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Apparent Relapse of Imported Plasmodium ovale Malaria in a Pregnant Woman

ABSTRACT

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A 27 week pregnant woman who had lived in Bangkok, Thailand, for 18 months presented to her obstetrician with a 1-week history of intermittent fever and malaise. Medical history was significant for multiple episodes of malaria during her 10 years of employment in sub-Saharan Africa before her relocation to Thailand. The initial malaria smear was negative. She returned a week later with no resolution of her symptoms, at which time she was found to have Plasmodium ovale by microscopy and polymerase chain reaction. She had an excellent response to chloroquine, which she continued weekly until 36 weeks of gestation. She delivered a healthy term infant and received radical cure with primaquine after cessation of breastfeeding. This case shows challenging issues in detection and management of imported P. ovale malaria.

INTRODUCTION

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We report a case of an imported Plasmodium ovale relapse in a pregnant woman at least 18 months after initial infection in sub-Saharan Africa. This case presents many challenges in the diagnosis and management of imported malaria. Little is published on P. ovale infections, particularly in pregnancy. To the best of our knowledge, this is the first case report of a relapse of imported P. ovale in pregnancy. This case illustrates challenging issues in detection and management of imported P. ovale malaria. These issues are discussed. A high index of suspicion for relapse of malaria is increasingly important in this era of globalization.

CASE REPORT

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At 27 weeks of gestation, a 36-year-old primigravid Australian woman presented for medical care in Bangkok, Thailand, with a 1-week history of intermittent fever, shaking chills, headache, and nausea. These symptoms would recur approximately every 48 hours, would last for 4–6 hours, and were only partially relieved with acetaminophen and tepid baths. She reported no other constitutional symptoms. Between febrile episodes, she reported malaise, but was otherwise asymptomatic.

At the time of her illness, the patient had resided for 13 months in Bangkok, where malaria is not endemic. However, before residing in Thailand, she had been an aid worker for 10 years in sub-Saharan Africa, including both East and West Africa. While in Africa she was diagnosed with malaria on multiple occasions, including five smear-confirmed cases of Plasmodium falciparum during her final 3 years in Kenya but never with a relapsing species. Her last malaria diagnosis was 18 months before illness onset in Bangkok. This case was microscopically determined to be P. falciparum and she was treated with artemether-lumafantrine. Notably, she received a full course of mefloquine after failing to clear parasites. During her stay in Africa, she declined chemoprophylaxis and did not receive any courses of primaquine for radical cure of potential Plasmodium vivax or P. ovale co-infection, single-dose primaquine for clearing gametocytes of P. falciparum, or presumptive anti-relapse therapy with primaquine (terminal prophylaxis) on leaving Africa. She had no other significant medical history, and her pregnancy was otherwise uncomplicated.

Physical examination was normal for a 27 week gravid woman. A blood sample on initial evaluation showed no malaria parasites by microscopic examination of Giemsa-stained thick and thin blood films, white blood cells (WBC) of 6,800/ mm³ (reference range, 4,000–10,000/mm³) with 72% neutrophils and 17% lymphocytes, a hemoglobin of 11.1 g/dL (reference range, 14.1–18.1 g/dL), hematocrit of 32.0% (reference range, 43.5–53.7%), and a platelet count of 216,000/mm³ (reference range, 150,000–450,000/mm³). These parameters were essentially unchanged from her initial obstetrical visit. Urine and stool samples were negative. Fetal ultrasound was normal. Although the diagnosis of dengue fever was considered, the patient was diagnosed with a non-specific viral syndrome, treated symptomatically, and instructed to return in 1 week or sooner if her conditioned worsened.

When she continued to experience high fever, shaking chills, headache, and nausea, a repeat malaria smear was obtained 7 days later, this time showing P. ovale malaria. This diagnosis was confirmed at the Armed Forces Research Institute of Medical Sciences by expert microscopy (Figure 1) and polymerase chain reaction (PCR) (Figure 2). The remainder of the laboratory diagnostic evaluation, including dengue PCR, was negative. WBC on admission remained normal at 8,300/mm³, with 70% neutrophils and 20% lymphocytes. Hemoglobin had declined somewhat to 10.1 g/dL and hematocrit to 30.0%. Urine and stool exams were negative.

View larger version (96K): [in this window] [in a new window]       FIGURE 1. Subject’s malaria smear.

View larger version (29K): [in this window] [in a new window]       FIGURE 2. PCR of subject’s sample. Lane 1: PF primer: PM Positive Control +; Lane 2: PV primer: PM Positive Control –; Lane 3: PM primer: PM Positive Control +; Lane 4: PO primer: PM Positive Control –; Lane 5: PF primer: PO Positive Control –; Lane 6: PV primer: PO Positive Control –; Lane 7: PM primer: PO Positive Control –; Lane 8: PO primer: PO Positive Control +; Lane 9: PF primer: Patient –; Lane 10: PV primer: Patient –; Lane 11: PM primer: Patient –; Lane 12: PO primer: Patient +; Lane 13: PF primer: Patient –; Lane 14: PV primer: Patient –; Lane 15: PM primer: Patient –; Lane 16: PO primer: Patient +.

DISCUSSION

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Although P. ovale is known to be present in East Africa,^1,2 it is not commonly diagnosed outside West Africa.² In fact, it is most often recognized only as a co-infection with P. falciparum.^3–7 Indeed, such co-infection could have been present in this patient during one of her many known episodes of malaria in either West or East Africa. Certainly, this case showed the need to consider even historically distant exposure to P. ovale, given the potentially long latency period to relapse.^8–10 It is also important to note that an initially negative single malaria smear does not rule out P. ovale infection, particularly given its typical low parasitemia.^1,8 Additional smears and closer follow-up may have identified the case in a more timely fashion.

Little information is available regarding the course of P. ovale infection in pregnancy, although its occurrence has been reported, with 2.5% of Cameroonian women found by PCR to have P. ovale at the time of delivery.³ Most available information on relapsing malaria in pregnancy relates to P. vivax infection, which has been associated with anemia and reduced birth weight.^11,12 Chloroquine was selected in this case for its well-documented safety^13–16 and efficacy against P. ovale.¹⁷ Continuance of suppressive therapy after initial clearance of this patient’s P. ovale parasitemia was undertaken as the US CDC recommends that pregnant patients with P. vivax and P. ovale should be maintained on chloroquine prophylaxis for the duration of their pregnancy.¹⁸ The patient elected to receive weekly chloroquine suppressive therapy only until 36 weeks, when the risks of preterm delivery became small. Primaquine is contraindicated in pregnancy and during breastfeeding unless the infant’s G6PD status is known to be normal. For these reasons, radical curative therapy was deferred through the pregnancy and until cessation of breastfeeding.

This case also showed some patient- and provider-specific considerations in the prevention and treatment of malaria. The patient elected to forgo any chemoprophylaxis during her prolonged employment in malaria-endemic regions of Africa and to not receive presumptive anti-relapse therapy with primaquine. She further elected, after being informed of all the risks and benefits of suppressive therapy, to terminate chloroquine suppression of her known P. ovale infection at 36 weeks of gestation, not at delivery, based on her personal risk–benefit assessment. Finally, although the US CDC recommends treatment with 30 mg base primaquine per day for 14 days,¹⁸ the patient was treated with the standard therapy in Thailand of 15 mg base primaquine per day for 14 days.

Perhaps the most difficult issue raised by this case relates to the consideration of primaquine for presumptive anti-relapse therapy. In this particular case, the patient had refused anti-malaria prophylaxis during her extended stay in malaria-endemic regions of sub-Saharan Africa. However, she had received multiple courses of antimalarials for microscopically proven P. falciparum in regions known to be endemic for P. ovale and P. vivax, in which the possibility of co-infection should be considered. The US CDC expert meeting on malaria chemoprophylaxis and the UK malaria treatment guidelines recommend presumptive anti-relapse therapy for those with prolonged exposure to P. vivax and P. ovale,^19,20 although this guidance may not often be followed and certainly was not followed in this patient. The US CDC reported 342 cases of relapsing malaria, of which 27 were P. ovale, in the United States in 2004,⁶ underscoring the importance of providing this therapy in those departing endemic areas. Greater consideration should be given to providing presumptive anti-relapse therapy against these parasites, even when their presence has not been specifically determined, in individuals being treated for malaria or for those departing endemic areas who have had long-term potential exposure to these parasites. A thorough risk-benefit assessment based on the potential for exposure must be made in each case. This may be especially important for those individuals who may later become pregnant, because pregnancy significantly complicates the clinical course and treatment of these infections.

This case showed the importance of obtaining a thorough residential and travel history and of a high index of clinical suspicion for even unusual etiologies for febrile episodes in returning travelers and expatriates. Although the clinical history was strongly suggestive of tertian malaria, the negative initial malaria smear and prolonged time since previous known malaria infection made the diagnosis of P. ovale seem unlikely. This case raises issues relating to local standards of care and patient preference in therapeutic decisions. Finally, this case raises the issue of the importance of and compliance with the recommendations for the provision of presumptive antimalarial therapy among those individuals returning from areas endemic for tertian malaria who have prolonged potential exposure. Further research is needed to address these issues, and to document the frequency and time course of recurrent P. ovale malaria in pregnant women and others.

Received May 29, 2007. Accepted for publication July 15, 2007.

Disclaimer: The opinions or assertions contained herein are the personal views of the authors and are not to be construed as official or reflecting the views of the Armed Forces Research Institute of Medical Sciences, the United States Army Medical Department, the United States Department of the Army, or the United States Department of Defense.

^* Address correspondence to Rodney L. Coldren, USAMC-AFRIMS, APO, Bangkok 96546, Thailand. E-mail: Rodney.coldren{at}afrims.org

Authors’ addresses: Rodney Leland Coldren, Armed Forces Research Institute of Medical Sciences, 315/6 Rajvithi Rd., Bangkok, Thailand 10400, Telephone: 66–86–049–0094, Fax: 66–2–298–0518, E-mail: rodney.coldren{at}afrims.org. Krisada Jongsakul, Armed Forces Research Institute of Medical Sciences, 315/6 Rajvithi Rd., Bangkok, Thailand 10400, Telephone: 66–2–644–4888, Fax: 66–2–354–7873, E-mail: KrisidaJ{at}afrims.org. Sankiat Vayakornvichit, Samitivej Hospital, 133 Sukhumvit 49, Klongtan Nua Vadhana, Bangkok, Thailand 10110, Telephone: 66–2–392–0011, Fax: 66–2–391–1290, E-mail: sankiat{at}hotmail.com. Harald Noedl, Armed Forces Research Institute of Medical Sciences, 315/6 Rajvithi Rd., Bangkok, Thailand 10400, Telephone: 66–2–644–4888, Fax: 66–2–354–7873, E-mail: harald.noedl{at}meduniwien.ac.at. Mark M. Fukuda, Armed Forces Research Institute of Medical Sciences, 315/6 Rajvithi Rd., Bangkok, Thailand 10400, Telephone: 66–2–644–4888, Fax: 66–2–354–7873, E-mail: mark.fukuda{at}afrims.org.

REFERENCES

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