key: cord-0694821-wcsiu7e5 authors: Hou, Liusheng; Li, Mingxing; Guo, Kai; Wang, Weijia; Li, Binfei; Li, Jianwei; Yuan, Yong title: First successful treatment of a COVID-19 pregnant woman with severe ARDS by combining early mechanical ventilation and ECMO date: 2020-08-21 journal: Heart Lung DOI: 10.1016/j.hrtlng.2020.08.015 sha: df24a7ac2deed3d8444882269f9b7dde411830be doc_id: 694821 cord_uid: wcsiu7e5 The novel coronavirus (COVID-19) has become a global pandemic outbreak. Patients with COVID-19 are prone to progress to acute respiratory distress syndrome (ARDS), and even severe ARDS with ineffective mechanical ventilation, and an extremely high mortality. Extracorporeal membrane oxygenation (ECMO) provides effective respiratory support and saves time for the treatment of severe COVID-19. The present study reports that a 31-year-old pregnant female infected by COVID-19, who suffered from fever, dyspnea, and rapid ARDS. The patient's pulmonary function gradually recovered by combining early mechanical ventilation and ECMO, and finally, this patient was successfully weaned from ECMO and the ventilator. No fibrosis lesions were found in the chest CT, and the patient recovered very well after leaving from the hospital for one month. COVID-19 has presently become a global pandemic that seriously endangers human health. Among the patients with COVID-19 in Wuhan, 31% of them progressed to ARDS, and some cases were even complicated by developing from severe ARDS refractory into mechanical ventilation (MV), with a high mortality rate [1] . Due to the better efficacy achieved by ECMO during the H1N1 pandemic in 2009 [2] , this was successfully applied for the treatment of H7N9 and Middle East respiratory syndrome [3, 4] . However, recent studies have shown that the mortality rate of COVID-19 patients treated with ECMO remains high [5, 6] . At present, there is no case report on the successful treatment of COVID-19 pregnant women complicated with ARDS by ECMO. The first critically ill COVID-19 pregnant woman in China was successfully treated by combining early MV and ECMO. By reporting the present case, we aim to provide experience for the treatment of critically ill COVID-19 pregnant women. A-31-year old pregnant woman with 35 weeks of gestation developed sore throat and cough after returning to Zhongshan City from Hubei Province on January 27, 2020, and went to the hospital on February 1 due to fever with dyspnea. The chest CT revealed an infection in the left lower lung (Figure 1 , day 1), the white blood cell count was 6.8 × 10 9 /L, the lymphocyte count was 0.14, and the oropharyngeal swabs tested by the CDC for 2019-nCoV was positive. Then the patient was sent to the ICU for treatment, 39 breaths per minute and SPO 2 78% were performed under high-flow nasal cannula oxygen therapy (HFNC), and tracheal intubation, MV and emergency cesarean section were performed. On the 6 th day after admission, the chest X-ray revealed an increase in diffuse ground-glass opacity ( Figure 2, day 6 ). Under the MV support of FiO 2 100% and PEEP 16 cmH 2 O, the blood gas analysis revealed that pH was 7.15, PO 2 was 62 mmHg, and PCO 2 was 68 mmHg. Then, ECMO (Medtronic, USA, auxiliary flow 3.0 L/min) was performed. After one hour, the PO 2 /FiO 2 returned to 85 mmHg and PCO 2 decreased to 39 mmHg. Afterwards, "lung-protective ventilation" was performed under adequate sedation. After the patient's condition was stable, PEEP was gradually down regulated, and the fluid balance was negative. On the 27 th day of admission, the chest X-ray revealed the reduced absorption of ground-glass opacities in both lungs ( Figure 2 , day 27), and with the ECMO flow of 2.0 L/min, the blood gas analysis revealed that PO 2 /FiO 2 was 370 mmHg and PCO 2 was 36 mmHg, then the ECMO was successfully withdrawn. On the 30 th day of admission, the chest CT revealed diffuse ground-glass lesions with an inner diameter of the main pulmonary artery of 35.5 mm (Figure 1 , day 30). After pulmonary improvement, the ventilator parameters and dose of sedative drugs were gradually reduced. On the 38 th day after admission, the patient was successfully weaned from the ventilator. On the 56 th day after admission, the chest CT revealed no fibrosis lesions. Furthermore, the inner diameter of main pulmonary artery was 27.8 mm (Figure 1 , day 56). The patient was in good health at the one-month follow-up after discharge. ECMO is a method of life support that maintains cardiopulmonary function. In ARDS management, ECMO enhances the gas exchange and mitigates ventilator-associated lung injury [2] . Therefore, among COVID-19 patients complicated with ARDS who become unresponsive to conventional treatment, the use of ECMO, which temporarily replaces pulmonary function, can represent a life-saving alternative, providing more time to resolve the underlying cause. Figure 3 presents the decision-making algorithm for ECMO consideration endorsed by the ELSO guidelines [7] . Although the ECMO is presently widely used for the treatment of severe COVID-19, the role of ECMO for the rescue therapy of respiratory failure in critically ill COVID-19 patients remains unclear. The data obtained from Wuhan revealed that the mortality rate of severe COVID-19 treated with ECMO was 94.6% [5] . Li et al. reported 16 ICU patients, which included eight ECMO patients in Shanghai. Among these eight patients, three patients were weaned from ECMO, four patients died, and one patient was still on ECMO [8] . In summary, the use of ECMO is associated with the high mortality of patients with ARDS caused by COVID-19 in China. Studies have shown that the main cause of death of COVID-19 patients treated with ECMO in China was bleeding and infection [5] . After analyzing the data of COVID-19 patients treated with ECMO who died, it could be observed that these patients had shortness of breath after admission, underwent MV after HFNC, and had non-invasive ventilator failure [1, 9] . The studies revealed that the high transpulmonary pressure caused by shortness of breath and continuous high-concentration oxygen therapy would aggravate the lung injury [10] . When the MV failed, even when the patient received ECMO, it was found that the patient's pulmonary function slowly recovered and was prone to complications such as bleeding and infection [5] , which seriously affected the patient's prognosis. Therefore, the cause for the high mortality might be correlated to the delayed MV. The pregnant woman underwent MV and terminated pregnancy as early as possible after HFNC failure on the day of admission, avoiding lung injury caused by delayed mechanical ventilation. On the 6 th day after admission, the patient had a poor oxygenation index, with CO 2 retention. Due to the postural change, the patient's blood pressure decreased. Hence, the prone position ventilation was not performed. Then, the ECMO was performed. After the ECMO, the hypoxemia was improved, and the CO 2 retention was corrected and downregulated the plateau pressure, reducing the risk of ventilator-associated lung injury. A study revealed that spontaneous breathing during ECMO increased the transpulmonary pressure in early ARDS [11] . In addition, the quick downregulation of PEEP increased the mortality [12] , coupled with more maternal blood volume, when compared to normal subjects. Therefore, the patient was given "lung-protective ventilation" under adequate sedation, the PEEP was slowly downregulated, the fluid balance was negative, and the patient's pulmonary function gradually improved. In addition, the autopsy pathology revealed that there was damage to the alveoli and pulmonary vessels in critically ill COVID-19 patients [13] , and the patient's chest CT revealed that the main pulmonary artery was widened after withdrawing the ECMO, suggesting that critically ill COVID-19 patients are prone to pulmonary hypertension, which could increase the ECMO pipeline recirculation during ECMO. Hence, attention should be given in preventing Acute Cor Pulmonale. The patient's chest CT before leaving the hospital revealed no fibrotic lesions, and the diameter of the main pulmonary artery returned to normal, suggesting that the pulmonary lesions caused by the critical COVID-19 might be reversible. Therefore, critically ill COVID-19 pregnant women need to terminate pregnancy as early as possible. Furthermore, when early MV is not effective, ECMO needs to be performed as soon as possible. Moreover, some COVID-19 pregnant patients complicated with ARDS can still benefit from the treatment of early MV and ECMO. *With respiratory rate increased to 35 breaths per minute and mechanical ventilation settings adjusted to keep a plateau airway pressure of 32 cm of water. †Consider neuromuscular blockade. ‡There are no absolute contraindications that are agreed upon except end-stage respiratory failure when lung transplantation will not be considered; exclusion used in the EOLIA trial 1 can be taken as a conservative approach to contraindications to ECMO. ∫ Eg neuromuscular blockade, high PEEP strategy, inhaled pulmonary vasodilators, recruitment maneuvers, high-frequency oscillatory ventilation. ¶Recommend early ECMO as per EOLIA trial criteria; salvage ECMO, which involves deferral of ECMO initiation until further decompensation (as in the crossovers to ECMO in the EOLIA control group), is not supported by the evidence but might be preferable to not initiating ECMO at all in such patients. PEEP, positive end-expiratory pressure; PaO 2 : HO 2 , ratio of partial pressure of oxygen in arterial blood to the fractional concentration of oxygen in inspired air; ECMO, extracorporeal membrane oxygenation; PaCO 2 , partial pressure of carbon dioxide in arterial blood. Figure 1 . Chest X-ray images of the COVID-19 patient. Day 2 to 6. Chest X-ray showed that there were diffuse high-density shadows with blurred patches and ground glass like changes in both lung fields. The bilateral lower lung lesions aggravated significantly. There were diffuse high-density shadows with blurred patches and ground glass like changes in both lung fields. Day 23 to 57. The diffuse high-density shadows with blurred patches and ground glass like changes in both lung fields diminished and eventually disappeared. 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An International Multicenter Prospective Cohort Clinical pathology of critical patient with novel coronavirus pneumonia (COVID-19). medicine & pharmacology We thank the patient; the nurses and clinical staff who provided care for the patient; staff at the administrative departments. We declare no competing interests.