Respiratory System - Postnatal: Difference between revisions

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[[Respiratory System - Postnatal#References|References]] | [[Talk:Respiratory_System_-_Postnatal|Recent References]]
[[Respiratory System - Postnatal#References|References]] | [[Talk:Respiratory_System_-_Postnatal|Recent References]]


[[File:Postnatal alveoli number.jpg|thumb|Postnatal alveoli number]]
[[File:Neonatal rib orientation.jpg|thumb|Rib orientation]]


==Alveolar Stage==
==Alveolar Stage==
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==Rib Orientation==
==Rib Orientation==


[[File:Neonatal rib orientation.jpg|thumb|Rib orientation]]
===Infant Rib===
===Infant Rib===



Revision as of 12:32, 1 March 2012

Introduction

This site mainly focuses on prenatal development, but the respiratory system is one of those that continues to grow and change postnatally. This page includes some topics related to this postnatal development.

Respiratory Links: respiratory | Science Lecture | Lecture Movie | Med Lecture | Stage 13 | Stage 22 | upper respiratory tract | diaphragm | Histology | Postnatal | respiratory abnormalities | Respiratory Quiz | Respiratory terms | Category:Respiratory
Historic Embryology - Respiratory 
1902 The Nasal Cavities and Olfactory Structures | 1906 Lung | 1912 Upper Respiratory Tract | 1912 Respiratory | 1913 Prenatal and Neonatal Lung | 1914 Phrenic Nerve | 1918 Respiratory images | 1921 Respiratory | 1922 Chick Pulmonary Vessels | 1934 Right Fetal Lung | 1936 Early Human Lung | 1937 Terminal Air Passages | 1938 Human Histology

Some Recent Findings

References | Recent References


Alveolar Stage

Alveolar sac structure
  • The postnatal lung, with alveoli forming.
  • Expansion of gas exchange alveoli, vascular beds (capillaries), lymphatics and innervation.
  • Very premature infants will still be at the earlier Saccular stage.

Preterm Saccular Stage

  • week 24 to near term.
  • most peripheral airways form widened "airspaces", termed saccules.
  • saccules widen and lengthen the airspace (by the addition of new generations).
  • future gas exchange region expands significantly.
  • Fibroblastic cells also undergo differentiation, they produce extracellular matrix, collagen, and elastin.
    • May have a role in epithelial differentiation and control of surfactant secretion.
  • Alveolar Cells Type II (Type II pneumocytes)
    • begin to secrete surfactant, levels of secretion gradually increase to term.
    • allows alveoli to remain inflated
  • Vascular tree - also grows in length and diameter during this time.
Links: Principal stages of lung development in humans

Alveoli Number

  • At birth about 15% of adult alveoli number have formed
    • 20 - 50 million to in the adult about 300 million.
  • remaining subdivisions develop in the first few postnatal years
Postnatal alveoli number
Age (months) Alveoli (million) Respiratory Airways (million) Generations of Airways
Birth 24 1.5
3 86 1.8
3 77 2.5 21
3 73 2.0
7 112 3.7
13 129 4.5 22
16 127 4.7
22 160 7.1
48 257 7.9
98 280 14.0 23
Adult 296 14.0 23

Dunnill MS. Postnatal growth of the lung. Thorax 1962;17:329–333. PDF

<pubmed>139844</pubmed>| PDF

<pubmed>1094872</pubmed>

Respiratory Rate

  • neonatal rate is higher (30-60 breaths/minute) than adult (12-20 breaths/minute).
    • tachypnea - (Greek, rapid breathing) an increased respiratory rate of greater than 60 breaths/minute in a quiet resting baby
Age Rate (breaths/minute)
Infant (birth - 1 year) 30 - 60
Toddler (1 - 3 years) 24 - 40
Preschool (3 - 6 years) 22 - 34
School age (6 - 12 years) 18 - 30
Adolescent (12 - 18 years) 12 - 16

Rib Orientation

Rib orientation

Infant Rib

  • lies virtually horizontal
  • allowing diaphragmatic breathing only.

Adult Rib

  • lies oblique (both anterior and lateral views)
  • allows for both pump-handle and bucket handle types of inspiration.

References


Reviews

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Articles

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Search PubMed

Search Pubmed: PostnatalTract Development |

Terms

  • antenatal before birth.
  • alveoli number at birth - from 20 - 50 million and eventually in the adult 300 million.
  • Bronchopulmonary dysplasia - (BPD) the most common serious sequela of premature birth.
  • Bronchiolitis - is a viral infection of the lower respiratory tract and most common lower respiratory tract infection in infants. Respiratory syncytial virus (RSV) is responsible for 70 percent of all cases overall and Parainfluenza, adenovirus and influenza account for most of the remaining cases. (HSTAT Management of Bronchiolitis in Infants and Children)
  • Chronic obstructive pulmonary disease (COPD) causes include smoking (85–90 percent of all cases), genetic factors (alpha-1 antitrypsin deficiency), passive smoking (children), occupational exposures, air pollution, and hyperresponsive airways. (HSTAT Management of Acute Exacerbations of Chronic Obstructive Pulmonary Disease)
  • Clara cells non-ciliated cell found in the small airways (bronchioles) consisting of ciliated simple epithelium, these cells secrete glycosaminoglycans (Clara cell secretory protein, CCSP) to protect the bronchiole lining.
  • Congenital Diaphragmatic Hernia (CDH) disorder with an incidence of 1 in 2500 live births.
  • fetal breathing-like movements (FBMs) or Fetal respiratory movements are thought to be regular muscular contrations occurring in the third trimester, preparing the respiratory muscular system for neonatal function and to have a role in late lung development.
  • FEV - Forced Expiratory Volume
  • forced expiratory volume - (FEV) Spirometry term for the fraction of the forced vital capacity that is exhaled in a specific number of seconds. Abbreviated FEV with a subscript indicating how many seconds the measurement lasted.
  • glucocorticoid treatment - antenatal therapy to promote the maturation of the human fetal lung. Given as a synthetic glucocorticoid between 24 and 32 weeks of pregnancy to promote lung maturation in fetuses at risk of preterm delivery.
  • lamellar bodies the storage form of surfactant in type II alveolar cells, seen as centrically layered "packages" of phospholipid. A count of lamellar bodies can be used as an assay for measuring fetal lung maturity.
  • maternal diabetes if not controlled in pregnancy may delay fetal pulmonary maturation.
  • Persistent Pulmonary Hypertension of the Newborn (PPHN) serious newborn condition due to due to the failure of closure one of the prenatal circulatory shunts, the ductus arteriosus. Occurs in about 1-2 newborns per 1000 live births and results in hypoxemia. (More? Respiratory Development - Birth)
  • Pharyngitis inflammation of the pharynx involving lymphoid tissues of the posterior pharynx and lateral pharyngeal bands.
  • pneumocyte or alveolar type I and type II cells.
  • pulmonary hypoplasia can be due to anencephaly, renal hypoplasia or abnormalities of the thoracic cage
  • pulmonary neuroendocrine cells (PNEC) single or innervated clusters of cells (neuroepithelial bodies) that line the airway epithelium, thought to have a role in regulating fetal lung growth and differentiation. At birth may also act as airway oxygen sensors involved in newborn adaptation. These cells synthesis and release amine (serotonin, 5-HT) and a several neuropeptides (bombesin).
  • Respiratory distress syndrome (RDS) due to a surfactant deficiency at birth, particulary in preterm birth.
  • secondary alveolar septa formed during the alveolar stage and are formed by projections of connective tissue and a double capillary loop.
  • Spirometry - clinical measure of respiratory airflow.
  • surfactant produced by alveolar type II cells is a mixture of lipids and proteins that both maintains alveolar integrity and plays a role in the control of host defense and inflammation in the lung.
  • Surfactant therapy (American Academy of Pediatrics Policy | Canadian Paediatric Society Recommendations)
  • thyroid hormone involved in the regulation of fetal lung development.
  • vascular endothelial growth factor (VEGF) a secreted growth factor acting through receptors on endothelial cells to regulate vasculogenesis through their development, growth and function.


Glossary Links

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Cite this page: Hill, M.A. (2024, March 28) Embryology Respiratory System - Postnatal. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/Respiratory_System_-_Postnatal

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© Dr Mark Hill 2024, UNSW Embryology ISBN: 978 0 7334 2609 4 - UNSW CRICOS Provider Code No. 00098G