Article ID Journal Published Year Pages File Type
5925948 Respiratory Physiology & Neurobiology 2015 8 Pages PDF
Abstract

•High altitude (HA) residence up to 12 month enhances lung growth in young guinea pigs.•Gains in type-1 epithelium volume and surface reverse after return to intermediate altitude (IA).•Gains in type-2 epithelium and interstitium volumes persist after return to IA.•HA-induced alveolar growth and remodeling are partially reversible.•Results indicate significant structural plasticity in the distal lung.

Laboratory guinea pigs raised at high altitude (HA, 3800 m) for up to 6 mo exhibit enhanced alveolar growth and remodeling (Hsia et al., 2005. Resp. Physiol. Neurobiol. 147, 105-115). To determine whether initial HA-induced structural enhancement persists following return to intermediate altitude (IA), we raised weanling guinea pigs at (a) HA for 11-12 mo, (b) IA (1200 m) for 11-12 mo, and (c) HA for 4 mo followed by IA for 7-8 mo (HA-to-IA). Morphometric analysis was performed under light and electron microscopy. Body weight and lung volume were similar among groups. Prolonged HA residence increased alveolar epithelium and interstitium volumes while reducing alveolar-capillary blood volume. The HA-induced gains in type-1 epithelium volume and alveolar surface area were no longer present following return to IA whereas volume increases in type-2 epithelium and interstitium and the reduction in alveolar duct volume persisted. Results demonstrate persistent augmentation of some but not all aspects of lung structure throughout prolonged HA residence, with partial reversibility following re-acclimatization to IA.

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