Sitater (vår oversettelse)
"Prenatal RFR-eksponering var forbundet med signifikante renale histopatologiske endringer hos avkommet, mest uttalt i D3T-gruppen, inkludert glomerulær atrofi, tubulær dilatasjon, epitelial vakuolisering og sylinderdannelse (p < 0,01–0,001 mot kontroller)."
[original: "Prenatal RFR exposure was associated with significant renal histopathological alterations in offspring, most pronounced in the D3T group, including glomerular atrophy, tubular dilation, epithelial vacuolization, and cast formation (p < 0.01-0.001 versus controls)."]
"Comet-analysen viste signifikant økt DNA-fragmentering i D2T- og D3T-gruppene sammenlignet med kontroller (p < 0,001), noe som indikerer økt genomisk stress."
[original: "The comet assay demonstrated significantly increased DNA fragmentation in D2T and D3T groups compared with controls (p < 0.001), indicating increased genomic stress."]
"Maksimal spesifikk absorpsjonsrate (psSAR) i livmorregionen var 0,06622 mW/g (gjennomsnitt over 1 g) og 0,03825 mW/g (gjennomsnitt over 10 g)."
[original: "Peak spatial specific absorption rate (psSAR) values in the uterine region were 0.06622 mW/g (1 g averaging) and 0.03825 mW/g (10 g averaging)."]
Prenatal 3.5 GHz radiofrequency exposure induces renal histological changes and DNA damage in 6-month-old rats.
Elif Gelenli Dolanbay, Fazile Canturk Tan, Hava Bektas, Sumeyye Koc, Salih Varol, Omer Kilic (2026) Histochemistry and Cell Biology Journal Level 1ⓘ