EBQ:Wells PE Rule Out: Difference between revisions
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==Conclusion== | ==Conclusion== | ||
Patients can be safely managed for suspected pulmonary embolism on the basis of pretest probability and d-dimer | Patients can be safely managed for suspected [[pulmonary embolism]] on the basis of pretest probability and d-dimer | ||
==Major Points== | ==Major Points== | ||
===Wells Criteria=== | |||
{{Wells Criteria}} | {{Wells Criteria}} | ||
===Wells Score=== | |||
{{Wells Score}} | {{Wells Score}} | ||
PE exclusion | |||
*Low pre-test probability and negative d-dimer | |||
*Definitive negative imaging needed for moderate and high pretest probability | |||
'''NPV=99.5%''' of diagnostic algorithm | |||
==Study Design== | ==Study Design== | ||
Prospective | *Prospective cohort study in 4 Canadian tertiary care hospitals | ||
*Patients were evaluated by 1 of 43 EM physicians | *Patients were evaluated by 1 of 43 designated EM physicians | ||
*Physician assigned points according to the Well's criteria points table above | *Physician assigned points according to the Well's criteria points table above | ||
* | *Primary outcome was development of venous thromboembolic event in patients with excluded PE diagnosis during 3 months of follow-up | ||
* | **Diagnosis of PE made with high-probability V-P scan, abnormal result on ultrasound or pulmonary angiography, or VTE during follow-up | ||
==Population== | ==Population== | ||
===Patient Demographics=== | ===Patient Demographics=== | ||
*Mean age: 50.5 years old | |||
*Women: 63% | |||
*Mean duration of symptoms: 3.2 days | |||
*Diagnosis of cancer: 7.2% | |||
*Recent surgery: 8.4% | |||
*Recent immobilization: 7.6% | |||
===Inclusion Criteria=== | ===Inclusion Criteria=== | ||
* | *Presenting to participating ED | ||
*Suspicion of PE | *Suspicion of PE | ||
*Symptoms for <30 days | *Symptoms for <30 days | ||
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===Primary Outcome=== | ===Primary Outcome=== | ||
{| class="wikitable" | |||
|- | |||
! Pretest Probability !! Patients !! Diagnosis of PE | |||
|- | |||
| Low || 527 || 7 (1.3%) | |||
|- | |||
| Moderate || 339 || 55 (16.2%) | |||
|- | |||
| High || 64 || 24 (40.6%) | |||
|} | |||
*849 patients had the diagnosis of PE excluded | |||
**Of these, 5 patients (0.6%) developed PE or DVT during follow-up. However, 4 of these had not undergone the proper diagnostic protocol. | |||
*437 patients had the diagnosis excluded with a negative D-dimer result and low clinical probability | |||
**Of these, only 1 developed PE during follow-up | |||
'''Negative predictive value''' for combined strategy with D-dimer testing: '''99.5%''' (CI, 99.1% to 100%) | |||
===Secondary Outcomes=== | ===Secondary Outcomes=== | ||
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==Criticisms & Further Discussion== | ==Criticisms & Further Discussion== | ||
*This study used V-P lung scan, which was been replaced | *This study used V-P lung scan, which was been replaced by CTA as imaging of choice | ||
**CTA has increased sensitivity (83%) and specificity (96%), compared to 65% and 94%, respectively, for V-P scan <ref>Stein PD, et al. "Multidetector Computed Tomography for Acute Pulmonary Embolism". The New England Journal of Medicine. 2006. 354(22):2317-2327.</ref> | |||
*Clinical gestalt is heavily weighted in this decision rule | |||
**Having PE as most likely diagnosis automatically classifies the patient as moderate pretest probability | |||
*Wells criteria often used in concert with the PERC rule to increase sensitivity | |||
==Funding== | |||
Grant from the Heart and Stroke Foundation of Nova Scotia and Ontario | |||
==See Also== | ==See Also== | ||
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==External Links== | ==External Links== | ||
*[http://www.mdcalc.com/wells-criteria-for-pulmonary-embolism-pe/ MDCalc: Wells' Criteria] | *[http://www.mdcalc.com/wells-criteria-for-pulmonary-embolism-pe/ MDCalc: Wells' Criteria] | ||
*[https://vimeo.com/25790659 Pulmonary Embolism Video] | |||
==Review Questions== | ==Review Questions== | ||
Revision as of 22:03, 21 September 2015
Under Review Journal Club Article
Wells PS et al. "Excluding Pulmonary Embolism at the Bedside without Diagnostic Imaging: Management of Patients with Suspected Pulmonary Embolism Presenting to the Emergency Department by Using a Simple Clinical Model and D-Dimer". Annals of Internal Medicine. 2001. 135(2):98-107.
PubMed Full text PDF
PubMed Full text PDF
Clinical Question
Is there a simple clinical model along with d-dimer assay testing that can be used to manage patients presenting to the emergency department with suspected pulmonary embolism?
Conclusion
Patients can be safely managed for suspected pulmonary embolism on the basis of pretest probability and d-dimer
Major Points
Wells Criteria
Wells Score
Wells Criteria
| Clinical Features | Points |
|---|---|
| Symptoms of DVT (leg swelling and pain with palpation) | 3.0 |
| PE as likely as or more likely than an alternative diagnosis | 3.0 |
| HR >100 bpm | 1.5 |
| Immobilization for >3 consecutive days or surgery in the previous 4 weeks | 1.5 |
| Previous DVT or PE | 1.5 |
| Hemoptysis | 1.0 |
| Malignancy (receiving treatment, treatment stopped within 6 mon, palliative care) | 1.0 |
Two Tier Wells Score
- Score 0-4 = PE Unlikely (12.1% incidence of PE)
- Check D-dimer
- If D-dimer positive then obtain CTPA or V/Q scan
- If D-dimer negative, no further workup needed (0.5% incidence of PE at 3 month follow up)
- Check D-dimer
- Score >4 = PE Likely (37.1% incidence of PE)
- Obtain CT Pulmonary Angiography or V/Q Scan
- New evidence suggests lower Wells Score with D-dimer <1000 ng/mL is effective at ruling out PE without imaging
PE exclusion
- Low pre-test probability and negative d-dimer
- Definitive negative imaging needed for moderate and high pretest probability
NPV=99.5% of diagnostic algorithm
Study Design
- Prospective cohort study in 4 Canadian tertiary care hospitals
- Patients were evaluated by 1 of 43 designated EM physicians
- Physician assigned points according to the Well's criteria points table above
- Primary outcome was development of venous thromboembolic event in patients with excluded PE diagnosis during 3 months of follow-up
- Diagnosis of PE made with high-probability V-P scan, abnormal result on ultrasound or pulmonary angiography, or VTE during follow-up
Population
Patient Demographics
- Mean age: 50.5 years old
- Women: 63%
- Mean duration of symptoms: 3.2 days
- Diagnosis of cancer: 7.2%
- Recent surgery: 8.4%
- Recent immobilization: 7.6%
Inclusion Criteria
- Presenting to participating ED
- Suspicion of PE
- Symptoms for <30 days
- Acute onset of new or worsening shortness of breath or chest pain
Exclusion Criteria
- Suspected DVT of the upper extremity as a likely source of PE
- No symptoms of PE within 3 days of presentation
- Anticoagulant therapy for more than 24 hours
- Expected survival time <3 months
- Contraindication to contrast media
- Pregnancy
- Geographic inaccessibility precluding follow-up
- <18 years old
Interventions
Physicians used a clinical model to determine patients’ pretest probability of pulmonary embolism, then performed a D-dimer test
- Low pretest probability and a negative D-dimer: No further tests, PE excluded
- All other patients underwent ventilation–perfusion lung scanning
- If nondiagnostic V-P scan, perform bilateral deep venous ultrasonography
- Further testing (serial ultrasonography or angiography) was done based on patients' pretest probability and lung scanning results
Outcomes
n=930 patients with suspected pulmonary embolism
Primary Outcome
| Pretest Probability | Patients | Diagnosis of PE |
|---|---|---|
| Low | 527 | 7 (1.3%) |
| Moderate | 339 | 55 (16.2%) |
| High | 64 | 24 (40.6%) |
- 849 patients had the diagnosis of PE excluded
- Of these, 5 patients (0.6%) developed PE or DVT during follow-up. However, 4 of these had not undergone the proper diagnostic protocol.
- 437 patients had the diagnosis excluded with a negative D-dimer result and low clinical probability
- Of these, only 1 developed PE during follow-up
Negative predictive value for combined strategy with D-dimer testing: 99.5% (CI, 99.1% to 100%)
Secondary Outcomes
Subgroup analysis
Criticisms & Further Discussion
- This study used V-P lung scan, which was been replaced by CTA as imaging of choice
- CTA has increased sensitivity (83%) and specificity (96%), compared to 65% and 94%, respectively, for V-P scan [1]
- Clinical gestalt is heavily weighted in this decision rule
- Having PE as most likely diagnosis automatically classifies the patient as moderate pretest probability
- Wells criteria often used in concert with the PERC rule to increase sensitivity
Funding
Grant from the Heart and Stroke Foundation of Nova Scotia and Ontario
See Also
External Links
Review Questions
- ↑ Stein PD, et al. "Multidetector Computed Tomography for Acute Pulmonary Embolism". The New England Journal of Medicine. 2006. 354(22):2317-2327.