Gestational malaria associated to Plasmodium vivax and Plasmodium falciparum placental mixed-infection followed by foetal loss: a case report from an unstable transmission area in Brazil
© Carvalho et al; licensee BioMed Central Ltd. 2011
Received: 26 November 2010
Accepted: 27 June 2011
Published: 27 June 2011
Gestational malaria is a multi-factorial syndrome leading to poor outcomes for both the mother and foetus. Although an unusual increasing in the number of hospitalizations caused by Plasmodium vivax has been reported in Brazil, mortality is rarely observed. This is a report of a gestational malaria case that occurred in the city of Manaus (Amazonas State, Brazil) and resulted in foetal loss. The patient presented placental mixed-infection by Plasmodium vivax and Plasmodium falciparum after diagnosis by nested-PCR, however microscopic analysis failed to detect P. falciparum in the peripheral blood. Furthermore, as the patient did not receive proper treatment for P. falciparum and hospitalization occurred soon after drug treatment, it seems that P. falciparum pathology was modulated by the concurrent presence of P. vivax. Collectively, this case confirms the tropism towards the placenta by both of these species of parasites, reinforces the notion that co-existence of distinct malaria parasites interferes on diseases' outcomes, and opens discussions regarding diagnostic methods, malaria treatment during pregnancy and prenatal care for women living in unstable transmission areas of malaria, such as the Brazilian Amazon.
In severe cases of Plasmodium falciparum infection, clinical complications are associated with the sequestration of P. falciparum-infected erythrocytes (Pf-iE) within microvasculature and placental syncytiotrophoblasts [1–5]. Vivax malaria has long been considered a benign infection; however, the malaria pigment of this species has been detected in the placenta of Plasmodium vivax-infected women . Further, pregnant women infected with P. vivax experience maternal anaemia, and some of their babies present a low birth weight [6, 7], which are clinical features frequently associated with Pf-iE placental adhesion [1, 2]. Despite the adverse pregnancy outcomes associated with P. vivax infection , information concerning epidemiology and clinical consequences of vivax malaria during pregnancy is lacking.
In Brazil, where malaria incidence is almost exclusively restricted to the Amazon (99.8% of the cases), P. vivax was responsible for the majority (83.7%) of registered cases in 2008. Plasmodium falciparum infections accounted for 16.3% of cases, and Plasmodium malariae infection was rarely observed . Additionally, chloroquine-resistant strains of P. vivax have emerged in the Brazilian Amazon .
A 19-year-old pregnant woman, estimated to be 35 weeks of gestation (WG), living on the boundary of the city of Manaus - Amazon State (3.09S, 59.58W), surrounded by the Amazon rainforest, was diagnosed for P. vivax infection at the nearest Health Center and showed approximately 90,000 parasites/mm3. In Brazil, the microscopic examination of Giemsa-stained thick blood smear is the official method for malaria diagnosis. This was her fourth pregnancy, and she had no medical history of previous abortion, stillbirth or pre-term delivery. The patient had three previous malaria episodes, the last occurring two years ago. Additionally, she reported a plasmodial infection during her third pregnancy. At the time, the patient was treated and no further complications were observed.
She was given a three-day regimen (25 mg/kg) of oral chloroquine, with four pills (150 mg each) administered in the first day, followed by three pills on the two subsequent days. However, after the second dose, the patient presented with vomiting, which led to cessation of the drug treatment. The patient was subsequently transferred to a tertiary-care maternity hospital in Manaus, where she was hospitalized until delivery. At the maternity hospital, the patient presented symptoms of fever, headache, jaundice, anorexia, chills and hypertension. Urine sediment analysis revealed that bilirubin and biliary pigments were three-fold above the standard levels. Furthermore, blood analysis revealed slight anaemia (Ht 29.3%, Hb 10.1 g/dL) and leukocyte count were normal (4,200 cells/mm3), with 67% lymphocytes. Serological tests for syphilis, toxoplasmosis, measles and HIV were negative.
Two days after patient admission, another thick blood smear was performed and no patent parasitaemia was observed. Ultrasound analysis showed that foetal heart rate tracings were stable and normal. While foetal centralization was not observed, the ultrasound did reveal oligohydramnios (amniotic fluid index < 5.0 cm), abnormal foetal symmetry and abnormal placental texture. Although pregnancy was estimated to be 35 WG, with a foetal weight of 2,500 g, according to the patient's last menstruation date, foetal growth was approximately 38-39 WG. Thus, the estimate of 35 WG after ultrasound analysis might represent impairment of intra-uterine growth. Two days later in a routine follow-up, an abnormal foetal heart rate was observed. Another ultrasound analysis was performed, and no foetal heartbeat was detected, and oligohydramnios was observed. Next, labour was induced by administration of oxytocin, and foetal loss of a male weighing 2,670 g was confirmed. No foetal autopsy was performed due to the lack of authorization by relatives. Macroscopic examination of the placenta revealed an abnormal dark colour; following patient consent, a sample of the placental tissue was collected for further microscopic and molecular analysis. Molecular analysis of the placenta revealed a mixed infection with P. falciparum and P. vivax. Taken together, these findings suggest placental dysfunction most likely associated with plasmodial infection, as other common infectious diseases that cause the same phenomenon were ruled out.
A small fraction (1 × 1 × 1 cm) of maternal placenta was collected, frozen in liquid nitrogen and crushed in 2 mL of digestion buffer (100 mM NaCl, 10 mM Tris-HCl, 25 mM EDTA and 0.5% SDS) before incubation overnight at 37°C in the presence of proteinase K (0.1 mg/mL, Sigma). The DNA used for PCR amplification was purified by two phenol/chloroform extractions, followed by ethanol precipitation; DNA samples were resuspended in water. Two samples of the patient's peripheral blood were collected, the first one at few hours after the foetus loss and other approximated two months later. Genomic DNA (gDNA) was purified using the Charge Switch gDNA Blood Kit (Invitrogen) according to the manufacturer's protocol. To determine and discriminate the presence of Plasmodium spp. gDNA in the blood sample, sensitive nested-PCR was performed using species-specific oligonucleotides based on human malaria parasite genes for the 18S small subunit ribosomal RNA (ssrRNA) as described previously . Important, this set of oligonucleotides amplifies small amounts of genetic material only from viable parasites . As a negative control, gDNA purified from a healthy placenta or from the peripheral blood of a non-infected individual was used. The products of these reactions were analyzed on a 2% agarose gel stained with ethidium bromide. To ensure nested-PCR specificity, amplification products were directly cloned into the pGEM-T cloning vector kit (Promega) and then analysed with the aid of the MegaBace 500 automatic sequencer (GE - Health care).
Nested-PCR results conducted with patient's placental tissue were also confirmed by semi-nested multiplex malaria PCR (SnM-PCR) (Additional file 1) assays as described . Because of the poor conditions of the placental tissue collected histological analyses were not conducted.
Written and informed consent was sought and granted from the patient who attended the tertiary-care maternity hospital.
Recent efforts by Brazilian authorities have led to a significant reduction in malaria cases (456,000 in 2007 to 314,000 in 2009) and in the Amazonian Annual Parasitological Index (API; 31.9 in 1999 to 12.8 in 2008) over the last few years . Nevertheless, disease incidence in women and children less than 10 years of age increased from 2003 to 2008; disease in women increased from 34.9 to 38.6%, while the incidence in children under 10 increased from 22 to 25.2% . Indeed, in Manaus, an unusual augmentation in the number of hospitalizations of P. vivax-infected individuals has been reported over the past years . Brazilian malaria treatment policy restricts the use of antimalarials to confirmed parasitological cases. A combination of chloroquine and primaquine is used in uncomplicated P. vivax infections, while artemether-lumefantrine is the choice to treat uncomplicated P. falciparum infections. In severe falciparum malaria, intravenous administration of artemisinin derivatives is recommended .
The relationship between P. vivax infection and pregnancy outcomes such as stillbirth and miscarriage remains unclear in the literature. However, studies conducted in Southeastern Asia indicate a correlation between P. vivax infection and adverse pregnancy outcomes, eventually leading to maternal anemia and low birth weight, and with the presence of malaria pigment in the placenta [6, 7]. Furthermore, it has been shown an increase in the frequency of P. falciparum infections in pregnant women in a cohort of 1,699 childbearing women in the Brazilian Amazon .
This is a case report of gestational malaria with foetal loss, in which DNA of both P. vivax and P. falciparum were amplified from infected placental tissue. In contrast, only P. vivax-infected erythrocytes (Pv-iE) were found in patient peripheral blood following diagnosis by Giemsa-stained thick blood smear. Although the patient's chloroquine treatment was incomplete, the utilized diagnostic method failed to detect P. vivax in the peripheral blood after treatment; thus showing some efficacy of the drug treatment against this species of parasite. Moreover, as the nested-PCR analysis conducted by us detects only viable parasites, we assume that both of these species of parasites were accumulated or sequestered in the placenta and played a role in pathology.
During the months that followed foetus loss, even without a clear symptom, the patient was further tested for malaria infection by thick blood smear in the health center, and parasites were not detected in the peripheral blood. However, a molecular diagnosis by nested-PCR performed in the patient's peripheral blood collected two months after delivery detected only P. falciparum (Additional file 2). Although immunological analyses were not carried out, microscopically undetectable levels of peripheral parasitaemia might suggest that this woman presents an important acquired immunity against P. falciparum.
It is not known by which means P. vivax can lead to severe complications in pregnancy; even though a recent report has shown the ability of Pv-iE to cytoadhere to placental cryosections . However, several reports have shown that mixed-malaria species infection attenuates the severity of P. falciparum pathology in Asia and in Brazil [16–18]. Moreover, it has been recently shown that in malaria mixed-species infections patients develop higher levels of fever and antisera against P. vivax and P. falciparum in comparison to patients with a single infection , and competition between co-infecting parasites for limited resources within a host consists in a form of selective pressure directed from one species to another . Given that the patient was hospitalized soon after chloroquine administration, it is most likely that by disrupting the equilibrium between these two parasites an exacerbation of the clinical signs by the most virulent species contributed to foetal death. Nonetheless, the possibility that P. falciparum erythrocytic infection has occurred in the period between chloroquine treatment and delivery cannot be ruled out.
Collectively, this case reinforces the notion that by interfering in the homeostasis of two distinct species of Plasmodium parasites in mixed-infections symptoms provoked by the more virulent species can exacerbate. Moreover, it demonstrates the necessity during pregnancy to consider asymptomatic plasmodial infections as a potential complication, and urges careful patient follow-up even when peripheral parasitaemia seems absent following drug treatment. Highly sensitive techniques are available and must be used as diagnostic tools, especially in high-risk groups such as pregnant women.
Acknowledgements and funding
Many thanks to Dr. Risoneide da Silva Henriques for giving us the placenta sample, and we are grateful to Wanessa C. Souza-Neiras for her critical comments. This work received financial support from the Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP), the Fundação de Amparo à Pesquisa do Estado do Amazonas (FAPEAM) and the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq). BOC and JAL were sponsored by FAPESP fellowships. FTMC is a CNPq fellow. The sponsors had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
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