Influence of upper respiratory tract on liquid flow to and from fetal lungs

Harding, Richard; Bocking, AD; Sigger, J. N.

doi:10.1152/jappl.1986.61.1.68

Cited by 95 publications

(50 citation statements)

References 0 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In contr ast, after tracheal obstruction lung liquid volumes progressively increased to control values after 6 d, and associated with this increase in volume was an increase in tracheal pressure; the values measured were similar to the values we recorded in fetuses exposed to 7 d of tracheal occlusion (4). Consequently, we sugges t that the generation of an intraluminal pressur e that will expand the hypoplastic fetal lung to a level that will significantly stimulate lung growth, must be dependent upon the presence of a resistance to lung liquid efflux that is greater than that which norm ally occurs during fetal apnea as a result of glottic narrowing (15,16). Indeed, the mean tracheal pressure measured in one fetus after reconnection of the tracheal circuit (drain and reconnect, 3.4 ± 0.4 mm Hg) was simil ar to that measured in control fetuses at the same age.…”

Section: Methodssupporting

confidence: 80%

“…Furthermore, we sugges t that the failure of the hypoplastic lung to expand, in the absence of tracheal obstruction, is most probably the consequence of a relatively incompli ant lung and, perhaps more importantly, chest wall (23). Under these conditions, the normal resistance to lung liquid efflux offered by the upper airway (15,16) is prob ably insufficient to promote fluid accumulation and, therefore, increase lung expansion to the level required to stimulate lung grow th. In contrast, obstruction of the trachea in fetu ses with hypopl astic lung s quickl y increases the degree of lung expansion to normal levels, accelerat es lung growth and rever ses the lung growth deficit in as little as 6 d. Our findin gs support the recent observati ons that occlusion of the trach ea increases lung growth in fetal sheep with hypopl astic lung s indu ced by either herniation of the fetal diaph ragm (24) or nephrectomy (5) .…”

Section: Methodsmentioning

confidence: 86%

See 1 more Smart Citation

Lung Hypoplasia Can Be Reversed by Short-Term Obstruction of the Trachea in Fetal Sheep

1995

View full text Add to dashboard Cite

i\HSTR,A T Vol. 38, No.5, 1995 Primed ill U.S.A.Our aim was 10 determine whether an existing lung growth deficit could be reversed, in utero, by short-term (6 d) obstruction of the fetal trachea. Chronically catheterized fetal sheep (term -145 d) were divided into four groups: 1) no treatment (control); 2) continuous lung liquid drainage to induce lung hypoplasia Th roughout mos t of gestation the lungs are filled with a liquid that is secreted across the pulmonary epithelium and leaves the lungs via the trachea. It is well established that the vo lume of liqu id retained wit hin the future airways is critical for normal lung growth and deve lopment. Obstruct ion of the feta l trach ea, wh ich causes secreted lung liquid to accumulate in the future airways resulting in increased expansion of the lungs (1) , greatly increases lung growth (2, 3). Conversely, prolonged drainage of feta l lung liqu id to the exterior causes lung deflation and a near cessation of lung grow th (2, 3). We have recently show n that the increase in lung growth induced by tracheal obstruction is ver y rapi d and occurs within 7 d of blocking the feta l trachea (4). Such results have led to the suggestion that short-term per iods of tracheal obstruct ion ma y rapi dly reverse an existing lung growth deficit in utero (4, 5).Inadequ ate lung growth during feta l life res ults in pul monary hypoplasi a at birth and is a common cause of perinatal mor- mg/kg versus 94 :t 7 mg/kg). Reestablishing tracheal flow for 6 d (drain and reconnect) increased fetal lung wet weights (19.2 :t 1.6 g/kg), but not total DNA contents (106 :t 9 mg/kg), compared with lung liquid drained fetuses (drain). After 6 d of tracheal obstruction (drain and obstruct) lung liquid volumes, wet lung weights, and total protein contents (weight, 28.6 :t 2.8 g/kg; protein, 1376 :t 97 mg/kg) were similar to control values (weight, 34.3 :t 2.6 g/kg; protein, 1506 :t 123 mg/kg); lung DNA contents were less than control but greater than values from lung liquid drained fetuses (drain and obstruct, 140 :t 9 mg/kg versus drain, 94 :t 7 mg/kg). We conclude that obstruction of the trachea can reverse an existing fetal lung growth deficit in approximately 6 d, whereas merely restoring tracheal continuity does not increase fetal lung growth. (Pediatr Res 38: 690-69 6, 1995) bidity and mortality in new born infants (6, 7). To avoid the postnatal consequences of fetal lung hypoplasia in humans, atte mpts have been made to surgically treat this condition in utero, before the lungs are required for gas exchange. However, these treatments have principally foc used on correcting the und erlying abnormality rather than attempting to acce lerate lung growth directly (8, 9). As increased fe tal lung expansion, resulting from tracheal obstruction, is a potent and rapid way of accelerating fetal lung gro wth (2-4), we considered it possible tha t trac hea l obstruction may rapi dly reve rse an exi sting lung growth defici t in utero. The aim of this study was to determine whether fe tal lun...

show abstract

Section: Methodssupporting

confidence: 80%

Section: Methodsmentioning

confidence: 86%

Lung Hypoplasia Can Be Reversed by Short-Term Obstruction of the Trachea in Fetal Sheep

1995

View full text Add to dashboard Cite

show abstract

“…Since the correlation of L allele with raphé nuclei hypoplasia was found in our study also in high percentage of SIUD, it is reasonable to speculate whether breathing alterations can lead to death during intrauterine life. We know that periodic fetal breathing regulates the release of tracheal fluid in the lung, and consequently alveolar expansion, to favor lung development (33,34). Nevertheless, defective intrauterine respiratory movements would not be sufficient to justify fetal loss.…”

Section: Discussionmentioning

confidence: 99%

Sudden Infant Death Syndrome and Sudden Intrauterine Unexplained Death: Correlation Between Hypoplasia of Raphé Nuclei and Serotonin Transporter Gene Promoter Polymorphism

et al. 2009

View full text Add to dashboard Cite

This study, besides to delineate the cytoarchitecture and the localization in the brainstem of the human raphé nuclei, aims to evaluate the correlation between neuropathological raphé defects and serotonin transporter gene (5-HTT) promoter region polymorphisms in a cohort of 28 SIDS victims, 12 sudden intrauterine unexplained deaths (SIUD), and 17 controls. Hypoplasia of one or more nuclei of both the rostral and caudal raphé groups was found in 57% of SIDS, in 67% of SIUD, and only in 12% of controls. Furthermore, a significant correlation among 5-HTT Long (L) allele, hypoplasia of the raphé nuclei, and maternal smoking in pregnancy was observed in sudden fetal and infant deaths. The presence of the L allele represents a predisposing factor for sudden fetal and infant death in association with morphologic developmental defects of the raphé nuclei and prenatal smoke exposure. A further consideration of the authors is that SIUD should not be regarded as a separate entity from SIDS, given the potentially shared neuropathological and genetic bases. additionally described an increase in number and density of serotonin cell bodies in the raphé, particularly in the raphé obscurus nucleus, in SIDS victims.The above-described neuropathological studies served as the impetus for investigation of genes regulating the synthesis, storage, membrane uptake, and metabolism of 5-HT, as well as related receptors in SIDS cohorts (4 -15). Key positive findings include the promoter region and intron 2 of the serotonin transporter gene (5-HTT) Long (L) allele, the L/L genotype, and the haplotype including the L alleles of both polymorphisms, and low frequency but apparent genetic variants in the FEV gene (11) and the PHOX2B gene (12). These results likely have a role in serotonin network dysfunction, resulting in a failure of autonomic and respiratory responses to hypoxia and/or hypercapnia, potentially resulting in risk for sudden death.Although the association of the promoter polymorphism L allele of the 5-HTT with SIDS has been widely documented, correlation with brainstem neuropathology and identification of all nuclei of the raphé complex in histopathologic studies in SIDS is limited. Further, the medullary serotonergic network in fetal life has not yet been described. Therefore, we aim to 1) clearly delineate the histology of the human raphé system in a cohort of SIDS victims and sudden intrauterine unexplained death (SIUD) cases; 2) determine the 5-HTT promoter region polymorphism in the same cohort of SIDS and SIUD; and 3) clarify the relationship of the 5-HTT L allele to cytoarchitectural alterations of the raphé complex in both the SIDS and SIUDs. Because maternal smoking is consistently identified as a risk factor for SIDS (16,17), the possible influence of maternal smoking in the serotonergic development will also be examined. MATERIALS AND METHODSStudy Subjects. The study included three groups of Caucasian infants: a SIDS cohort, a SIUD cohort, and a control group.SIDS and SIUD victims. The SIDS cases included ...

show abstract

“…The larynx is adducted in the fetus to restrain the efflux of lung fluid and to promote lung expansion and lung growth, while after birth, larynx abduction is required to enable lung aeration [8, 17, 18]. However, there is evidence that the larynx continues to function as during fetal life, remaining mostly closed during apnea and only opening briefly when a breath is taken.…”

Section: The Larynxmentioning

confidence: 99%

The Changing Landscape in Supporting Preterm Infants at Birth

2019

View full text Add to dashboard Cite

Noninvasive ventilation for preterm infants at birth has been recommended and universally adopted. The umbilical cord is often clamped immediately in order to provide the support the infant needs for stabilization. However, recent scientific data from experimental studies that involve animals in transition and human studies using physiological measurements at birth have increased awareness as to how little we know about how these interventions interact and integrate with the infant’s changing physiology. It has become clear that in apneic infants the larynx is closed immediately after birth, which can completely negate the effect of noninvasive ventilation of the lung. For this reason, stimulating and supporting spontaneous breathing could enhance the success of noninvasive ventilation. Animal data also demonstrated that the large swings in blood pressure, blood flow, and oxygenation caused by immediate cord clamping can be avoided by postponing cord clamping until lung aeration has been established. In this review we will focus on these “game changers” that have the potential to completely change the approach used in stabilizing preterm infants at birth.

show abstract

Influence of upper respiratory tract on liquid flow to and from fetal lungs

Cited by 95 publications

References 0 publications

Lung Hypoplasia Can Be Reversed by Short-Term Obstruction of the Trachea in Fetal Sheep

Lung Hypoplasia Can Be Reversed by Short-Term Obstruction of the Trachea in Fetal Sheep

Sudden Infant Death Syndrome and Sudden Intrauterine Unexplained Death: Correlation Between Hypoplasia of Raphé Nuclei and Serotonin Transporter Gene Promoter Polymorphism

The Changing Landscape in Supporting Preterm Infants at Birth

Contact Info

Product

Resources

About