Clinical Thresholds of Double-strand Breaks in Sperm's DNA in ART

Overview

The goal of this prospective observational study is to learn about the impact of double-strand sperm DNA fragmentation (dsSDF) on assisted reproductive technology (ART) outcomes and to derive clinically relevant threshold values for dsSDF and global sperm DNA fragmentation (SDF) in couples undergoing intracytoplasmic sperm injection (ICSI). The main questions it aims to answer are: * Can clinically relevant threshold values of dsSDF and global SDF predict live birth rates following ICSI? * Does elevated dsSDF reduce live birth rates following ICSI? Participants undergoing ICSI as part of their routine fertility treatment will provide semen samples for global SDF and dsSDF assessment using the R10 Plus and R11 Plus kits, respectively, analysed using the LensHooke® X12 platform before and after sperm preparation. SDF and dsSDF assessments will be performed both prior to and following sperm washing for each participant. Embryos will be assessed from fertilization through embryo development, and following embryo transfer, participants will be prospectively followed for clinical outcomes ranging from biochemical pregnancy to live birth.

This prospective, two-centre observational study is designed to evaluate the impact of double-strand sperm DNA fragmentation (dsSDF) on assisted reproductive technology (ART) outcomes and to derive clinically relevant threshold values for dsSDF and global sperm DNA fragmentation (SDF) in couples undergoing intracytoplasmic sperm injection (ICSI). Although conventional sperm DNA fragmentation assays assess overall DNA damage, they do not differentiate between single- and double-strand DNA breaks. Emerging evidence suggests that dsSDF represents a more severe form of genomic damage with limited oocyte repair potential and may therefore have a greater impact on embryological and reproductive outcomes, particularly live birth. A total of 484 infertile couples undergoing ICSI treatment at two tertiary IVF centres in India will be prospectively recruited based on predefined eligibility criteria. Semen samples will be collected on the day of ICSI following 2-3 days of sexual abstinence. Global SDF and dsSDF assessments will be performed using the LensHooke® X12 platform with the R10 Plus and R11 Plus kits, respectively. SDF testing will be conducted both before and after sperm preparation to evaluate the impact of sperm washing on DNA fragmentation parameters. Embryos derived from enrolled participants will be prospectively assessed from fertilization through embryo development. Following embryo transfer, participants will be prospectively followed for clinical outcomes including biochemical pregnancy, clinical pregnancy, ongoing pregnancy, miscarriage, and live birth. Receiver operating characteristic (ROC) curve analysis will be used to derive clinically relevant threshold values for dsSDF and global SDF. Multivariable regression analyses will additionally be performed to evaluate the predictive value of dsSDF and global SDF for ART outcomes while adjusting for potential confounding factors. The findings of this study are expected to improve the clinical interpretation of sperm DNA damage assessment and support the integration of dsSDF into individualized reproductive care.