Pulmonary Embolism Clinical Trial
Official title:
Ruling Out Pulmonary Embolism During Pregnancy:a Multicenter Outcome Study
Venous thromboembolism (VTE) remains a major cause of maternal morbidity and mortality in
developed countries. Objective diagnosis of pulmonary embolism (PE) and/or deep vein
thrombosis (DVT) in pregnancy is crucial. Failure to identify PE or/or DVT will place the
mother's life at risk, and unnecessary treatment will not only expose her to anticoagulants
but will also label her as having had VTE. Thus, this diagnosis has serious implications for
the management of her present pregnancy, and for other aspects of her life ranging from
contraception to thromboprophylaxis in future pregnancies and hormone replacement therapy in
later life. It is therefore critical that all women with symptoms or signs that suggest
venous thromboembolism have appropriate investigation and diagnosis based on objective
diagnostic tests.
The current diagnostic approach in suspected PE is based on sequential diagnostic tests: 1)
assessment of clinical probability, 2) fibrin D-dimer measurement, 3) compression
ultrasonography of lower limb veins and 4) multi-slice computed tomography (MSCT). However,
physicians are reluctant to perform MSCT in pregnant women because of potential adverse
effect of radiation exposure to the fetus. For this reason, ventilation/perfusion or
perfusion-only lung scan has been the cornerstone of PE diagnosis in pregnant women. Indeed,
perfusion lung scan was assumed to be associated with less radiation than computed tomography
(CT). However, this technique is now widely abandoned in the usual diagnostic strategy of PE
for the following reasons: it is not widely available; its interpretation may be difficult
and the test may be inconclusive in the presence of other chest abnormalities. Moreover,
recent data convincingly show that the radiation exposure associated with single-slice or
multi-slice CT exposes the fetus to less radiation than perfusion lung scan.
However, the use of CT has never been adequately validated in pregnant women with clinically
suspected PE. The investigators, therefore, plan to set up a prospective management study in
which pregnant women with suspected PE will undergo a sequential diagnostic strategy based on
1) assessment of clinical probability 2) D-dimer measurement 3) compression ultrasonography,
and 4) MSCT.
Nowadays, the overestimated fear of radiation exposure for the fetus leads to an irrational
attitude and inadequate investigations in pregnant women with suspected PE, even though both
European [3, 4] and North-American guidelines [5] suggest that only objective testing may
accurately rule out the disease. The proposed study should lead to an increased awareness of
the risks and benefits of appropriate imaging in pregnant women suspected of PE and should
result in a more rational management of this under-studied patient group.
Venous thromboembolism (VTE) remains a major cause of maternal morbidity and mortality in
developed countries. Objective diagnosis of pulmonary embolism (PE) and/or deep vein
thrombosis (DVT) in pregnancy is crucial. Failure to identify PE or/or DVT will place the
mother's life at risk, and unnecessary treatment will not only expose her to anticoagulants
but will also label her as having had VTE. Thus, this diagnosis has serious implications for
the management of her present pregnancy, and for other aspects of her life ranging from
contraception to thromboprophylaxis in future pregnancies and hormone replacement therapy in
later life. It is therefore critical that all women with symptoms or signs that suggest
venous thromboembolism have appropriate investigation and diagnosis based on objective
diagnostic tests.
Diagnosis of VTE on a clinical basis is unreliable, especially during pregnancy because leg
swelling and mild dyspnea are frequent during normal pregnancy.
The current diagnostic approach in suspected PE is based on sequential diagnostic tests: 1)
assessment of clinical probability, 2) fibrin D-dimer measurement, 3) compression
ultrasonography of lower limb veins and 4) multi-slice computed tomography (MSCT). However,
physicians are reluctant to perform MSCT in pregnant women because of potential adverse
effect of radiation exposure to the fetus. For this reason, ventilation/perfusion or
perfusion-only lung scan has been the cornerstone of PE diagnosis in pregnant women. Indeed,
perfusion lung scan was assumed to be associated with less radiation than computed tomography
(CT). However, this technique is now widely abandoned in the usual diagnostic strategy of PE
for the following reasons: it is not widely available; its interpretation may be difficult
and the test may be inconclusive in the presence of other chest abnormalities. Moreover,
recent data convincingly show that the radiation exposure associated with single-slice or
multi-slice CT exposes the fetus to less radiation than perfusion lung scan.
However, the use of CT has never been adequately validated in pregnant women with clinically
suspected PE. We, therefore, plan to set up a prospective management study in which pregnant
women with suspected PE will undergo a sequential diagnostic strategy based on 1) assessment
of clinical probability 2) D-dimer measurement 3) compression ultrasonography, and 4) MSCT.
Nowadays, the overestimated fear of radiation exposure for the fetus leads to an irrational
attitude and inadequate investigations in pregnant women with suspected PE, even though both
European and North-American guidelines suggest that only objective testing may accurately
rule out the disease. The proposed study should lead to an increased awareness of the risks
and benefits of appropriate imaging in pregnant women suspected of PE and should result in a
more rational management of this under-studied patient group.
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