key: cord-0700598-oi6cyoq0 authors: Takayama, Wataru; Endo, Akira; Otomo, Yasuhiro title: Anticoagulation therapy using unfractionated heparin at a therapeutic dose for coronavirus disease 2019 patients with severe pneumonia: a retrospective historical control study date: 2021-06-30 journal: Acute Med Surg DOI: 10.1002/ams2.679 sha: f875a4fdadc0c2f4c5e569068223cc248be714f4 doc_id: 700598 cord_uid: oi6cyoq0 AIM: Patients with severe coronavirus disease 2019 (COVID‐19) pneumonia often have complications of coagulopathy and thrombotic phenomena, which lead to high mortality. Whether administering systematic anticoagulant therapy is beneficial remains unclear. We report our experience using systemic anticoagulation with unfractionated heparin to treat severe COVID‐19. METHODS: We conducted a retrospective historical control study of severe COVID‐19 patients requiring mechanical ventilation who received prophylactic‐dose anticoagulation (April 1–May 25) or therapeutic‐dose anticoagulation (May 26–August 31) in the intensive care unit (ICU) of a tertiary emergency critical care medical center in Japan. The primary endpoints were in‐hospital mortality and anticoagulation therapy‐related adverse events. The secondary endpoints included thromboembolic events, administration of venovenous extracorporeal membrane oxygenation (ECMO), ventilator‐free days (VFDs), ICU‐free days, and the development of multiple organ dysfunction syndrome. RESULTS: A total of 29 and 33 patients were in the prophylactic‐dose and therapeutic‐dose groups, respectively. Background characteristics between the groups were not significantly different, although the therapeutic‐dose group had a significantly lower in‐hospital mortality rate [5 (17.2%) patients versus 0 (0.0%) patients; P = 0.033] and longer ICU‐free days (median [interquartile range]: 15 days [13–18] versus 5 days [0–13]; P = 0.008). Hemorrhagic‐events did not occur during the study period. Compared with the prophylactic‐dose group, the therapeutic‐dose group tended to have longer VFDs, was not treated with ECMO, and did not experience thromboembolic events and multiple organ dysfunction syndrome; however, the difference was not statistically significant. CONCLUSIONS: Therapeutic‐dose anticoagulation may be beneficial for patients with severe COVID‐19 pneumonia requiring mechanical ventilation. T HE NOVEL CORONAVIRUS disease 2019 (COVID- 19) is an emerging disease that has increased rapidly since first being identified in China in December 2019. 1,2 COVID-19 induces a cytokine storm that activates the coagulation cascade, thereby resulting in coagulopathy and thrombotic phenomena, which lead to multiple organ dysfunction and high mortality. 3 COVID-19-related deaths could be largely attributed to hypoxemia secondary to acute respiratory distress syndrome; however, a growing suspicion is that thromboembolic events could also affect clinical outcomes. 4 Patients with severe COVID-19 pneumonia often have coagulopathy that is similar to other systemic coagulation abnormalities associated with severe infections such as disseminated intravascular coagulation or thrombotic microangiopathy; however, the mechanism of COVID-19related coagulopathy has different features. 5 A previous statement on the management of COVID-19related coagulopathy suggested the use of heparin at a prophylactic dose for all patients with COVID-19. 6 Expert recommendations for the use of anticoagulants for patients with high thrombotic risk exist. [7] [8] [9] Furthermore, a recent large cohort study 10 reported that the use of anticoagulation at treatment doses may be associated with a reduced risk of mortality among hospitalized patients with COVID-19, regardless of the route of administration. However, no data have supported therapeutic-dose anticoagulation for all patients with severe COVID-19 pneumonia. 11 Based on this background, we hypothesized that the administration of therapeutic-dose anticoagulant therapy in the early phase of intensive care unit (ICU) admission would be beneficial for patients with severe COVID-19. T HIS STUDY WAS a single-center retrospective historical control study conducted at the ICU of the tertiary emergency critical care medical center (Tokyo, Japan). The medical records of COVID-19 patients with severe pneumonia who were admitted between April 1, 2020, and August 31, 2020, were reviewed. In the hospital, the therapeutic strategy for anticoagulation was changed on May 25, 2020, at which point the dose of heparin was altered from the prophylactic dose to a therapeutic dose. The clinical outcomes of patients who received prophylactic or therapeutic doses of heparin were compared. The study was approved by the Institutional Review Board of our hospital (approval number: M2020-130). The board waived the need for written informed consent because this study was retrospective. Consecutive severe COVID-19 patients requiring mechanical ventilation who were admitted to the ICU of Tokyo Medical and Dental University Hospital of Medicine (Tokyo, Japan) were included. A diagnosis of COVID-19 was determined for all patients, based on findings of the nasopharyngeal swab test for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) by using real-time reverse transcriptase polymerase chain reaction. All included patients received prophylactic-dose anticoagulation or therapeutic-dose anticoagulation during their ICU stay. We excluded patients with a "do not attempt resuscitation" order (including ventilation, venovenous extracorporeal membrane oxygenation [ECMO] , and renal replacement therapy), and patients who had missing or insufficient data regarding study variables. Patients whose anticoagulation therapy strategy was changed (e.g., from prophylactic dose to a dose to maintain ECMO or renal replacement therapy circuit) within the first 48 h after administration of mechanical ventilation were also excluded because the aim of this study was to evaluate the effect of the early administration of therapeutic-dose anticoagulation. Furthermore, we excluded patients with a history of taking anticoagulants or antiplatelet agents, given their significant effect on the coagulable state. Patients with COVID-19 underwent mechanical ventilation if they could not maintain an arterial oxygen partial pressure-to-fractional inspired oxygen (PaO 2 /FiO 2 ) ratio of less than 200 after oxygen therapy. We divided the enrolled patients into two groups: the prophylactic-dose group (from April 1, 2020, to May 25, 2020) and therapeutic-dose group (from May 26, 2020, to August 31, 2020). Patients in the prophylactic-dose group received low-molecular-weight heparin (LMWH) within the first 6 h after ICU admission and doses of 40 mg (i.e., 4,000 U) of enoxaparin two times daily. Patients in the therapeutic-dose group received unfractionated heparin (UFH) within the first 6 h after ICU admission, and their activated partial thromboplastin time was monitored and maintained at 1.5-2.5 times as the control. During the study period, when anticoagulation therapyrelated adverse events occurred or the patients were discharged from ICU, these therapies were stopped immediately. The following data were collected retrospectively from medical records: age; sex; the day from illness onset to the administration of mechanical ventilation; history of taking anticoagulant and/or antiplatelet therapy; smoking history; Charlson Comorbidity Index score 12 ; the administration of ECMO; the administration of favipiravir, tocilizumab, nafamostat mesylate, recombinant thrombomodulin, antithrombin concentrates, corticosteroid, and/or prone positioning as a treatment option for COVID-19; and status on hospital discharge (i.e., dead or alive). The date of disease onset was defined as the day when symptoms were noticed. The length of ventilation and ICU stay of each patient were also recorded. Furthermore, we collected laboratory results such as D-dimer level, fibrin-fibrinogen degradation products, and C-reactive protein levels. All blood samples were obtained after the use of mechanical ventilation and before receiving anticoagulation therapy. For all included patients, the worst values of the Sequential Organ Failure Assessment (SOFA) and the Acute Physiology and Chronic Health Evaluation (APACHE) II scores were assessed within the first 24 h of intubation. We defined the primary efficacy endpoint as in-hospital mortality. Furthermore, the primary safety endpoints included anticoagulation therapy-related adverse events, which were any of the following events: (i) hemoglobin level <7 g/dL and any red blood cell transfusion within 48 h, (ii) at least two units of red blood cell transfusion within 48 h, or (iii) a clinical diagnosis of major bleeding. We defined the secondary endpoints as thromboembolic events, the administration of ECMO, ventilator-free days (VFDs) 28 days after admission, ICU-free days of 28 days after admission, and the development of multiple organ dysfunction syndrome (MODS). MODS was defined as a SOFA score of ≥2 points in ≥2 organ systems. 13 The thromboembolic events included the following diseases: (i) deep vein thrombosis, (ii) pulmonary embolisms, (iii) myocardial infarction, and (iv) cerebral infarction. Deep vein thrombosis and pulmonary embolism were systematically investigated by computed tomography angiogram or echocardiography when the patients were not transportable. Acute coronary syndrome was diagnosed by echocardiography and electrocardiograph. Patients suspected of having a stroke based on a pathological neurological examination received either a noncontrast brain computed tomography and/or a brain magnetic resonance imaging with diffusion weighted imaging. Severe COVID-19 pneumonia was defined as an acute need for invasive mechanical ventilation. In univariate analysis, continuous variables were compared using the Student t test or Mann-Whitney U-test. Categorical variables were compared using the v 2 test or Fisher exact test, as appropriate. All statistical analyses were conducted using R software (version 3.4.1; R Foundation for Statistical Computing, Vienna, Austria). Two-sided P values <0.05 were statistically significant. Table 1 . The patients' severity scores were not significantly different between the two groups, although the severity scores tended to be higher in the therapeuticdose group. Favipiravir was administered to all patients. There were no significant differences between groups in other treatment options. I N THIS RETROSPECTIVE historical control study, we evaluated the effects of anticoagulation therapy using a therapeutic dose of UFH on the outcomes in 62 patients with COVID-19 pneumonia requiring mechanical ventilation. We found no significant difference for any outcome, except for ICU-free days, although we found a lower inhospital mortality and greater number of VFDs and ICUfree days in the therapeutic-dose group than in the prophylactic-dose group. Approximately 5%-15% of patients with COVID-19 pneumonia require intensive care and ventilatory support. 14 The outcome of severe patients with COVID-19 requiring mechanical ventilation has been reported as extremely poor. For instance, 88% of these patients in the United States 15 and 53% of these patients in Germany 16 died. In contrast to the findings of previous reports, 15, 16 although all patients in our cohort were mechanically ventilated, we demonstrated lower mortality rates among the reviewed patients (8.1%, 5/ 62). Of note, all patients treated with a therapeutic dose of heparin survived. In addition to the known primary anticoagulant properties of heparin, it has therapeutic value in patients with severe lung inflammation and impaired pulmonary gas exchange. 17, 18 Anticoagulation therapy using heparin may have positive effects on the outcomes of patients with severe COVID-19 from the perspective of the effect of abnormalities in coagulation and inflammation. A previous pathological study 19 reported a high incidence of pulmonary microthrombosis in patients with COVID-19 pneumonia. Furthermore, small pulmonary arterial thrombi were reported to be nine times more prevalent in these patients than in those with influenza. 20 In addition, despite the use of standard prophylactic anticoagulation therapy, a high incidence of thrombotic complications such as pulmonary thromboembolism 21 or arterial thrombosis 7 in patients with COVID-19 infection has been reported. UFH and LMWH inactivate several coagulation enzymes by binding to antithrombin, although LMWH has a lower affinity for binding to proteins other than antithrombin. 22 Given the clinical and pathological findings of widespread pulmonary microvascular thrombosis and thrombotic events, prophylactic-dose anticoagulation using LMWH may be insufficient for patients with severe COVID-19 pneumonia and a hypercoagulable state. This emerging hypothesis has major therapeutic implications for patients with COVID-19. The possible explanation for the relatively favorable outcome in the therapeutic anticoagulation group in this study may be related to the effect of UFH itself, in addition to the dose of heparin. Another interesting therapeutic characteristic of heparin is its antiviral effect. Heparin inhibits infection in experimental Vero cells injected with sputum from patients with severe acute respiratory syndrome coronavirus 1 (SARS-CoV-1) infection. 23 However, the mechanism and the affecting point of heparin in patients with COVID-19 remain unclear. Further basic studies are needed to reveal the role of heparin in patients with severe COVID-19. Several limitations should be considered when interpreting our results. First, this study was retrospective with a limited sample size; thus, the risks of residual confounding and type II error exist. Additional work is necessary to provide more definitive data, including large-scale studies adjusted by covariates. Second, treatment group allocation was not based on a randomized assignment. The design of the historical cohort study was prone to potential biases, owing to the possible improvements in the management skills of severe COVID-19 pneumonia due to an increase in the experience of medical staff, although there were no significant differences in the administration of treatment options between both groups. Third, all patients reviewed in this study were Japanese, which limited the generalizability of the results. Race and ethnicity have major effects on coagulability and thrombotic risk. 24 Fourth, patients who had already received anticoagulant and/or antiplatelet therapy, which could influence the coagulable state and heparin sensitivity, were excluded from this study. Finally, the population of our study was relatively younger than those in a previous report in Japan. 25 It has been reported that being aged over 65 is a risk factor for the progression of COVID-19. 26 Although the median age is similar in both groups, whether the age factor could affect the outcomes is unknown. Further large-scale study is warranted. Despite these limitations, we initially showed an association between the administration of a therapeutic dose of heparin and the trend of favorable outcomes in patients with severe COVID-19 requiring mechanical ventilation. This finding implicated the previous view of a potentially effective strategy in treating these patients. T HE RESULTS OF this study suggested that anticoagulant therapy using UFH at therapeutic doses may be beneficial for patients with severe COVID-19 pneumonia requiring mechanical ventilation. Further large studies are necessary to validate our results. Epidemiological and clinical characteristics of 99 cases of 2019 novel coronavirus pneumonia in Wuhan, China: a descriptive study Clinical characteristics of 138 hospitalized patients with 2019 novel coronavirus-infected pneumonia in Wuhan, China Covid-19: Consider cytokine storm syndromes and immunosuppression Prevalence of venous thromboembolism in patients with severe novel coronavirus pneumonia Segmental pulmonary vascular changes in COVID-19 pneumonia ISTH interim guidance on recognition and management of coagulopathy in COVID-19 Incidence of thrombotic complications in critically ill ICU patients with COVID-19 Hypothesis for potential pathogenesis of SARS-CoV-2 infection-a review of immune changes in patients with viral pneumonia Anticoagulation in COVID-19 Association of treatment dose anticoagulation with in-hospital survival among hospitalized patients with COVID-19 COVID-19 and its implications for thrombosis and anticoagulation A new method of classifying prognostic comorbidity in longitudinal studies: development and validation Surgical Treatment: Evidence Based and Problem Oriented Ventilation of COVID-19 patients in intensive care units Presenting characteristics, comorbidities, and outcomes among 5700 patients hospitalized with COVID-19 in the New York City area COVID-19: high mortality in hospital patients More than an anticoagulant: do heparins have direct anti-inflammatory effects? The anti-inflammatory effects of heparin and related compounds Autopsy findings and venous thromboembolism in patients with COVID-19: a prospective cohort study Pulmonary vascular endothelialitis, thrombosis, and angiogenesis in COVID-19 Thrombosis risk associated with COVID-19 infection. A scoping review Heparin and low-molecular-weight heparin: mechanisms of action, pharmacokinetics, dosing, monitoring, efficacy, and safety Coronaviridae and SARS-associated coronavirus strain HSR1 Environmental and genetic risk factors associated with venous thromboembolism COVID-19) cases in Japan as of Risk factors of critical & mortal COVID-19 cases: a systematic literature review and metaanalysis No. and committee Name: This study was approved by the Institutional Review Board of Tokyo Medical and Dental University. This study complied with the principles of the 1964 Declaration of Helsinki in reviewing and publishing information from the patient's medical record.Informed Consent: Written informed consent was obtained from the patients for the publication.Registry and the Registration No. of the study/Trial: N/A. Animal Studies: N/A. Conflict of Interest: None declared. Otomo participated in the study conception and design, data collection, and drafting of the manuscript. All the authors have read the manuscript and approved this submission.