The aim was to study the efficacy of rescue High Frequency Oscillatory Ventilation (HFOV) in improving the oxygenation and ventilation in neonates with acute respiratory failure after failing Conventional Mechanical Ventilation (CMV). Primary outcome was short term oxygenation, lung recruitment, and ventilation and secondary outcome studied was survival. 675 babies were ventilated and 97 of them received HFOV. HFOV significantly improved oxygenation index, alveolar-arterial oxygen gradient, pH, PCO2, PO2 and caused better lung recruitment within 2 hours. Fifty seven babies (58.77%) survived and the mortality was more in <28 weeks, babies with pulmonary hemorrhage, sepsis and CDH.
The study was designed to compare the biochemical characteristics of neonates transported by qualified transport team, before and after stabilization, interventions required and setbacks during these transports. Prospective cohort study of all neonatal transports during a period of 13 months from various maternity and pediatric centers was conducted; 151 babies who fulfilled the criteria were included in the study. 58% of babies < 32 wks were hypothermic, 21% of the total babies were hypotensive and a total of 25% of the babies were hypoxic at the referral hospital. Intubation was done by the transport team in 23% of babies and 25 % of the babies were transported on a ventilator. There was a significant improvement in the clinical condition of all these babies in relation to temperature control, sugar control, oxygenation and blood pressure after stabilization.
Severe malaria causes multiorgan dysfunction, which is the predominant reason for mortality in these children. Cardiac enzymes have been elevated and cardiac involvement has been suspected in some of these children, however, clear cut echocardiographic evidence for it was not possible. There were isolated reports of myocardial dysfunction in malaria in adults but none in children. We present two such children with cardiac involvement and myocardial dysfunction.
Spinal muscular atrophy with respiratory distress syndrome (SMARD1) is a rare cause of early infantile respiratory failure and death. No cases have been currently described from India. Two low-birth-weight infants presented prior to 6 months of age with recurrent apnea and respiratory distress. Both required prolonged ventilation, and had distal arthrogryposis and diaphragmatic eventration. Nerve conduction study revealed motor sensory axonopathy. Genetic testing confirmed mutations in immunoglobulin mu binding protein (IGHMBP2). These two cases establish presence of SMARD1 in our population. Both infants died on discontinuation of ventilation. Antenatal diagnoses done in one pregnancy. Though rare, high index of suspicion is essential in view of poor outcome and aid antenatal counseling.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.