Prediction of neonatal respiratory morbidity by quantitative ultrasound lung texture analysis: a multicenter study.

BACKGROUND: Prediction of neonatal respiratory morbidity may be useful to plan delivery in complicated pregnancies. The limited predictive performance of the current diagnostic tests together with the risks of an invasive procedure restricts the use of fetal lung maturity assessment. OBJECTIVE: The objective of the study was to evaluate the performance of quantitative ultrasound texture analysis of the fetal lung (quantusFLM) to predict neonatal respiratory morbidity in preterm and early-term (<39.0 weeks) deliveries. STUDY DESIGN: This was a prospective multicenter study conducted in 20 centers worldwide. Fetal lung ultrasound images were obtained at 25.0-38.6 weeks of gestation within 48 hours of delivery, stored in Digital Imaging and Communication in Medicine format, and analyzed with quantusFLM. Physicians were blinded to the analysis. At delivery, perinatal outcomes and the occurrence of neonatal respiratory morbidity, defined as either respiratory distress syndrome or transient tachypnea of the newborn, were registered. The performance of the ultrasound texture analysis test to predict neonatal respiratory morbidity was evaluated. RESULTS: A total of 883 images were collected, but 17.3% were discarded because of poor image quality or exclusion criteria, leaving 730 observations for the final analysis. The prevalence of neonatal respiratory morbidity was 13.8% (101 of 730). The quantusFLM predicted neonatal respiratory morbidity with a sensitivity, specificity, positive and negative predictive values of 74.3% (75 of 101), 88.6% (557 of 629), 51.0% (75 of 147), and 95.5% (557 of 583), respectively. Accuracy was 86.5% (632 of 730) and positive and negative likelihood ratios were 6.5 and 0.3, respectively. CONCLUSION: The quantusFLM predicted neonatal respiratory morbidity with an accuracy similar to that previously reported for other tests with the advantage of being a noninvasive technique

Perinatal and long-term outcome of endoscopic laser surgery for twin-twin transfusion syndrome with and without selective fetal growth restriction: A retrospective cohort study

Objective: Report survival rates, neonatal mortality and morbidity and long-term outcomes of monochorionic (MC) twin pregnancies complicated by twin-to-twin transfusion syndrome (TTTS) or TTTS plus selective fetal growth restriction (sFGR) treated by endoscopic laser surgery. Methods: Retrospective cohort study including 149 MC twin pregnancies complicated by TTTS or TTTS plus sFGR.Medical records were reviewed for survival rates, neonatal mortality, neonatal morbidity and long-term outcomes at 2 and 6 years of age. Results: Survival of both babies was higher in the TTTS group than in the TTTS plus sFGR group (72.9%vs.54.8%); survival of at least one baby was similar in the two groups (90.7% and 88.1%). The incidence of severe neurological disability was not significantly different between TTTS and TTTS plus fetal growth restriction group at both stages, 1.9% versus 2.3% (p-value = 1) and 3.4%vs6.1% (p-value = 0.31). Multivariable analysis demonstrated that intact neurological outcome at 2 years of age was related with gestational age (GA) at birth and z score birthweight (Z BW), and at 6 years of age with GA at birth, Z BW and TTTS stage4. sFGR or abnormal brain findings at neonatal ultrasound were not related with impaired neurological outcome at two or 6 years of age. Conclusions: In pregnancies with TTTS and TTTS plus sFGR survival of at least one baby and long-term neurological outcome are comparable between both groups

Prediction of Neonatal Respiratory Morbidity by Quantitative Ultrasound Lung Texture Analysis: A Multicenter Study

Prediction of neonatal respiratory morbidity may be useful to plan delivery in complicated pregnancies. The limited predictive performance of the current diagnostic tests together with the risks of an invasive procedure, limit the use of fetal lung maturity assessment.status: publishe

Challenge 9: Towards an Ocean-Engaged Society

Challenge 9.-- Coordinators: José Pintado Valverde (IIM, CSIC), Ana Crespo Solana (IH-CCHS, CSIC).-- 20 pages, 4 figures.The Ocean has shaped human societies, providing resources and ways of communication, trade, exploration and expansion. Understanding the interactions with Society in the past and the present, is essential to tackle the challenges that face the future of the Ocean. With that aim, this chapter develops the consilience between Ocean Science, Social Sciences and Humanities, leading to the integration of diverse methodologies in an interdisciplinary framework. This holistic approach will be used to increase the knowledge and understanding of the interactions of the Oceans with Society by integrating digital and historical data, and natural and cultural heritage management and protection; connecting Ocean and Cultural Heritage Literacy to promote social change and citizen participation in research; developing interdisciplinary knowledge to base Governance and Management and to foster Sustainable Blue Economy, bridging Local and Indigenous Knowledge with Science-based knowledgePeer reviewe

Prediction of neonatal respiratory morbidity by quantitative ultrasound lung texture analysis: a multicenter study.

BACKGROUND: Prediction of neonatal respiratory morbidity may be useful to plan delivery in complicated pregnancies. The limited predictive performance of the current diagnostic tests together with the risks of an invasive procedure restricts the use of fetal lung maturity assessment. OBJECTIVE: The objective of the study was to evaluate the performance of quantitative ultrasound texture analysis of the fetal lung (quantusFLM) to predict neonatal respiratory morbidity in preterm and early-term (<39.0 weeks) deliveries. STUDY DESIGN: This was a prospective multicenter study conducted in 20 centers worldwide. Fetal lung ultrasound images were obtained at 25.0-38.6 weeks of gestation within 48 hours of delivery, stored in Digital Imaging and Communication in Medicine format, and analyzed with quantusFLM. Physicians were blinded to the analysis. At delivery, perinatal outcomes and the occurrence of neonatal respiratory morbidity, defined as either respiratory distress syndrome or transient tachypnea of the newborn, were registered. The performance of the ultrasound texture analysis test to predict neonatal respiratory morbidity was evaluated. RESULTS: A total of 883 images were collected, but 17.3% were discarded because of poor image quality or exclusion criteria, leaving 730 observations for the final analysis. The prevalence of neonatal respiratory morbidity was 13.8% (101 of 730). The quantusFLM predicted neonatal respiratory morbidity with a sensitivity, specificity, positive and negative predictive values of 74.3% (75 of 101), 88.6% (557 of 629), 51.0% (75 of 147), and 95.5% (557 of 583), respectively. Accuracy was 86.5% (632 of 730) and positive and negative likelihood ratios were 6.5 and 0.3, respectively. CONCLUSION: The quantusFLM predicted neonatal respiratory morbidity with an accuracy similar to that previously reported for other tests with the advantage of being a noninvasive technique