1,2 On the basis of findings of the intracellular parasites, which were smaller than usual for Plasmodia spp. and the absence of schizonts, gametocytes, and malaria pigment in microscopic find more reexamination, the diagnosis of Babesia microti infection was established and blood specimens were further investigated for serologic and molecular biological markers.
Antibody-specific serology was negative for Plasmodium spp. and for whole cell antigen of Babesia divergens in specimens collected at initial presentation and at follow-up visits. DNA amplification (MutaGel® Babesia-PCR; ImmunDiagnostik, Bensheim, Germany) showed a Babesia-specific band at ∼210 bp. Positive samples were retested employing a second PCR protocol amplifying the highly variable ribosomal internal transcribed spacer region 1 of all known Babesia species. Amplicons with 535 bp were detected and showed a 100% sequence identity in the amplified region to the B. microti strains ATCC30222 (AB190459; initially isolated in the Congo from a forest mouse and designated Babesia rodhaini) and GI (AB112337).3,4 Sequence data were deposited at GenBank (accession number: GU230755) Upon
information of the change in the definitive diagnosis from falciparum malaria to babesiosis and re-exploration of the travel history, the patient recalled having spent 4 weeks with outdoor recreational click here activities in Massachusetts, USA, after his travel to Nicaragua. This region is known as the
epicenter of B. microti transmission in the United States and infection of the patient most probably occurred at this occasion. A standard course of oral azithromycin-atovaquone treatment was prescribed for 7 days in order to prevent recrudescence of babesiosis as the initial treatment with quinine-clindamycin which was shorter than recommended for this indication. This case report—the first human case of B. microti infection reported from Austria—strikingly illustrates the difficulties of correctly diagnosing Babesia infection.5 Misdiagnosis was due to an at the first sight compelling travel history to a tropical region in combination with clinical and laboratory Baricitinib signs of hemolytic anemia and intra-erythrocytic ring-shaped parasites suggestive for malaria. Given the dramatic clinical disease course, necessitating—despite the absence of any underlying disease or immunosuppression—admission to the intensive care unit for treatment of hemodynamic shock, it is understandable that the initial diagnosis of severe P. falciparum malaria was established. Fortunately enough—and in contrast to recently updated recommendations for the treatment of severe malaria at our institution favoring the use of intravenous artesunate—quinine-clindamycin combination therapy was initiated in this case.