Pulmonary Embolism Clinical Trial
Official title:
Multi-Detector Spiral Computed Tomography Alone Versus Combined Strategy With Lower Limb Compression Ultrasonography in Outpatients Suspected of Pulmonary Embolism: A Randomised Non-Inferiority Trial [CTEP4]
The main hypothesis for this study is that the diagnostic approach of pulmonary embolism
(PE) by evaluation of clinical probability, D-dimer test dosage and multi-detector helical
computed tomography (hCT) is as safe as the classical "approach" using clinical probability,
D-dimer test, lower limb compression ultrasonography and multi-detector helical computed
tomography.
The second hypothesis involves evaluating the role of searching distal, i.e. infrapopliteal,
deep venous thromboses (DVTs) in the diagnostic approach of pulmonary embolism.
Suspected pulmonary embolism [PE] is a frequent clinical problem and remains a diagnostic
challenge. The diagnostic approach of PE relies on sequential diagnostic tests, such as
plasma D-dimer measurement, lower limb compression ultrasonography, ventilation-perfusion
lung scan or helical computed tomography [hCT] and pulmonary angiography. In addition, the
diagnostic workup is usually stratified according to the clinical probability of pulmonary
embolism.
First-generation hCTs were based on a single-detector technique and had a limited 70%
sensitivity. Moreover, in two recent outcome studies, a proximal deep venous thrombosis
diagnosed by lower limb compression ultrasonography was found in 15% of patients with a
normal single-detector hCT. However, in management studies, the association of a normal
lower limb compression ultrasonography and a normal single-detector hCT has been proved safe
to rule out PE in patients with a non-high clinical probability, with a less than 2% rate of
thromboembolic events during a 3-month follow-up in patients left untreated based on that
combination. Hence, lower limb compression ultrasonography must be combined with a
single-detector CT to safely rule out pulmonary embolism.
More recently, the multi-detector hCT has become widely available. These new scanners allow
one to improve image definition and to diminish slice thickness without increasing
acquisition time and, hence, to better visualize the segmental and sub-segmental pulmonary
arteries. In a recent study [CTEPm], the investigators evaluated the performances of a
multi-detector hCT. The rate of false negative results, assessed by the rate of patients
with proximal DVT on ultrasonography and a negative hCT, was much lower using the
multi-detector CT [0.9%, 95% confidence interval: 0.3-3.3%] than with the single-detector
technique [15%]. This raises the possibility that hCT might be used as a single test to rule
out PE in patients with an elevated D-dimer level. Indeed, ELISA plasma D-dimer measurement
in patients with a non-high clinical probability of PE remains a logical first step since it
safely rules out PE in approximately 30% of patients. Such a strategy should now be
validated in a prospective randomised outcome study to compare its safety and
cost-effectiveness with that of a previously validated strategy combining D-dimer, lower
limb compression ultrasonography and hCT.
Therefore, the investigators plan to compare the efficacy and cost-effectiveness of two
distinct diagnostic strategies for suspected pulmonary embolism in emergency center patents
in a non-inferiority trial. The strategies are: 1) an algorithm based on clinical
assessment, D-dimer and multi-detector hCT (DD-hCT); and 2) a previously validated strategy
that includes lower limb compression (DD-US-hCT). The main outcome will be the rate of
thromboembolic events during a formal 3-month follow-up in patients not anticoagulated on
the basis of a PE ruled out by the diagnostic criteria in each study arm. A secondary
outcome will be the costs of diagnosis in each study arm, including the costs of suspected
and/or confirmed thromboembolic events during follow-up.
In addition, the investigators aim to prospectively and pragmatically validate the revised
Geneva score for assessing the clinical probability of PE by using it in the sequential
diagnostic work-up for PE. Classification performances of this score will be assessed by
checking its capacity to discriminate between patients having a low, intermediate, or high
probability of PE.
Finally, in a nested study, the investigators aim to compare the clinical usefulness of a
complete lower limb compression ultrasonography versus a classical "4-points
ultrasonography" (ultrasonography of the proximal veins) in the patients from the ultrasound
arm of the study (DD-US-hCT). Indeed, preliminary data indicate that complete ultrasound
detects a DVT in a higher proportion of patients with PE than proximal ultrasound (US) and,
hence, has the potential for further limiting the requirement for chest imaging in patients
with suspected PE. Because finding a distal DVT is of uncertain clinical significance, such
a finding will not be reported to the clinicians in charge of the patient and those patients
will undergo a helical CT and be treated (or not) according to the CT result. Outcome
measurements will be the number of patients in whom hCT could have been avoided by ruling in
the diagnosis of PE in the presence of a distal DVT (proportion of patients with both distal
DVT on ultrasonography and pulmonary embolism on multi-detector hCT) and the number of
patients who would have been unduly anticoagulated if considering the presence of a distal
DVT in the complete compression ultrasonography (proportion of patients with distal DVT on
ultrasonography, but without pulmonary embolism on multi-detector hCT, and without a
thromboembolic event during the 3 month follow-up).
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double-Blind
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