OBJECTIVE: To evaluate whether pulse oximetry can be used as a screening test to detect congenital heart disease (CHD) in otherwise well newborns before nursery discharge. METHODS: Births at Lakeland Regional Medical Center (LRMC) who met inclusion criteria, had a single pulse oximeter reading before discharge. A normal reading was considered to be >94%. Abnormal readings were repeated on a different extremity and if still abnormal, an echocardiography was performed. The number of children with CHD and the number of echocardiograms were compared with the previous year at LRMC. RESULTS: There were 2114 infants enrolled, 88 echocardiograms (3.8%) were performed, and 43 were abnormal (yield = 48.9%), of which 12 required management (13.6%). The control group consisted of 2851 births, producing 108 echocardiograms (3.8%), 42 of which were abnormal (38.9%), and 13 required management (12.0%). No comparisons were significant. During both years, 3 children with cyanotic CHD were born. Routine pulse oximetry failed to detect a child with total anomalous pulmonary venous return. Not a single normal echocardiogram was generated by the study. CONCLUSION: Routine pulse oximetry was nearly 100% specific for detecting cyanotic CHD; as a result there was no increase in the number of echocardiograms. Routine pulse oximetry did detect a child who might not have been detected otherwise but failed to detect one that should have been detected.
OBJECTIVE: To evaluate whether pulse oximetry can be used as a screening test to detect congenital heart disease (CHD) in otherwise well newborns before nursery discharge. METHODS: Births at Lakeland Regional Medical Center (LRMC) who met inclusion criteria, had a single pulse oximeter reading before discharge. A normal reading was considered to be >94%. Abnormal readings were repeated on a different extremity and if still abnormal, an echocardiography was performed. The number of children with CHD and the number of echocardiograms were compared with the previous year at LRMC. RESULTS: There were 2114 infants enrolled, 88 echocardiograms (3.8%) were performed, and 43 were abnormal (yield = 48.9%), of which 12 required management (13.6%). The control group consisted of 2851 births, producing 108 echocardiograms (3.8%), 42 of which were abnormal (38.9%), and 13 required management (12.0%). No comparisons were significant. During both years, 3 children with cyanotic CHD were born. Routine pulse oximetry failed to detect a child with total anomalous pulmonary venous return. Not a single normal echocardiogram was generated by the study. CONCLUSION: Routine pulse oximetry was nearly 100% specific for detecting cyanotic CHD; as a result there was no increase in the number of echocardiograms. Routine pulse oximetry did detect a child who might not have been detected otherwise but failed to detect one that should have been detected.
Authors: Patrick G Hetzel; René Glanzmann; Joëlle Günthard; Elisabeth Bruder; Esther Godi; Christoph Bührer Journal: Eur J Pediatr Date: 2006-09-19 Impact factor: 3.183
Authors: Shakila Thangaratinam; Jane Daniels; Andrew K Ewer; Javier Zamora; Khalid S Khan Journal: Arch Dis Child Fetal Neonatal Ed Date: 2007-03-07 Impact factor: 5.747
Authors: Frank Thomas Riede; Cornelia Wörner; Ingo Dähnert; Andreas Möckel; Martin Kostelka; Peter Schneider Journal: Eur J Pediatr Date: 2010-03-01 Impact factor: 3.183
Authors: Cora Peterson; Elizabeth Ailes; Tiffany Riehle-Colarusso; Matthew E Oster; Richard S Olney; Cynthia H Cassell; David E Fixler; Suzan L Carmichael; Gary M Shaw; Suzanne M Gilboa Journal: JAMA Pediatr Date: 2014-04 Impact factor: 16.193