key: cord-1023557-is22i0qm authors: Heman-Ackah, Sabrina M; Su, YouRong Sophie; Spadola, Michael; Petrov, Dmitriy; Chen, H Isaac; Schuster, James; Lucas, Timothy title: Neurologically Devastating Intraparenchymal Hemorrhage in COVID-19 Patients on Extracorporeal Membrane Oxygenation: A Case Series date: 2020-05-19 journal: Neurosurgery DOI: 10.1093/neuros/nyaa198 sha: 445bc3174f299cd232eab37b97a4678266af4cd6 doc_id: 1023557 cord_uid: is22i0qm BACKGROUND AND IMPORTANCE: Extracorporeal membrane oxygenation (ECMO) represents a life-saving therapy in cases of refractory hypoxia and has been utilized in patients suffering from the most severe forms of coronavirus disease 2019 (COVID-19). A strikingly high mortality rate of 94% was described in early reports of patients with COVID-19 transitioned to ECMO. Later case reports and series demonstrating successful recovery from COVID-19 after ECMO have revived interest in this therapeutic modality, including the recent approval of ECMO for COVID-19 patients by the Food and Drug Administration (FDA). Here, we present the first reports of devastating intracranial hemorrhage as a complication of veno-venous (VV) ECMO in two COVID-19 patients. CLINICAL PRESENTATION: We performed a retrospective analysis of 2 cases of devastating intracranial hemorrhage in patients on VV-ECMO for the treatment of COVID-19. Collected data included clinical history, laboratory results, treatment, and review of all available imaging. Both patients demonstrated activated partial thromboplastin times (aPTT) within an appropriate therapeutic range. No risk factors that clearly predicted likelihood of this complication were identified. CONCLUSION: Understanding the complications of ECMO in this cohort and developing therapeutic algorithms to aid in optimal patient selection will be critical in the limited resource setting experienced as a result of global pandemic. We propose the use of head computed tomography (CT) to identify devastating neurological complications as early as possible, aiding in the resource allocation of ECMO machines to the most appropriately selected patients. T he respiratory illness, COVID-19, caused by the virus severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has caused a sudden onset and rapidly evolving pandemic. The natural progression for those developing the severe and lifethreatening form of the disease has been described as clinically similar to acute respi-ABBREVIATIONS: aPTT, activated partial thromboplastin times; ARDS, acute respiratory distress syndrome; CPAP, continuous positive airway pressure; CT, computed tomography; CTHs, head CTs; ECMO, extracorporeal membrane oxygenation; FDA, Food and Drug Administration; ICH, intracranial hemorrhage; IPH, intraparenchymal hemorrhage; MICU, medical intensive care unit; PCR, polymerase chain reaction; SARS-CoV-2, severe acute respiratory syndrome coronavirus 2; SLE, systemic lupus erythematosus; OSA, obstructuve sleep apnea; VV, veno-venous ratory distress syndrome (ARDS), often requiring intubation, lung-protective ventilation strategies, proning and extracorporal membrane oxygenation (ECMO). 1 Over the last 3 decades, ECMO has gained increasing traction in the treatment of patients with severe ARDS who develop refractory hypoxia, 2 and has thus been proposed in the treatment of patients with the most severe forms of coronavirus disease 2019 (COVID-19). 3, 4 The most common complications of ECMO are bleeding and thrombosis. Not only do patients on ECMO require therapeutic anticoagulation to maintain therapy, which predisposes patients to additional bleeding complications, 5 but the bypass itself both consumes and damages platelets and dilutes clotting factors. 6 Intracranial hemorrhage (ICH), in the setting of ECMO, is a recognized entity, with rates up to 21%. 7 The most consistent factors that have been demonstrated to increase the risk of ECMO-related ICH have been prehospitalization anticoagulation therapy and thrombocytopenia. 7, 8 Here, we describe 2 patients who required ECMO for refractory hypoxia secondary to COVID-19 and developed neurologically devastating intraparenchymal hemorrhage (IPH) despite lacking the classical risk factors. Per institutional guidelines, consent was not required and thus was not obtained or sought. A 58-yr-old female with a past medical history of diabetes and systemic lupus erythematosus (SLE), who presented with 6 d of cough, fever, and shortness of breath, determined to have COVID-19 with positive SARS-CoV-2 polymerase chain reaction (PCR). The patient's respiratory illness had improved with prolonged ECMO, as evidenced by progressively increased areas of aeration on chest X-ray (CXR, Figure 1A and 1B). The patient had been intubated and placed on ECMO prior to transfer (hospital day 1) and was placed prone overnight for 16 h/d beginning on hospital day 16. On hospital day 19, she was noted to have a nonreactive right pupil after being returned supine in the morning. Head CT demonstrated a large volume (8.4 × 4.6 × 4.7 cm) left frontal IPH with a 1.3 cm left to right midline shift, as well as sulcal effacement, and uncal and subfalcine herniation (Figure 2A and 2B). She had been heparinized since the initiation of VV-ECMO with an aPTT of 60 at the time of hemorrhage. Patient was comfortably extubated on hospital day 20 and expired. A 46-yr-old male with a past medical history of hypertension and obstructuve sleep apnea (OSA), on nasal continuous positive airway pressure (CPAP) at home. The patient presented with 7 d of cough, fever, and shortness of breath and was ultimately determined to have COVID-19 with positive SARS-CoV-2 PCR and characteristic infiltrates on lung imaging ( Figure 3 ). He was transferred to the medical intensive care unit (MICU) for progressive respiratory distress and was intubated and transitioned to ECMO on day 6 of admission. On hospital day 13, he was noted to have a fixed and dilated left pupil. Head CT demonstrated a large (6.7 × 6.0 × 5.9 cm) left frontal IPH with a 1.4 cm left to right midline shift, as well as uncal and subfalcine herniation ( Figure 4) . He had been heparinized since the initiation of VV-ECMO with an aPTT of 71 at the time of hemorrhage. Patient was comfortably extubated and expired. ICH is a well-described complication of ECMO, regardless of initial etiology. 8 While it is generally accepted that the risk of bleeding complications on ECMO rises with marked derangements in the clotting cascade, 9 no such alterations could be identified in the COVID-19 patients described here (Table) . Patients on ECMO secondary to viral respiratory illnesses have previously been shown to have a high rate of devastating ICH in the setting of the 2009 H1N1 influenza. 10, 11 While the precise mechanisms underlying this phenomenon remain unclear, this and other series have suggested that microvascular thrombosis may underlie ischemia and subsequent hemorrhage in these patients, a finding that is particularly relevant in the case of COVID-19, for which microvascular thrombosis has been observed as a precipitator of respiratory pathology. 12 In addition, COVID-19 has been hypothesized to cause a cytokine storm, which may result in platelet dysfunction, despite normal platelet counts, as observed here. Lastly, the condition of a global pandemic has generated an unprecedented requirement for resource allocation and promotion of interventions that provide the highest value carea function of quality, efficacy, safety, and cost. Lidegran et al 13 conducted a retrospective review of head CTs (CTHs) performed on patients while on ECMO. 13 Notably, they observed a rate of 37% of CTHs with ICH or cerebral infarction, and 13% of these with findings significant enough to motivate withdrawal of ECMO. Coupled with the 94.1% mortality of patients placed on ECMO for refractory hypoxia in the largest available cohort study of COVID-19 patients, 14 a compelling argument for the utilization of CTH screening in patients on ECMO for COVID-19 can be made. Portable CT has the potential to identify patients who have suffered a brain injury that would otherwise be overlooked due to the poor reliability of coagulation derangements as a clinical predictor of hemorrhage in this cohort, as well as the inability to perform neurological assessments in the setting of paralysis and sedation. This could reduce the length of time that ventilators and ECMO machines are being utilized in patients who have unknowingly suffered devastating neurological injury, increasing the availability of these scare resources for patients who retain a high probability of meaningful recovery. IPH is a well-described and important complication of ECMO. Despite occurring in the first 4 d on ECMO circuit, 15 these intracranial complications are often devastating, detected in a delayed fashion, and generally a terminal event with no indication for intervention. CT screening could be utilized to identify patients who have suffered a brain injury that would otherwise be undetected due to the poor reliability of classic coagulation markers as accurate clinical predictors of hemorrhage in this cohort, as well as the inability to perform neurological assessments in the setting of paralysis, sedation, and proning. 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