Objective: To describe a laparoscopic technique for ovarian tissue biopsy (OTB) for fertility preservation. In the last years, the demand for fertility preservation has grown because of the increasing survival rates among patients with cancer and the rising awareness of the importance of quality of life after gonadotoxic therapy. Among fertility-sparing approaches, ovarian tissue cryopreservation is a valid strategy to preserve ovarian endocrine and reproductive function in prepubertal and postpubertal women who will undergo gonadotoxic cancer treatments. Currently, there is no universal consensus regarding ovarian tissue retrieval technique for fertility preservation.
Design: Step-by-step description of the surgical technique with narrated video footage.
Setting: Academic tertiary hospital.
Patient(s): Patients with a high risk of premature ovarian insufficiency, usually due to gonadotoxic treatments, who undergo OTB for fertility preservation were included in the study. In this video, we present the clinical case of a 28-year-old patient affected by Hodgkin lymphoma who underwent laparoscopy for OTB before chemotherapy.
Intervention(s): After exposing the chosen ovary, an incision at the tubal pole of the ovary is made with scissors. Through section and dissection, a large cortical biopsy of the ovary is performed without removing and avoiding any damage to the medulla. At the end of the procedure, hemostasis was achieved with selective coagulation using bipolar coagulation.
Main outcome measure(s): Step by step educational video.
Result(s): The post-operative course was uneventful and the patient was discharge 24 hours after surgery.
Conclusion(s): Standardization of a step-by-step laparoscopic technique can provide an effective method to optimize ovarian tissue removal while minimizing tissue injury. Medulla-sparing ovarian biopsy allows retrieval of only the cortical part of the ovary, maximizing the number of primordial follicles obtained without damaging the vascular supply of the ovary contained within the medulla. Primordial follicles are resistant to cryoinjury owing to their relatively inactive metabolism, and they are usually found at approximately 0.8 mm below the surface of the cortex. This technique could also reduce the back-table processing time of the ovarian tissue before cryopreservation. One disadvantage could be the difficulty of the technique compared to an oophorectomy because it requires a skilled surgeon that can easily find the cleavage plane between the medulla and the cortex, even in patients submitted to previous chemoradiotherapy or during gonadotropin-releasing hormone analogue therapy.
Keywords: Assisted reproductive medicine; fertility preservation; minimally invasive surgery; ovarian tissue biopsy.
Copyright © 2024 American Society for Reproductive Medicine. Published by Elsevier Inc. All rights reserved.