Pediatric and Neonatal Extracorporeal Membrane Oxygenation

Freeman, Carrie; Bennett, Tellen D.; Casper, T. Charles; Larsen, Gitte; Hubbard, Ania; Wilkes, Jacob; Bratton, Susan L.

doi:10.1097/01.ccm.0000435674.83682.96

Cited by 154 publications

(114 citation statements)

References 33 publications

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“…These findings are similar to, and expand on, results described in previous studies of ECMO for children in the United States (15,16). When considering more recent data during a period of rapid expansion and Definition of abbreviations: ECMO = extracorporeal membrane oxygenation; ECPR = ECMO during cardiopulmonary resuscitation; n = number of patients; N = number of centers; pH = arterial blood pH; PF ratio = the ratio of arterial partial pressure of oxygen to fraction of inspired oxygen; pre-ECMO hours of mechanical ventilation = the number hours of mechanical ventilation a patient received prior to ECMO cannulation.…”

Section: Discussionsupporting

confidence: 80%

“…The following variables were chosen: calendar year in which ECMO was delivered (15,23); patient age (23)(24)(25); primary diagnosis (23)(24)(25)(26)(27); ECMO support type (16,27); presence of pre-ECMO acute renal failure (23,26,27); presence of comorbid conditions (23,28); pre-ECMO cardiac arrest (25,29); and pre-ECMO measures including duration of mechanical ventilation (23,25,30), arterial blood pH (23,27,31), Pa CO 2 (25), and the ratio of arterial partial pressure of oxygen to fraction of inspired oxygen (PF ratio) (1,23). In neonatal patients, case-mix was also adjusted for gestational age (24) and birth weight (24).…”

Section: Selection Of Variables and Risk Adjustmentmentioning

confidence: 99%

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Association of Hospital-Level Volume of Extracorporeal Membrane Oxygenation Cases and Mortality. Analysis of the Extracorporeal Life Support Organization Registry

Barbaro¹,

Odetola²,

Kidwell³

et al. 2015

Am J Respir Crit Care Med

560

380

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Rationale: Recent pediatric studies suggest a survival benefit exists for higher-volume extracorporeal membrane oxygenation (ECMO) centers.Objectives: To determine if higher annual ECMO patient volume is associated with lower case-mix-adjusted hospital mortality rate. Methods:We retrospectively analyzed an international registry of ECMO support from 1989 to 2013. Patients were separated into three age groups: neonatal (0-28 d), pediatric (29 d to ,18 yr), and adult (>18 yr). The measure of hospital ECMO volume was age group-specific and adjusted for patient-level case-mix and hospitallevel variance using multivariable hierarchical logistic regression modeling. The primary outcome was death before hospital discharge. A subgroup analysis was conducted for 2008-2013.Measurements and Main Results: From 1989 to 2013, a total of 290 centers provided ECMO support to 56,222 patients (30,909 neonates, 14,725 children, and 10,588 adults). Annual ECMO mortality rates varied widely across ECMO centers: the interquartile range was 18-50% for neonates, 25-66% for pediatrics, and 33-92% for adults. For 1989-2013, higher age group-specific ECMO volume was associated with lower odds of ECMO mortality for neonates and adults but not for pediatric cases. In 2008-2013, the volume-outcome association remained statistically significant only among adults. Patients receiving ECMO at hospitals with more than 30 adult annual ECMO cases had significantly lower odds of mortality (adjusted odds ratio, 0.61; 95% confidence interval, 0.46-0.80) compared with adults receiving ECMO at hospitals with less than six annual cases.Conclusions: In this international, case-mix-adjusted analysis, higher annual hospital ECMO volume was associated with lower mortality in 1989-2013 for neonates and adults; the association among adults persisted in 2008-2013.

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Section: Discussionsupporting

confidence: 80%

Section: Selection Of Variables and Risk Adjustmentmentioning

confidence: 99%

Association of Hospital-Level Volume of Extracorporeal Membrane Oxygenation Cases and Mortality. Analysis of the Extracorporeal Life Support Organization Registry

Barbaro¹,

Odetola²,

Kidwell³

et al. 2015

Am J Respir Crit Care Med

560

380

View full text Add to dashboard Cite

show abstract

“…The higher the number, the better the outcome. For the pediatric and neonatal populations (15,16), the cut-off is to perform at least 20 to 30 annual ECMOs runs to do significantly better than the low-volume centers (defined as five or fewer runs per year). Further, the lower limit for a positive learning curve and maintenance of competence require at least 20 treatments per annum.…”

Section: Overview and Resultsmentioning

confidence: 99%

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

Broman

2017

J. Thorac. Dis.

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“…(11,12) In addition, there is relatively strong evidence showing that hospitals with higher numbers of ECMO cases tend to achieve better patient outcomes. (13,14) This can be partly explained by the fact that the clinicians in hospitals managing higher numbers of ECMO patients gain more ECMO exposure and experience, which in turn helps fine-tune and retain their skill-set.…”

Section: Human Factor Aspect Of High-level Performing Clinical Teamsmentioning

confidence: 99%

Addressing the challenges of ECMO simulation

et al. 2018

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Introduction/Aim: The patient’s condition and high-risk nature of extracorporeal membrane oxygenation (ECMO) therapy force clinical services to ensure clinicians are properly trained and always ready to deal effectively with critical situations. Simulation-based education (SBE), from the simplest approaches to the most immersive modalities, helps promote optimum individual and team performance. The risks of SBE are negative learning, inauthenticity in learning and over-reliance on the participants’ suspension of disbelief. This is especially relevant to ECMO SBE as circuit/patient interactions are difficult to fully simulate without confusing circuit alterations. Methods: Our efforts concentrate on making ECMO simulation easier and more realistic in order to reduce the current gap there is between SBE and real ECMO patient care. Issues to be overcome include controlling the circuit pressures, system failures, patient issues, blood colour and cost factors. Key to our developments are the hospital-university collaboration and research funding. Results: A prototype ECMO simulator has been developed that allows for realistic ECMO SBE. The system emulates the ECMO machine interface with remotely controllable pressure parameters, haemorrhaging, line chattering, air bubble noise and simulated blood colour change. Conclusion: The prototype simulator allows the simulation of common ECMO emergencies through innovative solutions that enhance the fidelity of ECMO SBE and reduce the requirement for suspension of disbelief from participants. Future developments will encompass the patient cannulation aspect.

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Pediatric and Neonatal Extracorporeal Membrane Oxygenation

Cited by 154 publications

References 33 publications

Association of Hospital-Level Volume of Extracorporeal Membrane Oxygenation Cases and Mortality. Analysis of the Extracorporeal Life Support Organization Registry

Association of Hospital-Level Volume of Extracorporeal Membrane Oxygenation Cases and Mortality. Analysis of the Extracorporeal Life Support Organization Registry

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

Addressing the challenges of ECMO simulation

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