Deep Vein Thrombosis Clinical Trial
Official title:
Age-adjusted D-dimer Cutoff Levels to Rule Out Deep Vein Thrombosis: a Prospective Outcome Study
Prospective validation of an age-adjusted D-dimer cut-off to rule out deep vein thrombosis (DVT)
Suspected deep vein thrombosis (DVT) is a frequent clinical problem and remains a diagnostic
challenge. The diagnostic approach of DVT relies on sequential diagnostic tests, such as the
assessment of clinical probability, plasma D-dimer measurement, and compression
ultrasonography (CUS).
Clinical probability has a fair predictive accuracy either evaluated implicitly or by
clinical prediction rules and is useful for identifying patients with a low prevalence of DVT
who can be usually fully investigated by non invasive tests.
The D-dimer test has been extensively evaluated in the exclusion of DVT, particularly in
outpatients. ELISA D-dimer and second-generation latex agglutination (immuno-turbidimetric
tests) have a remarkably high sensitivity and have been proved safe first-line tests in
association with clinical probability to rule out DVT in outcome studies. The clinical
usefulness of D-dimer is defined by the proportion of patients in whom DVT may be ruled out
by a normal result and it is determined by the specificity. However, ELISA and
second-generation latex agglutination (immuno-turbidimetric tests) tests have a quite limited
overall specificity of around 35% to 40%.3 Therefore, many investigators tried to increase
the D-dimer thresholds in particular in elderly patients to increase the rate of patients in
whom the diagnosis could be excluded by this easy and inexpensive test. Several studies have
shown that D-dimer levels increase with age, which turns in a decreased specificity of the
D-dimer test at the usual threshold in the elderly, and thus to a less useful test to exclude
both DVT and pulmonary embolism (PE) in older patients. For example, ELISA D-dimer is able to
rule out PE in 60% of patients aged less than 40 years, but in only 5% of patients above the
age of 80. In this study, raising the cutoff value to various points between 600 microg/L and
1000 microg/L increased specificity, but this came at the cost of safety with more false
negative test results. In this analysis, however, no stratification was made for clinical
probability and the sample was small.
Recently, the investigators retrospectively assessed the value of a progressive cutoff
adjusted to age in a wide sample of 1712 patients with suspected PE. This "new" cutoff was
defined for D-Dimer test positivity in each patient by multiplying patient's age by 10. All
patients with a D-Dimer level below 500 microg/L, and all patients above 50 years whose
D-Dimer levels were inferior to their age multiplied by 10 were considered as having a
negative D-Dimer test. Using the conventional cutoff, the VIDAS® D-Dimer test was negative
(below 500 microg/L) in 512/1712 patients (29.9%) and none had PE during initial workup or
the three-month follow-up period.
Using the cutoff adjusted to age (cutoff for D-Dimer test positivity equals age multiplied by
ten, in microg/L), the figure was as follows. D-Dimer levels were below the adjusted cutoff
in 615/1712 patients (35.9%, number needed to test 2.8). This represented a statistically
significant 20.1% increase in the number of patients in whom the D-Dimer test was considered
as negative, p=0.0002. Of these 615 patients, 5 had PE during initial workup (0.8%, 95
percent confidence interval 0.4 to 1.9%).
In a recently published a prospective outcome validation study of the age-adjusted cutoff in
patients with a clinically suspected PE.13 The study included more than 3300 patients with
suspected PE and showed that the three-month thromboembolic risk in patients with an nonhigh
(or unlikely) clinical probability and a D-Dimer level between 500 microg/L and the
age-adjusted cutoff was of 0.3% (95% CI: 0.1 5 to 1.7%). These results were in line with the
one found in patients with a D-dimer level below the usual cutoff of 500 microg/L: 0.1% (95%
CI: 0.0% to 0.7%). Moreover, in patients above 75 years the age-adjusted cutoff allowed to
increase five-fold the number of patients in whom PE could be excluded without imaging test.
As PE and DVT are often considered as a similar disease, the investigators plan a prospective
outcome study in which this progressive or "new" cutoff (age X 10 µg/L) will be used in
patients with suspected DVT. In this multicentre study, clinical probability will be assessed
by the Wells score (Table 1) and an ELISA D-dimer test (Vidas D-dimer Exclusion® test
(Biomérieux, Marcy l'Etoile, Paris, France) or an immuno-turbidimetric test Innovance D-dimer
(Siemens, Munich, Germany) will be performed. Patients with a nonhigh or "unlikely" clinical
probability with the Wells score and a normal "new" D-dimer cutoff will be considered as not
having DVT, and will be followed for three-months to assess possible VTE recurrences. 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 this strategy. Patients with a D-dimer
measurement above the age-adjusted cutoff will be investigated with CUS as currently
admitted.
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