Pulmonary%20Thromboembolic%20Disease - PowerPoint PPT Presentation

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Title: Pulmonary%20Thromboembolic%20Disease


1
Pulmonary Thromboembolic Disease
  • By
  • Ahmed Mansour, MSc, PhD

2
Definition
  • PE is a clinically significant obstruction of
    part or all of the pulmonary vascular tree
    (usually caused by migrating thrombus from a
    distant siteDVT).
  • VTE PE DVT

3
Natural History
  • Death within 1 h 11.
  • Survival gt 1 h 89
  • Diagnosis made ttt started 29
  • Survive 92
  • Death 8
  • Diagnosis not made 71
  • Survive 70
  • Death 30

4
Source of Emboli
  • Lower extremit (80-95) especially if popliteal
    or above.
  • Pelvic veins in cases of...
  • Upper extremity...
  • Right ventricle, more hemodynamic instability and
    increased mortality.
  • Other materials...

5
Presisposing Factors
  • Wirchows triad.
  • Acquired risk factors
  • Inherited thrombophilias
  • 1- Factor V Leiden mutation (APC resistance)
  • 2- Prothrombin gene mutation
  • 3- Deficienecy of antithrombin III, protein C,
    protein S.

Minor 1- Cardiovascular 2- HRT, contraceptives 3- Others obesity, nephrotic syndrome, Major 1- Surgery 2- Obstetrics 3- Malignancy 4- LL problems 5- Immobility 6- Previous VTE
6
Pathophysiology
  • Factors determining the outcome
  • 1- Size and location of emboli
  • 2- Coexisiting cardiopulmonary diseases
  • 3- Secondary humoral mediator release and
    vascular hypoxic responses
  • 4- Resolution rate of emboli

7
Haemodynamic consequences of acute PE
  • 1- PAP rises.
  • 2- RV after-load increases.
  • 3- RV failure if gt 50 of pulmonary vascular bed
    is obstructed
  • 4- LV filling is reducedhypotension.
  • 5- Increased RA pressure may lead to
    intraccardiac shunt through a patent foramen
    ovale.

8
Gas-Exchange Abnormalities
  • Hypoxemia
  • 1- Re-direction of blood flow to other parts of
    pulmonary vascular bed (V/Q mismatch)
  • 2- Increased alveolar dead space due to
    atelectasis and bronchiolar constriction.
  • Hypocapnea due to hyperventilation

9
Clinical features of acute PE
  • 1- Pulmonary infarction and hemoptysis
    pleuritic pain (60)
  • Acute pleuretic chest pain and hemoptysis
  • O/E local signs e.g. pleural rub
  • ABGs and ECG are usually normal
  • 2- Isolated dyspnea (25)
  • Acute SOB in presence of a risk facto for VTE
  • O/E patient is hemodynamically stable
  • ABGs show hypoxemia, CTPA central thrombus
  • 3- Circulatory collapse, poor reserve (10)
  • Usually in elderly patients with cardiopulmonary
    diseases
  • Rapid decompensation even with small PE
  • O/E features of the underlying diseases.
  • 4- Circulatory collapse in a previously well
    patient (1)
  • Acute chest pain (RV angina), hemodynamic
    instability due to massive PE
  • O/E RV failure...
  • ECG changes, echocardiography shows RV failure

10
Clinical features of chronic PE
  • Insidious onset over weeks to months due to
    recurrent showers of small emboli.
  • Dyspnea and tachypnea are the commonest features
    (90).
  • Should be considered in the DD of
  • Unexplained SOB
  • RVF
  • New AF
  • Pleural effusion
  • Collapse

11
Examination
  • 1- May be normal
  • 2- Vital signs
  • tachypnea, tachycardia (may be AF), low grade
    fever.
  • 3- Heart
  • Signs of pulmonary hypertension (loud splitted
    S2)
  • Signs of RV failure (raised JVP, low COP with
    systemic hypotension, tricuspid gallop)
  • 4- Chest the affected side may show
  • Inspection reduced movement
  • Palpation diminished expansion
  • Percussion dullness in case of pleural effusion
  • Auscultation pleural rub (Pulmonary infarction )
    or diminished intensity of breath sounds (pleural
    effusion)
  • 5- Lower limbs
  • Signs of DVT.

12
Diagnosis of Acute PE
  • Pre-test clinical probability scoring
  • e.g. BTS scoring system
  • a- Clinical features consistent with PE
  • 1- Absence of other reasonable clinical
    explanation
  • 2- Presence of a major risk factor
  • High probability a12
  • Intermediate probability a either 1 or 2
  • Low probability a only

13
Diagnosis of Acute PE
  • D-dimer
  • A fibrinolysis product generated in many clinical
    situations e.g...
  • Indicated in
  • 1- Low/intermediate clinical probability
  • 2- Acute cases only
  • 3- Outpatient cases only
  • Sensitive (small no. Of false negatives) but not
    specific (large no. Of false positives).
  • Interpretation of the results
  • Normal level negative test, elevated level
    positive test
  • A negative test is valid to exclude PE in cases
    with low/intermediate clinical probability. A
    positive test does not cofirm PE but rather
    further imaging is required

14
Investigations
  • 1- ECG
  • 2- CXR
  • 3- ABGs
  • 4- D-dimer
  • 5- Troponin and natriuretic peptides
  • 5- CTPA
  • 6- Ventilation/perfusion lung scan
  • 7- Others

15
ECG
  • Sinus tachycardia
  • AF
  • RBBB
  • RV starin
  • Less commonly S1Q3T3

16
CXR
  • Small pleural effusion
  • Raised hemi-diaphragm
  • Collapse
  • Infiltrate

17
ABGs
  • May be normal
  • Hypoxemia and hypocapnea
  • Increased A-a oxygen gradient

18
Troponin and natriuretic peptides
  • Indicate RVD
  • Raised troponin predicts poor prognosis

19
CTPA
  • The gold standard investigation
  • Highly sensitive (multi-detector scanners)
  • More sensitive for central emboli
  • More helpful for patients with abnormal CXR
  • Negative CTPA
  • In those with low/intermediate clinical
    probability PE is unlikely.
  • In those with high clinical probablity further
    investigations are required.

20
V/Q scan
  • Mostly replaced by CTPA
  • Still helpful in
  • Patients with normal CXR
  • Patients in whom CTPA is not safe e.g...
  • Results

Clinical significance Scan probability Clinical probability
No PE Normal ???
PE excluded Low Low/intermediate
PE diagnosed High High
21
Other imaging techniques
  • Echocardiography
  • Leg U/S
  • CT venography
  • Transthoracic U/S
  • Conventional pulmonary angiography

22
Management of acute massive PE
  • 1- 100 O2
  • 2- IV access, baseline clotting screen, ECG
  • 3- Analgesia
  • 4- Management of cardiogenic shock
  • 5- IV heparin
  • Unfractionated vs LMWH
  • Loading, maintenance
  • APTT
  • 6- Investigations to confirm PE?
  • 7- Thrombolysis for massive PE causing
    hemodynamic instablity
  • 8- Embolectomy in patients with a
    contraindication for anticoagulants or
    thrombolytics
  • 9- Oral anticoagulants
  • Outpatient
  • INR
  • For how long?
  • 10- IVC filter for patients with
  • A contraindication for anticoagulants
  • Massive PE after survival
  • Reccurrent VTE despite adequate anticoagulation

23
Thank you
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