AI-Driven Prediction of Oocyte Retrieval in Older Women with Low Ovarian Reserve, a model based on systematic literature review
Maghraby, H., Elmahdy, M., Adel, N., Aboali, A., Saleh, H., Amer, M., Zaki, H., Maghraby, H. (2025). AI-Driven Prediction of Oocyte Retrieval in Older Women with Low Ovarian Reserve, a model based on systematic literature review. EKB Journal Management System, 2(1), 312-333. doi: 10.21608/jrme.2025.384368.1049
Hassan Maghraby; Mohamed Elmahdy; Nehal Adel; Ashraf Aboali; Hesham Saleh; Medhat Amer; Hossam Zaki; Heba Maghraby. "AI-Driven Prediction of Oocyte Retrieval in Older Women with Low Ovarian Reserve, a model based on systematic literature review". EKB Journal Management System, 2, 1, 2025, 312-333. doi: 10.21608/jrme.2025.384368.1049
Maghraby, H., Elmahdy, M., Adel, N., Aboali, A., Saleh, H., Amer, M., Zaki, H., Maghraby, H. (2025). 'AI-Driven Prediction of Oocyte Retrieval in Older Women with Low Ovarian Reserve, a model based on systematic literature review', EKB Journal Management System, 2(1), pp. 312-333. doi: 10.21608/jrme.2025.384368.1049
Maghraby, H., Elmahdy, M., Adel, N., Aboali, A., Saleh, H., Amer, M., Zaki, H., Maghraby, H. AI-Driven Prediction of Oocyte Retrieval in Older Women with Low Ovarian Reserve, a model based on systematic literature review. EKB Journal Management System, 2025; 2(1): 312-333. doi: 10.21608/jrme.2025.384368.1049

AI-Driven Prediction of Oocyte Retrieval in Older Women with Low Ovarian Reserve, a model based on systematic literature review

Journal of Reproductive Medicine and Embryology
Article 3, Volume 2, Issue 1, May 2025, Page 312-333  XML PDF (752.41 K)
Document Type: Original Article
DOI: 10.21608/jrme.2025.384368.1049
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Authors
Hassan Maghraby email orcid 1, 2; Mohamed Elmahdyorcid 1, 2; Nehal Adelorcid 2, 3; Ashraf Aboali2, 3; Hesham Saleh1, 2, 4; Medhat Amer2, 5, 6; Hossam Zaki2, 7; Heba Maghraby2, 8
1Obstetrics and Gynecology Department, Faculty of Medicine, Alexandria University, Egypt.
2Egyptian Foundation of Reproductive Medicine and Embryology (EFRE), Egypt.
3Madina Fertility Center Madina Women Hospital, Alexandria, Egypt.
4Agial Fertility Center, Agial Hospital, Alexandria, Egypt.
5Andrology Department, Faculty of Medicine, Cairo University, Egypt.
6Adam International Hospital, Cairo, Egypt.
7Ganin Fertility Center, Cairo, Egypt.
8Adam and Hawa IVF center. Alexandria, Egypt.
Abstract
Objective: To introduce a potential paradigm shift in ovarian stimulation for women aged 40 and above, focusing on the rationale for mild stimulation doses, supported by a novel predictive AI model.
Methods: The "EFRE Predict AI model," also termed the "AI Accelerated Knowledge Synthesis Paradigm," was developed using an AI-driven methodology. This involved an autonomous systematic literature review (SLR) guided by the PICO framework to synthesize predictive insights from high-quality scientific literature, including international guidelines and primary research. The model is designed to calculate the number of obtainable oocytes based on patient-specific factors: Age, Anti-Müllerian Hormone (AMH), Antral Follicle Count (AFC), Body Mass Index (BMI), previous stimulation history, and gonadotropin doses used (75, 150, 225, and 300 IU). Initial validation included a survey of over 100 experts and specialists.
Results: The development process yielded the EFRE Predict AI model capable of estimating oocyte yield based on key clinical parameters. Initial validation through expert surveys indicated very satisfactory acceptance among specialists.
Conclusion: The EFRE Predict AI model offers a novel tool to personalize ovarian stimulation protocols for women over 40. By providing data-driven predictions of oocyte yield at varying gonadotropin doses, including mild doses, this AI-accelerated knowledge synthesis approach supports a potential paradigm shift towards more individualized and potentially milder stimulation strategies in this patient population.
Keywords
AI; AI predictive models; mild stimulation; conventional dose; AMA; women 40 and over; low ovarian reserve; Poseidon 4
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