Lung organoids: a new frontier in neonatology and paediatric respiratory medicine

医学 类有机物 先天性膈疝 重症监护医学 生物信息学 病理 神经科学 生物 遗传学 胎儿 怀孕
作者
Lorenzo Zanetto,Luca Bonadies,Raquel Moll‐Diaz,Jeffrey M. Beekman,Maurizio Muraca,Michela Pozzobon,Eugenio Baraldi
出处
期刊:European Respiratory Review [European Respiratory Society]
卷期号:34 (177): 240255-240255
标识
DOI:10.1183/16000617.0255-2024
摘要

Great strides have been made in pre-clinical research in recent decades using animal models and cell lines. However, traditional models may fail to translate to humans, resulting in substantial failure rates in drug development. Recent three-dimensional organoid models have borne a good resemblance to the architecture, development and function of tissues, especially for organs with complex cell interactions and dynamics such as the lungs. In 2022, the role of organoids as alternative to animal testing was recognised by the US Food and Drug Administration. We searched Medline and ClinicalTrials.gov for studies on the experimental use of lung organoids to model disease pathogenesis and test treatments for paediatric and neonatal respiratory diseases. We comprehensively review the translational value of organoids for paediatric and neonatal respiratory conditions, with current limitations and future expectations, while glancing at other in vitro respiratory models. Combinations of organoid models varying in derivation and differentiation have been used to test interventions for conditions such as infectious/inflammatory diseases, abnormalities of the lung vasculature, surfactant deficiency and genetic diseases. Even multifactorial diseases such as congenital diaphragmatic hernia and bronchopulmonary dysplasia are benefiting from new options for patient-specific sampling and organoid derivation. Microscale technologies and engineering contribute to further advancements in lung-on-chip and microfluidic environments. Overall, organoids show great potential as a bridge between basic research and clinical applications, with versatile adaptability to research purposes. Patient-derived organoids carry exciting possibilities for both personalised medicine and clinical research. Rapid advances in regenerative medicine and engineering have opened up new avenues for neonatology and paediatric respiratory medicine.

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