Chest Pain

Question 1

What are the two main character types of chest pain?

Answer 1

1. Somatic chest pain (originating from pericardium, pleura, chest wall) = well-localised, sharp
2. Visceral chest pain (originating from cardiac muscle itself) = dull, aching, heavy /crushing

Question 2

Common associated symptoms with chest pain…

Answer 2

• Dyspnoea
• Cough - respiratory cause?
• Haemoptyisis - PE?
• Nausea and vomiting
• Sweating
• Palpitations -arrhythmia?
• Dizziness/ syncope

Question 3

Difference between general inspection of cardiac chest pain and respiratory chest pain …

Answer 3

• Cardiac chest pain = grey, clammy, unwell

- Respiratory chest pain = cyanosed, dyspnoaeic

Question 4

What can be heard on auscultation in heart failure?

Answer 4

• Cardio = gallop rhythm

- Chest = crackles indicating fluid on the lungs from pulmonary oedema

Question 5

Differential diagnosis for chest pain…

Answer 5

1. Cardiac : ACS (central crushing chest pain), pericarditis (pleuritic chest pain worse on lying down), stable angina (relived by rest), arrhythmia (palpitations), myocarditis
2. Vascular: aortic dissection (tearing chest pain radiating to back between shoulder blades)
3. Respiratory: PE (pleuritic chest pain, VTE risk factors), pneumonia (associated infective sx e.g. purulent sputum), pneumothorax (sudden pleuritic chest pain with SoB)
4. Gastro: GORD (retrosternal burning chest pain, associated with eating) , oesophageal spasm, referred pain from cholecystitis, pancreatitis
5. Other causes = shingles (dermatomal distribution across chest wall), panic disorder (associated with panic attacks)

Question 6

Describe the pathophysiology of ACS?

Answer 6

1. Endothelial injury: injury leads to inflammatory response leading to accumulation of LDLs which are then oxidised to reactive oxygen species.
2. Plaque formation: These irritants then attract macrophages which phagocytose the LDLs to form fatty streaks.
3. Plaque rupture: continued inflammation attracts smooth muscle cells which form a fibrous cap that then develops into an atheroma. The top of the atheroma forms a hard plaque which can rupture. This exposes a collagen-rich cap which causes platelets to aggregate on this exposed collagen, forming a thrombus.

Question 7

Typical presentation of ACS…

Answer 7

• Retrosternal, central crushing chest pain - radiates up the jaw and down left arm
• Associated sx: nausea, sweating, palpitations, shortness of breath

Question 8

What ECG changes are seen in STEMI ?

Answer 8

> Mins- hours: hyperacute T wave enlargement
0-12 hrs: ST segment elevation
1-12 hrs: Q -wave development (deeper and wider than normal)
Days: T-wave inversion
Weeks: T-waves will normalise, Q waves persist (sign of previous MI if already present)

Question 9

What ECG changes are seen in NSTEMI/UA?

Answer 9

> ST segment depression

> T-wave inversion

Question 10

What are the ECG criteria for thrombolysis in STEMI?

Answer 10

• > 2mm in ST segment elevation in adjacent chest leads
• > 1mm in adjacent limb leads
• LBBB

Question 11

What artery supplies the anterior aspect of the heart?

Answer 11

Left anterior descending artery (branch of LCA) ; supplies right ventricle, left ventricle and intraventricular septum

Question 12

What artery supplies the lateral aspect of the heart?

Answer 12

Left circumflex artery (branch of LCA) which supplies left atrium and left ventricle.

Question 13

What artery supplies the posterior aspect of the heart?

Answer 13

Right coronary artery distributed along posterior surface; supplies right atrium and right ventricle

Question 14

What artery supplies the inferior aspect of the heart?

Answer 14

Right marginal artery which moves along right and inferior border of the heart ; supplies right ventricle and apex.

Question 15

Anterior STEMI will show ECG changes in leads…

Answer 15

• V1, V2, V3, V4 ST elevation

- Reciprocal ST depression in III and aVF

Question 16

Lateral STEMI will show ECG changes in leads…

Answer 16

• aVL, V5,V6 ST elevation

- Reciprocal ST depression in III and aVF

Question 17

Inferior STEMI will show ECG changes in leads…

Answer 17

• II, III and aVF ST elevation

- Reciprocal ST depression in I and aVL

Question 18

Posterior STEMI will show ECG changes in leads…

Answer 18

V1, V2, V3 ST depression, with tall and wide R wave

*will most likely require additional V7,V8,V9 leads across the back for more detailed trace.

Question 19

What else can cause ST elevation?

Answer 19

• Pericarditis
• Hyperkalaemia
• Massive PE
• Aortic dissection
• Many of which can cause chest pain too!!

Question 20

What blood tests should be requested for investigation of ACS?

Answer 20

• FBC =in case of anticoagulant use
• U&Es = baseline renal function for use of IV contrast in angiography
• CRP= underlying infection
• LFTs and clotting profile =bleeding risk if vascular intervention required
• Cardiac enzymes = troponins, CK, AST, LDH

Question 21

What are the guidelines for troponin levels in ACS management?

Answer 21

• Troponin level taken at ED admission greater than 99th percentile (normal levels = <14ng/L)
• Another measurement 3 hours later (needs to be a significant change seen)

Question 22

Apart from troponin, what other cardiac enzymes are used for ACS diagnosis?

Answer 22

• Creatinine kinase: returns to baseline within 48 hrs, so can identify re-infarcts
• LDH
• AST

Question 23

What else can cause troponin rise?

Answer 23

Other causes of myocardial damage:

• Tachyarrhythmia
• Heart failure
• Pericarditis
• Chest trauma
• Sepsis
• Cardiomyopathy

Question 24

Initial management of ACS…

Answer 24

1. Aspirin 300mg PO and another antiplatelet (prasugrel 60mg/ticagrelor 180mg)
2. High flow oxygen (only if hypoxic)
3. IV access : Diamorphine 2.5-10mg + Metoclopramide 10mg
4. GTN spray - unlikely to be effective in STEMI
   * *ECG within 10 minutes = identify subtype of ACS

Question 25

Management of STEMI…

Answer 25

• Primary PCI should be attempted within 120 mins of admission to ED (door to balloon time) , and within 12 hrs of sx onset
• Patients receive dual antiplatelet before PCI (aspirin + prasugrel/ticagrelor) - as part of initial ACS management
• During PCI there is additional antithrombotic therapy - UFH/ LMWH (additional agents incly glycoprotein IIb/IIIa inhibitors may be used if high thrombus burden)
• If PCI is not available within 120 mins: fibrinolysis with IV alteplase/ reteplase, then transfer to PCI centre for rescue PCI within 12 hrs of sx onset
• Patients presenting after 12 hrs of sx onset: enoxaparin/ fondaparinux

Question 26

Management of NSTEMI/UA…

Answer 26

• Dual antiplatelet therapy (aspirin + clopidogrel) - as part of initial ACS management
  Risk stratify using GRACE score (6 month mortality risk in NSTEMI/UA pts):
• Intermediate - high (>3%)= angiography within 72hrs and dual antiplatelet therapy + Gp 2b/3a inhibitor
• Low (1.5-3%) = dual antiplatelet therapy (300mg clopidogrel +300mg aspirin) and antithombotic therapy (fondaparinux)
• Lowest (<1.5%) = life-long aspirin with f/u for a stress ECG

Question 27

Complications of MI…

Answer 27

EARLY= LV dysfunction leading to:
- Pulmonary oedema - treated with high flow O2, diuretics
- Cardiogenic shock- treated with inotropes and vasodilators
LATER = weakening of myocardium due to necrosis:
- Mitral regurgitation
- VSD
- Cardiac tamponade

Question 28

What should all patients with MI have before discharge?

Answer 28

Echocardiograpy - to look for LV dysfunction.

Question 29

What are the driving restrictions post MI?

Answer 29

Patients should wait 4 weeks before they drive, unless they have had successful angioplasty - in which case they can drive after 1 week.

Question 30

What medical management should be commenced post MI?

Answer 30

BAACS:

• Beta blocker
• Aspirin - lifelong
• ACEi
• Clopidogrel for 1 year
• Statin
  (consider mineralocorticoid antagonist for pts with LV dysfunction post-MI)

Question 31

What is GORD?

Answer 31

Presence of prolonged or excessive reflux of stomach contents into lower oesophagus.

Question 32

What are the main causes of GORD?

Answer 32

• Increased intrabdominal pressure: obesity, pregnancy
• Reduced lower oesophageal sphincter (caused by obesity, fatty foods, alcohol)
• Medications: SSRIs, NSAIDs, anti-cholinergics

Question 33

What is the spectrum of GORD?

Answer 33

• Non-erosive negative endoscopy reflux disease (NERD) =60% of patients
• Oesophagitis (visual signs on endoscopy) = 35%
• Complications = 5% - ulcerations, strictures, Barrett’s

Question 34

How does GORD present?

Answer 34

• Retrosternal burning chest pain - rising from stomach towards neck
• Pain can be made worse by meals, lying down, bending over
• Odynophagia (pain on swallowing)

Question 35

What symptoms occur with dyspepsia?

Answer 35

• Recurrent epigastric pain
• Heartburn
• Acid regurgitation
• Bloating
• Nausea and vomiting

Question 36

How is GORD diagnosed?

Answer 36

• Normally based on clinical findings and history
• Therapeutic trial of PPI is then given without further investigation - (if it relieves sx, it is likely to be GORD)
• Endoscopy is not recommended as most people will have no findings (60% = NERD) - barium swallow may show hiatus hernia, pH monitoring and manometry

Question 37

When is endoscopy indicated?

Answer 37

• Resistant dyspepsia (sx > 4 weeks despite medical management)
• 2 week wait: New dysphagia/ abdominal mass/ >55y/o with weight loss and dyspepsia

Question 38

Conservative management of GORD…

Answer 38

• Weight loss
• Smoking cessation
• Reduction in alcohol intake
• Raising head of the bed
• Eating smaller portions
• Not eating <3hr before bed

Question 39

Medical management of GORD…

Answer 39

• First line= PPI - 4 week course e.g. omeprazole 40mg OD, lansoprazole 30mg OD. If sx stop after 4-6 weeks, course can be discontinued.
• Second line= H2 blockers
• Prokinetics e.g. metoclopramide (increases speed of emptying)

Question 40

When is H.pylori testing carried out?

Answer 40

• If sx recur after PPI therapy, then a urea breath test is normally required.
• Pt must be 2 weeks free of PPI therapy before test to prevent false -ve’s

Question 41

What is the treatment for H. pylori infection?

Answer 41

TRIPLE THERAPY (PPI + 2 abx)

• High dose PPI
• Amoxicillin
• Clarithromycin/ metronidazole

Question 42

Surgical management of GORD…

Answer 42

• Endoscopic gastroplication

- Laparoscopic fundoplication - used in hiatus hernia

Question 43

What is a hiatus hernia?

Answer 43

Part of the stomach herniates through diaphragm into the thoracic cavity which leads to lower oesophageal sphincter becoming less competent, leading to reflux.

Question 44

How does Barrett’s oesophagus occur?

Answer 44

Normal squamous epithelium of lower oesophagus changes to columnar epithelium (as found in the lining of the stomach).
There is increased risk of oesophageal adenocarcinoma–> surveillance endoscopy and PPI therapy

Question 45

What are the main complications of GORD?

Answer 45

• Oesophagitis
• Barrett’s oesophagus
• Peptic ulcer disease (gastric/ duodenal ulcers)
• Oesophageal cancer
• Benign peptic strictures

Question 46

What is a tension pneumothorax ?

Answer 46

Chest injury normally caused by trauma leading to a one-way valve forming in the pleural cavity. This leads to air entering the space with every inspiration but no air moving out.
Increasing intrathoracic pressure may cause significant mediastinal shift.

Question 47

What signs are seen in tension pneumothorax?

Answer 47

• Tachycardia (compensating for decreased CO)
• Pulsus paradoxicus
• Hypotension
• Tracheal deviation
• Raised JVP

Question 48

How is tension pneumothorax managed?

Answer 48

Medical emergency that needs immediate treatment:

• High flow oxygen
• Wide bore cannulae into 2nd ICS mid-clavicular line.
• Chest drain inserted immediately after relief of tension pneumothorax

Question 49

What is an open pneumothorax?

Answer 49

Caused by injury to the external chest wall which leads to an opening to the exterior.
Air moves into chest cavity preferentially through opening rather than trachea therefore ventilation is inadequate therefore lethal hypoxia occurs.

Question 50

How is open pneumothorax managed?

Answer 50

• Chest wall defect must be covered with a bandage taped 3 times.
• High flow oxygen
• Chest drain insertion

Question 51

Causes of spontaneous pneumothorax…

Answer 51

Primary= mainly found in tall, thin, young males -associated with Marfans 
Secondary = underlying lung disease e.g. COPD, CF, cancer, pneumonia, TB

Question 52

How does a pneumothorax present?

Answer 52

• Sudden onset pleuritic chest pain
• Dyspnoea
• Exam findings: reduced expansion, hyper resonant percussion, reduced breath sounds

Question 53

What investigations are required for pneumothorax?

Answer 53

• Oxygen saturation
• Bloods: Clotting if chest drain is required , FBC and CRP for infection
• ABG if SpO2 is low
• CXR - measurement of intrapleural difference at hilum level so severity of pneumothorax can be calculated

Question 54

Management of pneumothorax…

Answer 54

• Primary spontaneous:
  <2cm, no dyspnoea = discharge with follow up as O/P
  >2cm, dyspnoea = air aspiration and high flow oxygen - chest drain if aspiration is unsuccessful
• Secondary spontaneous:
  > 1cm = admitted with high flow oxygen and aspiration
  >2cm, >55 y/o, dyspnoea - chest drain is required
• Surgery: (for recurrent pneumothorax)
  Chemical pleurodesis
  Thoracotomy

Question 55

How does aspiration of air (thoracocentesis) take place?

Answer 55

• Occurs in the triangle of safety
• Maximum of 2.5L or to the point of pain/ resistance
• > 2.5L aspiration may lead to re-expansion pulmonary oedema

Question 56

What are the borders of the triangle of safety?

Answer 56

• Anterior edge of latissimus dorsi
• Lateral edge of pectoralis major
• 5th ICS - mid axillary line

Question 57

How is a chest drain inserted?

Answer 57

SELDINGER TECHNIQUE:

• Puncturing chest wall with trochar (hollow needle) in triangle of safety, then passing guidewire through, withdrawing trochar and passing catheter over guidewire into pleural space before withdrawing guidwire.
• Drain position is confirmed by imaging
• Drain is then sutured in place

Question 58

Why should a bubbling chest drain never be clamped?

Answer 58

• Bubbling chest drain = air still in the pleural cavity

- Clamping would lead to one-way valve causing a tension pneumothorax

Question 59

What are the complications of chest drain insertion?

Answer 59

• Pain
• Empyema - drain should be flushed daily to avoid infection
• Drain dislodgement/ blockage
• Surgical emphysema

Question 60

What are the main surgical interventions for pneumothorax?

Answer 60

• Chemical pleurodesis: sterile talc inserted into pleural cavity to cause adhesions to form between pleural surfaces
• Open thoracotomy and VATS (video assisted thoracoscopic surgery): resection of bullae and symphysis created between pleural surfaces

Question 61

What are the main causes of PE?

Answer 61

• Thrombosis= most common
• Fat embolus - following bone fracture/ orthopaedic surgery
• Amniotic fluid
• Tumour
• Air

Question 62

What is the definition of a massive PE?

Answer 62

PE that causes haemodynamic compromise

Question 63

How does a PE cause haemodynamic compromise?

Answer 63

Large PE that occludes vascular bed –> increase in pulmonary artery pressue –> increased RV afterload leading to RV failure –>reduced pulmonary bloodflow –> reduced LV filling –>reduced cardiac output
*There is also hypoxia as a result of the V/Q mismatch caused by reduced pulmonary bloodflow

Question 64

Presentation of PE…

Answer 64

PE can present in 3 main ways:

1. Pulmonary infarction: haemoptyisis, pleuritic chest pain
2. Isolated dyspnoea
3. Circulatory collapse with LoC

Examination findings: hypotension, tachypnoea, tachycardia, decreased SpO2, raised JVP, pleural rub

Question 65

Investigations for PE…

Answer 65

• Oxygen sats - look for hypoxia and give high flow O2
• Bloods : FBC, U+Es, LFT, INR, troponin (to rule out MI)
• ECG: sinus tachycardia, RBBB, right axis deviation, S1Q3T3 (prominent S wave in V1, Q wave in V3, T wave inversion in V3)
• CXR: linear atelectasis, raised hemidiaphragm, small effusion, wedge shaped infarct

Question 66

What is used for risk stratifying patients with PE?

Answer 66

Modified Well’s Score

• Clinically suspected DVT = 3 points
• Alternative diagnosis is less likely = 3 points
• Tachycardia = 1.5 points
• Immobilisation in past 4 weeks = 1.5 points
• History of DVT/ PE = 1.5 points
• Haemoptysis = 1 point
• Malignancy = 1 point

Score >4 = PE likely

Question 67

How is PE diagnosed?

Answer 67

WELL’S SCORE > 4 = PE LIKELY:
Immediate CTPA –> -ve = PE excluded

WELL’S SCORE <4 = PE LESS LIKELY
D- dimer: -ve = alternative diagnosis, +ve = immediate CTPA

Question 68

What should be used in those with contraindication to CTPA (poor renal function/ contrast allergy)

Answer 68

V/Q SPECT or leg USS doppler

Question 69

Management of PE…

Answer 69

A-E assessment and management first!!
Similar to the management of DVT:
- Initially give LMWH or fondaparinux at diagnosis - then continue for 5 days or until INR > 2.0 for >48 hrs
- Warfarin/ DOAC should be started within 24 hrs - 3 months for provoked PE, or 6 months for unprovoked PE (i.e. no obvious cause like surgery)
*Thrombolysis is required in massive PE

Question 70

How is PE investigated and managed in pregnancy?

Answer 70

If PE is suspected - CXR:
- Normal CXR = USS doppler of the leg
- Abnormal CXR = V/Q scan (preferred to CTPA in pregnancy)
LMWH is commenced if PE is diagnosed - as warfarin is contraindicated.

Question 71

Why can d-dimer not be used in pregnancy?

Answer 71

D-dimer is a degradation product of fibrin - this is raised in pregnancy anyway due to fibrin deposition in the placenta.

Question 72

Causes of pleuritic chest pain…

Answer 72

• Cardiac = MI, pericarditis
• Respiratory = PE, pleural effusion, pneumothorax
• Gastrointestinal = IBD
• Rheumatological= Lupus pleuritic, rheumatoid arthiritis, Sjörgen’s syndrome
• Infectious= Viral illness (most common) , pneumonia

Question 73

What is a pleural effusion?

Answer 73

Abnormal collection of more than 20ml of fluid within pleural space.

Question 74

Presentation of pleural effusion…

Answer 74

Symptoms:
- Shortness of breath - (mainly exertional)
- Dry cough
- Pleuritic chest pain
Signs:
- Reduced expansion and tracheal deviation (large effusion)
- Stony dull percussion
- Reduced breath sounds and decreased vocal resonance

Question 75

What are the main causes of pleural effusion?

Answer 75

Transudative = <25g/L of protein:
- LV failure (heart FAILURE)
- Cirrhosis (liver FAILURE)
- Nephrotic syndrome , peritoneal dialysis (kidney FAILURE)
Exudative= >35g/L of protein: 
- Infection 
- Inflammation 
- Malignancy

Question 76

What is the difference between transudative and exudative effusion?

Answer 76

Transudative effusion has low protein content (<25g/L) because fluid is in the pleural space due to fluid being pushed OUT of capillaries by increased hydrostatic pressure (protein remains in capillaries).

Exudative effusion has high protein content (>35g/L) because it is made up of fluid that leaks out of capillaries due to oncotic pressure (moving from low to high conc) therefore protein moves across too.

Question 77

What investigations should be carried out for pleural effusions?

Answer 77

Oxygen saturation: if low, perform ABG
Bloods:
- FBC: increased WCC seen in infection
- U+Es and LFTs: renal/ liver failure can cause effusion
- CRP and ESR: inflammation/ infection
- Clotting screen: prior to chest drain insertion
- Amylase: pancreatitis
Imaging:
- CXR : blunted costophrenic angles and fluid level may be seen
- USS : increases success of pleural aspiration
- CT TAP: if there is high suspicion of malignancy

Question 78

What does malignant pleura appear like?

Answer 78

• Thickened, nodular and thicker mediastinally

- If CT indicates malignancy - biopsy is required

Question 79

How does pleural aspiration occur, and what is tested?

Answer 79

US guided procedure 
21 G needle and 50ml syringe is used 
Sample sent of for:
- Cytology: malignancy 
- Biochemistry: protein level, LDH, pH, glucose 
- Microbiology culture and sensitivity

Question 80

Characteristic pleural fluid findings…

Answer 80

With protein levels between 25 and 35, Light’s criteria should be used - the effusion is exudative if:

• Pleural: serum protein > 0.5
• Pleural: serum LDH > 0.6
• Pleural LDH is > 2/3 upper limit of normal

High LDH = empyema, RA, malignancy
Low glucose = RA, TB, empyema
Blood staining = PE, mesothelioma, TB

Question 81

Management of pleural effusion…

Answer 81

1. Pleural tap: removal of up to 1 L of fluid (more than this may cause reperfusion pulmonary oedema) - simple effusions will resolve after this
2. Complex effusions (pH<7.2, turbid, culture +ve gram +ve) - need CHEST DRAIN
3. Pleurodesis for recurrent effusion:
   - Medical= sterile talc for adhesion
   - Surgical = Pleurectomy and pleural abrasion

Question 82

Causes of empyema?

Answer 82

• Commonest cause: parapneumonic effusion - bacteria gain access to effusion via lung parenchyma as a complication of pneumonia
• Primary empyema caused by: aspiration, bronchial obstruction, oesophageal rupture
• Secondary causes : TB, bronchiectasis, lung abscess

Question 83

Presentation of empyema…

Answer 83

• Fever
• Productive cough
• Chest pain - pleuritic
• Dyspnoea

Question 84

Investigations for empyema…

Answer 84

• Oxygen saturation
• Bloods : FBC (increased WCC), blood cultures, U+Es, LFTs, CRP, clotting screen (if chest drain is required)
• CXR: blunted costophrenic angles and fluid meniscus
• Pleural aspiration - 50ml under US guidance, sent for: cytology, biochemistry and microbiology
• Contrast-enhanced pleural phase CT scan

Question 85

Management of empyema…

Answer 85

Antibiotics for at least 3 weeks:

• Community accquired empyema= co-amoxiclav/ cephalosporin + metronidazole
• Hospital accquired empyema= broad spectrum e.g. meropenem/ vancomycin

Chest drain - will require anticoagulation prior to this
Surgery if sx persist beyond 7 days

Question 86

Potential causes of acute pericarditis…

Answer 86

• Primary idiopathic disease (commonest)

- Secondary causes: infection (coxsackievirus), SLE, uraemia, malignancy, Dressler’s syndrome, radiation

Question 87

Presentation of acute pericarditis…

Answer 87

• Pleuritic chest pain made worse on lying down, relieved by sitting forwards
• Dry cough
• Dyspnoea
• Pericardial rub heard on auscultation - v. specific
• Likely to follow on from viral infection - flu-like prodrome may be present

Question 88

What investigations are carried out in acute pericarditis?

Answer 88

• Blood tests: FBC, ESR, CRP, U+Es, troponins
• Rheumatological screen if sx last longer than a week
• ECG: PR depression (v specific), T-wave inversion, ST saddle elevation (widespread)
• CXR: enlarged, globular heart
• Echo: small pericardial effusion seen

Question 89

Management of acute pericarditis…

Answer 89

Treat the underlying cause!

• High dose NSAID e.g. naproxen 250mg QDS along with Colchicine = 1st line therapy
• PPI to be given as gastro protection
• Glucocorticoids used in refractory pericarditis

Question 90

How does constrictive pericarditis occur?

Answer 90

Occurs as a consequence of injury to the pericardium.
Usually caused by any cause of acute pericarditis - mainly TB or malignancy.
*Leads to stiffness and lost of elasticity of the pericardial sac.

Question 91

Presentation of constrictive pericarditis…

Answer 91

• Dyspnoea
• Right heart failure: raised JVP , ascites, oedema , hepatomegaly
• Kussmaul’s sign= paradoxical rise in JVP on inspiration
• Pericardial knock - S3 (loud early diastolic sound caused by ventricular filling being limited by stiff pericardial sac)

Question 92

What does CXR show in constrictive pericaridtis?

Answer 92

Pericardial calcification and thickening

Question 93

Management of constrictive pericarditis…

Answer 93

• NSAID therapy - few months

- Surgery is normally required: pericardectomy - surgical removal of portion/ all of pericardial sac

Question 94

Causes of cardiac tamponade…

Answer 94

• Pericarditis
• Aortic dissection
• Ventricular rupture - may be caused by trauma, post MI
• Iatrogenic - e.g.cardiac catheterisation

Question 95

Presentation of cardiac tamponade…

Answer 95

• Beck’s triad: hypotension, raised JVP, muffled heart sounds
• Tachycardia
• Dyspnoea
• Pulsus paradoxus (pulse drops during inspiration)

Question 96

What investigations are carried out and what findings are seen in cardiac tamponade?

Answer 96

• CXR: enlarged globular heart - cardiac silhouette is large
• ECG: electrical alternans (alternating amplitude of QRS complexes) , and low amplitude QRS
• FAST scan is investigation of choice in trauma - echo may not be available in the acute setting.

Question 97

Management of cardiac tamponade…

Answer 97

• A-E assessment is required!
• Venous return and cardiac output improved by raising legs and positive inotropic drugs ( increase contractility)

DEFINITIVE TREATMENT:

• Thoracotomy in theatre is ideal: drain pericardial fluid
• In acute setting echo-guided pericardiocentesis may be definitive therapy

Question 98

Causes of oesophageal rupture…

Answer 98

• Boerhaave syndrome (severe vomiting or straining leading to spontaneous perforation of oesophagus)
• Trauma
• Iatrogenic (endoscopy/ biopsy)
• Ingestion of corrosive substances
• Foreign body
• Carcinoma

Question 99

Presentation of oesophageal rupture…

Answer 99

Symptoms:
- Severe chest pain
- Dysphagia 
- Odynophagia 
- Pyrexia 
Signs:
- Surgical emphysema in supraclavicular area
- Tachycardia 
- Cyanosis

Question 100

Investigations for oesophageal rupture…

Answer 100

Blood tests: 
- FBC (raised WCC)
- ABG (acidosis)
Imaging:
- CXR (pleural effusion, pneumomediastinum) 
- Barium swallow
- CT scanning
- Upper GI endoscopy - when other imaging is negative but suspicion is strong

Question 101

Management of oesophageal rupture…

Answer 101

• NBM for at least 5 days from point of diagnosis
• Parenteral nutrition
• NG suction
• IV antibiotics
• Surgery may be necessary - debridement of mediastinum

Question 102

How does aortic dissection occur?

Answer 102

Tear in the tunica intima of the wall leads to blood accumulation and separation of the layers -blood is found between the intima and muscularis, or between muscularis and serosa.

Question 103

Risk factors for aortic dissection…

Answer 103

**HYPERTENSION = most important risk factor
Smoking
Dyslipidaemia
Aortic valve disease
Connective tissue disorders: EDS and Marfan’s syndrome
Trauma
Pregnancy

Question 104

What is the classification of aortic dissection?

Answer 104

• Type A: involves the ascending aorta - requires cardiothoracic input due to risk of proximal spread causing tamponade
• Type B: does NOT involve ascending aorta - mainly descending aorta which is distal to L subclavian vein

Question 105

Presentation of aortic dissection…

Answer 105

• Sudden onset severe tearing chest pain that radiates through to back
• Hypertension
• Aortic regurgitation
• Inferior MI

Symptoms dependent on artery involvement:

• Coronary artery = angina
• Spinal artery = paraplegia
• Distal aorta = limb ischaemia

Question 106

Examination findings in aortic dissection…

Answer 106

• Difference in BP on both arms (>15mmHg SBP)

- Signs of heart failure (caused by severe aortic regurgitation) : bibasal crackles, increased JVP

Question 107

Investigations for aortic dissection…

Answer 107

• Bloods: troponins, D-dimer, cross-match several units
• ECG: rule out MI
• CXR: mediastinal widening
• Transoesophageal USS : very sensitive for diagnosing and showing extent of damage.

Question 108

Management of aortic dissection…

Answer 108

Management is dependent on classification:
- Type A= surgical intervention - endovascular/ open aortic repair and graft insertion. BP controlled - target of 100-120 systolic

• Type B= medical management with aggressive BP control - IV labetalol.

Question 109

What is shingles, and what causes it?

Answer 109

Unilateral, painful blistering rash caused by reactivation of the Varicella Zoster Virus (VZV) within a nerve root, leading to dermatomal distribution.

Question 110

Presentation of shingles…

Answer 110

1. Days before the classical rash, there may be other symptoms:
   - Headache
   - Burning, tingling sensation
   - Generally unwell feeling
   - High temperature
2. This is followed by pain - may be band like across the chest, and burning/ dull in sensation. Affected area may remain tender for some time.
3. Rash that develops with itchy blisters/ vesicles - may last for a week.

Question 111

Management of shingles…

Answer 111

First line= Oral acyclovir - will reduce the post-herpetic neuralgia

Question 112

What is the shingles vaccine, and what contraindications are there?

Answer 112

Live attenuated vaccine offered to all patients aged 70-79 years old.
Contraindications= immunosuppression