Yuliya Tipograf scite author profile

Objectives: Lung remains the least-utilized solid organ for transplantation. Efforts to recover donor lungs with reversible injuries using ex vivo perfusion systems are limited to<24 hours of support. Here, we demonstrate the feasibility of extending normothermic extracorporeal lung support to 4 days using crosscirculation with conscious swine.Methods: A swine behavioral training program and custom enclosure were developed to enable multiday cross-circulation between extracorporeal lungs and recipient swine. Lungs were ventilated and perfused in a normothermic chamber for 4 days. Longitudinal analyses of extracorporeal lungs (ie, functional assessments, multiscale imaging, cytokine quantification, and cellular assays) and recipient swine (eg, vital signs and blood and tissue analyses) were performed.

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Tracheostomy Is Safe During Extracorporeal Membrane Oxygenation Support

Salna

Tipograf

Liou

et al. 2019

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Patients receiving extracorporeal membrane oxygenation (ECMO) often require prolonged mechanical ventilation. Providers may be reluctant to perform tracheostomies on patients during ECMO due to their tenuous clinical status and systemic anticoagulation. We report our experience with performing open and percutaneous tracheostomies on patients supported on ECMO from August 2009 to December 2017. Of the 127 patients who underwent tracheostomy during ECMO support, the median age was 42 years (interquartile range [IQR], 29–54), 99 (78%) patients had venovenous (VV) cannulation, 22 (17%) patients had venoarterial (VA) cannulation, and six (5%) patients had hybrid configurations. Percutaneous tracheostomy was performed in 110 (87%) patients. Median-activated partial thromboplastin time (aPTT) at the time of tracheostomy was 47.5 seconds (IQR, 41–57.6 seconds). The median time from ECMO initiation to tracheostomy was 7 days (IQR, 4–11 days). A total of 55 patients (43%) received packed red blood cell (pRBC) transfusions within 48 hours after tracheostomy with a median transfusion of 2 units (IQR, 1–3). There was no procedural mortality. Overall, 88 (69%) patients survived to decannulation and 74 (58%) survived to hospital discharge. Our experience with the largest published series of tracheostomies during ECMO demonstrates that excellent outcomes can be achieved without significant morbidity.

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Extracorporeal Carbon Dioxide Removal in the Treatment of Status Asthmaticus

Bromberger

Agerstrand

Abrams

et al. 2020

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Objectives: Venovenous extracorporeal carbon dioxide removal may be lifesaving in the setting of status asthmaticus. Design: Retrospective review. Setting: Medical ICU. Patients: Twenty-six adult patients with status asthmaticus treated with venovenous extracorporeal carbon dioxide removal. Interventions: None. Measurements and Main Results: Demographic data and characteristics of current and prior asthma treatments were obtained from the electronic medical record. Mechanical ventilator settings, arterial blood gases, vital signs, and use of vasopressors were collected from the closest time prior to cannulation and 24 hours after initiation of extracorporeal carbon dioxide removal. Extracorporeal carbon dioxide removal settings, including blood flow and sweep gas flow, were collected at 24 hours after initiation of extracorporeal carbon dioxide removal. Outcome measures included rates of survival to hospital discharge, ICU and hospital lengths of stay, duration of invasive mechanical ventilation and extracorporeal carbon dioxide removal support, and complications during extracorporeal carbon dioxide removal. Following the initiation of extracorporeal carbon dioxide removal, blood gas values were significantly improved at 24 hours, as were peak airway pressures, intrinsic positive end-expiratory pressure, and use of vasopressors. Survival to hospital discharge was 100%. Twenty patients (76.9%) were successfully extubated while receiving extracorporeal carbon dioxide removal support; none required reintubation. The most common complication was cannula-associated deep venous thrombosis (six patients, 23.1%). Four patients (15.4%) experienced bleeding that required a transfusion of packed RBCs. Conclusions: In the largest series to date, use of venovenous extracorporeal carbon dioxide removal in patients with status asthmaticus can provide a lifesaving means of support until the resolution of the exacerbation, with an acceptably low rate of complications. Early extubation in select patients receiving extracorporeal carbon dioxide removal is safe and feasible and avoids the deleterious effects of positive-pressure mechanical ventilation in this patient population.

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Yuliya Tipograf

Outcomes of Extracorporeal Membrane Oxygenation as a Bridge to Lung Transplantation

Xenogeneic cross-circulation for extracorporeal recovery of injured human lungs

Multiday maintenance of extracorporeal lungs using cross-circulation with conscious swine

Tracheostomy Is Safe During Extracorporeal Membrane Oxygenation Support

Extracorporeal Carbon Dioxide Removal in the Treatment of Status Asthmaticus

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