In this report, we have described a rare case of culture-negative PD-associated peritonitis caused by SMA thrombosis with intestinal necrosis, which was classified as enteric peritonitis. In addition, the combination of severe calcification of SMA and thrombocytosis secondary to the severe anemia triggered by the patient’s bleeding gastric ulcer was considered to be the cause of his thrombosis.

The identification of the causative organism in the dialysis effluent is important for the selection of the most appropriate treatment, and the identification of the underlying primary disease is required in culture-negative cases. In an attempt to identify the causative organism, we repeated the cultures of the patient’s dialysis effluent and blood but we could not detect any bacteria. The most common explanations for culture-negative peritonitis are antibiotic therapy within the preceding 30 days and technical problems during the dialysate culture [6, 7]. The present patient had taken antibiotics to treat his exit-site and tunnel infection, but these had been administered 2 months previously, and, therefore, were not considered to be the cause of the negative culture result. It has been previously reported that culture-negative peritonitis is not associated with higher risks of hospitalization, death, or a change to hemodialysis [25, 26]. However, a delay in the diagnosis or treatment of enteric peritonitis, which is one of the conditions that should be considered in the case of culture-negative peritonitis, has been reported to increase mortality by approximately 50% [2, 12, 13]. Therefore, it is important to evaluate the reasons for culture negativity at an early stage, especially if treatment is ineffective [6, 27].

For the evaluation of the effectiveness of treatment, the WBC count of the dialysis effluent and the clinical symptoms should be evaluated longitudinally. Appropriate antibiotic treatment generally ameliorates the symptoms of patients within 72 h, but a WBC count in the dialysis effluent of > 1090/µL 2 days following the initiation of treatment is a prognostic marker of treatment failure [2, 28, 29]. The present patient was initially treated empirically with antibiotics, and his dialysis effluent WBC count slowly decreased with antimicrobial therapy and peritoneal lavage, but remained > 2000/µL 4 days after the initiation of treatment. Moreover, his abdominal pain had not been ameliorated. In cases of inadequate response to antimicrobial treatment, eosinophilic peritonitis should be considered [30]. In this case, we ruled out the eosinophilic peritonitis because there was no increase of eosinophils in PD effluent throughout the clinical course. This clinical course and the findings of enhanced CT confirmed that the antibiotic treatment had not been effective and that the PD-associated peritonitis was non-infectious and associated with SMA thrombosis and ischemic enteritis. In addition to CT imaging, the findings of PD effluent may be helpful in the early diagnosis of enteric peritonitis. It is reported that amylase concentrations is increased in PD effluent from enteric peritonitis including ischemic enteritis [31]. Although we did not measure the amylase concentrations in PD effluent in this case, the measurement should be considered in suspected cases of enteric peritonitis.

We investigated which underlying diseases might have contributed to the SMA thrombosis. Initially, we considered cardiac diseases, including intracardiac thrombi, acute myocardial infarction, and atrial fibrillation, as causes of the thrombosis, because cardiac diseases are reported to be a cause of 70% of cases of SMA thrombosis [18]. However, the present patient did not have arrhythmia or a cardiac disease that could have caused his thrombosis. On the other hand, the CT revealed severe calcification of the SMA, which is reported as a cause of SMA thromboembolism [32]. We considered that the stenosis of SMA contributed to thrombus formation. Additionally, laboratory testing on admission revealed thrombocytosis, which is also known to be associated with thromboembolism [33]. Most cases of thrombosis caused by thrombocytosis are primary thrombosis, although severe thrombosis arising as a result of secondary thrombocytosis has also been documented [20, 22,23,24, 34]. In the present case, a relationship between the thrombocytosis and hemorrhage was suspected, because the patient’s platelet count increased from 29.5 to 72.0 × 104/µL over the course of the month following the bleeding gastric ulcer. Therefore, we concluded that the combination of severe SMA calcification and secondary thrombocytosis played a role in the development of the SMA thrombosis.

To investigate the cause of secondary thrombocytosis in detail, we assessed the patient’s level of iron deficiency, which is known to be a contributing factor to secondary thrombocytosis [35]. Song et al. reported that the risk of thrombosis is twice as high in patients with thrombocytosis and iron deficiency anemia than in those with iron deficiency anemia alone (15.8% vs. 7.8%, respectively) [36]. On admission, the present patient showed a high transferrin saturation and a high ferritin concentration, (86% and 676 ng/dL, respectively). Moreover, we could not identify any evidence of iron deficiency nor any indicators of iron-deficiency anemia, such as microcytic anemia, following the bleeding event, despite the presence of severe anemia. One possible reason for this absence of iron deficiency was that appropriate iron supplementation was administered following the bleeding event. Therefore, we concluded that not only the iron-deficiency anemia but also the severe anemia, without iron deficiency, may have contributed to the secondary thrombocytosis.

In conclusion, we have reported a rare case of culture-negative PD-associated peritonitis caused by SMA thrombosis with intestinal necrosis. In cases of culture-negative PD-associated peritonitis, enteric peritonitis caused by arterial thrombosis should be considered at an early stage; and in particular, special attention should be paid to patients who experience bleeding episodes, with or without iron deficiency.