ABSTRACT
Leishmaniasis is a neglected disease that is prevalent in tropical and subtropical regions of the world. Even though cutaneous leishmaniasis is the most common form, visceral leishmaniasis is associated with high mortality. The case presented herein is a 39 year-old bed-ridden female who presented with fever of unknown origin, tachypnea and pancytopenia. She was initially misdiagnosed as having autoimmune pancytopenia elsewhere and treated with corticosteroids and intravenous immunoglobulin. She had also received wide-spectrum antibiotics for febrile neutropenia. We performed a leishmania rK39 dipstick test which turned out to be positive along with visualisation of amastigote forms of leishmania on bone marrow biopsy. Thus, we made a diagnosis of visceral leishmaniasis and treated her with liposomal amphotericin B. Her clinical course was complicated by respiratory failure necessitating invasive mechanical ventilation. She responded well to treatment and was later extubated, shortly before being discharged. At 6 months of follow-up, no sign of recurrence was observed.
Keywords: Visceral leishmaniasis, fever of unknown origin, pancytopenia
INTRODUCTION
Leishmaniasis is prevalent mainly in tropical and subtropical regions and in South Europe, and is listed among the neglected tropical diseases by the World Health Organisation (1). Four major clinical forms of human leishmaniasis exist: cutaneous leishmaniasis (CL), visceral leishmaniasis (VL, also known as Kala-Azar) including its complication of post-kala-azar dermal leishmaniasis and mucocutaneous leishmaniasis (1). Estimates for CL range from 0.7 to 1.2 million cases, and for VL, this number is less than 100,000 annually (2). According to World Health Organization, more than 90% of cases between 2008 and 2010 occurred in six countries: Bangladesh, Brazil, Ethiopia, India, South Sudan and Sudan. Turkey is considered as a high-burden country for CL but not for VL (3,4). Within the past 15 years, most cases have been reported from the Eastern and Southeastern Anatolian regions. Two hundred and seven VL cases were reported from Turkey between 2005 and 2014 predominantly in the Mediterranean and Aegean regions of the country (5). The main etiologic agent is Leishmania infantum (6). Here, we present a case of VL in a cerebral palsy (CP) patient presenting with fever of unknown origin (FUO).
CASE REPORT
A 39-year-old female with CP and epilepsy who hails from a rural settlement of Zonguldak (Western Black Sea Region of Turkey), initially presented at a local hospital 2 months earlier because of fever. She was diagnosed with autoimmune pancytopenia because of a positive direct Coombs, RF and a low haptoglobin levels and marked hepatomegaly. She received pulse methylprednisolone, intravenous immunoglobulin, granulocyte colony-stimulating factor and broad-spectrum antibiotics. As she did not defervesce, she was referred to our center for further investigation. On admission, she was febrile (39.5 °C), tachypneic (30/minute), hypotensive (90/60 mmHg), and tachycardic (100/minute). She was bed-ridden living with her parents and four siblings all of whom denied recent illness. Physical examination revealed an acutely ill, mentally retarded patient. A marked hepatomegaly, diminished breath sounds and mild pretibial edema were noted. Laboratory tests revealed pancytopenia with an absolute neutrophil count of 400/mm3, hypoalbuminemia (1.98 g/dL) without accompanying proteinuria, and a markedly elevated inflammatory markers (procalcitonin: 2.73 ng/mL, C-reactive protein: 21.4 mg/dL and erythrocyte sedimentation rate: 27 mm/hour). She developed respiratory failure necessitating invasive mechanical ventilation. Abdominal imaging showed marked hepatomegaly (20 cm). rK39 dipstick test for Leishmania spp. was positive (Figure 1), later confirmed by microscopic examination of the bone marrow biopsy (Figure 2a, 2b). A 5-day course of liposomal amphotericin B (LAmB) at a dose of 3 mg/kg/day was administered with additional doses on days 14 and 21. During follow-up she developed staphylococcal bacteremia and pneumonia which were successfully treated with adequate antibiotics. The patient was later discharged uneventfully.
DISCUSSION
This case, herein presented, highlights a case of FUO who had been erroneously diagnosed with autoimmune pancytopenia but later found to have VL. Her clinical course was complicated by respiratory failure requiring invasive mechanical ventilation.
Fever and pancytopenia are common presentations of VL. However, etiology of fever in such patients may not be apparent at the onset. This case demonstrates that VL should be suspected in cases of FUO especially when accompanied by bone marrow failure. Several case reports and series highlighted the frequent misdiagnosis associated with VL: most commonly in the form of hematological malignancies and aplastic anemia (7-9). Indeed, in certain geographical locations, VL is the most common infectious cause of FUO (10).
Two factors related to the case presented would have made the diagnosis of VL highly unlikely. The first is the fact that Western Black Sea Region of Turkey is a low-incidence area for VL as opposed to the Aegean and Mediterranean Regions of the country (6). According to a WHO report, in 2013 no case of VL was reported from Zonguldak province (where the patient lived) compared to 22 cases nationwide (11). The other is the lack of a particularly high index of suspicion for VL at the beginning; which prevented specific diagnostic tests to be undertaken.
Diagnosis of VL, as discussed above, is not always straightforward. Foremost, there must be clinical suspicion followed by confirmatory laboratory tests. The presence of an otherwise unexplained fever and hepatosplenomegaly associated with cytopenia should arouse suspicion for VL. Under certain settings, especially in low-resource countries, a diagnostic algorithm based on clinical findings may be helpful. For example, a guideline prepared by the Ethiopian Government in collaboration with WHO used a case definition for VL as the presence of fever for more than 2 weeks alongside splenomegaly and/or lymphadenopathy or either wasting, anemia or leukopenia (12).
Parasitological diagnosis using bone marrow, spleen and lymph node aspirates is the gold standard to confirm VL. However, they are invasive and require qualified and trained personnel. Despite their varying sensitivity and specificity, point-of-care tests including rK39 dipstick and the direct agglutination test have the advantage of ease of use in field conditions. Other serological tests including ELISA and IFAT (which both cannot adequately diagnose relapse) and the molecular method using PCR are highly sensitive and specific, albeit costly and cannot be performed in the field (13). We used rK39 rapid test alongside bone marrow biopsy in our patient for diagnosis.
LAmB is the preferred choice of treatment for VL especially in resource-rich settings, because of its efficacy and better toxicity profiles compared to amphotericin B deoxycholate. (14). In one study, 17 patients were successfully treated with LAmB and 2 others with meglumine antimoniate (7). Other treatment options include amphotericin B deoxycholate, antimony-based compounds (sodium stibogluconate and meglumine antimoniate), paromomycin and the oral drug miltefosine (14). The patient in this case report was successfully treated with a course of LAmB.
CONCLUSION
VL is a potentially fatal parasitic disease that warrants prompt diagnosis and treatment. VL should be considered in the differential diagnosis of FUO associated with organomegaly and bone marrow failure even in non-endemic regions. Simple diagnostic algorithms could be helpful.