Fabiana Postolow scite author profile

The effect of NO on pulmonary apoptosis is phenotype-dependent. A cumulative apoptotic effect of hypoxia and NO in vitro exerted on contractile myocytes may lead to contraction of this subpopulation, while synthetic myocyte survival and proliferation is enhanced by hypoxia and NO. Epithelial survival is unaffected. We speculate that alveolar rarefaction reported after neonatal hypoxia may arise from growth arrest in the vascular rather than the epithelial compartment.

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Thromboxane promotes smooth muscle phenotype commitment but not remodeling of hypoxic neonatal pulmonary artery

Postolow

Fediuk

Nolette

et al. 2015

Fibrogenesis Tissue Repair

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BackgroundPersistent pulmonary hypertension of the newborn (PPHN) is characterized by vasoconstriction and pulmonary vascular remodeling. Remodeling is believed to be a response to physical or chemical stimuli including pro-mitotic inflammatory mediators such as thromboxane. Our objective was to examine the effects of hypoxia and thromboxane signaling ex vivo and in vitro on phenotype commitment, cell cycle entry, and proliferation of PPHN and control neonatal pulmonary artery (PA) myocytes in tissue culture.MethodsTo examine concurrent effects of hypoxia and thromboxane on myocyte growth, serum-fed first-passage newborn porcine PA myocytes were randomized into normoxic (21 % O2) or hypoxic (10 % O2) culture for 3 days, with daily addition of thromboxane mimetic U46619 (10−9 to 10−5 M) or diluent. Cell survival was detected by MTT assay. To determine the effect of chronic thromboxane exposure (versus whole serum) on activation of arterial remodeling, PPHN was induced in newborn piglets by a 3-day hypoxic exposure (FiO2 0.10); controls were 3 day-old normoxic and day 0 piglets. Third-generation PA were segmented and cultured for 3 days in physiologic buffer, Ham’s F-12 media (in the presence or absence of 10 % fetal calf serum), or media with 10−6 M U46619. DNA synthesis was measured by 3H-thymidine uptake, protein synthesis by 3H-leucine uptake, and proliferation by immunostaining for Ki67. Cell cycle entry was studied by laser scanning cytometry of nuclei in arterial tunica media after propidium iodide staining. Phenotype commitment was determined by immunostaining tunica media for myosin heavy chain and desmin, quantified by laser scanning cytometry.ResultsContractile and synthetic myocyte subpopulations had differing responses to thromboxane challenge. U46619 decreased proliferation of synthetic and contractile myocytes. PPHN arteries exhibited decreased protein synthesis under all culture conditions. Serum-supplemented PA treated with U46619 had decreased G1/G0 phase myocytes and an increase in S and G2/M. When serum-deprived, PPHN PA incubated with U46619 showed arrested cell cycle entry (increased G0/G1, decreased S and G2/M) and increased abundance of contractile phenotype markers.ConclusionsWe conclude that thromboxane does not initiate phenotypic dedifferentiation and proliferative activation in PPHN PA. Exposure to thromboxane triggers cell cycle exit and myocyte commitment to contractile phenotype.

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E-learning use in the review of neonatal resuscitation program in physicians: a scoping review

2022

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Objective To determine if e-learning interventions are efficient to review Neonatal Resuscitation Program (NRP) and to prevent performance deterioration in neonatal resuscitation of already-certified healthcare professionals. Study design In this scoping review, we searched for manuscripts published until June 2020 in five databases. We included all studies on e-learning use for NRP review in already-certified healthcare providers. Results Among 593 abstracts retrieved, 38 full-text articles were assessed for eligibility. Five studies were included. Four studies evaluated the effectiveness of e-learning interventions immediately or months after their completion by providers. These interventions did not consistently enhance their NRP knowledge and their performance. One study showed that a growth mindset can influence positively neonatal resuscitation performance after an e-learning simulation. Conclusion There is not enough evidence to conclude that e-learning interventions can prevent neonatal resuscitation knowledge and performance decay in already-certified providers. More research is needed on the use of e-learning simulation-based scenarios to improve NRP retention.

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