To the editor:

Fetal/neonatal alloimmune thrombocytopenia resulting from specific maternal immunization against human platelet antigens (HPAs) is the most frequent cause of severe isolated thrombocytopenia (platelet counts <50 × 109/L) in maternity wards, and its most destructive consequence is intracranial hemorrhage (20% to 25% of reported cases of fetal/neonatal alloimmune thrombocytopenia).1  In the absence of routine antenatal screening, diagnosis is mostly carried out when the fetus or newborn is already affected. Because of high recurrence and greater severity of this syndrome in subsequent pregnancies with incompatible fetus, there is a consensus on antenatal management with maternal first-line therapy using intravenous immunoglobulins (IVIG) ± steroids.2-4  Fetal platelet count is mostly unknown during pregnancy because of the risk of fetal blood sampling. Consequently, maternal parameters have been investigated to evaluate fetal status and its response to maternal therapy. Since 2004, our laboratory has carried out a prospective study on maternal anti-HPA-1a alloantibody concentration follow-up during managed pregnancies. Since our previous publication,5  we have increased our cohort (55 HPA-1bb women). Pregnancies were managed with IVIG from 20.5 (median) ± 2.8 weeks of gestation (1 g/kg per week dose), and steroids during the last trimester for 38 of these 55 women (prednisone 0.5 mg/kg per day). Sequential maternal anti-HPA-1a quantifications have been carried out using the gold-standard method of monoclonal antibody-specific immobilization of platelet antigens6  on a total of 329 samples (median of 5 ± 2 sera per pregnancy) from the beginning of IVIG therapy to delivery (1 sample every 3 to 5 weeks). There were 4 twin pregnancies and 59 babies were born at 37 (median) ± 1.6 weeks of gestation. For each pregnancy, antibody concentrations were analyzed by calculation of the area under the curve (AUC) weighted by the weeks between the first and the last quantification.5,7  The most striking result was the correlation between AUC and newborn platelet count at delivery: low AUC was correlated with a safe newborn platelet count (>50 × 109/L) and high AUC with severely affected newborns needing postnatal treatment (platelet transfusion with/or without IVIG). The cohort presented here allowed the establishment of an AUC threshold of 23 IU/mL (P < .0001; sensitivity, 76.19%; specificity, 78.95%) (Table 1) with a good negative predictive value (85.71%): AUC can help clinicians predict a fetal response to maternal therapy. If we consider the obstetric history of the mother (IVIG-treated pregnancy at gestation 2 or >2), predictive values of AUC for response to therapy were better at second gestation than for multigestational women (Table 1). This larger series confirms that multigravida is an obvious risk factor in therapy failure.5  These new data confirm our preliminary results concerning the predictive value of maternal anti-HPA-1a alloantibody follow-up for fetal therapy response, more specifically for second-gestation women. This noninvasive parameter will help clinicians manage delivery in high-risk pregnancies. According to the AUC measured prepartum with the sequential samples collected during pregnancy, we may consider (1) vaginal delivery with low risk of severe thrombocytopenia when AUC is below 23 IU/mL or (2) cesarean section when there is a higher risk of severe thrombocytopenia when AUC is above this threshold.

Acknowledgments: The authors thank Thomas Beranger, Frédéric Bianchi, Cécile Casale, Christophe Chenet, Virginie Dufour, Corinne Martageix, Sébastien Philippe, and Jeannine Quesne for technical assistance and Anne Vernon-James for reading the manuscript. The authors also thank the following clinicians for their collaboration: C. Allouche (Evreux), L. Begue (Montpellier), J.-L. Benifla (Paris), F. Boehlen (Genova), A.-B. Bongain (Nice), F. Bretelle (Marseille), V. Brossard (Rouen), H. Bruel (Le Havre), P.-D. Castro (Creil), A. Chalvon Demersay (Lagny), C. Chau (Marseille), J. De Chivre (Valence), H. Conan (Saint-Brieuc), F. Daffos (Paris), G. Daltroff (Belfort-Montbéliard), M. Delignette (Dijon), C. D’Ercole (Marseille), A. Dreval (Strasbourg), F. Duchatel (Pontoise), M. Farrugia (Paris), J.-M. Firmin (Le Havre), P. Gaucherand (Lyon), G. Genho-Hreiche (Paris), P.-L. Giacalone (Montpellier), J. Grunberg (Arpajon), P. Heren (Lannion), M.-F. Hurtaud (Paris), F. Jacquemard (Paris), H. Laurichesse (Clermont-Ferrand), B. Le Fiblec (Saint-Brieuc), S. Lefort (Brive), S. Marret (Rouen), C. Mathey (Aix-en-Provence), M. Maynier (Paris), B. Mennesson (Pontoise), F. Michel (Meaux), A. Miton (Nancy), D. Monnier (Rennes), J-C. Robin (Montélimar), J. Nizard (Poissy), P. Perrier (Nancy), F. Pierre (Poitiers), H. Poissonnier (Paris), P. Poulain (Rennes), J.-C. Pons (Grenoble), S. Rouleau (Angers), T. Rousseau (Dijon), L. Salomon (Paris), A. Treisser (Monaco), M.-N. Varlet (Saint-Etienne), E. Verdy (Paris), E. Verspyck (Rouen), P. Vanlieferinghen (Clermont-Ferrand), D. Vauthier-Brouzes (Paris), and R. Wartanian (Angers).

Contribution: G.B. performed the research, analyzed data, and wrote the paper; R.P. contributed new samples; and C.K. designed the research.

Conflict-of-interest disclosure: The authors declare no competing financial interests.

Correspondence: Gérald Bertrand, INTS, Platelet Immunology Department, F-75015 Paris, France; e-mail: gerald.bertrand@live.fr.

1
Spencer
 
JA
Burrows
 
RF
Feto-maternal alloimmune thrombocytopenia: a literature review and statistical analysis.
Aust N Z J Obstet Gynaecol
2001
, vol. 
41
 
1
(pg. 
45
-
55
)
2
Berkowitz
 
RL
Lesser
 
ML
McFarland
 
JG
et al. 
Antepartum treatment without early cordocentesis for standard-risk alloimmune thrombocytopenia: a randomized controlled trial.
Obstet Gynecol
2007
, vol. 
110
 
2 Pt 1
(pg. 
249
-
255
)
3
Bussel
 
JB
Primiani
 
A
Fetal and neonatal alloimmune thrombocytopenia: progress and ongoing debates.
Blood Rev
2008
, vol. 
22
 
1
(pg. 
33
-
52
)
4
Pacheco
 
LD
Berkowitz
 
RL
Moise
 
KJ
Bussel
 
JB
McFarland
 
JG
Saade
 
GR
Fetal and neonatal alloimmune thrombocytopenia: a management algorithm based on risk stratification.
Obstet Gynecol
2011
, vol. 
118
 
5
(pg. 
1157
-
1163
)
5
Bertrand
 
G
Drame
 
M
Martageix
 
C
Kaplan
 
C
Prediction of the fetal status in noninvasive management of alloimmune thrombocytopenia.
Blood
2011
, vol. 
117
 
11
(pg. 
3209
-
3213
)
6
Bertrand
 
G
Bakchoul
 
T
Javela
 
K
Kjaer Killie
 
M
Kaplan
 
C
SSC of the ISTH
Interlaboratory workshop on anti-HPA-1a alloantibody quantification with the mAb-specific immobilization of platelet antigen technique.
J Thromb Haemost
2012
, vol. 
10
 
6
(pg. 
1172
-
1174
)
7
Bertrand
 
G
Jallu
 
V
Gouet
 
M
et al. 
Quantification of human platelet antigen-1a antibodies with the monoclonal antibody immobilization of platelet antigens procedure.
Transfusion
2005
, vol. 
45
 
8
(pg. 
1319
-
1323
)
Sign in via your Institution