Lung Disease in Premature Neonates: Radiologic-Pathologic Correlation

Agrons, Geoffrey A.; Courtney, Sherry E.; Stocker, J. Thomas; Markowitz, Richard I.

doi:10.1148/rg.254055019

Cited by 115 publications

(94 citation statements)

References 120 publications

(100 reference statements)

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“…1) may provide new insights to mechanisms and therapies of lung defects in premature birth. This transition is interrupted by premature birth, especially in very/extremely low birth-weight infants born at the canalicular stage of lung development (gestation week 24 in humans and E17 in mice) (44,45). Interruption to this transition may lead to not only cellular immaturity as a result of insufficient alveolar differentiation, but also structural immaturity as a result of incomplete branching morphogenesis.…”

Section: Discussionmentioning

confidence: 99%

Lung epithelial branching program antagonizes alveolar differentiation

Chang¹,

Alanis²,

Miller

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

165

231

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Mammalian organs, including the lung and kidney, often adopt a branched structure to achieve high efficiency and capacity of their physiological functions. Formation of a functional lung requires two developmental processes: branching morphogenesis, which builds a tree-like tubular network, and alveolar differentiation, which generates specialized epithelial cells for gas exchange. Much progress has been made to understand each of the two processes individually; however, it is not clear whether the two processes are coordinated and how they are deployed at the correct time and location. Here we show that an epithelial branching morphogenesis program antagonizes alveolar differentiation in the mouse lung. We find a negative correlation between branching morphogenesis and alveolar differentiation temporally, spatially, and evolutionarily. Gain-of-function experiments show that hyperactive small GTPase Kras expands the branching program and also suppresses molecular and cellular differentiation of alveolar cells. Loss-of-function experiments show that SRYbox containing gene 9 (Sox9) functions downstream of Fibroblast growth factor (Fgf)/Kras to promote branching and also suppresses premature initiation of alveolar differentiation. We thus propose that lung epithelial progenitors continuously balance between branching morphogenesis and alveolar differentiation, and such a balance is mediated by dual-function regulators, including Kras and Sox9. The resulting temporal delay of differentiation by the branching program may provide new insights to lung immaturity in preterm neonates and the increase in organ complexity during evolution.

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Section: Discussionmentioning

confidence: 99%

Lung epithelial branching program antagonizes alveolar differentiation

Chang¹,

Alanis²,

Miller

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

165

231

View full text Add to dashboard Cite

show abstract

“…In premature infants, alveolar vessels as well as lungs are not fully developed and they are not able to cope with the quick changes such as increased arterial O2 and gaseous transfer during the first minute of life (13). Therefore, it causes volume overload and increased pulmonary vascular resistance as well as decrease in the systematic resistance which in return result in RDS (14). Some infants sickening to RDS possess a clinically significant shunt of PDA which is left open due to hypoxia, acidosis, secondary lung pressure increase in response to contraction of pulmonary venous pressure, systemic hypotension, immaturity and local secretion of prostaglandins due to the duct dilation; so it seems as if there is a relation between duct patency, airway inflammation and brochopulmonary dysplasia (BPD) (15,16).…”

Section: Introductionmentioning

confidence: 99%

Brain Natriuretic Peptide: A Predictor for Severity Respiratory Distress Syndrome in Newborns

et al. 2013

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Background:Respiratory distress syndrome (RDS) is considered as one of the most popular prematurity-related respiratory problems and among the most prominent reasons of deaths in preterm infants. Objectives: Brain Natriuretic Peptide (BNP) is the secret of the volume and pressure overload response of the vessels and decreases due to resistance as well as rises in systemic vessels and also in decline of pulmonary artery pressure. In the present paper, BNP is considered as a biomarker for prediction of RDS scoring. Materials and Methods: In this case, 65 preterm infants under 37 weeks with an Apgar score more than seven and 65 healthy term infants were chosen. All of them were controlled for three days in NICU and then divided into 4 groups based on the RDS scoring and intensity, as well as chest x-ray findings; normal, mild, moderate, and severe. Serum BNP of all the infants was measured through ELISA kit and a questionnaire was filled up for each infant based on his/her demographic information and clinical findings. The collected data were analyzed by SPSS software based on the independent statistical t-test, one-sided variance analysis and X2. P < 0.05 was considered as the significant. Results:The study results revealed a significant difference between the two groups regarding the pregnancy age, weight and type of delivery between cases and control groups (P ≥ 0.05); but there was no significant difference between BNP in cases and control groups (P ≤ 0.05). However, the comparison between the mean of pregnancy weight, pregnancy age, and BNP based on RDS frequency among the patients was significant (P ≥ 0.05). Conclusions:The results of this study demonstrated that serum BNP level correlates with increased RDS scoring. Therefore, it is possible to use BNP as the prediction marker for the progressive changes of RDS which occur in premature infants.

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“…However, in this area also, its role changes with the progress in neonatology; on one hand, it is limited to cases where monitoring respiratory and biochemical parameters is insufficient for the evalu-Comparative analysis of imaging examinations of the thoracic cage in neonates. Defining indications for cat scanning ation of the seriousness of the patient's condition, while on the other, the increased survival rate of preterm infants with a lowered survival threshold after childbirth of 23 weeks of gestational age [1] causes an increased requirement for roentgenographic examination.…”

Section: Introductionmentioning

confidence: 99%

Diagnostic imaging Comparative analysis of imaging examinations of the thoracic cage in neonates. Defining indications for cat scanning

Sraga¹,

Głowacki²,

Kluczewska³

et al. 2013

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StreszczeniePodstawowym badaniem służącym do diagnozowania dzieci z różnego typu zaburzeniami oddychania jest zdjęcie radiologiczne klatki piersiowej. Mimo wciąż malejącej roli, jaką odgrywa radiologia klasyczna w diagnostyce obrazowej, zdjęcie RTG jest zasadniczo nadal jedyną dostępną metodą obrazowania patologii płucnych u noworodków. Natomiast w sytuacjach, gdy klasyczna metoda wydaje się niewystarczająca, należy rozważyć wykonanie tomografii komputerowej. W artykule opisano wybór grupy noworodków, u której wykonanie TK było wskazane. Przy wyborze należało uwzględnić wiele czynników. Najistotniejszym kryterium był stan ogólny noworodka oraz korzyść płynąca z badania, która musi przewyższać czynniki ryzyka i konsekwencje pochłonięcia dużej dawki promieniowania jonizującego. Celem pracy było określenie wskazań do wykonania tomografii komputerowej klatki piersiowej u dzieci w okresie noworodkowym na podstawie materiału pochodzą-cego z ośrodka, w którym pracują autorzy artykułu. Na podstawie przeprowadzonych badań wyciągnięto wnioski zawarte w pracy. Słowa kluczowe: noworodki, zdjęcie RTG klatki piersiowej, tomografia komputerowa klatki piersiowej.Kardiochirurgia i Torakochirurgia Polska 2013; 10 (3) 295 DIAGNOSTIC IMAGING AbstractAn X-ray of the thoracic cage is a fundamental examination in children with disorders of various origin. Despite the constantly decreasing role of classic radiology in imaging diagnostics, the X-ray photograph still remains the only method available in practice for imaging lung pathologies in neonates. The aim of the work is to define the indications for performing CAT scanning of the thoracic cage in children in the neonatal period on the basis of our own material. We analysed a group of neonates referred for thoracic cage CAT scanning. Out of 10 people examined, 8 were boys, and 2 were girls. Respiratory disorders or the presence of auscultatory phenomena were an indication for making an X-ray in neonates in whom a CAT scan of the thoracic cage was done. All neonates from the examined group had an X-ray only as a result of above-mentioned indications. On the basis of a classic X-ray photograph, it was not possible to differentiate the flaccidity of the diaphragm with diaphragmatic hernia; the suspicion of presence of patent emphysema ventricle also needed to be confirmed. In one neonate, X-ray gave the image of an enlarged cone of the heart, and in the subsequent one, the image of persistent atelectasis of the right lower lobe. On the basis of the centre's experience, we may draw the conclusions that the basic indication for performing CAT scan examination in neonates is the suspicion of anatomical irregularity mentioned in the paper.

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Lung Disease in Premature Neonates: Radiologic-Pathologic Correlation

Cited by 115 publications

References 120 publications

Lung epithelial branching program antagonizes alveolar differentiation

Lung epithelial branching program antagonizes alveolar differentiation

Brain Natriuretic Peptide: A Predictor for Severity Respiratory Distress Syndrome in Newborns

Diagnostic imaging Comparative analysis of imaging examinations of the thoracic cage in neonates. Defining indications for cat scanning

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