Impact of Early- and High-Dose Caffeine on the Cerebellum Development in Newborn Rats.

Neonatology Pub Date : 2024-07-25 DOI:10.1159/000540077
Lourdes Lemus-Varela, Blanca Torres-Mendoza, Paola Rabago-Domingo, Jhonathan Cárdenas-Bedoya, Guillermo M Zúñiga-González, Erandis D Torres-Sanchez, Genaro Gabriel-Ortiz
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Abstract

Introduction: Preterm newborns struggle with maintaining an adequate respiratory pattern; early caffeine administration is suggested to stimulate respiration and reduce bronchopulmonary dysplasia, however, its consequences on the immature cerebellum remains unknown. This study aimed to assess the impact of early caffeine administration, at standard and high doses, accompanied by supplemental oxygen on cerebellar development in an experimental model.

Methods: Five groups of Wistar pups were formed (n = 8 offspring/group): (a) negative control: no intervention; (b) placebo: pups remaining from birth until the 7th day of life (DOL) exposed to fractional inspired oxygen (FiO2) 45%, resembling preterm infant condition and as a placebo, 0.2 mL oral 5% dextrose, from the first DOL until the 14th DOL; (c) caffeine group: oral caffeine, 1st DOL 20 mg/kg, and from 2nd to 14th DOL, 5 mg/kg (standard dose); (d) caffeine at the standard dose, plus O2: during the first 7 DOLs (FiO2: 45%); (e) caffeine: 40 mg/kg in the first DOL, 10 mg/kg the next 14 DOLs, plus O2 in the first 7 DOLs (FiO2: 45%). Subjects were sacrificed on their 15th DOL; measurements were taken from the cerebellum, specifically the external granular layer (EGL) and molecular layer (ML), with quantification of cell migration.

Results: Caffeine administration in pups resulted in a delay in cerebellum development based on persistent transitional EGL cells; this finding was exacerbated in groups exposed to caffeine plus O2, as evident from the thicker EGL. The negative control group showed near-complete cell migration with a thicker ML and a significantly smaller EGL.

Conclusions: Early caffeine administration in newborn rats disrupts cerebellar cortex cell processes and connectivity pathways, with exacerbated effects in groups receiving caffeine plus O2.

早期和高剂量咖啡因对新生大鼠小脑发育的影响
导言:早产新生儿难以维持适当的呼吸模式;有人认为早期服用咖啡因可刺激呼吸并减少支气管肺发育不良,但咖啡因对未成熟小脑的影响尚不清楚。本研究旨在评估标准剂量和高剂量的早期咖啡因给药以及补充氧气对实验模型小脑发育的影响:方法:将 Wistar 幼崽分成五组(n = 8 个后代/组):(a)阴性对照组:不进行干预;(b)安慰剂组:幼崽从出生到出生后第 7 天(DOL)一直暴露于分数通气氧(FiO2)45% 的环境中,类似早产儿的状况,作为安慰剂,幼崽口服 0.2毫升口服5%葡萄糖,从出生后第1天至出生后第14天;(c)咖啡因组:口服咖啡因,出生后第1天20毫克/千克,出生后第2天至出生后第14天5毫克/千克(标准剂量);(d)标准剂量咖啡因,加上氧气:出生后第7天(FiO2:45%);(e)咖啡因:出生后第1天40毫克/千克,出生后第14天10毫克/千克,出生后第7天加上氧气(FiO2:45%)。受试者在第 15 个 DOL 被处死;测量小脑,特别是外部颗粒层 (EGL) 和分子层 (ML),并对细胞迁移进行量化:结果:对幼鼠施用咖啡因会导致小脑发育延迟,因为过渡性外颗粒层细胞持续存在;这一发现在暴露于咖啡因和氧气的组中更为严重,外颗粒层细胞变厚就是证明。阴性对照组的细胞迁移接近完全,ML较厚,EGL明显较小:结论:新生大鼠早期摄入咖啡因会破坏小脑皮层细胞过程和连接通路,咖啡因加氧气组的影响更严重。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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