| ۱ | Maturational gene upregulation and mitochondrial activity enhancement in mouse in vitro matured oocytes and using granulosa cell conditioned medium | Zand, E., Fathi, R., Nasrabadi, M.H., (...), Spears, N., Akbarinejad, V. | Zygote | Zygote |
| ۲ | Improvement of Mouse Preantral Follicle Survival and Development following Co-Culture with Ovarian Parenchyma Cell Suspension | Najafi Salehi, J., Eimani, H., Shahverdi, A., (...), Taher Mofrad, S.M.J., Tahaei, L.S. | International Journal of Fertility and Sterility | 2024-4-1 |
| ۳ | Oocyte Vitrification Reduces its Capability to Repair Sperm DNA Fragmentation and Impairs Embryonic Development | Khajedehi, N., Fathi, R., Akbarinejad, V., Gourabi, H. | Reproductive Sciences | 2024 |
| ۴ | Simple bioelectrical microsensor: oocyte quality prediction via membrane electrophysiological characterization | Palay, P., Fathi, D., Saffari, H., (...), Hajiaghalou, S., Fathi, R. | Lab on a Chip, | 2024 |
| ۵ | Effect of Moderate Static Magnetic Fields on Mice Oocyte Vitrification: Calcium-Related Genes Expression | Pargoo, S.S., Baniasadi, F., Jasemi, V.S.K., (...), Gharanfoli, M., Fathi, R. | Biopreservation and Biobanking, :- | 2024 |
| ۶ | Successful 3D culture and transplantation of mouse isolated preantral follicles in hydrogel of bioengineered Wharton's jelly | Zand, E., Rajablou, E., Siadat, S.F., (...), Tahaei, L.A., Fathi, R. | PLoS ONE | 2023-9-1 |
| ۷ | Correction: The Beneficial Effects of Static Magnetic Field and Iron Oxide Nanoparticles on the Vitrification of Mature Mice Oocytes (Reproductive Sciences, (2023), 30, 7, (2122-2136), 10.1007/s43032-022-01144-1) | Baniasadi, F., Hajiaghalou, S., Shahverdi, A., (...), Pirhajati, V., Fathi, R. | Reproductive Sciences | 2023-7-1 |
| ۸ | CRYOBIOLOGY AND FERTILITY PRESERVATION: A PERSPECTIVE ON PAST, CURRENT AND FUTURE STUDIES | Abtahi, N.S., Ghezelayagh, Z., Nemati, I., (...), Silber, S., Fathi, R. | Cryo-Letters | 2023-7-1 |
| ۹ | The Beneficial Effects of Static Magnetic Field and Iron Oxide Nanoparticles on the Vitrification of Mature Mice Oocytes | Baniasadi, F., Hajiaghalou, S., Shahverdi, A., (...), Pirhajati, V., Fathi, R. | Reproductive Sciences | 2023-7-1 |
| ۱۰ | Oocyte quality evaluation: a review of engineering approaches toward clinical challenges | Palay, P., Fathi, D., Fathi, R. | Biology of Reproduction | 2023-3-13 |
| ۱۱ | Design and fabrication of aspiration microfluidic channel for oocyte characterization | Saffari, H., Hajiaghalou, S., Hajari, M.A., (...), Fathi, D., Fathi, R. | Talanta | 2023-3-1 |
| ۱۲ | In-vivo oogenesis of oogonial and mesenchymal stem cells seeded in transplanted ovarian extracellular matrix | Mirzaeian, L., Eivazkhani, F., Saber, M., (...), Valojerdi, M.R., Fathi, R. | Journal of Ovarian Research | 2023-12-1 |
| ۱۳ | Follicular reconstruction and neo-oogenesis in xenotransplantation of human ovarian isolated cells derived from chemotherapy-induced POF patients | Khaleghi, S., Eivazkhani, F., Tavana, S., (...), Nazarian, H., Fathi, R. | Journal of Biological Engineering | 2023-12-1 |
| ۱۴ | Royan Institute First Attempts: Autotransplantation of Vitrified Human Ovarian Tissue in Cancer Patients | Abtahi, N.S., Ebrahimi, B., Ghaffari, F., (...), Yahyaei, A., Faridi, M. | Cell Journal | 2023-11-1 |
| ۱۵ | Optimisation of hormonal treatment to improve follicular development in one-day-old mice ovaries cultured under in vitro condition | Torkzadeh, T., Asadi, Z., Atrabi, M.J., (...), Akbarinejad, V., Fathi, R. | Reproduction, Fertility and Development | 2023-11-1 |
| ۱۶ | Mouse ovarian follicle growth in an amniotic membrane-based hydrogel | Haghshenas, M., Tavana, S., Zand, E., Montazeri, L., Fathi, R. | Journal of Biomaterials Applications | 2022-9-1 |
| ۱۷ | Effects of N-Acetyl-L-Cystein Antioxidant on Ex Vivo Culture of Vitrified Premature Mouse Ovarian Tissue | Eivazkhani, F., Ebrahimi, B., Yousefi, B., (...), Fathi, R., Akbarinejad, V. | Biopreservation and Biobanking | 2022-8-1 |
| ۱۸ | Effects of N-Acetyl-L-Cystein Antioxidant on Ex Vivo Culture of Vitrified Premature Mouse Ovarian Tissue | Eivazkhani, F., Ebrahimi, B., Yousefi, B., (...), Fathi, R., Akbarinejad, V. | Biopreservation and Biobanking | 2022-8-1 |
| ۱۹ | High steroid content in conditioned medium of granulosa cells may disrupt primordial follicles formation in in vitro cultured one-day-old murine ovaries | Khodadi, M., Atrabi, M.J., Torkzadeh, T., (...), Akbarinejad, V., Fathi, R. | Reproductive Biology | 2022-3-1 |
| ۲۰ | Granulosa Cell Conditioned Medium Enhances The Rate of Mouse Oocyte In Vitro Maturation and Embryo Formation | Bahrami, Z., Hatamian, N., Talkhabi, M., (...), Mottershead, D.G., Fathi, R. | Cell Journal, | 2022-10-1 |