Mauer Biscotti

Comparison of extracorporeal membrane oxygenation versus cardiopulmonary bypass for lung transplantation

OBJECTIVE This study compared differences in patient outcomes and operative parameters for extracorporeal membrane oxygenation (ECMO) versus cardiopulmonary bypass (CPB) in patients undergoing lung transplants. METHODS Between January 1, 2008, and July 13, 2013, 316 patients underwent lung transplants at our institution, 102 requiring intraoperative mechanical cardiopulmonary support (CPB, n=55; ECMO, n=47). We evaluated survival, blood product transfusions, bleeding complications, graft dysfunction, and rejection. RESULTS Intraoperatively, the CPB group required more cell saver volume (1123±701 vs 814±826 mL; P=.043), fresh-frozen plasma (3.64±5.0 vs 1.51±3.2 units; P=.014), platelets (1.38±1.6 vs 0.43±1.25 units; P=.001), and cryoprecipitate (4.89±6.3 vs 0.85±2.8 units; P<.001) than the ECMO group. Postoperatively, the CPB group received more platelets (1.09±2.6 vs 0.13±0.39 units; P=.013) and was more likely to have bleeding (15 [27.3%] vs 3 [6.4%]; P=.006) and reoperation (21 [38.2%] vs 7 [14.9%]; P=.009]. The CPB group had higher rates of primary graft dysfunction at 24 and 72 hours (41 [74.5%] vs 23 [48.9%]; P=.008; and 42 [76.4%] vs 26 [56.5%]; P=.034; respectively). There were no differences in 30-day and 1-year survivals. CONCLUSIONS Relative to CPB, the ECMO group required fewer transfusions and had less bleeding, fewer reoperations, and less primary graft dysfunction. There were no statistically significant survival differences at 30 days or 1 year.

One Hundred Transports on Extracorporeal Support to an Extracorporeal Membrane Oxygenation Center

BACKGROUND Extracorporeal life support technology has gained acceptance as a salvage mode for patients in respiratory or cardiac failure. Patients who are sick enough to require extracorporeal membrane oxygenation (ECMO) support are often too unstable for transfer to a hospital with ECMO capabilities. We highlight the progressive development of an ECMO transport team and the manner in which it provides reliable transport with excellent outcomes. METHODS All data were collected retrospectively from our hospitals electronic medical record. Patient outcomes are reported through April 2, 2014. RESULTS Our institution began an ECMO transport program in 2008, with the initial phase involving transport of highly selected patients for short distances. With experience we refined our intake and evaluation process. We also consolidated care for ECMO patients into two intensive care units and developed a dedicated ECMO intensivist position. As the program has matured, patient selection has become more inclusive and we have extended our capabilities to include interstate and international transport. All 100 patients were successfully placed on ECMO and transported to our center. Seventy-nine patients were placed on venovenous ECMO, 19 on venoarterial ECMO, and 2 on venovenous arterial ECMO. The median transport distance was 16 miles and ranged from 2.5 to 7,084 miles. CONCLUSIONS Extracorporeal membrane oxygenation transport can be performed safely and reliably with excellent outcomes with a dedicated team that maintains stringent adherence to well-designed management protocols.

Hybrid configurations via percutaneous access for extracorporeal membrane oxygenation: a single-center experience.

Use of extracorporeal membrane oxygenation (ECMO) in adults has surged in recent years. Typical configurations are venovenous (VV), which provides respiratory support, or venoarterial (VA), which provides both respiratory and circulatory support. In patients supported with VV ECMO who develop hemodynamic compromise, an arterial limb can be added (venovenous-arterial ECMO) to provide additional circulatory support. For patients on VA ECMO who develop concomitant respiratory failure in the setting of some residual cardiac function, an oxygenated reinfusion limb can be added to the internal jugular vein (venoarterial-venous ECMO) to improve oxygen delivery to the cerebral and coronary circulation. Such hybrid configurations can provide differential support for various forms of cardiopulmonary failure. We describe 21 patients who ultimately received a hybrid configuration at our institution between 2012 and 2013. Eight patients (38.1%) died during ECMO support, four patients (19.0%) died after decannulation but before hospital discharge, and nine patients (42.9%) survived to hospital discharge. Our modest survival rate is likely related to the complexity and severity of illness of these patients, and this relative success suggests that hybrid configurations can be effective. It serves patients well to maintain a flexible and adaptable approach to ECMO configurations for their variable cardiopulmonary needs.

The "Sport Model": Extracorporeal Membrane Oxygenation Using the Subclavian Artery

Venoarterial extracorporeal membrane oxygenation is used for patients with refractory cardiopulmonary failure. Arterial cannulation by means of femoral arteries is fraught with potential complications. We present a technique for subclavian artery cannulation to provide a safe and durable means of venoarterial extracorporeal membrane oxygenation support.

ECMO as Bridge to Lung Transplant

Since the advent of lung transplantation more than 5 decades ago, preoperative, surgical, and anesthetic management have improved. The growing experience with extracorporeal membrane oxygenation (ECMO) has enabled clinicians to expand its effective use to care for patients while bridging them to transplant (BTT). We highlight the approach in which ECMO is used to successfully bridge critically ill patients to lung transplantation when stringent daily clinical assessment is applied. In patients who continued to meet transplant criteria and were successfully transplanted, postoperative survival rates are acceptable. Larger studies are needed to inform decision algorithms for BTT patients and optimize outcomes.

Extracorporeal membrane oxygenation use in patients with traumatic brain injury

Venovenous extracorporeal membrane oxygenation (ECMO) is used for patients with severe, potentially reversible, respiratory failure unresponsive to conventional management. It is relatively contraindicated in patients with traumatic brain injury (TBI) due to bleeding complications and use of anticoagulation. We report two cases of TBI patients treated with ECMO.

Extracorporeal Membrane Oxygenation for Cardiopulmonary Failure During Pregnancy and Postpartum

BACKGROUND Extracorporeal membrane oxygenation (ECMO) has been used with increasing frequency to support pregnant and postpartum patients with severe cardiac or pulmonary failure, although patient management and clinical outcomes are underreported. This study represents patients who received ECMO during the peripartum period. METHODS All pregnant or postpartum patients treated with ECMO in the medical intensive care unit between January 1, 2009, and June 30, 2015, were included in this study. Data were analyzed retrospectively. The primary objective was to characterize the circumstances and clinical characteristics of the patients who received ECMO, describe our management during pregnancy and at the time of delivery, evaluate maternal and fetal outcomes, and report bleeding and thrombotic complications. RESULTS Eighteen peripartum patients were treated with ECMO during the study period; 4 were pregnant at the time of cannulation. Median age was 32.6 years, and median gestational age in pregnant patients was 32 weeks. Sixteen patients (88.9%) survived to hospital discharge. Fetal survival was 14 (77.8%) in the entire cohort and 100% in patients cannulated after fetal viability. Two patients successfully delivered on ECMO. Bleeding complications developed in 6 patients (33.3%) and were associated with disseminated intravascular coagulation. No fetal complications were attributed to ECMO. CONCLUSIONS ECMO can be used during pregnancy and postpartum with favorable maternal and fetal outcomes, and it outweighs the risk of bleeding or thrombotic complications when managed by an experienced, multidisciplinary team.

Extracorporeal membrane oxygenation with subclavian artery cannulation in awake patients with pulmonary hypertension.

Pulmonary hypertension (PH) is a challenging disease process to manage. Respiratory and hemodynamic changes that accompany general anesthesia lead to a significant risk of cardiovascular collapse. Certain cases of decompensated PH require extracorporeal membrane oxygenation (ECMO) support as either a bridge to lung transplantation or bridge to recovery. Performing ECMO cannulation without intubation or general anesthesia in these patients may be safer given the severity of their underlying disease process. We present three cases of upper body ECMO cannulation performed on patients with pulmonary hypertension while awake and without mechanical ventilation.

Extracorporeal membrane oxygenation in the management of diffuse alveolar hemorrhage.

Extracorporeal membrane oxygenation (ECMO) may be used to support patients with severe hypoxemic respiratory failure refractory to conventional mechanical ventilation. However, because systemic anticoagulation is generally required to maintain circuit patency, severe bleeding is often seen as a contraindication to ECMO. We describe our center’s experience with four patients who received ECMO for refractory hypoxemic respiratory failure due to diffuse alveolar hemorrhage (DAH), a condition for which anticoagulation is typically contraindicated, and provide a review of the literature. The mean age was 35.8 ± 16.4 years. The mean pre-ECMO PaO2 to FIO2 ratio was 52.3 ± 9.4 mm Hg. All patients were treated with continuous infusions of heparin with a goal-activated partial thromboplastin time between 40 and 60 seconds (mean, 47.4 ± 11.6 seconds). All four subjects (100%) survived to decannulation, and three subjects (75%) survived to discharge. The results from this case series, along with previously published data, suggest that ECMO is a reasonable management option for patients with DAH-associated severe, refractory hypoxemic respiratory failure. This is especially true in the era of modern ECMO technology where lower levels of anticoagulation are able to maintain circuit patency while minimizing bleeding risk.

Functional vascularized lung grafts for lung bioengineering

We propose a new approach to lung regeneration by replacement of damaged epithelium with full preservation of lung vasculature. End-stage lung disease is the third leading cause of death worldwide, accounting for 400,000 deaths per year in the United States alone. To reduce the morbidity and mortality associated with lung disease, new therapeutic strategies aimed at promoting lung repair and increasing the number of donor lungs available for transplantation are being explored. Because of the extreme complexity of this organ, previous attempts at bioengineering functional lungs from fully decellularized or synthetic scaffolds lacking functional vasculature have been largely unsuccessful. An intact vascular network is critical not only for maintaining the blood-gas barrier and allowing for proper graft function but also for supporting the regenerative cells. We therefore developed an airway-specific approach to removing the pulmonary epithelium, while maintaining the viability and function of the vascular endothelium, using a rat model. The resulting vascularized lung grafts supported the attachment and growth of human adult pulmonary cells and stem cell–derived lung-specified epithelial cells. We propose that de-epithelialization of the lung with preservation of intact vasculature could facilitate cell therapy of pulmonary epithelium and enable bioengineering of functional lungs for transplantation.