PURPOSE: Severe congenital diaphragmatic hernia (CDH) requiring extracorporeal membrane oxygenation (ECMO) is associated with high mortality. Timing of CDH repair relative to ECMO therapy remains controversial. Our hypothesis was that survival would significantly differ between those who underwent repair during ECMO and those who underwent repair after ECMO therapy. METHODS: We examined deidentified data from the CDH study group (CDHSG) registry from 1995 to 2005 on patients who underwent repair and ECMO therapy (n = 636). We used Cox regression analysis to assess differences in survival between those who underwent repair during and after ECMO. RESULTS: Five covariates were significantly associated with mortality as follows: timing of repair relative to ECMO (P = .03), defect side (P = .01), ECMO run length (P < .01), need for patch repair (P = .03), birth weight (P < .01), and Apgar score at 5 minutes (P = .03). Birth year, inborn vs transfer status, diaphragmatic agenesis, age at repair, and presence of cardiac or chromosomal abnormalities were not associated with survival. Repair after ECMO therapy was associated with increased survival relative to repair on ECMO (hazard ratio, 1.407; P = .03). CONCLUSION: These data suggest that CDH repair after ECMO therapy is associated with improved survival compared to repair on ECMO, despite controlling for factors associated with the severity of CDH.
PURPOSE: Severe congenital diaphragmatic hernia (CDH) requiring extracorporeal membrane oxygenation (ECMO) is associated with high mortality. Timing of CDH repair relative to ECMO therapy remains controversial. Our hypothesis was that survival would significantly differ between those who underwent repair during ECMO and those who underwent repair after ECMO therapy. METHODS: We examined deidentified data from the CDH study group (CDHSG) registry from 1995 to 2005 on patients who underwent repair and ECMO therapy (n = 636). We used Cox regression analysis to assess differences in survival between those who underwent repair during and after ECMO. RESULTS: Five covariates were significantly associated with mortality as follows: timing of repair relative to ECMO (P = .03), defect side (P = .01), ECMO run length (P < .01), need for patch repair (P = .03), birth weight (P < .01), and Apgar score at 5 minutes (P = .03). Birth year, inborn vs transfer status, diaphragmatic agenesis, age at repair, and presence of cardiac or chromosomal abnormalities were not associated with survival. Repair after ECMO therapy was associated with increased survival relative to repair on ECMO (hazard ratio, 1.407; P = .03). CONCLUSION: These data suggest that CDH repair after ECMO therapy is associated with improved survival compared to repair on ECMO, despite controlling for factors associated with the severity of CDH.
Authors: Sarah B Cairo; Mary Arbuthnot; Laura A Boomer; Michael W Dingeldein; Alexander Feliz; Samir Gadepalli; Chris R Newton; Robert Ricca; Adam M Vogel; David H Rothstein Journal: Pediatr Surg Int Date: 2018-08-21 Impact factor: 1.827
Authors: Pramod Puligandla; Erik Skarsgard; Martin Offringa; Ian Adatia; Robert Baird; Michelle Bailey; Mary Brindle; Priscilla Chiu; Arthur Cogswell; Shyamala Dakshinamurti; Hélène Flageole; Richard Keijzer; Douglas McMillan; Titilayo Oluyomi-Obi; Thomas Pennaforte; Thérèse Perreault; Bruno Piedboeuf; S. Patricia Riley; Greg Ryan; Anne Synnes; Michael Traynor Journal: CMAJ Date: 2018-01-29 Impact factor: 8.262
Authors: Ian C Glenn; Sophia Abdulhai; Neil L McNinch; Pamela A Lally; Todd A Ponsky; Avraham Schlager Journal: Pediatr Surg Int Date: 2018-05-28 Impact factor: 1.827
Authors: Augusto Zani; Wendy K Chung; Jan Deprest; Matthew T Harting; Tim Jancelewicz; Shaun M Kunisaki; Neil Patel; Lina Antounians; Pramod S Puligandla; Richard Keijzer Journal: Nat Rev Dis Primers Date: 2022-06-01 Impact factor: 52.329