Leptospirosis is a zoonotic disease with worldwide distribution caused by spirochetes of the genus Leptospira.1–5 Transmission to humans occurs through direct contact with the urine, blood or tissue of an infected animal or exposure to contaminated environments, such as standing water.1–5 It can cause a wide variety of clinical manifestations, ranging from a mild form to severe disease, and may even be life-threatening.1–3 It appears to be mainly linked to occupational activity, individuals with unfavourable socio-economic conditions, recreational activities or individuals living with pets.1–3,5

Below, we describe the case of a 30-year-old man, with no history of interest, referred to our centre for symptoms of multi-organ failure. Three days prior to admission, the patient had consulted his primary care physician due to flu-like symptoms, general malaise with dysthermia, odynophagia and myalgia. He was admitted to a regional hospital due to fever along with significant laboratory test abnormalities: anaemia; intrahepatic cholestasis; rhabdomyolysis and leukocytosis with thrombocytopenia. As regards his relevant medical history, a recent 20-day trip to the province of Guipuzcoa in the Basque Country is highlighted, during which he bathed in ponds and may have swallowed poor-quality water. He did not mention insect bites, contact with animals or travel to tropical countries. The patient was initially stable, but his condition worsened, with hypotension and desaturation in the context of a spiking fever. In the control laboratory tests (6h later), his analytical parameters were seen to have worsened. He passed various bloody stools containing fresh blood. That same day he was referred to our centre, where he was admitted to the ICU due to rapid progression of bilateral pulmonary infiltrates which led to acute hypoxaemic respiratory failure, requiring him to undergo orotracheal intubation and mechanical ventilation. His clinical picture was interpreted as septic shock of unknown origin with rapid progression to multiple organ dysfunction syndrome. Intensive support measures were initiated. Given the symptoms of icterohaemorrhagic fever together with the history of bathing in ponds and the possible ingestion of poor-quality water, infection due to Leptospira was suspected and treatment with meropenem (1g/8h), linezolid (600mg/12h) and doxycycline (100mg/12h) started. Blood cultures and respiratory, urine and serum samples were collected to rule out hepatotropic viruses, HIV, Lyme disease, Leptospira and atypical pneumonia. 32h after his admission, Leptospira infection was confirmed by means of a PCR on urine and plasma (negative serology). Targeted treatment was started with ceftriaxone (2g/12h). While in hospital, the patient's clinical course was unfavourable, with life-threatening progression as a result of refractory hypoxaemia due to pulmonary haemorrhage and multi-organ failure, eventually leading to his death seven days after admission.

In Spain, leptospirosis is mainly diagnosed by serological testing through the detection of IgM antibodies against Leptospira or seroconversion (ELISA, ICT or MAT).1–5 The isolation of Leptospira in blood or CSF during the leptospiraemic phase and in urine from the second week is also possible.1,2

Performing a real-time PCR specific to leptospirosis enables rapid diagnosis, even in the period when serology is negative.2–4 In our case, both the PCR on blood and the PCR on urine performed in our hospital on the fourth day after the onset of symptoms were positive (detection of LipL32 gene; FTD Tropical fever core, Fast Track Diagnostics). At that point, the serological tests were negative (ICT Leptospira IgM/IgG, Standard Diagnostics, Inc.). It was not until 11 days after the onset of symptoms, coinciding with the time of the patient's death, that the serology for Leptospira was positive. All samples were sent to the Spanish National Microbiology Centre, where the result was confirmed. At said centre, PCRs were performed on the patient's urine and blood samples, yielding a positive result in both (detection of the gene LipL32, modified version of the protocol described by Bourhy et al.),6 and serological tests from days 4 and 11, with a positive result for day 11 (Panbio® Leptospira IgM ELISA, Abbott Diagnostics).

In our area, leptospirosis is a low-incidence disease, mainly due to the fact that a very low percentage of individuals develop the most severe forms, with asymptomatic cases being underestimated and mild cases classified as febrile syndromes without a focus.1–5 Weil's disease is the form of presentation with the worst prognosis.2,3 Although rare, it occurs mainly in travellers returning from endemic areas and in those undertaking occupational or recreational activities.1–3,5 It is important for Leptospira to be included as a differential diagnosis in light of a suspected case of haemorrhagic fever with the aforementioned history.4 The course of the severe form of the disease is rapid and unfavourable, with patients’ vital functions being compromised. Therefore, as we have described, the use of fast and specific diagnostic techniques, such as PCR on samples of blood and/or urine within the first few days of the onset of symptoms is vital in order to establish a rapid diagnosis and the correct treatment.