Clinical-Pathological Conference Series from the Medical University of Graz

The patient is a previously healthy 45-year-old truck driver from Upper Austria. Five days before Christmas he complained of fever up to 39.0 °C, epigastric pain and vomiting. He denied myalgia, headache, vertigo, hematochezia, melena, red-colored urine, dyspnea, hemoptea and chest pain. The patient’s history was negative for drug abuse and travel abroad. Except for the patient, nobody in his community was affected by the described condition. On admission, the patient presented with fever (38.5 °C), a blood pressure of 100/50 mm Hg and an oxygen saturation of 95% at ambient air. Physical examination revealed moderate epigastric pain on palpation but it was otherwise unremarkable (including a cursory neurological examination and inspection of the skin and mucous membranes).

The patient under discussion is a young, previously healthy truck driver who complained of fever, epigastric pain and vomiting. The onset of symptoms was acute and occurred in the month of December. Whenever an infectious disease is suspected, it is vital to pay attention to the season because different infectious risks are associated with different times of the year. The patient’s history was negative for foreign travel and nobody in his community suffered from the same symptoms, which is an important fact that automatically excludes specific infectious diseases typically occurring in clusters. The physical examination was unremarkable, except for fever, low blood pressure and epigastric pain on palpation. Laboratory data revealed leukocytosis with a left shift and thrombocytopenia, and showed increased levels of hemoglobin, CRP, D‑dimer, LDH, lactate and renal function parameters; urinalysis demonstrated hematuria and proteinuria. Abdominal sonography and CT scan showed minimal ascites in the upper abdomen, a thickened wall of the second portion of the duodenum with suspected peripapillary duodenal diverticulum and compromised basal lung parenchyma with bilateral pleural effusion. Since the clinical course worsened, acute abdomen was suspected and an exploratory laparotomy was performed, which, however, yielded unremarkable findings of the duodenum. Thus, the patient may have had a so-called pseudoacute abdomen mimicking acute abdomen. In 1958, Henry Bockus wrote a now classic paper entitled “The internist looks at the acute abdomen” [1], in which several diagnoses causing pseudoacute abdomen are summarized (Table 1).

Hantavirus infection (most likely serotype Puumala)

A CT scan of the abdomen revealed mildly dilated intrahepatic bile ducts and moderate amounts of retroperitoneal fluid (Fig. 1), a thickened wall of the second portion of the duodenum and a peripapillary diverticulum (Fig. 2). Chest CT scan showed extensive bilateral pleural effusions with some compression atelectasis of the lower lobes (Fig. 3).

The reason for the development of delirium with dystonia, hyperkinetic movements (hemiballism) and photophobia in the discussed patient was initially unclear because the CT of the brain, electroencephalogram and laboratory analysis of the cerebrospinal fluid were all unremarkable. Since MRI of the cerebellum suggested apoplexy of the pituitary, macroadenoma or possible hypophysitis, an endocrinological work-up was carried out. Hormone assays showed normal serum levels of the luteinizing hormone, prolactin and human growth hormone, but low levels of testosterone, TSH, fT3, fT4 and insulin-like growth factor 1. Adrenocorticotropic hormone (ACTH) stimulation test revealed secondary adrenal insufficiency, which strongly suggests a pre-existing insufficiency of the pituitary rather than an acute onset (because formerly healthy adrenal glands would have been able to compensate the ACTH stimulation test). The suspected Addisonian crisis was managed with high-dose intravenous hydrocortisone and thyroid hormone replacement.

Hypophysitis secondary to hantavirus infection is rare and only a few cases have been reported in the literature [20, 32, 33]. One of these publications [20] is about a patient who presented at the University Medical Center Graz about 12 years ago and whose case had been discussed in our clinical-pathological conference series number 118. This 41-year-old worker was admitted because of a 1-week history of fever, lumbar pain, increasing jaundice, shortness of breath and blurred vision. Laboratory data revealed thrombocytopenia, acute renal failure (nephropathia epidemica) and hypopituitarism caused by secondary hypophysitis. The patient was most likely infected with Puumala virus when he had cleaned an attic located in the southeast region of Austria one week prior to the onset of symptoms [20]. This region is endemic for the bank vole (Clethrionomys glareolus), which is the reservoir of Puumala virus in Austria [25].

Hantavirus infection came to the attention of the world during the Korean war (1950–1953) when more than 3000 United Nation troops fell ill with Korean hemorrhagic fever, also known as hemorrhagic fever with renal syndrome, which is an acute febrile infection characterized by renal failure and hemorrhagic manifestations that vary from petechiae to severe internal bleeding [52]; however, hantavirus as the etiologic agent of this disease was only recognized in 1978, when the virus was discovered in the lungs of its natural reservoir, the striped field mouse (Apodemus agrarius) [53]. For the milder form of hemorrhagic fever with renal syndrome, nephropathia epidemica, Puumala virus was found in bank voles (Clethrionomys glareolus) [54]. To date over 28 hantaviruses that cause disease in humans ranging from acute renal failure to pulmonary edema and severe hemorrhagic illness have been identified around the world [52]. Hantaviruses are enveloped RNA viruses that form a separate genus within the Bunyaviridae family and are closely associated with a single rodent species, which results from the co-evolution of the virus and the host [55]. Infection of other animals, such as moose [56], red fox [57] or domestic cats and dogs [58, 59] is considered to be a spillover with a minor or nonexistent risk for human infection [52]. In Europe, more than 9000 cases of hemorrhagic fever with renal syndrome are reported annually. The most predominant among them is the Puumala virus infection. Within Europe, hantavirus infection mainly occurs in European Russia, Finland, Sweden, Belgium, Germany and to a lesser extent in Norway, France, Hungary and Austria [60‐62]. The risk of contracting hantavirus from rodents is related to the closeness of contact to infected animals. As in the discussed patient, humans are usually infected via aerosolized rodent excreta when cleaning cellars, barns, sheds or summer cottages in autumn, especially when these spaces are poorly ventilated, when working with hay and crops during harvesting, or cutting wood inside dusty woodsheds [52]. Incubation time is 1–5 weeks. Key findings in the pathogenesis of hantavirus infection include increased vascular permeability of microvascular beds and acute thrombocytopenia [63, 64]. Depending on the serotype, hantavirus infection in humans can affect different vascular beds, such as the capillaries in renal medulla or the pulmonary capillaries, resulting in two clinical syndromes: hemorrhagic fever with renal syndrome and hantavirus cardiopulmonary syndrome (caused by Sin Nombre virus and Andes virus) [52]. The pathogenesis of hantavirus infection is complex and involves specific immune responses, platelet dysfunction and deregulation of the endothelial barrier function. Although the viral antigen is present in several organs, infection mainly occurs in pulmonary or renal endothelial cells and macrophages [65, 66]. The virus replicates within the vascular endothelium but does not cause any direct cytopathic effects [67, 68] until inflammatory cell infiltration leads to tissue injury [52, 69, 70]. In the kidneys, the peritubular area of the distal nephron seems to be the main site of infection [69] causing tubular damage, increased glomerular permeability and subsequent massive proteinuria [70]. At present, no specific treatment is available for the treatment of hantavirus infection; the management is primarily supportive.