key: cord-0740577-mrrpg9l0 authors: Eckbo, Eric J.; Charles, Marthe; Wolber, Robert; Yu, Gannon title: Relapsing fever in a traveller returning from Senegal date: 2021-02-22 journal: CMAJ DOI: 10.1503/cmaj.201644 sha: 7d89caad978167e405a9bc8685940adbe190e358 doc_id: 740577 cord_uid: mrrpg9l0 nan A 24-year-old man presented to his family physician with a 1-day history of subjective fever, chills, headache, myalgia, arthralgia and mild diarrhea; he was advised to proceed to the emergency department for further assessment. On arrival at our Vancouver-area emergency department, his temperature was 38.3°C (maximal documented temperature 38.4°C), blood pressure 117/67 mm Hg, heart rate 88 beats/min and respiratory rate 16 breaths/min. He was diaphoretic but appeared otherwise well. The patient had been travelling extensively and had returned home 9 days earlier. Eight months previously, he had embarked on a solo trip that began in Europe before he continued on to Morocco and finally spent several weeks in Senegal. He had not received any pretravel medical counselling or vaccinations and did not take malaria chemoprophylaxis. While in Senegal, he had stayed in a small village and was housed by locals. He ate local food and drank from the local water supply. Most of his time was spent participating in cycling tours of the area. He had no sexual contacts and was not in close proximity to anyone who was sick. The patient noted that there were many dogs in the village, and many were visibly infested with ticks. Midway through his stay, he experienced an "insect bite" to the leg, which became pruritic and red. He then had 4 days of subjective fever, chills and headache. He sought medical attention at a local health care facility, where a moist gauze that smelled of gasoline was applied to the area of the lesion. A thick, white "worm" 2 cm in length was extracted and the patient's systemic symptoms subsequently resolved without further treatment. A week later, he departed Senegal on a repatriation flight to Canada amid the coronavirus disease 2019 pandemic. The patient was noted to be febrile at the time of blood collection. Complete blood count showed a normal leukocyte count (9.7 × 10 9 /L), but low lymphocytes of 0.8 (normal 1.2-3.5) × 10 9 /L; his thrombocyte count and hemoglobin were normal. The results of his electrolyte, liver function and transaminase tests were all within normal range. His C-reactive protein level was elevated at 116 (normal range < 3.1) mg/L. Given the patient's travel history and recurrent fever, malaria was high on our differential diagnosis, as was infection with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). We obtained a nasopharyngeal swab for SARS-CoV-2 testing and ordered urgent malaria testing. At our regional facilities, malaria testing is performed using a rapid antigen test and preliminary screening of Giemsa-stained thin smears. If these initial tests are negative, samples are forwarded to a centralized centre for polymerase chain reaction (PCR) testing and comprehensive review of thick and thin blood smears. In the case of our patient, the rapid antigen test was negative and no malaria parasites were seen on the thin smears; however, the emergency department physician later received a call from the laboratory, identifying spirochetes ( Figure 1 ). KEY POINTS • A broad differential should be maintained in the returning traveller with fever, and a detailed travel, social and exposure history elicited to help guide appropriate diagnostics. • Spirochetes seen in routine peripheral blood or malaria smears are pathognomonic for tick-borne or louse-borne relapsing fever caused by Borrelia species. • In North America, tick-borne relapsing fever is endemic to British Columbia and the western United States, and is transmitted by Ornithodoros soft ticks. • Patients should be closely monitored for the Jarisch-Herxheimer reaction after initiation of effective therapy for all forms of relapsing fever. The patient was referred to the infectious diseases rapid access clinic for further management. Spirochetes on microscopy with this clinical picture and exposure history was adequately specific to begin directed treatment for relapsing fever. We administered a dose of ceftriaxone and monitored for 6 hours; we noted no Jarisch-Herxheimer reaction. He was switched to doxycycline the following day, to complete 10 days of therapy. At the time of initial follow-up, 3 days into treatment, the patient was feeling greatly improved; repeat peripheral blood smear at that time was negative for spirochetes. The bacterial phylum Spirochaetes, so named for their unique coiling structure, contains multiple genera that are pathogenic to humans (Box 1). Serology, PCR and sequencing were performed after consultation with the clinical microbiologist to confirm the diagnosis, by the British Columbia Centre for Disease Control. Borrelia burgdorferi enzyme immunoassay was positive, but confirmatory testing using Western blot was negative. B. hermsii immunofluorescence assay was reactive for immunoglobulin G (1:256), and nonreactive for immunoglobulin M. Borrelia PCR confirmed the presence of Borrelia species in the blood. Sequencing of 1d6S rRNA showed that the Borrelia was most closely related to B. crocidurae (endemic in West Africa) or B. hispanica (endemic to North Africa and the Mediterranean). Once Borrelia infection was confirmed by the laboratory, we concluded that the "worm" removed from the patient's leg had probably been a fly larva (myiasis), and was not likely associated with his systemic symptoms. Relapsing fever is a distinct disease characterized by recurrent episodes of fever and nonspecific illness, which may include headache, myalgia, arthralgia, rigours and abdominal discomfort. 1, 2 It is caused by infection with 1 of several species of the spirochete Borrelia, which is transmitted by lice or ticks. Complications arise from involvement of the heart, lung, central nervous system, liver, spleen, lung, gastrointestinal tract and eyes. 1 Relapsing fever should not be confused with other causes of recurrent febrile episodes; Box 2 provides a summary of infectious diseases that may present with recurrent fever as a prominent symptom. After establishing infection in the host, Borrelia species are capable of altering their surface antigens, which leads to the repeated cycles of spirochetemia and immune system stimulation. 1 The initial incubation period is 7 days (range 2-14 d), followed by the first episode of fever and associated symptoms, lasting about 3-5 days. 4 The average time between resolution of the first episode and relapse of fever is 7-9 days. 1 Patients may feel completely well between febrile episodes, or may have lingering symptoms, such as malaise. 1 There are 3 forms of relapsing fever, each defined by its vector (Box 3). Louse-borne relapsing fever results from infection with a single species, Borrelia recurrentis, and transmission is mediated by the human body louse. 5 It is characterized by 1 or more relapses, and tends to have a more aggressive course than other forms of relapsing fever. The fatality rate for louse-borne relapsing fever ranges from 10%-40% when left untreated, and 2%-4% with treatment. It remains a public health concern in regions of northern and eastern Africa, and among populations living in conditions conducive to body louse infestations. 5 Unlike louse-borne relapsing fever, tick-borne relapsing fever is caused by more than 15 species of Borrelia and refers to the disease when it is transmitted by soft ticks. It may result in upward of 30 recurrent febrile episodes without treatment. 3, 4 Mortality from tick-borne relapsing fever remains less than 1% with effective treatment. 1,6 British Columbia is the only region of Canada with endemic tick-borne relapsing fever; 19 patients showed evidence of infection with B. hermsii between 2006 and 2015. 6 In the United States, this fever is found in the western states, concentrated mostly in California, Washington and Colorado. Between 1990 and 2011, 483 cases of tick-borne relapsing fever were reported in the western US, and most cases occurred in summer months. 7 It can also be transmitted by hard ticks; the causative agent of hard-tick relapsing fever, B. miyamotoi, has been found in Ixodes scapularis ticks, identified with passive surveillance throughout Canada. 8 In Manitoba, serologic evidence of B. miyamotoi infection has been documented in patients with suspected or confirmed Lyme disease. 9 Identification of spirochetes in a peripheral blood smear is highly suggestive of relapsing fever, although there are rare instances of other spirochetes being detected in Giemsa smears. A density of at least 10 4 to 10 5 spirochetes per millilitre of blood is required, which limits the sensitivity of the test. The highest yield occurs when a sample is obtained during a febrile episode. 1 Thick blood smears, such as those ordered for malaria diagnosis, may increase the sensitivity of the test. 4 Although several other spirochetal infections can cause acute illness, such as Lyme borreliosis and syphilis, these organisms would not be readily visible on a Wright-or Giemsa-stained blood smear examined by standard light microscopy; visualization of these spirochetes requires immunofluorescent staining or dark-field microscopy. 1 It is important to recognize that the sensitivity of blood smears in diagnosing relapsing fever is limited compared with Borrelia molecular testing and, as a result, clinicians should not rely on laboratories to routinely identify Borrelia in the absence of a request for serologic testing, as was the case here. Serologic testing can be performed with an immunofluorescence assay, with a titre of 1:256 or higher considered positive. 1, 6 Polymerase chain reaction testing is currently offered by the British Columbia Centre for Disease Control. Genomic sequencing allows for species-level identification; this service is offered by the National Microbiology Laboratory (Winnipeg) or any laboratory providing 16S rRNA sequencing of clinical samples. Single-dose therapy with 100 mg of doxycycline or 500 mg of tetracycline is recommended for the treatment of louse-borne relapsing fever in nonpregnant adults. Alternatively, a single dose of erythromycin (500 mg) or intramuscular procaine penicillin G (600 000 U) is effective. 1,2 Tick-borne relapsing fever requires a 7-to 10-day course of doxycycline (100 mg twice a day) or erythromycin (500 mg 4 times a day). 1, 2 In patients unable to tolerate oral medication or who have central nervous system involvement, Northern hemisphere parenteral therapy with ceftriaxone (2 g daily) or penicillin G (3 million U intravenously every 4 hours) may be warranted. 2 After the first dose of any effective antibiotic, the patient should be closely monitored for the Jarisch-Herxheimer reaction, which typically occurs within the first 1-4 hours. 1, 2 This life-threatening reaction is caused by the release of endotoxins from rapidly dying spirochetes, which activates a cytokine storm; symptoms may include fever, rigours, tachycardia, diaphoresis, hypotension and respiratory distress. 1, 6 Conclusion Borrelia, the cause of our patient's relapsing fever, was identified incidentally by a laboratory technologist, after a diagnostic protocol for malaria. As per the Canadian guidelines, 10 malaria should always be ruled out in febrile patients who have travelled to endemic areas; however, physicians should also keep an index of suspicion for relapsing fever, and order specific serologic and molecular testing when relevant. Tick-borne relapsing fever Relapsing fever Borreliae: a global review Approach to fever in the returning traveler Relapsing fever: a clinical and microbiological review Human louse-transmitted infectious diseases Tick-borne relapsing fever in British Columbia: a 10-year review Tick-borne relapsing fever -distribution The prevalence of Borrelia miyamotoi infection, and co-infections with other Borrelia spp. in Ixodes scapularis ticks collected in Canada Human seroprevalence of Borrelia miyamotoi in Manitoba, Canada, in 2011-2014: a cross-sectional study Chapter 6 -Malaria diagnosis: Canadian recommendations for the prevention and treatment of malaria. Ottawa: Public Health Agency of Canada The authors thank Dr. Muhammad Morshed and Min-Kuang Lee at the British Columbia Centre for Disease Control for their assistance with acquiring and interpreting data, performing extensive diagnostics for this case, offering their expertise with spirochete infections and reviewing the manuscript. Contributors: All of the authors contributed to the conception and design of the work. Eric Eckbo and Robert Wolber acquired the data. Eric Eckbo drafted the manuscript. All of the authors revised the manuscript critically for important intellectual content, gave final approval of the version to be published, and agreed to be accountable for all aspects of the work. The section Cases presents brief case reports that convey clear, practical lessons. Preference is given to common presentations of important rare conditions, and important unusual presentations of common problems. Articles start with a case presentation (500 words maximum), and a discussion of the underlying condition follows (1000 words maximum). Visual elements (e.g., tables of the differential diagnosis, clinical features or diagnostic approach) are encouraged. Consent from patients for publication of their story is a necessity. See information for authors at www.cmaj.ca.