J Pediatr Surg
. 2024 Feb 14:S0022-3468(24)00078-2.
doi: 10.1016/j.jpedsurg.2024.01.046. Online ahead of print. https://pubmed.ncbi.nlm.nih.gov/38413261/
Microinjection With Nanoparticles to Deliver Drugs in Prenatal Lung Explants – A Pilot Study for Prenatal Therapy in Congenital Diaphragmatic Hernia
Yuichiro Miyake 1, Wai Hei Tse 2, Jia Qi Wang 2, Daywin Patel 2, Arzu Ozturk 2, Atsuyuki Yamataka 3, Richard Keijzer 4
Affiliations expand
- PMID: 38413261
- DOI: 10.1016/j.jpedsurg.2024.01.046
Abstract
Background: Fetoscopic endoluminal tracheal occlusion (FETO) improves the survival rate in fetuses with severe congenital diaphragmatic hernia (CDH). We hypothesize that prenatal therapies into the trachea during FETO can further improve outcomes. Here, we present an ex vivo microinjection technique with rat lung explants to study prenatal therapy with nanoparticles.
Methods: We used microsurgery to isolate lungs from rats on embryonic day 18. We injected chitosan nanoparticles loaded with fluorescein (FITC) into the trachea of the lung explants. We compared the difference in biodistribution of two types of nanoparticles, functionalized IgG-conjugated nanoparticles (IgG-nanoparticles) and bare nanoparticles after 24 h culture with immunofluorescence (IF). We used IF to mark lung epithelial cells with E-cadherin and to investigate an apoptosis (Active-caspase 3) and inflammatory marker (Interleukin, IL-6) and compared its abundance between the two experimental groups and control lung explants.
Results: We detected the presence of nanoparticles in the lung explants, and the relative number of nanoparticles to cells was 2.49 fold higher in IgG-nanoparticles than bare nanoparticles (p < 0.001). Active caspase-3 protein abundance was similar in the control, bare nanoparticles (1.20 fold higher), and IgG-nanoparticles (1.34 fold higher) groups (p = 0.34). Similarly, IL-6 protein abundance was not different in the control, bare nanoparticles (1.13 fold higher), and IgG-nanoparticles (1.12 fold higher) groups (p = 0.33).
Conclusions: Functionalized nanoparticles had a higher presence in lung cells and this did not result in more apoptosis or inflammation. Our proof-of-principle study will guide future research with therapies to improve lung development prenatally.
Levels of evidence: N/A TYPE OF STUDY: Animal and laboratory study.
Keywords: Congenital diaphragmatic hernia; Lung explants; Nanoparticles; Prenatal therapy; Tracheal occlusion.
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