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The Journal of Health, Population and Nutrition
icddr,b
ISSN: 1606-0997 EISSN: 2072-1315
Vol. 28, Num. 5, 2010, pp. 529-531

Journal of Health Population and Nutrition, Vol. 28, No. 5, September-October, 2010, pp. 529-531

Case Study

Salmonella typhi and Plasmodium falciparum co-infection in a 12-year old girl with haemoglobin E trait from a non-malarious area in Bangladesh

1 Executive Director's Division, ICDDR,B, Mohakhali, Dhaka 1212, Bangladesh
2 Executive Director's Division, ICDDR,B, Mohakhali, Dhaka 1212; Clinical Sciences Division, ICDDR,B, Mohakhali, Dhaka 1212, Bangladesh
3 National Tuberculosis Control Programme, Mohakhali, Dhaka 1212, Bangladesh
4 International Medical College, Gazipur, Bangladesh

Correspondence Address: Fahmida Chowdhury, Senior Clinical Fellow, Executive Director's Division ICDDR,B, 68 Shaheed Tajuddin Ahmed Sarani Mohakhali, Dhaka 1212, Bangladesh, Email: fahmida_chow@icddrb.org

Code Number: hn10068

Abstract

A 12-year old girl from Uttar Badda, Dhaka, Bangladesh, was admitted to the Dhaka Hospital of ICDDR,B, with a 23-day history of fever and diarrhoea. After admission, she was treated for culture-proven Salmonella typhi-associated infection and was discovered to be heterozygous for haemoglobin E. Despite treat­ment with appropriate antibiotics, the patient's condition did not improve, prompting further investiga­tion, which revealed malaria due to Plasmodium falciparum. Dhaka is considered a malaria-free zone, and the patient denied recent travel outside Dhaka. Subsequently, the patient recovered fully on antimalarial therapy.

Keywords: Haemoglobin E; Malaria; Plasmodium falciparum; Salmonella typhi; Typhoid; Bangladesh

Introduction

Malaria is responsible for about one million deaths annually throughout the world [1]. Although Af-rica accounts for 90% of the burden of mortality due to malaria, South-East Asia still suffers consid-erable mortality and morbidity. Of 11 countries of the World Health Organization in the South-East Asia region, 10 including Bangladesh are malaria-endemic [2]. In Bangladesh, malaria is a major public-health problem in 13 of the 64 districts [3]. Ninety-eight percent of malaria case reports come from 13 districts close to or bordering India and Myanmar [Figure - 1]. Dhaka, the capital city of Bangla-desh, is considered to be malaria-free. Three of the 13 districts-Bandarban, Khagrachari, and Ran-gamati collectively known as the Chittagong Hill Tracts (CHT) districts-report the highest incidence of malaria within the country [2],[3],[4]. Approximately 50. 6 million people ( 33. 6% of the population) are at risk of malaria, of whom 10. 9 million are at high or moderate risk, and 39. 7 million are at low risk [3]. In 2008, the numbers of confirmed malaria cas-es, probable malaria cases, and malaria-related mor-tality were 84, 690, 83, 972, and 154 respectively [3]. The proportion of Plasmodium falciparum cases has been increasing at an alarming rate since 1999 and reached 83% in 2008 [3].

Malarial parasites reside in erythrocytes. Their op-timal environment is in those that do not carry a haemoglobin variant. Haemoglobin E carriers are equally susceptible to malaria; however, the para-sites are unable to multiply successfully in erythro-cytes [5],[6],[7]. This results in less severe disease and a lower risk of mortality. Haemoglobin E is one of the world′s most common and important mutants and is common in South-East Asia where its prevalence can reach 30- 40% in some parts of Thailand, Cam-bodia, and Laos. Haemoglobin E is also found in Sri Lanka, north-eastern India, Bangladesh, Pakistan, Nepal, Viet Nam, and Malaysia [6],[7].

Case Report

A 12-year old girl was admitted to the Dhaka Hos-pital of ICDDR,B on 21 December 2009, with a his-tory of fever for 23 days associated with chills and rigours which subsided with sweating after taking antipyretics, loss of appetite for 14 days, and pas-sage of yellowish watery stool 7- 8 times a day for five days. She lives with her family in Uttar Badda, Shaora bazaar, Dhaka. She and her mother report-ed that she had not travelled outside Dhaka for at least three months before the illness. She was treat-ed with paracetamol and ciprofloxacin before at-tending the hospital. She had an uneventful birth-history and was fully immunized according to the national Expanded Programme on Immunization schedule.

On examination, she looked toxic and moder-ately pale; her temperature was 41 °C, pulse 90 per minute, blood pressure 100/ 70 mm of Hg, respira-tion rate 28 per minute, and tongue coated. On ab-dominal examination, her liver was palpable 2 cm below the right costal margin in the mid-clavicular line and was soft and non-tender. Her spleen was also palpable 2 cm below left costal margin along the long axis on deep inspiration and was soft in consistency. Other systemic examinations did not reveal any further abnormalities. A provisional di-agnosis of acute watery diarrhoea with anaemia was made with a differential diagnosis of enteric fever.

Investigation revealed a haemoglobin of 9. 5 g/L, total peripheral white blood cell count of 13, 360/ cmm, of which 67% were neutrophils, 27. 5% lymphocytes, and 4. 9% monocytes, and platelet count of 89, 000/cmm. Blood culture grew Salmonella typhi sensitive to ceftriaxone, rectal swab grew no organism, and Widal test report was TO (anti-body against somatic antigen) 1: 160, TH (antibody against flagellar antigen) 1: 320. Peripheral blood film was reported as normocytic and normochro-mic; the Hb electrophoresis report revealed haemo-globin A to be 71. 5%, haemoglobin E 25. 3%, and haemoglobin A 2 3%. Chest x-ray findings were normal, and ultra-sonogram of the whole abdomen showed mild hepato-splenomegaly. At that time, a diagnosis of typhoid fever with haemoglobin E trait was made. She was treated with ceftriaxone for 11 days, followed by azithromycin for seven days as she did not respond. Despite this, her tempera-ture failed to settle. Antibiotics were stopped for 48 hours, and blood and urine cultures were sent again on the 21st hospital day. No growth of organ-isms was reported. ICT for kala-azar was negative. A blood-film showed trophozoites of P. falciparum. So, after three weeks of admission, a diagnosis of ma-laria due to P. falciparum was made. She was treated with oral quinine for seven days and became afe-brile on the second day after starting treatment. She was discharged five days after starting quinine, completing the full course of treatment at home.

Discussion

P. falciparum is the most widespread and dangerous of the four Plasmodium species and can lead to fatal cerebral malaria if left untreated. In this case, it is interesting that our patient suffered from continu-ous fever due to P. falciparum-associated malaria for 44 days without treatment and did not yet deterio-rate. It is evident from previous studies that P. falciparum grows slowly within both homozygous and heterozygous forms of haemoglobin E red blood cells (RBCs), which inhibits parasitaemia [5],[6],[7],[8],[9]. The mechanisms underlying malaria protection by these genetic RBC variants have been studied ex-tensively and can be classified into several broad groups: (a) reduced probability of merozoite inva-sion into the variant RBCs, (b) impairment of para-site growth within the variant RBCs, (c) enhanced removal of the parasitized variant RBCs, and (d) enhanced probability of infection early in life, par-ticularly with P. vivax, which protects against sub-sequent severe malaria due to P. falciparum [10]. We presume that our patient had a reduced severity of infection with P. falciparum-associated malaria as she was a carrier of haemoglobin E trait, although we cannot completely rule out the chance of this being a co-incidental finding.

Another interesting finding in this case is co-infec-tion of P. falciparum with Salmonella typhi. Because of the high prevalence of typhoid fever and ma-laria in the tropics, co-infections are not uncom-mon. However, the actual and precise underlying mechanism to explain the association between malaria and Salmonella spp.-associated infection is still uncertain, although it seems clear that malaria predisposes to bacteraemia and sepsis due to Sal-monella [11] . It has been shown that the antibody response to the O antigen of S. typhi is markedly reduced in acute episodes of malaria compared to controls and that humoral immunity is transiently impaired [12]. The signs and symptoms of malaria and typhoid fever often overlap. In a recent study, subjects with dual infection had significantly high-er rates of nausea, vomiting, abdominal pain, and diarrhoea-the common features of enteric fever [13]. In the last two decades, this relationship be-tween the two diseases has been reported in studies from Africa and India [14],[15],[16].

Our patient was infected by malaria due to P. falci-parum in Dhaka which is considered a malaria-free zone. Consequently, it is not usual for physicians in Dhaka to consider malaria in the differential diagnosis of patients with fever unless they have travelled to malarious areas. Thus, our case should alert health professionals to consider malaria in their differential diagnosis of similar cases. Nowa-days, rapid diagnostic tests (RDTs) are available for malaria, with over 90% sensitivity and specificity whereas there is a chance of missing malarial para-sites in microscopy, especially when the parasite count is low and when the microscopists are not used to seeing malaria. It would also be interesting to gather information from the main diagnostic centres and blood-banks in Dhaka that routinely perform RDTs for malaria to investigate the possi-bility that Dhaka is no longer malaria-free.

References

1.Greenwood BM, Bojang K, Whitty CJ, Targett GA. Malaria. Lancet 2005; 365: 1487- 98.  Back to cited text no. 1    
2.Haque U, Ahmed SM, Hossain S, Huda M, Hossain A, Alam MS et al. Malaria prevalence in endemic dis­tricts of Bangladesh. PLoS One 2009; 4:e 6737.  Back to cited text no. 2    
3.World Health Organization. Malaria situation in SEAR countries: Bangladesh. (updated on 28 June 2010). (http://www.searo.who.int/EN/Section 10/Section 21/ Section 340_ 4015.htm, accessed on 30 June 2010).  Back to cited text no. 3    
4.New strategies for treating falciparum malaria in Bangladesh. Health Sci Bull 2006; 4: 1- 6.  Back to cited text no. 4    
5.Chotivanich K, Udomsangpetch R, Pattanapanyasat K, Chierakul W, Simpson J, Looareesuwan S et al. Hemoglobin E: a balanced polymorphism protective against high parasitemias and thus severe P. falci­parum malaria. Blood 2002; 100: 1172- 6.  Back to cited text no. 5    
6.Nagel RL, Raventos-Suarez C, Febry ME, Tanowitz H, Sicard D, Labie D. Impairment of the growth of Plasmodium falciparum in HbEE erythrocytes. J Clin Invest 1981; 68: 303- 5.  Back to cited text no. 6    
7.Hutagalung R, Wilairatana P, Looareesuwan S, Brit­tenham GM, Aikawa M, Gordeuk VR. Influence of hemoglobin E trait on the severity of falciparum ma­laria. J Infect Dis 1999; 179: 283- 6.  Back to cited text no. 7    
8.Vernes AJ, Haynes JD, Tang DB, Dutoit E, Diggs CL. Decreased growth of Plasmodium falciparum in red cells containing haemoglobin E, a role for oxidative stress, and a sero-epidemiological correlation. Trans R Soc Trop Med Hyg 1986; 80: 642- 8.  Back to cited text no. 8    
9.Kitayaporn D, Nelson KE, Charoenlarp P, Pholpothi T. Haemoglobin-E in the presence of oxidative sub­stances from fava bean may be protective against Plasmodium falciparum malaria. Trans R Soc Trop Med Hyg 1992; 86: 240- 4.  Back to cited text no. 9    
10.Williams TN, Maitland K, Bennett S, Ganczakowski M, Peto TE, Newbold CI et al. High incidence of malaria in alpha-thalassaemic children. Nature 1996; 383: 522- 5.  Back to cited text no. 10    
11.Keong BCM, Sulaiman W. Typhoid and malaria co­infection-an interesting finding in the investigation of a tropical fever. Malaysian J Med Sci 2006; 13: 74- 5.  Back to cited text no. 11    
12.Greenwood BM, Bradley-Moore AM, Bryceson AD, Palit A. Immunosuppression in children with ma­laria. Lancet 1972; 1: 169- 72.  Back to cited text no. 12    
13.Khan MA, Mekan SF, Abbas Z, Smego RA, Jr. Concur­rent malaria and enteric fever in Pakistan. Singapore Med J 2005; 46: 635- 8.  Back to cited text no. 13    
14.Ammah A, Nkuo-Akenji T, Ndip R, Deas JE. An up­date on concurrent malaria and typhoid fever in Cameroon. Trans R Soc Trop Med Hyg 1999; 93: 127- 9.  Back to cited text no. 14    
15.Ohanu ME, Mbah AU, Okonkwo PO, Nwagbo FS. In­terference by malaria in the diagnosis of typhoid us­ing Widal test alone. West Afr J Med 2003; 22: 250- 2.  Back to cited text no. 15    
16.Kanjilal SD, Dutta A, Mondal RK, Chakravorti S. Un­complicated falciparum malaria complicated by Sal­monella septicaemia: cause not coincidence. J Indian Med Assoc 2006; 104: 646- 8.  Back to cited text no. 16    

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