A complete blood count (CBC) is one of the most frequently requested diagnostic tests in medical laboratories. This test is indicated, among others, for febrile patients who may be infected with malaria [1]. Currently available automated hematology analyzers are not designed to detect malaria-related signals. The incorporation of a ‘malaria flag’ into modern analyzers would allow for the development of an automated and adjuvant diagnostic tool for febrile patients who may have malaria, especially for patients with low pre-test expectation of the disease in non-endemic regions.

Regarding the unexpected detection of malaria during CBC analysis, we describe the case of a 21-year-old male who visited the Daejeon St. Mary's Hospital (Daejeon, Korea) with a persistent fever lasting 10 days and a pain in the left flank for two days at the time of diagnosis. The patient provided written informed consent for clinical analyses, and the study protocol was approved by the Institutional Review Board of the Catholic University of Korea. Physical examination revealed tertian fever of up to 40℃ with chills and rigors, a pulse rate of 90 bpm, and a blood pressure of 110/60 mmHg. The laboratory findings were as follows: white blood cell count, 4.1×10⁹/L; hemoglobin, 125 g/L; platelet count, 53×10⁹/L; high-sensitivity C-reactive protein, 178.2 mg/L; AST, 67 IU/L; ALT, 49 IU/L; lactate dehydrogenase, 884 IU/L; and creatine phosphokinase, 812 IU/L. Antigen and antibody tests for hepatitis B, C, and human immunodeficiency virus were negative. No pathogenic bacteria were identified in routine bacterial culture in blood, stool, and random urine samples.

Thus, the patient was presumptively diagnosed as having severe fever with thrombocytopenia syndrome (SFTS) based on the low risk of malaria in his residential area (Ganam-eup, Yeoju-si, Gyeonggi-do) and his recent travel to Jeju island, which is a major endemic area of SFTS in southern Korea [2]. However, routine CBC analysis using the UniCel DxH 800 (Beckman Coulter, Inc., Miami, FL, USA) lead to an “nRBC flag” warning with abnormal levels of nucleated RBC (nRBC; 4.43% and 182×10⁶/L) in the WBC differential. In addition, low rotated low angle light scatter (RLALS)/low axial light (AL2)/low rotated upper median angle light scatter (RUMALS) in the nRBC plot showed unusual signals with characteristic, aggregated, round to upright, spindle-shaped cells, similar to those described in a previous report [3] (Fig. 1A and 1B). The patient was initially treated by oral administration of 800 mg of hydroxychloroquine as a loading dose. This was followed by 400 mg at 6, 24, and 48 hours after the first dose; 48 parasites/µL were detected on hospital day (HOD) 3 (Fig. 1C and 1D), and no malarial parasites were observed on a thin PBS at HOD 7 (Fig. 1E and 1F). Primaquine (30 mg/day) was prescribed to prevent relapse for two weeks, and the patient was discharged from the hospital.

To evaluate this abnormal population, we performed a thin peripheral blood smear (PBS), which revealed different stages of Plasmodium vivax, including mature trophozite, schizont, and gametocytes. Cell counting detected 9,134 parasites/µL (black arrow in Fig. 2A), while no nRBCs were detected. In addition, in-house PCR for screening malaria (Green Cross Co., Yongin, Korea), with the use of modified primers described previously [45] confirmed the presence of Plasmodium spp. (red arrow in Fig. 2B). Abdominal computed tomography scan revealed diffusely decreased attenuation on the liver and severe splenomegaly (about 16 cm in size).

One of the most important advantages of the automated hematology analyzer is that it allows for the timely screening of patients who are clinically unsuspected of malaria, but who may develop malaria rapidly and progress to an adverse clinical prognosis [1]. Compared with automated hematology analyzers such as the Cell-Dyn 4000 (Abbott Diagnostics, Santa Clara, CA, USA) [6], the Coulter GEN.S and LH750 (Beckman Coulter, Inc, Miami, FL, USA) [78], and the Sysmex XE-2100 (Sysmex Corporation, Kobe, Japan) [9], the UniCel DxH 800 showed superior analytical performance for screening malarial infection, with sensitivity and specificity of 100% [3]. Lee et al [3] suggested that gametocytes might be the only parasite stage detectable in nRBC through the 5-part differential channels of the DxH800; mature trophozites and gametocytes are larger than other stages of P. vivax and seem to occupy most of the infected RBC, which has a diameter of 6–8 µm [10]. Furthermore, providing appropriate education and training to medical technicians would allow them to recognize CBC parameters associated with malaria infection. A flag for malaria could be incorporated and used to guide rapid malaria antigen tests, PBS, or malarial PCR for patients suspected of having malaria, in order to establish a diagnosis and start treatment promptly [1112] .

In conclusion, this report proves that the UniCel DxH 800 can easily recognize P. vivax populations without additional reagents or special procedures during routine CBC analysis. Automatic flags generated in automated hematology analyzers would allow us to identify incidental malaria cases and would be useful in endemic and non-endemic regions.