key: cord-0880799-upx6udoi authors: Takahashi, Wakana; Yoneda, Taro; Koba, Hayato; Ueda, Tsukasa; Tsuji, Noriaki; Ogawa, Haruhiko; Asakura, Hidesaku title: Potential mechanisms of nafamostat therapy for severe COVID-19 pneumonia with disseminated intravascular coagulation date: 2020-11-03 journal: Int J Infect Dis DOI: 10.1016/j.ijid.2020.10.093 sha: 94aca6aa5e935f5684842b4be3e5a0b2f25a4d95 doc_id: 880799 cord_uid: upx6udoi Nafamostat, a serine proteinase inhibitor with various actions including antithrombin, antiplasmin, and antitrypsin effects, has been used in clinical practice to treat disseminated intravascular coagulation (DIC) and pancreatitis. In this case report, the clinical course of a patient with COVID-19 pneumonia whose severe hypoxemia, probably caused by DIC and pulmonary embolism, showed remarkable improvement with combination heparin and nafamostat therapy, is described. In addition, beneficial mechanisms of nafamostat against COVID-19 and the necessity of attention to hyperkalemia as an adverse effect are discussed. Nafamostat, a serine proteinase inhibitor, has been used to treat disseminated intravascular coagulation (DIC) and pancreatitis in Japan for over 30 years. Although nafamostat is an antithrombin drug, it has a characteristically strong antiplasmin action. Therefore, it is considered suitable for enhanced-fibrinolytic-type DIC (Asakura, 2014) ; it would be beneficial especially for DIC because nafamostat does not result in hemorrhagic side effects. Because nafamostat has recently been shown to block viral entry by inhibiting membrane fusion between SARS-CoV-2 and human cells (Hoffmann et al., 2020 , Yamamoto et al., 2020 , the drug is also expected to be effective for COVID-19. Indeed, Jang et al. reported three cases of elderly patients with COVID-19 pneumonia who showed sufficient recovery with nafamostat therapy in this journal (Jang et al., 2020) . Their successful experience would encourage its future use in COVID-19. By reviewing four reported cases including the present case, the mechanisms of action of nafamostat, the pros and cons of suppressing plasmin, the disadvantage of the drug, and how to overcome it are discussed. A 65-year-old man complained of pharyngeal pain for nine days before hospitalization, developed a fever for eight days before hospitalization, and showed ground-glass opacity with a mottled appearance in the right lung on chest CT taken at a local physician's office five days before hospitalization. Based on the CT imaging characteristics and blood test findings that suggested viral infection, COVID-19 pneumonia was suspected, and the patient was admitted to our hospital. The RT-PCR test of the pharyngeal swab was positive for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Vital signs on admission were: temperature, 38.1 °C; pulse, 100/min; and SpO2, 94% on a 10-L oxygen mask. Lopinavir/ritonavir and meropenem were started after hospitalization. Favipiravir was added on Day 2. From Day 3, hydroxychloroquine sulfate, ciclesonide, and methylprednisolone were also added. However, the fever continued, and from Day 6, D-dimer increased to 40.3 μg/mL (reference level, <1.0 μg/mL), and the respiratory condition worsened, with the presence of bloody sputum. Based on these observations, concurrent pulmonary embolism was suspected. On Day 7, the patient started unfractionated heparin (UFH: target APTT two times the normal range). Nonetheless, on Day 9, D-dimer increased markedly to 159.2 μg/mL, and the platelet count decreased. With a diagnosis of DIC, nafamostat (200 mg/24 h) was added to UFH from Day 11. Rapid improvement in fibrin/fibrinogen degradation products (FDP), D-dimer, C-reactive protein (CRP), and lactate dehydrogenase (LDH) levels was then observed. Moreover, with combination heparin and nafamostat therapy, the respiratory condition improved, and the oxygen administered could be decreased from 15 L/min to 2 L/min. Nafamostat was discontinued on Day 16 due to hyperkalemia, a known side effect ( Figure) . PCR tests for SARS-CoV-2 were confirmed to be negative on Days 61 and 63 of admission. Abnormal coagulation, DIC, and venous thromboembolism are known to occur frequently in severe cases of COVID-19, and they are also likely to become the causes of death (Tang et al., 2020 , Zhou et al., 2020 . Although pulmonary embolism, which is diagnosed by antemortem imaging, is also frequently observed, multiple fibrin thrombi are often found in the microcirculation of the lung at autopsy even without an antemortem diagnosis of thrombosis (Dolhnikoff et al., 2020 , Fox et al., 2020 . This indicates that, to save the lives of severely ill patients with COVID-19, antithrombotic measures along with anti-coronavirus treatment are essential. In the present case, nafamostat was added to UFH in a patient presenting with COVID-19 pneumonia and concurrent DIC, with marked improvements in DIC and the respiratory condition. Nafamostat is a serine proteinase inhibitor (SPI) with various actions, including J o u r n a l P r e -p r o o f antithrombin, antiplasmin, and antitrypsin effects. It has been used in clinical practice in Japan for over 30 years to treat DIC and pancreatitis. It has antithrombin actions without hemorrhagic side effects. However, careful attention is necessary when it is used because hyperkalemia is an occasional side effect, as observed in the present case. When hyperkalemia appears, daily interruption about 4 hours might allow the continuation of nafamostat administration. Nafamostat is thought to be effective against COVID-19 based on the three mechanisms described below. It has been reported that angiotensin-converting enzyme 2 (ACE2) and transmembrane protease serine 2 (TMPRSS2) present on the host lung epithelial cells are required for a coronavirus such as SARS-CoV-2 to infect these cells (Hoffmann et al., 2020 Apr 16). TMPRSS2 activity, thereby suppressing membrane fusion between the virus and human cells, consequently inhibiting MERS-CoV infection (Yamamoto et al., 2016) . Similarly, in SARS-CoV-2, nafamostat blocks viral entry by inhibiting membrane fusion between the outer membrane of the virus and human cells (Hoffmann et al., 2020 , Yamamoto et al., 2020 . Although COVID-19 is an infectious disease, it differs on many points from DIC with suppressed fibrinolysis caused by a severe infectious disease; for example, it presents with significant cytokine storm-induced activation of fibrinolysis (Asakura, 2014 , Tang et al., 2020 , Zhou et al., 2020 . The current case also showed markedly increased FDP and decreased fibrinogen, reflecting the extensive activation of fibrinolysis. Another distinctive point is that marked elevations are observed not only in thrombin-antithrombin complex (TAT), a coagulation activation marker, but also in plasmin-α2-plasmin inhibitor complex (PIC), a fibrinolysis activation marker. The elevations of TAT and PIC improved dramatically with heparin and nafamostat combination therapy. Nafamostat is compatible for DIC with marked activation of fibrinolysis, as seen in COVID-19 . Plasmin has been reported to enhance the pathogenicity and infectivity of the virus by cleaving the S protein of the novel coronavirus (SARS-CoV-2) (Ji et al., 2020) . Nafamostat has antiplasmin actions (Aoyama et al., 1984) and is thought to decrease the pathogenicity and infectivity of SARS-CoV-2. It is true that, because tranexamic acid is known as a strong antifibrinolytic agent that suppresses plasmin production, it is also expected to prevent mild cases of COVID-19 (Barker et al., 2020) . However, nafamostat, an antiplasmin agonist that also has antithrombin activity, is much safer in ordinary clinical practice than tranexamic acid, which has the adverse effect of fatal thrombosis . The three points above are the advantages of nafamostat. However, nafamostat has a disadvantage: its antithrombin action (anticoagulant effect) is milder than its antiplasmin action (antifibrinolytic effect) (Aoyama et al., 1984) . Thus, its combination with heparin to compensate for this weakness is considered beneficial . Early identification of thrombotic conditions such as DIC and pulmonary embolism and appropriate treatment should reduce the number of patients requiring ventilation and decrease mortality. Treatment with nafamostat, for its anticipated anti-coronavirus action (and mild antithrombin action), combined with heparin to reinforce the anticoagulant effect, is thought to be beneficial . In a patient with severe COVID-19 pneumonia, the combination of heparin and nafamostat, in addition to anti-SARS-CoV-2 treatment, dramatically improved severe hypoxemia likely caused by DIC and pulmonary embolism. Nafamostat is thought to be efficacious not only for its positive effects on DIC, but also for its antiviral effects, indicating its potential as a powerful treatment option for COVID-19. A clinical trial for the combination treatment of nafamostat and favipiravir against COVID-19 is currently underway in Japan (jRCTs031200026). We hope that the sub-analysis of the trial would disclose also sufficient efficacy of heparin and nafamostat combination therapy. WT, HO, and HA wrote the manuscript. TY, HK, TU, and NT were involved in treating the patient. The authors have no potential conflicts of interest to disclose. The patient gave permission and informed consent for the publication of this case report. None. J o u r n a l P r e -p r o o f Pharmacological studies of FUT-175, nafamstat mesilate. I. 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None. None to report for any of the authors.