References
- Machado CR , MachadoES, RohloffRDet al. Is pregnancy associated with severe dengue? A review of data from the Rio de Janeiro surveillance information system. PLoS Negl. Trop. Dis. 7(5) , e2217 (2013).
- Argolo AF , FéresVC, SilveiraLAet al. Prevalence and incidence of dengue virus and antibody placental transfer during late pregnancy in central Brazil. BMC Infect. Dis. 13 , 254 (2013).
- WHO. Dengue Guidelines for Diagnosis, Treatment, Prevention and Control. WHO Press, Switzerland (2010).
- WHO. Dengue Haemorrhagic Fever: Diagnosis, Treatment, Prevention and Control (2nd Edition). WHO Press, Switzerland (1997).
- Carles G , PeifferH, TalarminA. Effects of dengue fever during pregnancy in French Guiana. Clin. Infect. Dis.28 , 637–640 (1999).
- Waduge R , MalavigeGN, PradeepanM, WijeyaratneCN, FernandoS, SeneviratneSL. Dengue infections during pregnancy: a case series from Sri Lanka and review of the literature. J. Clin. Virol.37 , 27–33 (2006).
- Ismail NA , KampanN, MahdyZA, JamilMA, RaziZR. Dengue in pregnancy. Southeast Asian J. Trop. Med. Public Health37 , 681–683 (2006).
- Malhotra N , ChananaC, KumarS. Dengue infection in pregnancy. Int. J. Gynaecol. Obstet.94 , 131–132 (2006).
- Sharma JB , GulatiN. Potential relationship between dengue fever and neural tube defects in a northern district of India. Int. J. Gynaecol. Obstet.39 , 291–295 (1992).
- Pouliot SH , XiongX, HarvilleEet al. Maternal dengue and pregnancy outcomes: a systematic review. Obstet. Gynecol. Surv. 65 , 107–118 (2010).
- Tan PC , SoeMZ, Si Lay K, Wang SM, Sekaran SD, Omar SZ. Dengue infection and miscarriage: a prospective case control study. PLoS Negl. Trop. Dis.6(5) , e1637 (2012).
- Chitra TV , PanickerS. Maternal and fetal outcome of dengue fever in pregnancy. J. Vector Borne Dis.48(4) , 210–213 (2011).
- Gibbons RV , VaughnDW. Dengue an escalating problem. BMJ324 , 1563–1566 (2002).
- Wilder-Smith A , SchwartzE. Dengue in travelers. N. Engl. J. Med.353 , 924–932 (2005).
- Deen JL , HarrisE, WillsBet al. The WHO dengue classification and case definitions: time for a reassessment. Lancet 368 , 170–173 (2006).
- Wegmann TG , LinH, GuilbertL, MosmannTR. Bidirectional cytokine interactions in the maternal–fetal relationship: is successful pregnancy a Th2 phenomenon? Immunol. Today14 , 353–356 (1993).
- Krishnan L , GuilbertLJ, WegmannTG, BelosevicM, MosmannTR. T helper 1 response against Leishmania major in pregnant C57BL/6 mice increases implantation failure and fetal resorptions. Correlation with increased IFN-γ and TNF and reduced IL-10 production by placental cells. J. Immunol.156 , 653–662 (1996).
- Bayoumi NK , ElhassanEM, ElbashirMI, AdamI. Cortisol, prolactin, cytokines and the susceptibility of pregnant Sudanese women to Plasmodium falciparum malaria. Ann. Trop. Med. Parasitol.103(2) , 111–117 (2009).
- Jensen F , WoudwykM, TelesAet al. Estradiol and progesterone regulate the migration of mast cells from the periphery to the uterus and induce their maturation and degranulation. PLoS ONE 5(12) , e14409 (2010).
- Adam I , JumaaAM, ElbashirHM, KarsanyMS. Maternal and perinatal outcomes of dengue in PortSudan, eastern Sudan. Virol. J.7 , 153 (2010).
- Ventura A , EhrenkranzN, RosenthalD. Placental passage of antibodies to dengue virus in persons living in a region of hyperendemic dengue virus infection. J. Infect. Dis.131 , 62–68 (1975).
- Vaughn DW , GreenS, KalayanaroojSet al. Dengue viremia titer, antibody response pattern, and virus serotype correlate with disease severity. J. Infect. Dis. 181 , 2–9 (2000).
- Endy TP , NisalakA, ChunsuttitwatSet al. Relationship of preexisting dengue virus (DV) neutralizing antibody levels to viremia and severity of disease in a prospective cohort study of DV infection in Thailand. J. Infect. Dis. 189 , 990–1000 (2004).
- Ribeiro CF , SilamiVG, BrasilP, NogueiraRM. Sickle-cell erythrocytes in the placentas of dengue-infected women. Int. J. Infect. Dis.16(1) , e72 (2012).
- Woidacki K , JensenF, ZenclussenAC. Mast cells as novel mediators of reproductive processes. Front. Immunol.4 , 29 (2013).
- St John AL, Rathore AP, Raghavan B et al. Contributions of mast cells and vasoactive products, leukotrienes and chymase, to dengue virus-induced vascular leakage. Elife2 , e00481 (2013).
- Avirutnan P , MatangkasombutP. Unmasking the role of mast cells in dengue. Elife2 , e00767 (2013).