Inter-hospital transports on extracorporeal membrane oxygenation in different health-care systems

ECMO cannulation across New England

BACKGROUND

Over the last 15 years, clinicians have increasingly used extracorporeal membrane oxygenation (ECMO) as a rescue technique, including cannulating patients in community hospitals without ECMO capabilities, leading to secondary ECMO transports.

OBJECTIVES

The objective was to evaluate the changes in cannulations and the number of cannulating centers over time.

METHODS

This is a retrospective review of transports across New England to ECMO centers in Boston from 2011 to 2022.

RESULTS

Over the years studied, 202 patients were cannulated and transported. VA ECMO was the most common configuration. This was a high-acuity cohort, with 26.4 % of VA ECMO patients having undergone cannulation during cardiopulmonary resuscitation (ECPR) and 6.1 % having central cannulation. The number of cannulations per year increased from 6 patients in 2011 to 36 in 2019 (p = 0.055). Cannulating centers also increased from 3 in 2011 to 14 in 2022. ECPR showed a similar trend, with increases in both ECPR patients and ECPR sites per year (p = 0.055).

CONCLUSIONS

The number of ECMO cannulations in the community has increased, with a high-acuity cohort of many patients undergoing ECPR. The number of patients cannulated at non-ECMO centers highlights the need for transport organizations and ECMO centers to address the needs of this high-acuity patient population.

Crossing-Borders: Experiences With International Transports on Extracorporeal Membrane Oxygenation: Special Considerations and Challenges

Extracorporeal membrane oxygenation (ECMO) is a crucial support for patients with severe cardiac or respiratory failure, but its availability is limited, often requiring patient transport to specialized centers. Only a few centers provide mobile ECMO services, and international ECMO transports are rare. This study reviews a department's experience with international ECMO transports from 1998 to 2022. Out of 1,277 ECMO transports, 357 (28%) were international. Most of these (52%) were directed to ECMO Center Karolinska, whereas others involved transfers due to a lack of beds or between foreign centers. The majority (79%) of patients were cannulated at the referring hospital, with 63% supported by venoarterial ECMO. Transport distances averaged 1,200 km, using fixed-wing aircraft 89% of the time. Hospital survival for those transported to Karolinska was 82%, and 36% of transports experienced complications, though no deaths occurred during transport. This study highlights the safety and effectiveness of international ECMO transport with highly trained teams.

Normothermic regional perfusion mobile teams in controlled donation after circulatory death pathway: Evidence and peculiarities

To facilitate the implementation of controlled donation after circulatory death (cDCD) programs even in hospitals not equipped with a local Extracorporeal Membrane Oxygenation (ECMO) team (Spokes), some countries and Italian Regions have launched a local cDCD network with a ECMO mobile team who move from Hub hospitals to Spokes for normothermic regional perfusion (NRP) implantation in the setting of a cDCD pathway. While ECMO teams have been clearly defined by the Extracorporeal Life Support Organization, regarding composition, responsibilities and training programs, no clear, widely accepted indications are to date available for NRP teams. Although existing NRP mobile networks were developed due to the urgent need to increase the number of cDCDs, there is now the necessity for transplantation medicine to identify the peculiarities and responsibility of a NRP team for all those centers launching a cDCD pathway. Thus, in the present manuscript we summarized the characteristics of an ECMO mobile team, highlighting similarities and differences with the NRP mobile team. We also assessed existing evidence on NRP teams with the goal of identifying the characteristic and essential features of an NRP mobile team for a cDCD program, especially for those centers who are starting the program. Differences were identified between the mobile ECMO team and NRP mobile team. The common essential feature for both mobile teams is high skills and experience to reduce complications and, in the case of cDCD, to reduce the total warm ischemic time. Dedicated training programs should be developed for the launch of de novo NRP teams.

Pediatric COVID-19 extracorporeal membrane oxygenation transport during the pandemic

INTRODUCTION

ExtraCorporeal Membrane Oxygenation (ECMO) in pediatric patients with COVID-19 has a survival rate similar to adults. Occasionally, patients may need to be cannulated by an ECMO team in a referring hospital and transported to an ECMO center. The ECMO transport of a COVID-19 patient has additional risks than normal pediatric ECMO transport for the possible COVID-19 transmissibility to the ECMO team and the reduction of the ECMO team performance due to the need of wearing full personal protective equipment. Since pediatric data on ECMO transport of COVID-19 patients are lacking, we explored the outcomes of the pediatric COVID-19 ECMO transports collected in the EuroECMO COVID_Neo/Ped Survey.

METHODS

We reported five European consecutive ECMO transports of COVID-19 pediatric patients collected in the EuroECMO COVID_Neo/Ped Survey including 52 European neonatal and/or pediatric ECMO centers and endorsed by the EuroELSO from March 2020 till September 2021.

RESULTS

The ECMO transports were performed for two indications, pediatric ARDS and myocarditis associated to the multisystem inflammatory syndrome related to COVID-19. Cannulation strategies differed among patients according to the age of the patients, transport distance varied between 8 and 390 km with a total transport duration between 5 to 15 h. In all five cases, the ECMO transports were successfully performed without major adverse events. One patient reported a harlequin syndrome and another patient a cannula displacement both without major clinical consequences. Hospital survival was 60% with one patient reporting neurological sequelae. No ECMO team member developed COVID-19 symptoms after the transport.

CONCLUSION

Five transports of pediatric patients with COVID-19 supported with ECMO were reported in the EuroECMO COVID_Neo/Ped Survey. All transports were performed by an experienced multidisciplinary ECMO team and were feasible and safe for both the patient and the ECMO team. Further experiences are needed to better characterize these transports and draw insightful conclusions.

Primary neonatal and pediatric ECMO transport: First experience in Spain

INTRODUCTION

The organization of primary Extracorporeal membrane oxygenation (ECMO) transport is highly variable.

METHODS

To present the experience of the first mobile pediatric ECMO program in Spain, we designed a prospective descriptive study of all primary neonatal and pediatric (0-16 years) ECMO transports carried out over 10 years. The main variables recorded include demographic information, patient background, clinical data, ECMO indications, adverse events, and main outcomes.

RESULTS

39 primary ECMO transports were carried out with a 66.7% survival to hospital discharge. The median age was 1.24 months[IQR: 0.09-96]. Cannulation was mostly peripheral venoarterial (33/39). The mean response time from the call from the sending center to the departure of the ECMO team was 4 h[2.2-8]. The median inotropic score at the time of cannulation was 70[17.2-206.5], with a median oxygenation index of 40.5[29-65]. In 10% of the cases, ECMO-CPR was performed. Adverse events occurred in 56.4%, mostly related to the means of transport (40% overall). On arrival at the ECMO center, 44% of the patients underwent interventions. The median PICU stay was 20.5 days[11-32]. 5 patients developed neurological sequels. Statistically significant differences between survivors and deceased patients were not found.

CONCLUSIONS

A good survival rate, with a low prevalence of serious adverse events, suggests a clear benefit of primary ECMO transport when conventional therapeutic measures are exhausted and the patient is too unstable to undergo conventional transport. A nationwide primary ECMO-transport program must therefore be offered to all patients regardless of their location.

A contemporary analysis of the volume-outcome relationship for extracorporeal membrane oxygenation in the United States

BACKGROUND

A paradoxical increase in mortality following extracorporeal membrane oxygenation at high-volume centers has previously been demonstrated. We examined the association between annual hospital volume and outcomes within a contemporary, national cohort of extracorporeal membrane oxygenation patients.

METHODS

All adults requiring extracorporeal membrane oxygenation for postcardiotomy syndrome, cardiogenic shock, respiratory failure, or mixed cardiopulmonary failure were identified in the 2016 to 2019 Nationwide Readmissions Database. Patients undergoing heart and/or lung transplantation were excluded. A multivariable logistic regression with hospital extracorporeal membrane oxygenation volume parametrized as restricted cubic splines was developed to characterize the risk-adjusted association between volume and mortality. The volume corresponding to the maximum of the spline (43 cases/year) was used to categorize centers as low- or high-volume.

RESULTS

An estimated 26,377 patients met the study criteria, and 48.7% were managed at high-volume hospitals. Patients at low- and high-volume hospitals had similar age, sex, and rates of elective admission. Notably, patients at high-volume hospitals less frequently required extracorporeal membrane oxygenation for postcardiotomy syndrome but more commonly for respiratory failure. After risk adjustment, high-volume hospital status was associated with reduced odds of in-hospital mortality, relative to low-volume hospitals (adjusted odds ratio 0.81, 95% confidence interval 0.78-0.97). Interestingly, patients at high-volume hospitals faced a 5.2-day increment in length of stay (95% confidence interval 3.8-6.5) and $23,500 in attributable costs (95% confidence interval 8,300-38,700).

CONCLUSION

The present study found that greater extracorporeal membrane oxygenation volume was associated with decreased mortality but higher resource use. Our findings may help inform policies regarding access to and centralization of extracorporeal membrane oxygenation care in the United States.

Five critically ill pregnant women/parturients treated with extracorporeal membrane oxygenation

BACKGROUND

Maternal mortality has always been a major medical concern. Recently, the successful application of extracorporeal membrane oxygenation (ECMO) technology in the rescue of near-death patients has been reported.

CASE PRESENTATION

This study retrospectively analyzed 5 cases of critically ill pregnant women/parturients treated with ECMO for respiratory and circulatory failure in the Wuxi People's Hospital from 2018 to 2020. The mean age of the 5 cases was 30.2 years. Among them, Cases 1 and 5 were treated with Venoarterial (VA) ECMO. Case 1 was diagnosed with congenital heart disease, atrial septal defect, and severe pulmonary hypertension. VA ECMO was applied before cesarean section and was successfully removed after double lung transplantation, but the patient died 10 months after delivery from lung infection. While Case 5 was diagnosed with systemic lupus erythematosus, lupus nephritis, thrombotic vascular disease, HELLP syndrome, and cerebral hemorrhage. VA ECMO was applied 39 days after cesarean section, and the patient died 40 days after delivery due to multiple organ failure. Cases 3 and 4 were treated with Venovenous (VV) ECMO. Case 3 was diagnosed with refractory postpartum hemorrhage, and Case 4 was diagnosed with postpartum hypoglycemic coma, aspiration pneumonia, and shock. They were treated with VV ECMO after delivery, and all survived after successful evacuation. Another Case (Case 2) was diagnosed with postpartum pelvic infection, sepsis and septic shock, and was treated with VA ECMO at 15 days after delivery. The patient changed to VV ECMO at 30 days after delivery due to significant improvement in heart function and poor lung function, but eventually died of multiple organ failure. For the 5 cases, the mean duration of ECMO was 8.7 days, the mean duration of intensive care was 22.0 days, and the mean length of hospital stay was 57.6 days. As a result, 3 patients gradually returned to normal with significant improvement in ventilation and oxygenation after ECMO treatment.

CONCLUSIONS

ECMO technology can be used to treat some of the critical obstetric patients with respiratory and circulatory failure that is ineffective to conventional treatment, but it has no therapeutic effect on the primary disease.

Pediatric Extracorporeal Life Support Transport in Western Canada: Experience over 14 years

This retrospective cohort study describes all children transported on extracorporeal life support (ECLS) by the Stollery Children's Hospital Pediatric Transport team (SCH-PTT) between 2004 and 2018. We compared outcomes and complications between primary (SCH-PTT performed ECLS cannulation) vs. secondary (cannulation performed by referring facility) transports, as well as secondary transports from referring centers with and without an established ECLS cannulation program. SCH-PTT performed 68 ECLS transports during the study period. Median (IQR) transport distance was 298 (298-1,068) kilometers. Mean (SD) times from referral call to ECLS-initiation were: primary transports 7.8 (2.9) vs. 2.5(3.5) hours for secondary transports, p value < 0.001. Complications were common (n = 65, 95%) but solved without leading to adverse outcomes. There were no significant differences in the number of complications between primary and secondary transports. There was no significant difference in survival to ECLS decannulation between primary 9 (90%) and secondary transports 43 (74%), p value = 0.275. ECLS survival was higher for children cannulated by the SCH-PTT or a center with an ECLS cannulation program: 42 (82%) vs. 10 (59%), p value = 0.048. Critically ill children on ECLS can be safely transported by a specialized pediatric ECLS transport team. Secondary transports from a center with an ECLS cannulation program are also safe and have similar results as primary transports.

Frequency of Extracorporeal Membrane Oxygenation Support and Outcomes After Implementation of a Structured PICU Network in Neonates and Children: A Prospective Population-Based Study in the West of France

OBJECTIVES

To describe the frequency and outcomes on the use of extracorporeal membrane oxygenation (ECMO) among critically ill neonates and children within a structured pediatric critical care network in the West of France. To assess the optimality of decision-making process for patients primarily admitted in non-ECMO centers.

DESIGN

Observational prospective population-based study from January 2015 to December 2019.

PATIENTS

Neonates over 34 weeks of gestational age, weighing more than 2,000 g and children under 15 years and 3 months old admitted in one of the 10 units belonging to a Regional Pediatric Critical Care Network.

INTERVENTIONS

None.

MEASUREMENTS AND MAIN RESULTS

Eight-thousand one hundred eighty-nine children and 3,947 newborns were admitted within one of the 10 units of the network over the study period. Sixty-five children (8.1% [95% CI, 6.2-10‰]) and 35 newborns (9.4% [95% CI, 6.4-12%]) required ECMO support. Of these patients, 31 were first admitted to a non-ECMO center, where 20 were cannulated in situ (outside the regional ECMO center) and 11 after transfer to the ECMO regional center. Cardiogenic shock, highest serum lactate level, and cardiac arrest prior to first phone call with the regional ECMO center were associated with higher rate of in situ cannulation. During the study period, most of the patients were cannulated for underlying cardiac issue (42/100), postoperative cardiac surgery instability (38/100), and pediatric (10/100) and neonatal (10/100) respiratory distress syndrome. Patients primarily admitted in non-ECMO centers or not had similar 28-day post-ICU survival rates compared with those admitted in the referral ECMO center (58% vs 51%; p = 0.332). Pre-ECMO cardiac arrest, ECMO, and lower pH at ECMO onset were associated with lower 28-day post-ICU survival.

CONCLUSIONS

Our local results suggest that a structured referral network for neonatal and pediatric ECMO in the region of Western France facilitated escalation of care with noninferior (or similar) early mortality outcome. Our data support establishing referral networks in other equivalent regions.

Retrieval of neonatal and paediatric patients on extracorporeal membrane oxygenation support in New South Wales, Australia

New South Wales has recently added the capability of extracorporeal membrane oxygenation to the neonatal and paediatric retrieval process and this paper describes the early experiences and protocol development for the first eight cases transported.

Achieving Safe Liberation During Weaning from VV-ECMO in Patients with Severe ARDS: The role of Tidal Volume and Inspiratory Effort

BACKGROUND

Weaning from venovenous extracorporeal membrane oxygenation (VV-ECMO) is not well studied. VV-ECMO can be discontinued when patients tolerate non-injurious mechanical ventilation (MV) during a sweep gas off trial (SGOT). However, predictors of safe liberation are unknown.

RESEARCH QUESTION

Can safe liberation from VV-ECMO be predicted at the bedside?

STUDY DESIGN AND METHODS

We conducted 2 observational studies of adults weaned from VV-ECMO for severe ARDS at Toronto General Hospital. We analyzed MV settings, respiratory mechanics and clinical variables to predict safe liberation from VV-ECMO, defined a priori as avoidance of ECMO recannulation, increase MV support, need for rescue therapy or hemodynamic instability developed within 48 hours after decannulation.

RESULTS

During both studies, 83 patients were weaned from VV-ECMO, of whom 21 (25%) did not meet criteria for safe liberation. In the retrospective study, higher tidal volume per predicted body weight (V_Tpbw, OR 1.58, 95%CI 1.05-2.40, P=0.03) and heart rate (HR, OR 1.07, 95%CI 1.01-1.13, P=0.02) at the end of SGOT were significantly associated with increased odds of unsafe liberation when adjusted for age (OR 1.02, 95%CI 0.95-1.09, P=0.63) and SOFA (OR 1.16, 95%CI 0.86-1.56, P=0.34). Change in ventilatory ratio (VR) had an imprecise association (OR 2.71, 95%CI 0.93-7.92, P=0.06) with unsafe liberation when adjusted for age (OR 1.03, 95%CI 0.96-1.10, P=0.42), SOFA (OR 1.11, 95%CI 0.81-1.51, P=0.52) and heart rate (OR 1.07, 95%CI 1.01-1.13, P=0.02). In the prospective study, patients who had unsafe liberation from VV-ECMO also had significantly higher inspiratory efforts (esophageal pressure swings 9 [7-13] vs 18 [7-25] cmH₂O, p=0.03), and worse outcomes (longer MV duration, ICU and hospital length of stay).

INTERPRETATION

Patients with higher tidal volume, heart rate, ventilatory ratio, and esophageal pressures swings during SGOT were less likely to achieve safe liberation from VV-ECMO.

Pediatric Extracorporeal Membrane Oxygenation Reach-Out Program: Successes and Insights

The shortage of dedicated pediatric extracorporeal membrane oxygenation (ECMO) centers and the expanding indications for pediatric ECMO necessitate a regional program for transport of ECMO-supported patients. Data about feasibly and safety of pediatric ECMO transport are scarce. Our aim is to describe our experience with a pediatric ECMO reach-out program and review pertinent literature. Demographic, clinical, and outcome data were collected retrospectively from the charts of all patients cannulated onto ECMO at referring centers and transported to our center from 2003 to 2018. Similar data were recorded for patients who were referred for ECMO support from within the hospital. The cohort included 80 patients cannulated at 17 referring centers. The transport team included a senior pediatric cardiac surgeon and an ECMO specialist. All transfers but one were done by special emergency medical service ambulance. No major complications or deaths occurred during transport, and all patients were stable upon arrival to our unit. Mortality was lower in the ECMO reach-out cohort than in-house patients referred for ECMO support. This is the first study from Israel and one of the largest to date describing a dedicated pediatric ECMO transport program. Extracorporeal membrane oxygenation transport appears to be feasible and safe when conducted by a small, highly skilled mobile team. Successful reach-out program requires open communication between the referring physician and the accepting center. As survival correlates with ECMO volume, maintaining a large ECMO center with 24/7 retrieval capabilities may be the best strategy for pediatric mechanical circulatory support program.

Emergency Department Management of Severe Hypoxemic Respiratory Failure in Adults With COVID-19

Background

While emergency physicians are familiar with the management of hypoxemic respiratory failure, management of mechanical ventilation and advanced therapies for oxygenation in the emergency department have become essential during the coronavirus disease 2019 (COVID-19) pandemic.

Objective

We review the current evidence on hypoxemia in COVID-19 and place it in the context of known evidence-based management of hypoxemic respiratory failure in the emergency department.

Discussion

COVID-19 causes mortality primarily through the development of acute respiratory distress syndrome (ARDS), with hypoxemia arising from shunt, a mismatch of ventilation and perfusion. Management of patients developing ARDS should focus on mitigating derecruitment and avoiding volutrauma or barotrauma.

Conclusions

High flow nasal cannula and noninvasive positive pressure ventilation have a more limited role in COVID-19 because of the risk of aerosolization and minimal benefit in severe cases, but can be considered. Stable patients who can tolerate repositioning should be placed in a prone position while awake. Once intubated, patients should be managed with ventilation strategies appropriate for ARDS, including targeting lung-protective volumes and low pressures. Increasing positive end-expiratory pressure can be beneficial. Inhaled pulmonary vasodilators do not decrease mortality but may be given to improve refractory hypoxemia. Prone positioning of intubated patients is associated with a mortality reduction in ARDS and can be considered for patients with persistent hypoxemia. Neuromuscular blockade should also be administered in patients who remain dyssynchronous with the ventilator despite adequate sedation. Finally, patients with refractory severe hypoxemic respiratory failure in COVID-19 should be considered for venovenous extracorporeal membrane oxygenation.

ECMO Transport without Physicians or Additional Clinicians

BACKGROUND

Extracorporeal membrane oxygenation (ECMO) has accelerated rapidly for patients in severe cardiac or respiratory failure. As a result, ECMO networks are being developed across the world using a "hub and spoke" model. Current guidelines call for all patients transported on ECMO to be accompanied by a physician during transport. However, as ECMO centers and networks grow, the increasing number of transports will be limited by this mandate.

OBJECTIVES

The aim of this study was to compare rates of adverse events occurring during transport of ECMO patients with and without an additional clinician, defined as a physician, nurse practitioner (NP), or physician assistant (PA).

METHODS

This is a retrospective cohort study of all adults transported while cannulated on ECMO from 2011-2018 via ground and air between 21 hospitals in the northeastern United States, comparing transports with and without additional clinicians. The primary outcome was the rate of major adverse events, and the secondary outcome was minor adverse events.

RESULTS

Over the seven-year study period, 93 patients on ECMO were transported. Twenty-three transports (24.7%) were accompanied by a physician or other additional clinician. Major adverse events occurred in 21.5% of all transports. There was no difference in the total rate of major adverse events between accompanied and unaccompanied transports (P = .91). Multivariate analysis did not demonstrate any parameter as being predictive of major adverse events.

CONCLUSIONS

In a retrospective cohort study of transports of ECMO patients, there was no association between the overall rate of major adverse events in transport and the accompaniment of an additional clinician. No variables were associated with major adverse events in either cohort.

International Survey on Extracorporeal Membrane Oxygenation Transport

Extracorporeal membrane oxygenation (ECMO) is a lifesaving therapy for severe respiratory and circulatory failure. It is best performed in high-volume centers to optimize resource utilization and outcomes. Regionalization of ECMO might require the implementation of therapy before and during transfer to the high-volume center. The aim of this international survey was to describe the manner in which interhospital ECMO transport care is organized at experienced centers. Fifteen mobile ECMO centers from nine countries participated in this survey. Seven (47%) of them operated under the "Hub-and-Spoke" model. Transport team composition varies from three to nine members, with at least one ECMO specialist (i.e., nurse or perfusionist) participating in all centers, although intensivists and surgeons were present in 69% and 50% of the teams, respectively. All centers responded that the final decision to initiate ECMO is multidisciplinary and made bedside at the referring hospital. Most centers (75%) have a quality control system; all teams practice simulation and water drills. Considering the variability in ECMO transport teams among experienced centers, continuous education, training and quality control within each organization itself are necessary to avoid adverse events and maintain a low mortality rate. A specific international ECMO Transport platform to share data, benchmark outcomes, promote standardization, and provide quality control is required.

Neonatal and pediatric ECMO organization in France: A national survey

BACKGROUND

The use of extracorporeal membrane oxygenation (ECMO) in France has increased since the H1N1 pandemic in 2009. By contrast, neonatal and pediatric ECMO support in France was known to be limited to a few centers offering congenital cardiac surgery. The purpose of this survey conducted in 2017 was to identify the neonatal and pediatric ECMO centers in France as well as networks existing between ECMO and non-ECMO centers.

RESULTS

Seventy-two neonatal or pediatric intensive care unit medical directors answered the survey (84% of the centers surveyed). Twenty were identified as ECMO centers, defined as a unit able to start ECMO with its own resources. ECMO centers ranged from 470,000 to 1,180,000 inhabitants (neonates or children under 18). Thirteen of them (65%) reported that they were affiliated with a congenital cardiac surgery department. A total of 187 patients were supported with ECMO in these centers in 2016. Only six of these centers estimated an activity greater than 15 cases per year over the last 5 years. Nearly 30% of ECMO runs were indicated before or after congenital heart surgery. Four of the ECMO centers offered off-site facilities (mobile team). Non-ECMO centers are likely to be neonatal intensive care units. Nine of them (18.7%) declared knowing an ECMO center that provided mobile care with predefined organization, 11 (22.9%) reported knowing an ECMO center providing a mobile activity without predefined organization, nine (18.%), and 18 (37.5%) ICUs declared they knew of the existence of an ECMO program but did not report any possibility of mobile care or any procedure for transfer.

CONCLUSIONS

Of the centers reporting the highest case volumes, four offered mobile ECMO abilities. Well-organized networks for the most severe neonates and children were not identified in France.

Outcomes of out-of-hospital extracorporeal membrane oxygenation transfers: significance of initiation site and personnel

BACKGROUND

Extracorporeal membrane oxygenation is an accepted therapy option for refractory cardiac or respiratory failure. The outcomes of cases initiated at non-extracorporeal membrane oxygenation centers and subsequently transported for management to an extracorporeal membrane oxygenation center require further investigation.

METHODS

Retrospective institutional review board-approved database research and chart reviews were performed on referrals for extracorporeal membrane oxygenation initially admitted to an outside non-extracorporeal membrane oxygenation center hospital (OSH) then transferred to our extracorporeal membrane oxygenation center (Thomas Jefferson University Hospital (TJUH)). Unstable patients were placed on extracorporeal membrane oxygenation at OSH (Group A) before transport, while others were initiated at our certified extracorporeal membrane oxygenation center (Group B) upon arrival. Group A was further subdivided into patients cannulated by OSH personnel (Group A_OSH) or TJUH transport team (Group A_TJUH). Outcomes and complications were compared between the different initiation sites and personnel.

RESULTS

A total of 108 patients were transferred from August 2010 to June 2018. The technical complication rate for all Group A patients was 33/49 (67%), while that of Group B was 24/59 (41%); p = 0.006. Within Group A, Group A_OSH had a greater technical complication rate with 29/33 (88%) than Group A_TJUH with 4/16 (25%); p < 0.001. extracorporeal membrane oxygenation survival rate was 34/49 (69%) in Group A and 43/59 (73%) in Group B; p = 0.690. The extracorporeal membrane oxygenation survival rate for Group A_OSH and Group A_TJUH was 21/33 (64%) and 13/16 (81%), respectively; p = 0.210.

CONCLUSION

Promising extracorporeal membrane oxygenation survival rates were observed in transferred patients. The complication rates related to cannulation technique were significantly higher when patients were initiated at non-extracorporeal membrane oxygenation centers, especially when placed by personnel from non-extracorporeal membrane oxygenation centers.

Transport on extracorporeal membrane oxygenation for congenital diaphragmatic hernia: A unique center experience

BACKGROUND

Support on Extracorporeal oxygenation membrane (ECMO) represents the last therapeutic option in the management of respiratory failure and pulmonary hypertension refractory to treatment in patients with congenital diaphragmatic hernia (CDH).

AIM

The objective of this work was to present our experience of all the cases of CDH that we have transported on ECMO.

MATERIAL AND METHODS

Medical records of patients, national and international, with CDH transported by our service on ECMO from 1997 to 2018 were reviewed.

RESULTS

During 22 years, we performed 40 ECMO transports of newborns with CDH, 39 primary and one secondary. In 10% (4/40) we transferred patients from their primary hospital after the implantation of cannulae and commencement of ECMO to another center abroad owing to the lack of beds in our unit. Twenty (50%) of the transports were from a foreign country. Median transport distance was 560 (428-1381) km and the median transport time was 4.5 (4.2-6.3) h. The mode of transport was ground ambulance in 20%, helicopter in 10%, fixed wing aircraft in 62.5% and ground ambulance in Freight aircraft in 7.5%. In 40% of the transports, 20 complications occurred. In one of every four transports with complications, more than one event occurred. Most frequent complication was loss of tidal volumes (35%) and in 30% of the complications another patient related event was recorded. Equipment failure occurred in 20%, and climate problems and transport vehicle problems in 15%. No deaths occurred during transport. Venoarterial ECMO was used in 39 of the 40 cases. Survival to discharge was 87% for the entire period and long-term survival was 77%.

CONCLUSIONS

Long and short distance interhospital transports of CDH patients on ECMO can be performed safely. Despite occurrence of adverse events, the risk of mortality is very low. The personnel involved must be highly competent in intensive care, physiology and physics of ECMO, cannulation, intensive care transport and air transport medicine. They must also be trained to recognize risk factors in these patients.

LEVEL OF EVIDENCE

III Retrospective cohort study.

Activities of an ECMO Center for Severe Respiratory Failure: ECMO Retrieval and Beyond, A 4-Year Experience

OBJECTIVE

Beyond retrieval and management of patients with severe acute respiratory distress syndrome, an extracorporeal membrane oxygenation (ECMO) center also encompasses several other actions, such as on-call consultations, advice, and counseling, to the physicians at the peripheral centers, but few data are available on this topic. Therefore, the authors describe the composite activities of retrieval and counseling of an ECMO center since 2014.

DESIGN

The referral calls addressed to the authors' ECMO center for patients with respiratory failure were prospectively recorded in a dedicated database. Referral call frequency, patient data, and results of the calls were analyzed.

SETTING

The 12-bed intensive care unit of Careggi Hospital in Florence, the ECMO referral center for Tuscany, and the center of Italy, with a mobile ECMO team.

PARTICIPANTS

Patients from intensive care units of peripheral hospitals for whom a referral call was addressed to the authors' ECMO center.

INTERVENTIONS

Many possible responses were given after a referral call, varying from ECMO team deployment to advice or to refusal.

MEASUREMENTS AND MAIN RESULTS

From January 1, 2014, to December 31, 2017, 231 calls were received at the authors' ECMO center, of which 220 calls were for acute respiratory failure cases. Throughout the study period the overall number of calls did not vary, but the percentage of ECMO retrievals decreased, whereas the percentage of ARF patients from peripheral hospital admitted to our ECMO center on conventional ventilation increased. Fifty-five patients were treated by the mobile ECMO team and were transferred on ECMO; 59 were admitted on ventilatory support. In flu periods the overall calls were more frequent than in the no-flu periods (171 v 82 calls), and more ECMO retrieval missions were deployed.

CONCLUSIONS

During the study period, a decreased number of patients retrieved on ECMO was observed, whereas patients transferred on ventilation increased, with an overall unchanged number of referred patients.

Mobile extracorporeal membrane oxygenation for children: single-center 10 years’ experience

Objectives:

Extracorporeal membrane oxygenation has become a gold standard in treatment of severe refractory circulatory and/or pulmonary failure. Those procedures require gathering of competences and material. Therefore, they are conducted in a limited number of reference centers. Emergent need for such treatments induces either hazardous transfers or a mobile pediatric extracorporeal membrane oxygenation team able to remote implantation and transportation. The aim of this work is not to focus on pediatric extracorporeal membrane oxygenation outcomes or indications, which have been extensively discussed in the literature. This study would like to detail the implementation, safety, and feasibility, even in a middle-size pediatric cardiac surgery reference center.

Patients:

This is a retrospective analysis of a series of patients initiated on extracorporeal membrane oxygenation in a peripheral center and transferred to a reference center. The data were collected from 10 consecutive years: from 2006 to 2016.

Results:

A total of 57 pediatric patients with a median weight of 6.00 (3.2-14.5) kg and median age of 2.89 (0.11-37.63) months were cannulated in peripheral center and transported on extracorporeal membrane oxygenation. We did not experience any adverse event during transport. The outcomes were comparable to our literature-reported on-site extracorporeal membrane oxygenation series with 42 patients (74%) weaned from extracorporeal membrane oxygenation and a 30-day survival of 60%. Neither patient’s age nor weight, indication for extracorporeal membrane oxygenation or length of transport, was statistically significant in terms of outcomes.

Conclusion:

Offsite extracorporeal membrane oxygenation implantation and ground or air transport for pediatric patients on extracorporeal membrane oxygenation appeared to be safe when performed by a dedicated and experienced team, even within a mid-size center.

Interhospital Transport on Extracorporeal Membrane Oxygenation of Neonates-Perspective for the Future

In recent years the number of extracorporeal membrane oxygenation (ECMO) cases in neonates has been relatively constant. Future expansion lays in new indications for treatment. Regionalization to high-volume ECMO centers allows for optimal utilization of resources, reduction in costs, morbidity, and mortality. Mobile ECMO services available "24-7" are needed to provide effective logistics and reliable infrastructure for patient safety. ECMO transports are usually high-risk and complex. To reduce complications during ECMO transport communication using time-out, checklists, and ECMO A-B-C are paramount in any size mobile program. Team members' education, clinical training, and experience are important. For continuing education, regular wet-lab training, and simulation practices in teams increase performance and confidence. In the future the artificial placenta for the extremely premature infant (23-28 gestational weeks) will be introduced. This will enforce the development and adaptation of ECMO devices and materials for increased biocompatibility to manage the high-risk prem-ECMO (28-34 weeks) patients. These methods will likely first be introduced at a few high-volume neonatal ECMO centers. The ECMO team brings bedside competence for assessment, cannulation, and commencement of therapy, followed by a safe transport to an experienced ECMO center. How transport algorithms for the artificial placentae will affect mobile ECMO is unclear. ECMO transport services in the newborn should firstly be an out-reach service led and provided by ELSO member centers that continuously report transport data to an expansion of the ELSO Registry to include transport quality follow-up and research. For future development and improvement follow-up and sharing of data are important.

The first five years of neonatal and pediatric transports on extracorporeal membrane oxygenation in the center and south of Italy: The pediatric branch of the Italian "Rete Respira" network

INTRODUCTION

Neonatal and pediatric ECMO is a high-risk procedure that should be performed only in expert centers. Children who are eligible for ECMO and are managed in hospitals without ECMO capabilities should be referred to the closest ECMO center before the severity of illness precludes safe conventional transport. When the clinical situation precludes safe conventional transport, ECMO should be provided on site with the patient transported on ECMO.

METHODS

We retrospectively reviewed our institutional database of all ECMO transports for neonatal and pediatric respiratory failure from February 2013 to February 2018.

RESULTS

Over the last 5 years, we provided 24 transports covering all requests from the center and south of Italy except for the islands. Of these transports, 20 were performed on ECMO and 4 without ECMO. No patient died during transportation. Five complications were reported only during the ECMO transports, and all of these were managed without compromising the patient's safety. The preferred modes of transport were by ambulance (70%) and ambulance transported into the fixed wing aircraft (30%) for longer national distances. The survival to hospital discharge of the patients transported with ECMO was 75% among the neonatal transports and 83.3% among the pediatric transports. The survival to hospital discharge of the four patients transported without ECMO was 100% for both neonates and children.

CONCLUSIONS

Neonatal and pediatric ECMO transports can be safely performed with a dedicated team that maintains stringent adherence to well-designed management protocols.