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3 postsMitigating Heat-Induced Sperm Damage and Testicular Tissue Abnormalities: The Protective Role of Radiofrequency Radiation from Wi-Fi Routers in Rodent Models
A rodent experimental study on PubMed reports that 2.45 GHz Wi‑Fi radiofrequency exposure may reduce heat stress–related damage in male rat testes and sperm parameters. The authors describe this as the first study examining a potentially protective effect of RF‑EMF against heat-induced testicular abnormalities, suggesting an adaptive response mechanism. They emphasize that further research is needed to clarify mechanisms and implications.
Effects of paternal 5G RFR exposure on health of male offspring mice
This animal study examined whether paternal exposure to 4.9 GHz (5G) radiofrequency radiation affects male offspring in C57BL/6 mice. It reports increased anxiety-like behavior and reduced sperm quality in adult F1 males from exposed fathers, alongside reported LRGUK hypermethylation and reduced LRGUK expression in testes. The abstract reports no significant effects on depression-like behavior, learning/memory, or fertility across F1–F2 generations.
Histomorphometry and Sperm Quality in Male Rats Exposed to 2.45 GHz Wi-Fi
This animal study exposed adult male rats to 2.45 GHz Wi‑Fi from an active router for 4 or 24 hours daily over eight weeks and assessed reproductive organ histology and sperm parameters. The authors report histological changes in testes and epididymis, multifocal atypical hyperplasia in seminal vesicles, reduced seminiferous tubule diameter, and reduced spermatogenesis index in exposed groups. Sperm concentration decreased in both exposed groups, motility decreased in the 4-hour group, and viability increased in the 24-hour group, leading to an overall interpretation of potential reproductive risk under the studied conditions.