Minimally invasive surgery has been widely adopted in gynaecologic oncology with a significant surge the past decade associated with the introduction of robot-assisted surgery. Up until 2018, virtually all testimonials of minimally invasive surgery for cervical cancer indicated equal oncologic outcomes compared to laparotomy. The unexpected results from the only randomised controlled trial (Ramirez PT et al, N Engl J Med, 2018;379:1895-1904) seriously challenge the use of minimally invasive surgery for cervical cancer. However, the lack of plausible explanations for the inferior survival has made it hard for many gynaecologic oncologists to accept the results at face value. Suggested causes such as the use of intrauterine manipulators and intracorporeal colpotomy may to some extent account for the detrimental outcomes but as practice differs widely worldwide, none of these factors seem convincing. In the current paper by Baeten et al, a different aspect of novel surgical technologies has been explored (BJOG 2020 xxxx). The adoption of any new modality/technology is clearly associated with a learning curve and it is well known from surgery that procedural outcomes such as operative time improves with increasing case numbers. However, the potential impact of learning curve on “hard outcomes” such as survival has scarcely been reported before. Baeten et al convincingly demonstrate that a substantial number of robot-assisted radical hysterectomies is required to overcome an initial harm. The authors point out that the learning curve should be considered institutional; suggesting that an individual learning-curve may benefit from previous experiences at the specific institution. Intriguingly, similar data has not been presented for endometrial cancer which may be related to the higher complexity of radical hysterectomy for cervical cancer. Although no specific changes were made over time in the current study, a learning curve may include modifications of surgical routines based on early experiences. Which specific improvements during the learning-curve that accounts for the increased survival is unclear but reducing complications that could delay adjuvant treatment may be one. The data presented by Baeten et al signifies a solid effort to elucidate the underlying cause of the outcomes from the LACC-trial, especially since the trial was launched at a time when most surgeons had limited experience from laparoscopic/robotic radical hysterectomy. The study should raise the awareness of surgical learning curve in the context of survival in oncologic surgery. It also brings us to the most important question – how do we avoid harming our patients when novel technologies are adopted? The authors suggest that centralisation and structured training represents two of the most important strategies to mitigate the effects of early errors. Interestingly, recent population-based studies from countries with high levels of centralisation do not corroborate the findings from the LACC-trial (Alfonzo E et al, Eur J Cancer, 2019;29:1072-1076, Jensen et al, Eur J Cancer 2020;128:47-56). Although the current study may reopen the door for robotic surgery in the management of cervical cancer, prospective randomised trials are needed to ensure its safety. The impact of surgical learning curve should be considered in any future trial exploring oncologic safety for procedural interventions.Conflict of interest: H.F is a proctor for Intuitive Surgical Inc. A completed disclosure of interest form is available to view online as supporting information.