1. PULMONARY EMBOLISM
PRESENTERS; Evans omondi
Munyaga byanjo

2. Outline
• Epidemiology

3. Epidemiology
• US incidence =1 case per 1000 persons per year
• 60-80% of patients with DVT, even though more than half these
patients are asymptomatic.
• Death rates from P.E were 20-30% higher among men than
among women.
• The incidence higher in blacks than in whites. Mortality rates for
blacks have been 50% higher than those for whites
• Globally, incidence of PE = 60 to 70 per 100,000,

4. ETIOLOGY
Three primary influences predispose a patient to thrombus formation; (
Virchow triad) which consists of the following[12, 13, 14] :
• Endothelial injury
• Stasis or turbulence of blood flow
• Blood hypercoagulability
• Originate primarily from deep venous system of lower extremities
• Pelvic, renal, upper extremity veins or right heart chambers albeit
rarely.
• Air , amniotic fluid and fat emboli are rarer causes

5. PATHOPHYSIOLOGY
• Large thrombi lodge at the bifurcation of the main pulmonary artery
or the lobar branches and cause hemodynamic compromise.
• Smaller thrombi travel more distally, occluding smaller vessels in the
lung periphery initiating an inflammatory response adjacent to the
parietal pleura producing pleuritic chest pain.
• There are both respiratory and hemodynamic consequences
associated with pulmonary embolism.
Respiratory consequences
• Increased alveolar dead space
• Hypoxemia
• Hyperventilation
• Regional loss of surfactant and pulmonary infarction

6. Hemodynamic consequences
-Pulmonary embolism reduces the cross-sectional area of the
pulmonary vascular bed, resulting in an increment in pulmonary
vascular resistance, which, in turn, increases the right ventricular
afterload. If the afterload is increased severely, right ventricular failure
may ensue.
-Chronic pulmonary hypertension may occur with failure of the initial
embolus to undergo lyses or in the setting of recurrent thromboemboli.

7. Risk Factors for PE and DVT
• Immobilization
• Surgery within the last 3 months
• Stroke
• History of venous
thromboembolism
• Malignancy
• Preexisting respiratory disease
• Chronic Heart Disease
• Age >60
• Surgery requiring >30mins of
anesthesia
• Recent travel (past 2weeks, >4
hours)
• Varicose veins
• Superficial vein thrombosis
• Central VV
catheter/port/pacemaker
Additional RF in Women:
• Obesity BMI >/=29
• Heavy smoking (>25cigs/day)
• Hypertension
• Pregnancy

8. Well’s Criteria
Clinical Signs and Symptoms of DVT?
(Calf tenderness, swelling >3cm, errythema, pitting
edema affected leg only)
+3
PE Is #1 Diagnosis, or Equally Likely +3
Heart Rate > 100 +1.5
Immobilization at least 3 days, or Surgery in the
Previous 4 weeks
+1.5
Previous, objectively diagnosed PE or DVT? +1.5
Hemoptysis +1
Malignancy w/ Rx within 6 mo, or palliative? +1
>6: High Risk
2 to 6: Moderate Risk
2 or less: Low
Adapted with permission from Wells PS, Anderson DR, Rodger M, Ginsberg JS, Kearon C, Gent M, et al. Derivation of a simple
clinical model to categorize patients probability of pulmonary embolism: increasing the models utility with the SimpliRED d-dimer.
Thromb Haemost 2000;83:416-20.

9. Symptoms of P.E.
• Dyspnea (73%)
• Pleuritic chest pain (66%)
• Cough (37%)
• Hemoptysis (13%)

10. Signs of P.E.
The incidence of physical signs has been reported as follows:
• Tachypnea (respiratory rate >16/min) - 96%
• Rales - 58%
• Accentuated second heart sound - 53%
• Tachycardia (heart rate >100/min) - 44%
• Fever (temperature >37.8°C) - 43%
• Diaphoresis - 36%
• S 3 or S 4 gallop - 34%
• Clinical signs and symptoms suggesting thrombophlebitis - 32%
• Lower extremity edema - 24%
• Cardiac murmur - 23%
• Cyanosis - 19%

11. Signs in Massive P.E.
• “Massive PE”: hemodynamic instability with SBP <90 or a drop in
baseline SBP by >/=40mmHg
• Signs as before PLUS:
• Acute right heart failure
• Elevated J.V.P.
• Right-sided S3
• Parasternal lift

12. Lab & Radiologic Findings in P.E.
• ABG
• BNP
• Cardiac Enzymes: Troponin
• D-dimer
• EKG
• CXR
• Ultrasound
• V/Q Scan
• Angiography

13. Lab investigations
• ABG:
• Hypoxemia
• Hypocapnia (low CO2)
• Respiratory Alkalosis
• Massive PE: hypercapnia,
mix resp and metabolic
acidosis (inc lactic acid)
• Sp02 <95% -risk of rep
failure
• D-dimer:
• Degredation product of
fibrin
• >500 is abnormal
• Sensitivity: High, 95% of PE
pts will be positive
• Specificity: Low
• Negative Predictive Value:
Excellent

14. Lab Findings in P.E.
(ABG)
• ABG:
• Hypoxemia
• Hypocapnia (low CO2)
• Respiratory Alkalosis
• Massive PE: hypercapnia, mix resp and metabolic acidosis (inc lactic acid)
• Patients with RA pulse ox readings <95% are at increased risk of in-hospital
complications, resp failure, cardiogenic shock, death

15. Lab Findings in P.E. (BNP)
• BNP (beta natruretic peptide)
• Insensitive test
• Patient’s with PE have higher levels than pts without, but not ALL patients
with PE have high BNP
• Good prognostic value measure: if BNP >90 associated with adverse clinical
outcomes (death, CPR, mechanical vent, pressure support, thrombolysis,
embolectomy)
• Troponin
• High in 30-50% of pts with mod to large PE

16. ECG
• 2 Most Common finding on EKG:
• Nonspecific ST-segment and T-wave changes
• Sinus Tachycardia
• Historical abnormality suggestive of PE
• S1Q3T3
• Right ventricular strain
• New incomplete RBBB

18. Radiology Findings in P.E. (cont’d)
• CXR:
• Normal
• Atelectasis and/or pulmonary parenchymal abnormality
• Pleural Effusion
• Cardiomegaly
• Hampton hump
• Westermark’s sign

19. What’s This???
Hampton’s Hump

20. How About This???
Westermark's Sign: an abrupt tapering of a vessel caused by pulmonary thromboembolic
obstruction.
This CXR shows enlargement of the left hilum accompanied by left lung hyperlucency,
indicating oligemia (Westermark's sign).

21. Radiology Findings in P.E. (cont’d)
Echocardiogram
• Increased Right Ventricle Size
• Decreased Right Ventricular Function
• Tricuspid Regurgitation
Rarely:
• RV thrombus
• Regional wall motion abnormalities that spare the right ventricle apex
(McConnell’s Sign)

22. Others
V/Q Scan
Lower limb U/S
Pulmonary Angiograms

23. Treatment of P.E.
• Respiratory Support: Oxygen, intubation
• Hemodynamic Support: IVF, vasopressors
• Anticoagulation
• Thrombolysis
• IVC Filter

24. Anticoagulation
• Start during resuscitation phase itself
• If suspicion high, start emperic anticoagulation
• Evaluate patient for absolute contraindication
(i.e.: active bleeding)

25. Anticoagulation (cont’d)
• HEPARIN:
• Lovenox: if hemodynamically stable, normal renal function
• 1mg/kg BID OR 1.5mg/kg QDay
• Heparin gtt: if hypotension, renal failure
• 80units/kg bolus then 18units/kg infusion
• Goal PTT1.5 to 2.5 times the upper limit of normal
• COUMADIN:
• Start once acute anticoagulation achieved
• Start with 5mg PO qday OR 10mg PO q day
• If start with 10mg then achieve therapeutic INR 1.4 days sooner
• Complications and morbidity no different in 5mg or 10mg start
• Goal INR 2 to 3

27. Duration of Anticoagulation for DVT or
PE*
Event Duration Strength of
Recommendation
First Time event of
Reversible cause
(surgery/trauma)
At least 3 mos A
First episode of
idiopathic VTE
At least 6 mos A
Recurrent idiopathic
VTE or continuing risk
factor (e.g.,
thrombophilia, cancer)
At least 12 mos B
Symptomatic isolated
calf-vein thrombosis
6 to 12 weeks A
*From American College of Chest Physicians

28. Thrombolysis
• Considered once P.E. diagnosed
• If chosen, hold anticoagulation during thrombolysis infusion, then
resumed
• Associated with higher incidence of major hemorrhage
• Indications: persistent hypotension, severe hypoxemia, large
perfusion defecs, right ventricular dysfunction, free floating right
ventricular thrombus, paten foramen ovale
• Activase or streptokinase

29. IVC Filter
• Indication:
• Absolute contraindication to anticoagulation (i.e.
active bleeding)
• Recurrent PE during adequate anticoagulation
• Complication of anticoagulation (severe bleeding)
• Also:
• Pts with poor cardiopulmonary reserve
• Recurrent P.E. will be fatal
• Patient’s who have had embolectomy
• Prophylaxis against P.E. in select patients (malignancy)

30. Embolectomy
• Surgical or catheter
• Indication:
• Those who present severe enough to warrant thrombolysis
• In those where thrombolysis is contraindicated or fails

32. PROGNOSIS
• Depends on 2 factors: the underlying disease state and appropriate
diagnosis and treatment.
• Approximately 10% of patients who develop pulmonary embolism die
within the first hour, and 30% die subsequently from recurrent
embolism.