Effects of Psychogenic Stress Frequency during the Growth Stage on Oxidative Stress, Organ and Bone Development.

BACKGROUND: This study aimed to examine the effects of psychogenic stress (PS) frequency on oxidative stress and organ development during growth and to gain fundamental insights into developmental processes during this period. METHODS: Four-week-old male Wistar rats were randomly assigned to a control and three PS groups according to PS frequencies. PS was induced using restraint and water immersion techniques once daily for 3 hr at a time for a period of 4 weeks. RESULTS: Oxidative stress increased with increasing PS frequency. The weights of organs other than the adrenal glands significantly decreased with increasing PS frequency, indicating growth suppression. Furthermore, bone morphology, weight, and length significantly decreased with increasing PS frequency. CONCLUSIONS: High-frequency PS exposure during developmental growth significantly negatively affects oxidative stress and organ and bone development. In particular, increased oxidative stress due to excessive PS has detrimental effects on organ and bone growth.

Effects of psychogenic stress on oxidative stress and antioxidant capacity at different growth stages of rats: Experimental study.

This study examined the psychogenic stress (PS) effects on changes in oxidative stress and the antioxidant capacity of an organism at different growth stages. The experimental animals were male Wistar rats of five different ages from growth periods (GPs) to old age. The growth stages were randomly classified into control (C) and experimental (PS) groups. The PS was performed using restraint and water immersion once daily for 3 h for 4 weeks. Reactive oxygen metabolites (d-ROMs) and the biological antioxidant potential (BAP) were measured before and after the experiment. In addition, the liver and adrenal glands were removed, and the wet weight was measured. The d-ROM and BAP of all growth stages given PS increased significantly. The d-ROM in the C group without PS increased significantly in GPs while decreased significantly in old-aged rats. In addition, the BAP of the C group in GP and early adulthood were all significantly elevated. There were significant differences in organ weights between the C and PS groups at all growth stages. Oxidative stress and antioxidant capacity differed depending on the organism's developmental status and growth stage, and PS also showed different effects. In particular, the variability in oxidative stress was remarkable, suggesting that the effect of PS was more significant in the organism's immature organs.

Responses to oxidative stress and antioxidant capacity in rats at different growth stages.

[Purpose] Oxidative stress is regulated by antioxidant capacity in vivo. However, its impact on aging characteristics remains debatable. This study is first to report oxidative stress, antioxidant capacity, and their ratio in five age groups of rats, and aimed to provide basic data useful for disease prevention. [Materials and Methods] Sixty male Wistar rats of different ages were used as experimental animals, grouped as follows: weaned (three weeks), growth (eight weeks), adulthood (six months), middle-age (12 months), and old-age (24 months). To assess oxidative stress and antioxidant capacity, derivatives of reactive oxygen metabolites and biological antioxidant potential were measured. [Results] The lowest level of oxidative stress and the highest level of antioxidant capacity were observed during the weaning stage, and remarkable dynamic changes were observed until adulthood. The highest oxidative stress and lowest antioxidant capacity were observed in the old-age group. [Conclusion] In vivo oxidative stress and antioxidant capacity are largely reflected in the characteristics of aging, and this ratio is greatly influenced by the dynamics of oxidative stress and antioxidant capacity with age.