Reporting nasal pressure injuries in neonates receiving non-invasive ventilation: a scoping review.

BACKGROUND/OBJECTIVES: Although neonates receiving Non-Invasive Ventilation (NIV) for respiratory support are at risk for nasal pressure injuries, efforts to standardize reporting are limited. A scoping review was conducted to identify the reporting systems used for describing these injuries. SUBJECTS/METHODS: PubMed, Embase, and Web of Science were queried for papers reporting nasal injury with NIV usage in neonates. The primary outcome was reporting system usage. RESULTS: 705 titles and abstracts were screened. 40 papers met inclusion criteria. Most studies were Randomized Clinical Trials (37.5%) or cohort studies (37.5%). Most commonly, nasal injuries were reported using a unique, descriptive scale developed by the authors (10 studies, 25%). The Fischer et al 2010 scale, a three-stage reporting system, was used in 8 studies (20%). While 15 studies (38.0%) reported on specific anatomic subsite injury, only 2 studies (5.0%) employed endoscopy for assessment. CONCLUSIONS: Wide heterogeneity in pressure injury reporting secondary to NIV exists across specialties, institutions, and literature.

Role of one-carbon nutrient intake and diabetes during pregnancy in children's growth and neurodevelopment: A 2-year follow-up study of a prospective cohort.

BACKGROUND & AIMS: Both maternal metabolic dysregulation, e.g., gestational diabetes mellitus (GDM), and maternal supply of nutrients that participate in one-carbon (1C) metabolism, e.g., folate, choline, betaine, and vitamin B12, have been demonstrated to influence epigenetic modification such as DNA methylation, thereby exerting long-lasting impacts on growth and development of offspring. This study aimed to determine how maternal 1C nutrient intake was associated with DNA methylation and further, development of children, as well as whether maternal GDM status modified the association in a prospective cohort. METHODS: In this study, women with (n = 18) and without (n = 20) GDM were recruited at 25-33 weeks gestation. Detailed dietary intake data was collected by 3-day 24-h dietary recall and nutrient levels in maternal blood were also assessed at enrollment. The maternal-child dyads were invited to participate in a 2-year follow-up during which anthropometric measurement and the Bayley Scales of Infant and Toddler Development™ Screening Test (Third Edition) were conducted on children. The association between maternal 1C nutrients and children's developmental outcomes was analyzed with a generalized linear model controlling for maternal GDM status. RESULTS: We found that children born to mothers with GDM had lower scores in the language domain of the Bayley test (p = 0.049). Higher maternal food folate and choline intakes were associated with better language scores in children (p = 0.01 and 0.025, respectively). Higher maternal food folate intakes were also associated with better cognitive scores in children (p = 0.002). Higher 1C nutrient intakes during pregnancy were associated with lower body weight of children at 2 years of age (p < 0.05). However, global DNA methylation of children's buccal cells was not associated with any maternal 1C nutrients. CONCLUSIONS: In conclusion, higher 1C nutrient intake during pregnancy was associated with lower body weight and better neurodevelopmental outcomes of children. This may help overcome the lower language scores seen in GDM-affected children in this cohort. Studies in larger cohorts and with a longer follow-up duration are needed to further delineate the relationship between prenatal 1C nutrient exposure, especially in GDM-affected pregnancies, and offspring health outcomes.

Maternal Lutein Intake during Pregnancies with or without Gestational Diabetes Mellitus and Cognitive Development of Children at 2 Years of Age: A Prospective Observational Study.

Lutein and its isomer zeaxanthin serve as antioxidants and preserve cognitive function during aging. However, whether lutein/zeaxanthin (L + Z) exposure early in life improves cognitive development of children is rarely explored. It is also unknown whether gestational diabetes mellitus (GDM), characterized by heightened oxidative stress, affects lutein metabolism. This prospective longitudinal cohort study examined the differences in L + Z intake and metabolism, as well as the association between maternal L + Z intake and children's cognitive development in GDM versus non-GDM pregnancies. Seventy-six pregnant women (n = 40 with GDM) were recruited between 25 and 33 weeks of gestation and dietary intakes were recorded. At delivery, cord blood was collected, and 2 years later, the Bayley III developmental test was conducted on a subset of children (n = 38). The results suggest that GDM reduced cord blood lutein levels at birth; L + Z intake during pregnancy was associated with better cognitive (ß = 0.003, p = 0.001) and language (ß = 0.002, p = 0.038) scoring of children at 2 years regardless of GDM status. In conclusion, maternal L + Z intake was positively associated with children's developmental scores, regardless of GDM. More studies are needed to confirm such associations.

Associations between nutrients in one-carbon metabolism and fetal DNA methylation in pregnancies with or without gestational diabetes mellitus.

BACKGROUND: Gestational diabetes mellitus (GDM), characterized by hyperglycemia that develops during pregnancy, increases the risk of fetal macrosomia, childhood obesity and cardiometabolic disorders later in life. This process has been attributed partly to DNA methylation modifications in growth and stress-related pathways. Nutrients involved with one-carbon metabolism (OCM), such as folate, choline, betaine, and vitamin B12, provide methyl groups for DNA methylation of these pathways. Therefore, this study aimed to determine whether maternal OCM nutrient intakes and levels modified fetal DNA methylation and in turn altered fetal growth patterns in pregnancies with and without GDM. RESULTS: In this prospective study at a single academic institution from September 2016 to June 2019, we recruited 76 pregnant women with and without GDM at 25-33 weeks gestational age and assessed their OCM nutrient intake by diet recalls and measured maternal blood OCM nutrient levels. We also collected placenta and cord blood samples at delivery to examine fetal tissue DNA methylation of the genes that modify fetal growth and stress response such as insulin-like growth factor 2 (IGF2) and corticotropin-releasing hormone (CRH). We analyzed the association between maternal OCM nutrients and fetal DNA methylation using a generalized linear mixed model. Our results demonstrated that maternal choline intake was positively correlated with cord blood CRH methylation levels in both GDM and non-GDM pregnancies (r = 0.13, p = 0.007). Further, the downstream stress hormone cortisol regulated by CRH was inversely associated with maternal choline intake (r = - 0.36, p = 0.021). Higher maternal betaine intake and serum folate levels were associated with lower cord blood and placental IGF2 DNA methylation (r = - 0.13, p = 0.049 and r = - 0.065, p = 0.034, respectively) in both GDM and non-GDM pregnancies. Further, there was an inverse association between maternal betaine intake and birthweight of infants (r = - 0.28, p = 0.015). CONCLUSIONS: In conclusion, we observed a complex interrelationship between maternal OCM nutrients and fetal DNA methylation levels regardless of GDM status, which may, epigenetically, program molecular pathways related to fetal growth and stress response.

Growth factors in the fetus and pre-adolescent offspring of hyperglycemic rats.

BACKGROUND: Maternal hyperglycemia influences childhood metabolic syndrome, including obesity and hyperglycemia. We tested the hypothesis that the maternal hyperglycemia influences growth factors in the fetal and pre-adolescent offspring. METHODS: Hyperglycemia was induced in pregnant rats on embryonic day (E)16 using streptozocin followed by implantation with insulin or placebo pellets at embryonic day 18 (E18). Fetuses at E20 and pre-adolescent pups at postnatal day 14 (P14) were studied: (1) normal untreated controls (CTL) at E20; (2) hyperglycemic placebo-treated (HPT) at E20; (3) hyperglycemic insulin-treated (HIT) at E20; (4) CTL at P14; and (5) HIT at P14. Fetal and pre-adolescent growth factors were determined. RESULTS: Biomarkers of hypoxia were elevated in the HPT group at E20. This group did not survive to term. Maternal insulin improved fetal survival despite lower fetal body weight at E20, however, at normal birth (postnatal day 0 (P0)) and at P14, body weights and blood glucose were higher than CTL. These high levels correlated with aberrant growth factors. Maternal hyperglycemia influenced glucose-6-phosphate dehydrogenase, glucagon, insulin, interleukin-10, and leptin genes. CONCLUSIONS: The impact of maternal hyperglycemia on pre-adolescent glucose and body weight was not a consequence of maternal overnutrition. This suggests an independent link which may affect offspring metabolic health in later life.

Effects of probiotics, prebiotics, and synbiotics on messenger RNA expression of caveolin-1, NOS, and genes regulating oxidative stress in the terminal ileum of formula-fed neonatal rats.

Necrotizing enterocolitis (NEC) afflicts extremely low birth weight neonates, and probiotics reduces its incidence and severity. NO is involved in the pathogenesis of NEC, and caveolin-1 regulates NO signaling. We tested the hypothesis that intestinal caveolin-1 and NOS are deficient in formula-fed neonatal rats and that supplementation with "Florastar Kids" and/or galacto-oligosaccharides and fructo-oligosaccharides preserves caveolin-1 and NOS. At birth (P0), neonatal rat pups were maternally fed or hand-gavaged with or without supplemented formula. Samples from the terminal ileum were analyzed for total NO metabolites, growth factors, and gene expression of caveolin-1, NOS isoforms, and antioxidants. Our data showed that formula feeding with and without supplementation resulted in significant growth restriction. Despite suboptimal nutrition, growth factors involved in intestinal repair and regeneration were increased in the neonatal rat ileum. Caveolin-1, endothelial NOS, and neuronal NOS were simultaneously down-regulated with formula feeding while inducible NOS was up-regulated. Superoxide dismutase and glutathione peroxidase were up-regulated with supplementation. These data provide a probable mechanism for the benefits of supplemented formula for decreasing the severity of NEC by preserving the antioxidant systems.

Comparative effects of probiotics, prebiotics, and synbiotics on growth factors in the large bowel in a rat model of formula-induced bowel inflammation.

OBJECTIVES: Supplementation with probiotics has been shown to prevent gastrointestinal damage possibly through preservation of growth factors. We tested the hypothesis that probiotics, prebiotics, or synbiotics supplementation preserves intestinal insulin-like growth factors (IGFs) and epidermal growth factors (EGFs) in formula-fed neonatal rats. MATERIALS AND METHODS: At birth (postnatal day 0 [P0]), neonatal rat pups (n = 18 pups/group) were either maternally fed or hand-gavaged with formula supplemented with probiotics (Pro-Fed), prebiotics, or synbiotics from P0 to P3. A formula-fed control group received formula without supplementation. At P4, large bowel samples were assessed histologically and assayed for vascular endothelial growth factor (VEGF), soluble VEGF receptor-1, IGF-I, IGF-II, and EGF. RESULTS: All formula-fed groups were severely growth suppressed with comparable mortalities. Moderate preservation of bowel integrity was noted in the Pro-Fed group. In contrast, severe inflammation was seen in all of the other formula groups. This was associated with significant increases in VEGF levels in all of the formula groups (P < 0.05) except the Pre-Fed group. Similar elevations in soluble VEGF receptor-1 (P < 0.05), IGF-I (P < 0.05), and EGF (P < 0.05) were noted, but statistical significance was achieved only in the Pro-Fed group. CONCLUSIONS: Induction of IGF-I and EGF with moderate bowel integrity may represent a protective effect of probiotics against formula-induced inflammation. These data, taken collectively, suggest that probiotics may provide more beneficial effects on the developing large bowel than prebiotics and synbiotics.

Gestational diabetes status and dietary intake modify maternal and cord blood allostatic load markers.

INTRODUCTION: Allostatic load (AL) defines cardiometabolic, inflammatory, and neuroendocrine changes in the body in response to internal and external stressors. It is largely unknown whether gestational diabetes mellitus (GDM) alters maternal and fetal AL, which in turn affects GDM outcomes. Whether dietary intakes and quality can modify AL and thus influence GDM progression is also unknown. RESEARCH DESIGN AND METHODS: In this study, we recruited 35 GDM and 30 non-GDM women in gestational week 25-33. Fasting blood samples were collected at enrollment, and cord venous blood samples were collected at delivery for the measurement of a series of AL biomarkers to calculate the composite AL index. Three-day dietary recalls were conducted at enrollment. RESULTS: Results suggest that GDM women had 60% higher composite AL index scores (p value=0.01). Maternal AL index was associated with shorter duration of gestation (ß=-0.33, p value=0.047) and higher fetal AL index (ß=0.47, p value=0.006) after adjusting for GDM status. Dietary intake of monounsaturated fatty acids was negatively associated with maternal AL index (ß=-0.20, p value=0.006). GDM women had lower total caloric intake and dietary glycemic load, yet their linolenic acid, vitamin C and E intakes were also decreased (all p value<0.05). These dietary differences were not related to birth outcomes measured. CONCLUSIONS: In this study, GDM status and dietary intakes modify AL in this population. AL may serve as an indicator of GDM control. Future research on dietary interventions that can improve maternal AL markers during GDM is warranted.

Benefits of pre-, pro- and Syn-biotics for lung angiogenesis in malnutritional rats exposed to intermittent hypoxia.

Extremely low birth weight and reduced caloric intake have significant adverse effects on lung development and are risk factors for bronchopulmonary dysplasia. Vascular endothelial growth factor (VEGF) is highly involved in lung microvascular development, and may be affected by nutritional status. To test the hypothesis that suboptimal nutrition decreases VEGF signaling in formula-fed neonatal rats, and to determine whether supplementation with probiotics, prebiotics, or synbiotics ameliorate the effects, rat pups at birth (P0) were placed in room air (RA) or intermittent hypoxia (12%) during hyperoxia (50% O2) from birth to P3. The pups were either maternally-fed; or formula-fed with or without supplementation. Formula-fed pups were separated from their mothers at birth and hand-gavaged every 3 hours. Lung VEGF signaling was determined on P3. In RA, all formula-fed groups were significantly growth suppressed with decreased lung weights. Hyperoxia had a less remarkable effect on body weight; and mean lung weight was lower only in the unsupplemented formula-fed group. Lung VEGF was decreased in all formula-fed RA and hyperoxia groups, except the probiotics group. In RA, sVEGFR-1 levels were elevated in all formula-fed groups except the synbiotics group. However in hyperoxia, sVEGFR-1 levels were higher in the unsupplemented formula group. All genes involved in angiogenesis were downregulated in the formula-fed groups compared to maternally-fed. Formula feeding results in significant malnutrition associated with decreased lung size and lung VEGF levels in neonatal rat pups. Probiotic supplementation prevented the adverse effects of combined hyperoxia and suboptimal nutrition on lung VEGF suggesting preservation of angiogenesis.

Cytokines and Toll-like receptor signaling pathways in the terminal ileum of hypoxic/hyperoxic neonatal rats: benefits of probiotics supplementation.

BACKGROUND: Oxidative stress and inflammation are associated with the development of inflammatory bowel diseases such as necrotizing enterocolitis. We tested the hypothesis that probiotics, prebiotics or synbiotics (a combination of pre- and probiotics) is effective for prevention of inflammatory responses to formula-feeding in the terminal ileum of neonatal rats. METHODS: Neonatal rats were exposed to hyperoxia/hypoxia during which they were either maternally-fed or hand-fed with formula supplemented with probiotics, prebiotics or synbiotics. A non-supplemented formula group served as controls. Cytokines and genes associated with oxidative stress and toll-like receptor signaling were determined in the terminal ileum. Data were compared to room air littermates. RESULTS: Exposure to hyperoxia/ hypoxia reduced growth accretion in maternally-fed pups. NEC-like symptoms and intestinal inflammatory markers were induced with formula feeding. Supplementation with probiotics, prebiotics or synbiotics decreased proinflammatory cytokines and downregulated genes involved in oxidative stress and toll-like receptor pathways, however, the effect was attenuated in hyperoxia/hypoxia. CONCLUSIONS: The combination of suboptimal nutrition due to removal of breast milk and formula feeding with hyperoxia/hypoxia may increase susceptibility to oxidative stress, inflammation, and NEC. Probiotics, prebiotics and synbiotics are protective against oxidative stress and inflammation, but their efficacy may be reduced when administered during hyperoxia/hypoxia insults.