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  1. Fulltext Economic assessment of neonatal intensive care
    Cheah IGS
    Transl Pediatr, 2019 Jul;8(3):246-256.
    PMID: 31413958 DOI: 10.21037/tp.2019.07.03
    Most of the studies on the costing of neonatal intensive care has concentrated on the costs associated with preterm infants which takes up more than half of neonatal intensive care unit (NICU) costs. The focus has been on determining the cost-effectiveness of extreme preterm infants and those at threshold of viability. While the costs of care have an inverse relationship with gestational age (GA) and the lifetime medical costs of the extreme preterm can be as high as $450,000, the total NICU expenditure are skewed towards the care of moderate and late preterm infants who form the main bulk of patients. Neonatal intensive care, has been found to be very cost-effective at $1,000 per term infant per QALY and $9,100 for extreme preterm survivor per QALY. For low and LMIC, where NICU resources are limited, the costs of NICU care is lower largely due to a patient profile of more term and preterm of greater GAs and correspondingly less intensity of care. Public health measures, neonatal resuscitation training, empowerment of nurses to do resuscitation, increasing the accessibility to essential newborn care are recommended cheaper cost-effective measures to reduce neonatal mortality in countries with high neonatal mortality rate, whilst upgraded neonatal intensive care services are needed to further reduce neonatal mortality rate once below 15 per 1,000 livebirths. Economic evaluation of neonatal intensive care should also include post discharge costs which mainly fall on the health, social and educational sectors. Strategies to reduce neonatal intensive care costs could include more widespread implementation of cost-effective methods of improving neonatal outcome and reducing neonatal morbidities, including access to antenatal care, perinatal interventions to delay preterm delivery wherever feasible, improving maternal health status and practising cost saving and effective neonatal intensive care treatment.
  2. Fulltext Breastmilk feeding status and weight gain of low birth weight infants in a Neonatal Intensive Care Unit
    Lim NL, Cheah IGS, Soosai AP
    Med J Malaysia, 2001 Mar;56(1):65-70.
    PMID: 11503299
    A prospective observational study of feeding in low birth weight (LBW) infants with birth weight (BW) of at least 1.8 kg admitted to the Neonatal Intensive Care Unit (NICU) showed that nearly 80% of mothers provided expressed breastmilk (EBM) and a further 14% breastfed their infants before discharge. Weight gain was overall poor at a mean of 9.48 +/- 7.82 grams per kg per day with those on predominant EBM feeding (EBM > 70%) doing worse than those on predominant preterm formula (PTF) feeding (EBM < 31%), weight gain being 5.40 +/- 6.88 and 11.10 +/- 8.15 grams per kg per day respectively (p < 0.01). Weight gain was also poorer (7.72 +/- 5.55 grams per kg per day) in patients with respiratory distress syndrome (RDS) compared to those who did not have RDS (12.02 +/- 9.58 grams per kg per day). p < 0.05. Incidence of infants < 10th centile body weight at birth was 16.8% and at discharge was 69.1%.
  3. Preterm Infant Outcomes after Randomization to Initial Resuscitation with FiO2 0.21 or 1.0
    Thamrin V, Saugstad OD, Tarnow-Mordi W, Wang YA, Lui K, Wright IM, et al.
    J Pediatr, 2018 10;201:55-61.e1.
    PMID: 30251639 DOI: 10.1016/j.jpeds.2018.05.053
    OBJECTIVE: To determine rates of death or neurodevelopmental impairment (NDI) at 2 years corrected age (primary outcome) in children <32 weeks' gestation randomized to initial resuscitation with a fraction of inspired oxygen (FiO2) value of 0.21 or 1.0.

    STUDY DESIGN: Blinded assessments were conducted at 2-3 years corrected age with the Bayley Scales of Infant and Toddler Development, Third Edition or the Ages and Stages Questionnaire by intention to treat.

    RESULTS: Of the 290 children enrolled, 40 could not be contacted and 10 failed to attend appointments. Among the 240 children for whom outcomes at age 2 years were available, 1 child had a lethal congenital anomaly, 1 child had consent for follow-up withdrawn, and 23 children died. The primary outcome, which was available in 238 (82%) of those randomized, occurred in 47 of the 117 (40%) children assigned to initial FiO2 0.21 and in 38 of the 121 (31%) assigned to initial FiO2 1.0 (OR, 1.47; 95% CI, 0.86-2.5; P = .16). No difference in NDI was found in 215 survivors randomized to FiO2 0.21 vs 1.0 (OR, 1.26; 95% CI, 0.70-2.28; P = .11). In post hoc exploratory analyses in the whole cohort, children with a 5-minute blood oxygen saturation (SpO2) <80% were more likely to die or to have NDI (OR, 1.85; 95% CI, 1.07-3.2; P = .03).

    CONCLUSIONS: Initial resuscitation of infants <32 weeks' gestation with initial FiO2 0.21 had no significant effect on death or NDI compared with initial FiO2 1.0. Further evaluation of optimum initial FiO2, including SpO2 targeting, in a large randomized controlled trial is needed.

    TRIAL REGISTRATION: Australian and New Zealand Clinical Trials Network Registry ACTRN 12610001059055 and the National Malaysian Research Registry NMRR-07-685-957.

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