Incidence of Intrauterine Adhesions After Myomectomy With Intrauterine Anti-Adhesion Gel

Overview

This prospective randomized study aims to evaluate whether the application of an intrauterine anti-adhesion gel reduces the incidence of intrauterine adhesions (IUAs) following robotic-assisted laparoscopic myomectomy. Intrauterine adhesions may develop after endometrial trauma during surgery and can negatively affect menstrual function, fertility, and future pregnancy outcomes. Robotic myomectomy offers a minimally invasive approach, but postoperative adhesion formation remains a concern. Sixty-two women undergoing myomectomy will be randomized to receive either intrauterine anti-adhesion gel (intervention group) or no adhesion-prevention method (control group). Adhesions will be assessed by ultrasound and hysteroscopy during follow-up. Secondary outcomes include reproductive results over a 24-month period, such as implantation rate, clinical pregnancy, miscarriage, live birth, pregnancy complications, and neonatal outcomes. The study seeks to determine whether combining a minimally invasive surgical approach with an intrauterine gel provides additional protection against adhesion formation and improves fertility-related outcomes.

Intrauterine adhesions (IUAs), or uterine synechiae, are fibrotic bands that develop when the endometrium is damaged and the normal healing process is disrupted. Surgical trauma-particularly involving the basal layer of the endometrium-is one of the main triggers for adhesion formation. Myomectomy is recognized as the gynecologic procedure most frequently associated with the development of adhesions, which may compromise uterine function, menstrual regularity, fertility, and obstetric outcomes. Although minimally invasive approaches such as conventional or robot-assisted laparoscopy have reduced postoperative morbidity, they cannot eliminate the risk of adhesion formation, especially when the uterine cavity is entered or extensive suturing is required. Adhesion formation results from excessive fibrin deposition and insufficient fibrinolytic activity during tissue repair. When fibrin persists on the injured surfaces, fibroblast proliferation and neovascularization may lead to permanent fibrotic bridges between areas that should remain separated. This process is particularly relevant following myomectomy, where the endometrium may be inadvertently injured. Several studies have reported high rates of intrauterine adhesions after open myomectomy and, to a lesser extent, after minimally invasive procedures. Adhesions may occur even when the cavity is not breached, suggesting that the myometrial trauma itself can contribute to this pathological process. Anti-adhesion gels have been proposed as an adjunctive strategy to prevent postoperative synechiae. These sterile, absorbable, highly viscous hydrophilic gels-typically composed of sodium carboxymethylcellulose (CMC), polyethylene oxide (PEO), and electrolytes-act as temporary mechanical barriers, physically separating traumatized surfaces during the healing period. Evidence from previous studies suggests that intrauterine gel application after hysteroscopic procedures may reduce adhesion formation and improve postoperative reproductive outcomes. However, few trials have evaluated the efficacy of these gels after laparoscopic or robotic myomectomy. This study is a prospective, randomized, controlled, non-profit clinical trial designed to assess whether the application of an intrauterine anti-adhesion gel at the end of robotic-assisted laparoscopic myomectomy reduces the incidence of IUAs compared with no adhesion-prevention method. Sixty-two women undergoing myomectomy will be randomized 1:1 into an intervention group (with gel application) or a control group (without gel). All participants will undergo standardized preoperative assessment, including ultrasound and office hysteroscopy. Postoperative follow-up includes ultrasound at one month to evaluate pelvic adhesions and diagnostic hysteroscopy at two months to assess intrauterine adhesions. Reproductive outcomes will be monitored for up to 24 months through spontaneous or assisted conception attempts. The primary endpoint is the incidence of intrauterine adhesions at follow-up hysteroscopy. Secondary endpoints include clinical pregnancy rate, implantation rate, miscarriage rate, live birth rate, pregnancy complications, mode of delivery, and neonatal outcomes. The study aims to clarify whether combining a minimally invasive robotic approach with an intrauterine gel can synergistically reduce adhesion formation and improve fertility outcomes. Results may contribute to optimizing postoperative management in women undergoing myomectomy and refining strategies to preserve reproductive potential.