115,717 research outputs found
Prophylactic sustained inflation is just one step to preventing bronchopulmonary dysplasia
Respiratory Support of Neonate Affected by Bronchiolitis in Neonatal Intensive Care Unit
Acute respiratory infections are very common medical emergency in early infancy, often requiring hospitalization. The most frequent respiratory infection at this stage of life is bronchiolitis, with a benign course in the majority of cases. However, especially during neonatal period, infants are at higher risk for developing complications, and ventilatory support of various degrees is needed. The two most widespread methods to provide noninvasive respiratory support are heated humidified high-flow nasal cannula and nasal continuous positive airway pressure. They are both used in neonatal intensive care unit to treat respiratory distress syndrome of the premature infants, and the main concept of recruiting and distending alveoli is valid also for respiratory failure occurring during bronchiolitis. However, there is still ongoing debate about the superiority of one method, and their real efficacy still need to be confirmed. Once respiratory failure does not respond to noninvasive ventilation, more intensive care must be provided in the form of conventional mechanical ventilation or high-frequency ventilation. There is currently no evidence of the optimal ventilation strategy to use, and a deeper comprehension of the pulmonary mechanics during bronchiolitis would be desirable to tailor ventilation according to the degree of severity. Further research is then urgently needed to better clarify these aspects. Key Points Guidelines on the management of bronchiolitis in neonatal population are lacking. Noninvasive respiratory support is mostly delivered with HHHFNC and nCPAP. A deeper comprehension of the pulmonary mechanics during bronchiolitis is crucial to tailor invasive ventilation
Early Pediatric Benefit of Lutein for Maturing Eyes and Brain-An Overview
Lutein is a dietary carotenoid preferentially accumulated in the eye and the brain in early life and throughout the life span. Lutein accumulation in areas of high metabolism and oxidative stress such as the eye and the brain suggest a unique role of this ingredient during the development and maturation of these organs of common embryological origin. Lutein is naturally provided to the developing baby via the cord blood, breast milk and then infant diet. The presence of this carotenoid depends on fruit and vegetable intakes and its bioavailability is higher in breastmilk. This paper aims to review the anatomical development of the eye and the brain, explore the presence and selective deposition of lutein in these organs during pregnancy and infancy and, based on its functional characteristics, present the latest available research on the beneficial role of lutein in the pediatric population. The potential effects of lutein in ameliorating conditions associated with increase oxidative stress such as in prematurity will be also addressed. Since consumption of lutein rich foods falls short of government guidelines and in most region of the world infant formulas lack this bioactive, dietary recommendations for pregnant and breastfeeding women and their child can help to bridge the gap
Effects of Sustained Inflation or Positive Pressure Ventilation on the Release of Adrenomedullin in Preterm Infants with Respiratory Failure at Birth
Objective: Delivery room (DR) management may play an important role in the development and prevention of lung injury. Therefore, in a cohort of low birth weight infants (LBW), we investigated the effects of two different lung recruitment maneuvers, such as positive pressure ventilation (PPV) and sustained inflation (SI) on adrenomedullin (AM), a well-established lung-specific vasoactive agent. Study Design: This is a prospective case-control randomized study in 44 LBW infants spontaneously breathing with respiratory failure at birth requiring respiratory support. LBW were randomized to receive PPV (n = 22) or SI (n = 22) support. AM was measured from blood in samples collected at birth from arterial artery (BLT0) and at 1-hour (BLT1) and at 24-hour (BLT2) from peripheral venous site. AM assessment in urine samples was performed at 1-hour (URT1) and at 24-hour (URT2). Results: No significant differences in AM (p > 0.05) blood (T0-T2) and urine (T1, T2) levels were observed between groups. Conclusion: The present data, showing the absence of any differences in AM blood and urine levels, suggest that PPV and SI are both feasible and equally effective DR maneuvers. The findings open the way to further studies evaluating the effects of PPV and SI on short-/long-term respiratory outcome through biomarkers assessment. © 2019 by Thieme Medical Publishers, Inc
Flow‐synchronized NIPPV with double‐inspiratory loop cannula: An in vitro study
Background: Although short binasal prongs (SBP) are the most common interface for noninvasive ventilation, the “double-inspiratory loop cannulas” (DILC) have recently been introduced into many neonatal intensive care units. DILC show advantages over SBP, including reduced nasal trauma and increased comfort. However, their higher intrinsic resistance may compromise ventilation. Our aim was to test a new, low resistance DILC interface. Methods: A test lung was programmed to simulate preterm neonates (500–2000 g BW) with moderate-to-severe respiratory distress syndrome. The artificial nose was designed to keep prongs-to-nares leaks to around 30%. Giulia® ventilator (GINEVRI srl) was used to provide nasal continuous positive airway pressure (NCPAP) and flow synchronized nasal intermittent positive pressure ventilation (NIPPV). NCPAP was set at 4–10 cmH2O and synchronized-NIPPV (SNIPPV) at peak inspiratory pressure, 15–20–25 cmH2O; inspiratory time, 0.3–0.5 s; and positive end-expiratory pressure, 5–8 cmH2O. Four sizes of Sync-flow Cannula® (GINEVRI srl) were tested. The Sync-flow Cannula® was compared with Neotech RAM® cannula and Ginevri SBP®. The outcome measures were the flow/pressure relationship through the four Sync-flow Cannula® sizes, the difference in resistance, the drop in ventilator-alveoli pressure measured by the test lung and the system response time during flow-SNIPPV. Results: The smaller DILC sizes had the lowest flow-pressure ratio. The resistance of the RAM® cannula was significantly higher compared to the other interfaces (p <.001). With 30% leaks, there was a 4–38% ventilator-alveoli drop in pressure, depending on interface size. The system response time was excellent (~65–70 ms). Conclusions: With about 30% leaks, the Sync-flow Cannula® interfaces result in good pressure transmission and give optimal performance for flow-SNIPPV. Clinical studies are needed to confirm the clinical relevance of these data
Is less invasive surfactant administration necessary or only helpful or just a fashion?
In the 1990s, the most relevant pillars in the treatment of neonatal respiratory distress syndrome (RDS) have been improvements in ventilation strategies, the introduction of exogenous surfactant replacement therapy, and the use of antenatal steroids. Lately, in addition to the standard INSURE (INtubation-SURfactant administration-Extubation) method to administer surfactant, a new technique has been gaining increasing popularity. It is the so-called less invasive surfactant administration (LISA) method, which has shown promising results in preventing bronchopulmonary dysplasia development and in reducing mortality in preterm neonates. The rationale behind this technique is to avoid positive pressure ventilation and the endotracheal tube, being surfactant delivered through a thin catheter while the neonate is maintained on continuous positive airway pressure. Given the paucity of large-scale randomized trials on LISA method to prove its effects on short- and long-term outcomes, some questions still remain unanswered. Then, uncertainty regarding the feasibility of this maneuver needs to be better clarified before gaining wide acceptance in routine clinical practice. In our report, we aim at hypothesizing the main mechanisms behind the efficacy of LISA, considering it as a single maneuver in a comprehensive approach for RDS management in the delivery room
Neonatal dyshormonogenetic goiter with hypothyroidism associated with novel mutations in thyroglobulin and SLC26A4 gene
Congenital goiter is an uncommon cause of neck swelling and it can be associated with hypothyroidism. We discuss a case of primary hypothyroidism with goiter presenting at birth. Ultrasound showed the enlargement of the gland and thyroid function tests detected marked hypothyroidism. Genetic analysis via next generation sequencing (NGS) was performed finding two mutations associated with thyroid dyshormonogenesis: c.7813 C > T, homozygous in the exon 45 of the thyroglobulin gene (TG) and c.1682 G > A heterozygous in exon 15 of the SLC26A4 gene (pendrin). Sanger sequencing of parents’ DNA samples revealed that the first mutation (c.7813 C > T) was inherited from both of them, while the second one (c.1682 G > A) was inherited from the mother. Hormone replacement therapy was started, following which a gradual decrease in the size of the goiter was seen with the normalization of hormonal levels. Normal infant growth status and neurological development were recorded during follow-up. Neonatal dyshormonogenetic goiter with hypothyroidism may represent an unusual cause of neonatal neck mass. Early identification and hormone replacement therapy are crucial for a better neurodevelopmental outcome. Genetic analysis is mandatory in order to reach a specific diagnosis and to elucidate new patterns of thyroid disorder
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