key: cord-282963-p04c5nn7
authors: Oliveros, Estefania; Mahmood, Kiran; Yammine, Maroun; Chau, Vinh; Fox, Arieh; Ahmed, Sanam; Anyanwu, Anelechi; Pinney, Sean; Mancini, Donna; Lala, Anuradha; Barghash, Maya
title: Rapid Deterioration of Hospital-Acquired COVID-19 in a Patient on Extracorporeal Left Ventricular Assist Support
date: 2020-09-21
journal: Heart Lung
DOI: 10.1016/j.hrtlng.2020.08.021
sha: 
doc_id: 282963
cord_uid: p04c5nn7

IMPORTANCE: : As the Coronavirus disease 2019 (COVID-19) pandemic accelerates, our hospitals have become overwhelmed. OBJECTIVE: : To describe detection of COVID-19 in asymptomatic hospitalized individuals awaiting advanced therapies for HF and the management of complications of COVID-19. DESIGN: : We present a unique case report of hospital-acquired COVID-19 in a patient on temporary mechanical circulatory support. MAIN OUTCOME: : Despite intensive care and monitoring, he developed rapid progression of hypoxic respiratory failure which led to his death. CONCLUSION: : This case highlights various considerations for a patient with temporary MCS. It illustrates the high risk for development of COVID-19 for vulnerable hospitalized patients.

 First, this case underscores the rapidity of deterioration in COVID-19 patients once hypoxia starts.

 Second, COVID-19 must be considered in hospitalized patients even when they are asymptomatic.

 Lastly it emphasizes the importance of early advanced care planning 1. Identify COVID-19 in hospitalized patients even when they are asymptomatic.

Emphasize the importance of early advanced care planning in patients with heart failure and COVID-19 3. Understand clinical phenotyping in COVID-19 to allow for more targeted and timely therapeutic interventions.

The patient is a 55-year-old male who presented with chest pain, and was found to have a non-ST elevation myocardial infarction. The medical history included prior coronary bypass graft surgery (known occluded grafts), hypertension, and diabetes mellitus. He developed cardiogenic shock and required intra-aortic balloon placement. Due to refractory cardiogenic shock, MCS was escalated to peripheral veno-arterial extracorporeal membrane oxygenation and Impella 

Real-time polymerase chain reaction for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) was positive on HD 21. At this time, several markers of disease severity were outside of normal limits ( Figure 1A and Table 1 ). He was deemed high-risk for serious complications from COVID-19 given his comorbidities.

The patient was quarantined in a negative-pressure room following test results. On HD 24, he developed cough, tachypnea and hypoxemia with an oxygen saturation of 90% on room air requiring 3 liters/minute of supplemental oxygen. A repeat chest x-ray revealed new diffuse bilateral opacities. He was initiated on hydroxychloroquine that morning (baseline QTc 455 msec). Over the course of 2 hours the patient developed severe hypoxemia with oxygen saturations of 70%, followed by hypotension and low flows through the Centrimag®. The mean arterial pressure dropped to 50-mmHg followed by an immediate drop in Centrimag® flows and asystole. Given his current transplant ineligibility or option for durable LVAD support, advanced cardiac life support was not performed as his prognosis on continued temporary support was extremely poor and he expired.

First, this case underscores the rapidity of deterioration in COVID-19 patients once hypoxia starts. Second, COVID-19 must be considered in hospitalized patients even when they are asymptomatic. Lastly it emphasizes the importance of early advanced care planning ( Figure 1B ).

While predictors of rapid disease progression have yet to be elucidated, early trends of inflammatory markers may be helpful to risk stratify COVID-19 patients and identify those who are likely to become critically ill (1). Biomarkers of cytokine storm include lymphopenia, C- There are currently no anti-SARS-CoV-2 therapies or vaccines that have been approved by the Food and Drug Administration due to the absence of adequate evidence, yet there are several ongoing randomized trials evaluating different treatments.

Another phenomenon in COVID-19 is occlusion and microthrombosis of pulmonary small vessels (2) . The viral infection causes endothelial cell dysfunction, which creates a hypercoagulable state associated with thrombosis (3). Hence, early use of anticoagulant therapy has been suggested to improve outcomes in select cohorts with markedly elevated D-dimers (3).

The patient in this case received anticoagulation because he was on a Centrimag® but his aPTT was subtherapeutic for 48 hours prior to his deterioration, which raises the question of a thromboembolic event as a contributing factor to his acute decompensation.

In nosocomial diseases the source of infection is often unknown, any healthcare worker (HCW) or visitor is capable of transmitting it to a patient. Our institution has adopted a no visitor policy.

HCWs follow appropriate hand hygiene and wear protective gear (surgical mask, gloves and gowns). But at times cross contamination between patients and HCW (reservoirs or asymptomatic carriers) can happen despite best practices. Long incubation period [median of 5.1 days (95% CI 4.5 to 5.8 days)] and the concern for asymptomatic carriers of SARS-CoV-2 further undermine the goals of infection control within the hospital (4). Presently broad testing of asymptomatic patients and HCW for COVID-19 is not available but may have impacted disease transmission in this case.

The development of COVID-19 in this patient was particularly problematic as it precluded his chance to receive a cardiac transplant or undergo durable LVAD insertion until recovery and clearing of the virus was demonstrated. Furthermore, the mid to long-term effects of COVID-19 pneumonia on residual lung function is unknown.

Hospitalized patients with advanced HF are vulnerable to contracting COVID-19 with a potentially fulminant course. As such conventional practices of using MCS as a "bridge to decision" may not be practical during this pandemic where the balance of limiting exposure must be weighed against prolonged hospital stay for definitive HF therapies. The mortality rate reported in critically ill COVID-19 patients ranges from 15% in the Wuhan experience (4) to 50% in the Seattle Registry (5) . Pre-emptive early palliative care discussions with the patient and the family members are more essential now than ever given restrictions placed on family visitation, and potential for rapid deterioration both of advanced HF and of COVID-19 in this population.

This case highlights various considerations for a patient with temporary MCS. It illustrates the high risk for development of COVID-19 for vulnerable hospitalized patients. 

COVID-19 Illness in Native and Immunosuppressed States: A Clinical-Therapeutic Staging Proposal

Anticoagulant treatment is associated with decreased mortality in severe coronavirus disease 2019 patients with coagulopathy

Clinical Pathology of Critical Patients with Novel Coronavirus Pneumonia (COVID-19). Preprints. 2020

Clinical features of patients infected with 2019 novel coronavirus in Wuhan

Critically Ill Patients in the Seattle Region -Case Series