Science and Research

Differential temporal development of alveoli and the alveolar capillary network in the postnatal rat lung

Quantitative data about the internal lung structure are needed to better understand normal and pathological lung development. Aberrant lung development causes deficits in alveolar and microvascular development, however, the normal temporal relationship between these processes is still not fully understood. We hypothesized that alveolar and capillary development show a differential time pattern. Lungs of rats aged 3, 7, 14, 21 days or 3 months (n = 8-10 each) were fixed by vascular perfusion and processed for light microscopy. Using design-based stereology number, surface area and volume of alveoli, septal capillaries and alveolar septa was quantified. The total number and the total volume of alveoli increased progressively during postnatal development. Interestingly, the numerical density of capillary loops was significantly higher in 14 and 21 day old rats than before or after this age, causing a duplication of the total number of capillary loops between 1 and 2 weeks of age. The mean thickness of alveolar septa started to decline slightly at the age of 14 days and more pronounced at later stages. While the septal epithelial surface area increased in proportion to alveolar number during the first 3 weeks, the capillary endothelial surface area grew only slightly compared with the number of capillaries. In conclusion, the number of elements composing alveolar capillary network expands massively during the first two postnatal weeks and exceeds the formation of alveoli. The thinning of the alveolar septa during further development suggests a reduction of the capillary network during alveolarization.

  • Werner, J.
  • Schipke, J.
  • Brandenberger, C.
  • Schmiedl, A.
  • Mühlfeld, C.

Keywords

  • Euler number
  • alveolarization
  • lung development
  • microvascular maturation
  • stereology
Publication details
DOI: 10.1152/ajplung.00273.2022
Journal: Am J Physiol Lung Cell Mol Physiol
Work Type: Original
Location: BREATH
Disease Area: DPLD
Partner / Member: MHH
Access-Number: 36283087

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