<div>Dear Sir </div><div>We congratulate Dr Guy and colleagues on their paper<sup>1</sup>which demonstrates that implementation of combined screening using the
FMF algorithm<sup>2</sup> is feasible in practice and is better
than the existing NICE guidelines in prevention of preeclampsia,
especially preterm preeclampsia with delivery before 34 weeks. We hope
that this will lead to wider application of combined screening for
prediction and prevention of preeclampsia.</div><div>The authors acknowledge that treatment with aspirin will have led to
underestimation of screening performance. We would like to highlight
this and emphasise the importance of accounting for the effect of
aspirin when assessing predictive performance. To make the point,
consider the most extreme case with 100% compliance with a treatment
that prevents 100% of cases. In the screen positive group, all cases
would be prevented by the treatment and classified as false positives.
Adopting the same analysis presented in this paper would result in a
detection rate and positive predictive value of zero regardless of
performance without treatment.</div><div>In the data presented in this study, for the FMF algorithm with 99%
compliance to aspirin at a dose of 150 mg / day and assuming 62%
reduction in risk,<sup>3</sup> 99%×62% = 61.4% of cases of
preterm preeclampsia would be prevented and classed as false positives.
The remaining 100-61.4% = 38.6% would be classed as true positives so
the 15 cases of preterm preeclampsia which led to the detection rate of
15/27 = 55.6% represent just 38.6% of the cases of preterm
preeclampsia detected. An estimate of the number detected, including
those prevented by aspirin is, 15/0.386 = 39. The estimated number of
cases in total is therefore 39 + 12 = 51, obtained by adding the false
negatives 27-15 = 12 to the estimated true positives. This gives a
detection rate of 39/51 = 76% compared to the figure of 55.6% given in
Table 2. Applying similar calculations to the positive predictive value
(i.e. proportion of women in the screen positive group who would,
without aspirin, have developed preterm preeclampsia) of 9.8%. This
should be compared with the 3.8% presented in the paper. Applying the
same arithmetic to the NICE group gives a detection rate of 41.6% and a
positive predictive value of 2.4%. These are much closer to the figures
in Table 2 of the paper because of the relatively low compliance in the
NICE group. Other measures of screening performance presented on this
paper including the likelihood ratios, negative predictive value the
receiver operating characteristic (ROC) curve analysis are also affected
by this problem.</div><div>The arithmetic presented above is intended for illustration; for the
SPREE study<sup>4</sup> we applied Markov chain monte carlo
(MCMC) methods for inferences about screening performance. These or
similar methods should be applied in future studies of screening
performance.</div><div>Dave Wright,<sup>1</sup> Kypros Nicolaides<sup>2</sup></div><ol><li>Institute of Health Research, University of Exeter, Exeter, UK</li><li>Harris Birthright Research Centre for Fetal Medicine, King’s College
Hospital, London, UK.</li></ol>