminemia (disturbance of hydrostatic/oncotic pressure) |
Presentation
- Usually asymptomatic |
- Exertional breathlessness |
- Fullness of intercostal spaces |
- Dullness on percussion |
- Decreased breath sounds on auscultation |
- Decreased tactile and vocal fremitus |
- Pleural rub |
- Look for underlying causes |
- Mediastinal shift (deviated trachea and apex beat) |
Investigations
- Chest X-ray : Meniscus sign (fluid located in costophrenic angle) + mediastinal shift towards contralateral chest cavity, displacement of trachea ipsilaterally
- CT if malignancy
- Ultrasound of chest more sensitive
- Fluid analysis (pH, protein, albumin, LDH, glucose, cell count, gram stain, culture, cytology)
- Adenosine Deaminase (ADA) - Tuberculosis
Management
- Addressing underlying cause |
- Tube drainage + antibiotics |
DDx
- Congestive Heart Failure |
- Diaphragm injury/paralysis |
- Malignant mesothelioma |
- Pneumonia |
- Atelectasis |
Prognosis
- Depends on the cause |
- Malignant causes have very poor prognosis (deceased within 12-24 months) |
- Recurrent effusions should be drained |
- Large effusions should not be drained too quickly due to the risk of re-expansion pulmonary oedema |
Pneumothorax
- Air accumulates between parietal and visceral pleura |
- Can apply pressure onto the lung and cause a collapse |
Causes/Risk factors
- Can be sudden/traumatic (blunt/penetrating) |
Primary spontaneous causes/Risk factors: |
- Smoking |
- Tall, thin, young men |
- Pregnancy |
- Marfan syndrome |
- Familial |
Secondary spontaneous: |
- COPD |
- Asthma |
- HIV + pneumocystis pneumonia |
- Necrotising pneumonia |
- Tuberculosis |
- Sarcoidosis |
- Cystic fibrosis |
- Bronchogenic carcinoma |
- Idiopathic pulmonary fibrosis |
- Severe ARDs |
- Langerhans cell histiocytosis |
- Lymphangioleiomyomatosis |
- Collagen vascular disease |
- Cocaine/marijuana |
- Thoracic endometriosis |
Iatrogenic: |
- Pleural/transthoracic lung biopsy |
- Central venous catheter insertion |
- Tracheostomy |
- Intercostal nerve block |
- Positive pressure ventilation |
Traumatic: |
- Penetrating/blunt trauma |
- Positive pressure ventilation (barotrauma) |
- Percutaneous Tracheostomy |
- Spontaneous pneumothorax |
- Open pneumothorax |
Pathology
- Pressure in the pleural space is negative compared to atmospheric pressure |
- Pressure in the thorax changes with pneumothorax |
- Surface tension between parietal and visceral pleurae causes the lung to expand outwards when chest wall expands |
- Lung usually collapses during elastic recoil |
- Air fills the space between the pleurae changing the pressure gradient |
Presentation
- Can be asymptomatic or minimal symptoms |
- Chest pain (pleuritic, sharp, severe, radiating to the ipsilateral shoulder) |
- SOB (more severe in spontaneous secondary) |
- Can recur on the contralateral side |
- Increased respiratory rate |
- Asymmetrical lung expansion |
- Decreased tactile fremitus |
- Hyperresonant on percussion |
- Decreased/absent breath sounds |
- Tension pneumothorax: Tachycardia >134 BPM
- Hypotension
- Jugular venous distension
- Cyanosis
- Respiratory failure
- Cardiac arrest |
DDx
- Aspiration/bacterial/viral pneumonia |
- Aortic dissection |
- Myocardial infarction |
- Pulmonary embolism |
- Acute pericarditis |
- Oesophageal spasm/rupture |
- Rib fracture |
- Diaphragm injuries |
Investigations
Chest X-ray/US/CT
Red arrows = radiolucent areas of pneumothorax
Yellow arrows = Displaced lung parenchyma
Management
- Refer to GP if primary spontaneous |
- Tension pneumothorax is considered a medical emergency send to A&E |
Prognosis
- Usually resolves on its own |
- Can reoccur |
- Sponteneous secondary can be more deadly |
- COPD and HIV higher mortality |
- Tension pneumothorax mortality is high |
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