Lung Hypoplasia (lung + hypoplasia)

Distribution by Scientific Domains


Selected Abstracts


Stimulation of lung growth in fetuses with lung hypoplasia leads to altered postnatal lung structure in sheep

PEDIATRIC PULMONOLOGY, Issue 4 2001
M.G. Davey PhD
Abstract Increased lung expansion in the fetus stimulates lung growth and is being trialed clinically to reverse severe fetal lung hypoplasia. Our aim was to examine the effects of increased fetal lung expansion in the presence of lung hypoplasia on lung structure in sheep at term and 8 weeks after birth. Lung hypoplasia was induced in 15 fetal sheep by continuous drainage of tracheal fluid, commencing at ,113 days of gestation (term, ,148 days). In 10 of these fetuses, tracheal obstruction (TO) was performed from 137,147 days of gestation (treated lung hypoplasia, TLH), while lung liquid drainage continued until term in the remaining 5 fetuses (untreated lung hypoplasia, ULH). Lung tissues were obtained from 5 TLH, 5 ULH, and 5 control lambs at birth, and from 5 TLH and 5 control lambs at 8 weeks after birth. At birth, alveolar number, surface area, and interalveolar wall thickness were not different between TLH and control lambs, whereas airspace diameter was greater in TLH lambs (72.7,±,3.0 ,m) than in controls (58.4,±,4.3 ,m). Diameters of airspaces were not different between ULH and control lambs; however, alveolar numbers and surface area were reduced, while interalveolar wall thickness was increased in ULH lambs compared to controls. At 8 weeks after birth, alveolar number (928.0,±,66.1,×,106) and surface area (30.3,±,2.2 m2) in TLH lambs were lower, whereas interalveolar wall thickness (83.0,±,3.1,m) was greater than in control lambs (2,263.6,±,261.6,×,106, 46.7,±,4.8 m2, and 68.6,±,2.1 ,m, respectively). Our data show that TO restores most aspects of lung structure to normal in fetuses with lung hypoplasia but leads to altered alveolar development. The presence of fewer, larger alveoli in postnatal TLH animals may predispose these animals to respiratory complications during later life. Pediatr Pulmonol. 2001; 32:267,276. © 2001 Wiley-Liss, Inc. [source]


Association of pulmonary artery agenesis and hypoplasia of the lung

PEDIATRIC PULMONOLOGY, Issue 9 2006
Renato Vitiello MD
Abstract Pulmonary artery agenesis and hypoplasia of the homolateral lung occasionally occurs as an isolated lesion, but more often has associated congenital cardiac anomalies. We present a case where pulmonary artery agenesis was the sole lesion in an asymptomatic child. Pulmonary artery agenesis should be suspected in asymptomatic patients if a plain chest X-ray shows asymmetric lung fields, lung hypoplasia, or hyperinflation of the contralateral lung. Echocardiography is the best tool to establish the diagnosis. In our opinion, invasive procedures, such as cardiac catheterization, may be postponed if there is no echocardiographic evidence of pulmonary hypertension. Pediatr Pulmonol. © 2006 Wiley-Liss, Inc. [source]


Horseshoe lung and facio-auriculo-vertebral sequence: A previously unreported association

PEDIATRIC PULMONOLOGY, Issue 6 2006
Lisa D'Alessandro MD
Abstract We describe a case of horseshoe lung in an infant with facio-auriculo-vertebral (FAV) sequence that included mild hemifacial microsomia, ear anomalies, a missing left rib, left hemivertebrae (T2,T4), and complex congenital heart disease. Of the approximately 40 cases of horseshoe lung described since 1962, most are reported in association with scimitar syndrome, and only four reported cases were associated with left lung hypoplasia. None of these cases included malformations consistent with a diagnosis of FAV sequence. Pediatr Pulmonol. © 2006 Wiley-Liss, Inc. [source]


Surfactant protein expression is increased in the ipsilateral but not contralateral lungs of fetal sheep with left-sided diaphragmatic hernia,

PEDIATRIC PULMONOLOGY, Issue 4 2005
Marcus G. Davey PhD
Abstract Congenital diaphragmatic hernia (CDH) impairs fetal lung growth and increases the density of alveolar epithelial type 2 (AE2) cells. There is controversy whether surfactant protein (SP) expression is altered in CDH. The primary aim of this study was to assess SP expression (mRNA and protein) in the left and right lungs of fetal sheep with and without a diaphragmatic hernia (DH). Left-sided DH was created in four fetal sheep at 65 days of gestational age (g.a.). Sham-operated animals were used as controls. At 138 days g.a., lungs were harvested and the following parameters were measured: SP-A, -B, and -C mRNA expression (Northern blot), SP-A and -B expression (Western blot), and AE2 cell density (immunohistochemistry). The lung weight-to-body weight ratio was reduced by 42% in DH animals. The left-to-right lung weight ratio was lower in DH animals (0.47,±,0.03 vs. 0.69,±,0.03), indicative of asymmetric lung growth. SP-A, -B, and -C mRNA expression were increased by 61.7%, 32.9%, and 75.5%, respectively, in the left lungs of DH animals. SP-A and SP-B were also increased in DH. In the right lung, SP expression (mRNA and protein) was not different between groups. AE2 cell density was higher (by 67%) in the left but not right lungs of DH animals. Although DH in fetal sheep results in significant lung hypoplasia, SP expression is not reduced. On the contrary, SP expression was increased in the ipsilateral lung of fetuses with left-sided DH. Furthermore, AE2 cell density is increased in DH, suggesting that the increase in SP mRNA and protein levels is due to increases AE2 cell number. Our data further support the premise that fetal lung hypoplasia favors an AE2 phenotype. Pediatr Pulmonol. 2005; 39:359,367. © 2005 Wiley-Liss, Inc. [source]


Stimulation of lung growth in fetuses with lung hypoplasia leads to altered postnatal lung structure in sheep

PEDIATRIC PULMONOLOGY, Issue 4 2001
M.G. Davey PhD
Abstract Increased lung expansion in the fetus stimulates lung growth and is being trialed clinically to reverse severe fetal lung hypoplasia. Our aim was to examine the effects of increased fetal lung expansion in the presence of lung hypoplasia on lung structure in sheep at term and 8 weeks after birth. Lung hypoplasia was induced in 15 fetal sheep by continuous drainage of tracheal fluid, commencing at ,113 days of gestation (term, ,148 days). In 10 of these fetuses, tracheal obstruction (TO) was performed from 137,147 days of gestation (treated lung hypoplasia, TLH), while lung liquid drainage continued until term in the remaining 5 fetuses (untreated lung hypoplasia, ULH). Lung tissues were obtained from 5 TLH, 5 ULH, and 5 control lambs at birth, and from 5 TLH and 5 control lambs at 8 weeks after birth. At birth, alveolar number, surface area, and interalveolar wall thickness were not different between TLH and control lambs, whereas airspace diameter was greater in TLH lambs (72.7,±,3.0 ,m) than in controls (58.4,±,4.3 ,m). Diameters of airspaces were not different between ULH and control lambs; however, alveolar numbers and surface area were reduced, while interalveolar wall thickness was increased in ULH lambs compared to controls. At 8 weeks after birth, alveolar number (928.0,±,66.1,×,106) and surface area (30.3,±,2.2 m2) in TLH lambs were lower, whereas interalveolar wall thickness (83.0,±,3.1,m) was greater than in control lambs (2,263.6,±,261.6,×,106, 46.7,±,4.8 m2, and 68.6,±,2.1 ,m, respectively). Our data show that TO restores most aspects of lung structure to normal in fetuses with lung hypoplasia but leads to altered alveolar development. The presence of fewer, larger alveoli in postnatal TLH animals may predispose these animals to respiratory complications during later life. Pediatr Pulmonol. 2001; 32:267,276. © 2001 Wiley-Liss, Inc. [source]


Patent ductus arteriosus flow patterns in the treatment of congenital diaphragmatic hernia

PEDIATRICS INTERNATIONAL, Issue 4 2009
Shinya Okamoto
Abstract Background:, Congenital diaphragmatic hernia (CDH) mortality still remains high, due to lung hypoplasia and persistent pulmonary hypertension of the neonate (PPHN). Effective management of PPHN and time of operation are quite important to the improvement of CDH treatment. In order to determine the optimal time for operation, we monitored PPHN with cardiac ultrasound. Methods:, PPHN was assessed with three parameters: patent ductus arteriosus flow patterns (PDAFP), %left ventricular diameter at diastole, and left ventricular fraction of shortening (LVFS). Four patients with an antenatal diagnosis were treated under this protocol. Diaphragm repair was performed when PDAFP became left to right shunt dominant and the pre- and postoperative course was analyzed with regular chart reviews. Results:, The alveolar-arterial oxygen difference levels of four patients were 590, 335, 613 and 530 mmHg, and operations were carried out when the patients were 2, 2, 3 and 2 days old, respectively. In three of the four patients (all except case 3) the PDAFP changed from right to left shunt dominant or bidirectional (BD), to left to right shunt dominant within 48 h. The %left ventricular diameter at diastole was relatively stable around the time of operation. The LVFS of all patients decreased after the operation. Only the LVFS of case 3 decreased temporarily to less than 30% (which indicates poor left ventricular function) but recovered. No patients needed extracorporeal membrane oxygenation support. All patients survived the procedure and were extubated. Case 3, who took 10 days to become left to right shunt dominant after the operation, needed home oxygenation therapy for 10 months. Conclusions:, PDAFP was a reliable marker of PPHN on a high-frequency oscillatory ventilator to determine the optimal time for the operation for CDH. The optimal time for operation is supposed to be the time when PDAFP become left to right shunt dominant. [source]


Deletion 15q24-26 in prenatally detected diaphragmatic hernia: increasing evidence of a candidate region for diaphragmatic development

PRENATAL DIAGNOSIS, Issue 4 2001
D. Schlembach
Abstract Survival of children with congenital diaphragmatic hernia (CDH) is mainly dependent on the extent of lung hypoplasia and the presence of additional congenital anomalies or chromosomal aberrations. A chromosomal deletion 15q25-q26.2 in a fetus with prenatally diagnosed CDH and growth retardation is reported. Despite optimal pre- and neonatal management the baby died shortly after birth. There is increasing evidence that the long arm of chromosome 15, and especially the region 15q24 to 15q26, plays a crucial role in the development of the diaphragm. The finding of a deletion within 15q24-26 in a fetus with CDH has to be considered a predictor of poor prognosis. It is of utmost interest for proper parental counselling to search in fetuses with CDH for subtle chromosomal lesions paying special attention to chromosome 15q. Copyright © 2001 John Wiley & Sons, Ltd. [source]