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Clinical Presentation
Typical Signs and Symptoms
The suspicion of pulmonary embolism is usually
raised by the clinical symptoms. Dyspnea, pleuritic chest pain, and tachypnea
(respiratory rate ≥20 breaths/minute) occur in most cases of pulmonary
embolism. Dyspnea is the most frequent symptom, while tachypnea is its most
frequent sign.
Other signs and symptoms that
may be present include tachycardia (heart rate [HR] >100 beats/minute [bpm]),
cough, hemoptysis, syncope, non-pleuritic chest pain, wheezing, and hypotension.
Clinical instability or cardiac arrest is indicative of a massive pulmonary
embolism.
Pleuritic Chest Pain
Pleuritic chest pain with or without dyspnea is one
of the most frequent presentations of pulmonary embolism. It may suggest a
small embolism located distally near the pleura.
Isolated Dyspnea
Isolated dyspnea may occur suddenly or progressively
(over several weeks). It is usually due to a more central pulmonary embolism
(not affecting the pleura). It may be associated with a substernal angina-like
chest pain that probably represents right ventricular ischemia.
Worsening dyspnea may be the only symptom that
indicates pulmonary embolism in patients with preexisting heart failure (HF) or
pulmonary disease.
Syncope or Shock
Syncope or shock are the hallmark signs of central pulmonary
embolism and usually result in severe hemodynamic repercussions. The signs of
hemodynamic compromise and reduced heart flow are also usually present (eg
systemic arterial hypotension, oliguria, cold extremities, and/or clinical
signs of acute right heart failure).
Physical Examination
Signs and Symptoms of Pulmonary Embolism
Dyspnea is usually the primary symptom and systemic
arterial hypotension that requires pressor support is the predominant sign. Syncope
and/or cyanosis may be present in some patients.
Signs and Symptoms of Massive Pulmonary Embolism
One should raise suspicion of a massive pulmonary
embolism if the patient presents with hemodynamic instability (systolic blood
pressure of <90 mmHg, or a drop of ≥ 40 mmHg for >15 minutes, requiring
vasopressors, or with clear evidence of shock), syncope, severe hypoxemia, or respiratory
distress.
Diagnosis or Diagnostic Criteria
Clinical
Pretest Probability of Pulmonary Embolism (CPTP)
Evaluating the likelihood of pulmonary embolism in
an individual patient according to the clinical presentation is of utmost
importance in the interpretation of diagnostic test results and in the
selection of an appropriate diagnostic strategy.
A reasonable clinical suspicion is required to avoid
missing the diagnosis of pulmonary embolism. A clinical evaluation allows the patients
to be classified into probability categories corresponding to an increasing
prevalence of pulmonary embolism. The clinical probability may be implicitly estimated
by clinical judgment or explicitly by a validated prediction rule. All patients
with possible pulmonary embolism should have their clinical probability
assessed and documented. Patients should also be evaluated for risk factors for
venous thromboembolism (VTE).
Prediction
Rule versus Clinical Judgment
To identify a patient with a high likelihood of PE,
prediction rules appear to be more accurate than clinical judgment. Clinical
judgment can discern if the patient has a low likelihood of pulmonary embolism.
Patients who have a low clinical probability of pulmonary embolism, no lower
limb deep vein thrombosis (DVT), and non-diagnostic lung scan have a low risk
of pulmonary embolism.
Estimation
of Pretest Probability of Pulmonary Embolism
Example
methods: Wells, Wicki, Kline, revised Geneva score
Wells method is the most frequently used clinical
prediction rule. In any of the methods used, the proportion of patients with
pulmonary embolism is around 10% in the category of low probability, 30% in
moderate probability, and 65% in high probability. Clinical evaluation allows
patients to be classified into probability categories corresponding to an
increasing prevalence of pulmonary embolism.
Wells
(Canada) Method
Wells method requires that the patient have clinical
features suggestive of pulmonary embolism (eg breathlessness, and/or tachypnea
with or without pleuritic chest pain, and/or hemoptysis). Along with two other
features, there should be the absence of another reasonable clinical
explanation or the presence of a major risk factor. If both are
true, then the probability is high; if only one of the above is true then the
probability is intermediate; and if neither is true then the probability is low.
| Modified Wells Pre-Test Probability Scoring System | |||||
|---|---|---|---|---|---|
| Variable | Points | Pretest probability | Total points | ||
| Original | Simplified | Original | Simplified | ||
| Clinical signs and symptoms | 3.0 | 1 | Based on likelihood | ||
| Alternative diagnosis is less likely than PE | 3.0 | 1 | PE less likely | 0-4 | 0-1 |
| HR >100 bpm | 1.5 | 1 | PE likely | ≥5 | ≥2 |
| Immobilization or surgery in the last 4 days | 1.5 | 1 | Based on risk groups | ||
| Previous DVT/PE | 1.5 | 1 | High | ≥7 | N/A |
| Hemoptysis | 1 | 1 | Intermediate | 2-6 | N/A |
| Malignancy (with treatment within the last 6 months) | 1 | 1 | Low | 0-1 | N/A |
| Modified from: The Task Force for the Diagnosis and Management of Acute Pulmonary Embolism of the European Society of Cardiology (ESC). 2014 ESC guidelines on the diagnosis and management of acute pulmonary embolism. Eur Heart J. 2014 Nov;35(43):3033-3080. | |||||
Pulmonary
Embolism Rule-Out Criteria (PERC)
PERC helps exclude patients at very low risk for pulmonary
embolism. Studies show that PERC validation done prior to D-dimer testing is
100% sensitive. The presence of any of the following indicates a positive PERC:
Age > 49 years old; pulse rate >99 beats/minute; pulse oximetry <95%
at room air; hemoptysis; previously intubated due to surgery or trauma or
hospitalization within the last 4 weeks; patient on exogenous Estrogen therapy;
a clinical history of venous thromboembolism; and unilateral leg (calf) swelling.
Prognostic
Risk Assessment
The prognostic risk assessment is done using Pulmonary Embolism Severity
Index (PESI) and simplified PESI (sPESI), Hestia criteria, cardiac markers (eg
cardiac troponin I, natriuretic peptide), and imaging tests and classifies
patients as follows:
- High risk: Hemodynamic instability (eg shock, persistent arterial hypotension), PESI class III-V or sPESI ≥1, presence of signs of right ventricular dysfunction upon imaging tests, and the presence of cardiac markers
- Intermediate risk: PESI class III-V or sPESI ≥1, presence of signs of right ventricular
dysfunction upon imaging tests, and/ or presence of cardiac
markers
- In intermediate-high risk patients, both cardiac markers and imaging results are positive for abnormalities
- Either cardiac markers or signs of right ventricular dysfunction are present in patients with intermediate-low risk
- Low risk: No signs of right ventricular dysfunction on imaging tests (eg echocardiography, CT angiogram) and negative cardiac markers