Delivery room emergencies due to birth injuries.

Delivery room emergencies due to birth injuries are serious, usually unexpected, and can be distressing situations that necessitate immediate action to reduce neonatal morbidity and prevent neonatal mortality. Birth injuries requiring immediate, urgent care in the delivery room are uncommon, hence knowledge of obstetric risk factors and prenatal conditions linked to birth injury is an important first step in the management of affected neonates. Furthermore, immediate recognition of injury and quick action upon delivery is essential in order to achieve the best possible outcomes. This chapter briefly reviews the known risk factors associated with birth injury, and then discusses the identification and management of specific injuries that may require immediate treatment in the delivery room, or hasty management within hours after birth.

Texas Pulse Oximetry Project: A Multicenter Educational and Quality Improvement Project for Implementation of Critical Congenital Heart Disease Screening Using Pulse Oximetry.

Objective Critical congenital heart disease (CCHD) is a leading cause of death in infants. Newborn screening (NBS) by pulse oximetry allows early identification of CCHD in asymptomatic newborns. To improve readiness of hospital neonatal birthing facilities for mandatory screening in Texas, an educational and quality improvement (QI) project was piloted to identify an implementation strategy for CCHD NBS in a range of birthing hospitals. Study Design Thirteen Texas hospitals implemented standardized CCHD screening by pulse oximetry. An educational program was devised and a tool kit was created to facilitate education and implementation. Newborn nursery nurses' knowledge was assessed using a pre- and posttest instrument. Results The nurses' knowledge assessment improved from 71 to 92.5% (p < 0.0001). Of 11,322 asymptomatic newborns screened after 24 hours of age, 11 had a positive screen, with 1 confirmed case of CCHD. Pulse oximetry CCHD NBS had sensitivity of 100%, specificity of 99.91%, false-positive rate of 0.088%, positive predictive value of 9.09%, and negative predictive value of 100%. Conclusion Our educational program, including a tool kit, QI processes, and standardized pulse oximetry CCHD NBS, is applicable for a range of hospital birthing facilities and may facilitate wide-scale implementation, thereby improving newborn health.

A Multicenter Initiative for Critical Congenital Heart Disease Newborn Screening in Texas Neonatal Intensive Care Units.

Objective The objective of this study was to implement a strategy for critical congenital heart disease (CCHD) newborn screening in the neonatal intensive care unit (NICU). Design A NICU-specific curriculum, screening algorithm, slide presentations, and templates of orders, policies, and procedures were developed into a toolkit for training NICU personnel. Screening was conducted on first and second screen pre- and postductal oxygen saturations (SpO2) on newborns admitted or transferred to the NICU. Results We trained 347 NICU personnel in 13 Texas hospitals, representing rural, suburban, and metropolitan settings. Key hospital staff submitted deidentified, case-based screening data. Of 4,621 NICU admissions, 80% received a first screen. Second screening rates were substantially lower in all gestational age groups. Screening rates on first and second screens were lowest among infants born < 28 weeks. For the first screen, SpO2 was lowest among the youngest gestational ages. The false positive rate was 2.3%. Conclusion CCHD screening in the NICU is challenging, given the complexities of the NICU population. A modified screening protocol that recognizes special circumstances of neonatal intensive care could facilitate a more efficient system.