Protective Effects of Hydrogen-rich Water Intake on Renal Injury in Neonatal Rats with High Oxygen Loading

抄録

Objectives This study aimed to investigate the protective effects of hydrogen-rich water (HW) intake on renal injury in neonatal rats with high oxygen loading.

Materials We used pregnant and newborn Sprague-Dawley rats.

Methods Four groups were set up, with mother and newborn rats immediately after delivery as one group: RA-PW (room air and purified water), RA-HW (room air and HW), O₂-PW (80% oxygen and purified water), and O₂-HW (80% oxygen and HW). The newborn rats were maintained in either a normoxic (room air, 21% oxygen) or controlled hyperoxic (80% oxygen) environment from birth. Then, HW (O₂-HW and RA-HW groups) or PW (O₂-PW and RA-PW groups) was administered to parents of each group.

Results The number of immature glomeruli significantly increased in the O₂-PW group (exposed to hyperoxia). Conversely, the O₂-HW group had significantly fewer immature glomeruli than O₂-PW group. In the RT-PCR analysis of kidney tissue, α-SMA, TGF-β, and TNF-α levels were significantly higher in the O₂-PW group than in the RA-PW group and significantly lower in the O₂-HW group than in the O₂-PW group.

Conclusions HW intake can potentially reduce oxidative stress and prevent renal injury in neonates with high oxygen loading.