BACKGROUND: This is an updated merged review of two originally separate Cochrane reviews: one on robot-assisted surgery (RAS) for benign gynaecological disease, the other on RAS for gynaecological cancer. RAS is a relatively new innovation in laparoscopic surgery that enables the surgeon to conduct the operation from a computer console, situated away from the surgical table. RAS is already widely used in the United States for hysterectomy and has been shown to be feasible for other gynaecological procedures. However, the clinical effectiveness and safety of RAS compared with conventional laparoscopic surgery (CLS) have not been clearly established and require independent review.
OBJECTIVES: To assess the effectiveness and safety of RAS in the treatment of women with benign and malignant gynaecological disease.
SEARCH METHODS: For this update, we searched the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE via Ovid, and EMBASE via Ovid, on 8 January 2018. We searched www.ClinicalTrials.gov. on 16 January 2018.
SELECTION CRITERIA: Randomised controlled trials (RCTs) comparing RAS versus CLS or open surgery in women requiring surgery for gynaecological disease.
DATA COLLECTION AND ANALYSIS: Two review authors independently assessed studies for inclusion and risk of bias, and extracted study data and entered them into an Excel spreadsheet. We examined different procedures in separate comparisons and for hysterectomy subgrouped data according to type of disease (non-malignant versus malignant). When more than one study contributed data, we pooled data using random-effects methods in RevMan 5.3.
MAIN RESULTS: We included 12 RCTs involving 1016 women. Studies were at moderate to high overall risk of bias, and we downgraded evidence mainly due to concerns about risk of bias in the studies contributing data and imprecision of effect estimates. Procedures performed were hysterectomy (eight studies) and sacrocolpopexy (three studies). In addition, one trial examined surgical treatment for endometriosis, which included resection or hysterectomy. Among studies of women undergoing hysterectomy procedures, two studies involved malignant disease (endometrial cancer); the rest involved non-malignant disease.• RAS versus CLS (hysterectomy)Low-certainty evidence suggests there might be little or no difference in any complication rates between RAS and CLS (risk ratio (RR) 0.92, 95% confidence interval (CI) 0.54 to 1.59; participants = 585; studies = 6; I² = 51%), intraoperative complication rates (RR 0.77, 95% CI 0.24 to 2.50; participants = 583; studies = 6; I² = 37%), postoperative complications (RR 0.81, 95% CI 0.48 to 1.34; participants = 629; studies = 6; I² = 44%), and blood transfusions (RR 1.94, 95% CI 0.63 to 5.94; participants = 442; studies = 5; I² = 0%). There was no statistical difference between malignant and non-malignant disease subgroups with regard to complication rates. Only one study reported death within 30 days and no deaths occurred (very low-certainty evidence). Researchers reported no survival outcomes.Mean total operating time was longer on average in the RAS arm than in the CLS arm (mean difference (MD) 41.18 minutes, 95% CI -6.17 to 88.53; participants = 148; studies = 2; I² = 80%; very low-certainty evidence), and the mean length of hospital stay was slightly shorter with RAS than with CLS (MD -0.30 days, 95% CI -0.53 to -0.07; participants = 192; studies = 2; I² = 0%; very low-certainty evidence).• RAS versus CLS (sacrocolpopexy)Very low-certainty evidence suggests little or no difference in rates of any complications between women undergoing sacrocolpopexy by RAS or CLS (RR 0.95, 95% CI 0.21 to 4.24; participants = 186; studies = 3; I² = 78%), nor in intraoperative complications (RR 0.82, 95% CI 0.09 to 7.59; participants = 108; studies = 2; I² = 47%). Low-certainty evidence on postoperative complications suggests these might be higher with RAS (RR 3.54, 95% CI 1.31 to 9.56; studies = 1; participants = 68). Researchers did not report blood transfusions and deaths up to 30 days.Low-certainty evidence suggests that RAS might be associated with increased operating time (MD 40.53 min, 95% CI 12.06 to 68.99; participants = 186; studies = 3; I² = 73%). Very low-certainty evidence suggests little or no difference between the two techniques in terms of duration of stay (MD 0.26 days, 95% CI -0.15 to 0.67; participants = 108; studies = 2; I² = 0%).• RAS versus open abdominal surgery (hysterectomy)A single study with a total sample size of 20 women was included in this comparison. For most outcomes, the sample size was insufficient to show any possible differences between groups.• RAS versus CLS for endometriosisA single study with data for 73 women was included in this comparison; women with endometriosis underwent procedures ranging from relatively minor endometrial resection through hysterectomy; many of the women included in this study had undergone previous surgery for their condition. For most outcomes, event rates were low, and the sample size was insufficient to detect potential differences between groups.
AUTHORS' CONCLUSIONS: Evidence on the effectiveness and safety of RAS compared with CLS for non-malignant disease (hysterectomy and sacrocolpopexy) is of low certainty but suggests that surgical complication rates might be comparable. Evidence on the effectiveness and safety of RAS compared with CLS or open surgery for malignant disease is more uncertain because survival data are lacking. RAS is an operator-dependent expensive technology; therefore evaluating the safety of this technology independently will present challenges.
The assessment of surgical quality is complex and an adequate case-mix correction is missing in currently applied quality indicators. The purpose of this study is to give an overview of all studies mentioning statistically significant associations between patient characteristics and surgical outcomes for laparoscopic hysterectomy (LH). Additionally we identified a set of potential case-mix characteristics for LH. This systematic review was conducted according to the MOOSE guidelines. We searched PubMed and EMBASE from 1(st) of January 2000 up to the 1(st) of August 2015.All articles describing statistical significant associations between patient characteristics and adverse outcomes of LH for benign indications were included. As primary outcomes were included blood loss, operative time, conversion and complications. The methodological quality of the included studies was assessed using the Newcastle-Ottawa Quality Assessment Scale (NO-QAS). The included articles were summed per predictor and surgical outcome. Three sets of case-mix characteristics were determined, stratified by different levels of evidence. Eighty-five of 1.549 identified studies were considered eligible. Uterine weight and BMI are the most mentioned predictors (respectively 83 and 45 times described in the papers) of high quality studies. For longer operative time and higher blood loss uterine weight ≥ 250-300g and ≥ 500g and BMI ≥30 kg/m² dominate as predictors. Previous operations, adhesions and higher age are also considered as predictors for longer operative time. For complications and conversions, the patient characteristics vary widely and uterine weight, BMI, previous operations, adhesions and age predominated. Studies of high methodological quality indicated uterine weight and BMI as relevant case-mix characteristics for all surgical outcomes. For future development of quality indicators of LH and in order to compare surgical outcomes adequately, a case-mix correction is suggested for at least uterine weight and BMI. A potential case-mix correction for adhesions and previous operations can be considered. For both surgeon and patient it is valuable to be aware of potential factors predicting adverse outcomes and to anticipate on this. Finally, to benchmark clinical outcomes at international level it is of highest importance to introduce uniform outcome definitions.
PURPOSE: To evaluate available evidence on robot-assisted surgery compared with open and laparoscopic surgery.
METHOD: The databases Medline, Embase, and Cochrane Library were systematically searched for randomized controlled trials comparing robot-assisted surgery with open and laparoscopic surgery regardless of surgical procedure. Meta-analyses were performed on each outcome with appropriate data material available. Cochrane Collaboration's tool for assessing risk of bias was used to evaluate risk of bias on a study level. The GRADE approach was used to evaluate the quality of evidence of the meta-analyses.
RESULTS: This review included 20 studies comprising 981 patients. The meta-analyses found no significant differences between robot-assisted and laparoscopic surgery regarding blood loss, complication rates, and hospital stay. A significantly longer operative time was found for robot-assisted surgery. Open versus robot-assisted surgery was investigated in 3 studies. A lower blood loss and a longer operative time were found after robot-assisted surgery. No other difference was detected.
CONCLUSIONS: At this point there is not enough evidence to support the significantly higher costs with the implementation of robot-assisted surgery.
This is an updated merged review of two originally separate Cochrane reviews: one on robot-assisted surgery (RAS) for benign gynaecological disease, the other on RAS for gynaecological cancer. RAS is a relatively new innovation in laparoscopic surgery that enables the surgeon to conduct the operation from a computer console, situated away from the surgical table. RAS is already widely used in the United States for hysterectomy and has been shown to be feasible for other gynaecological procedures. However, the clinical effectiveness and safety of RAS compared with conventional laparoscopic surgery (CLS) have not been clearly established and require independent review.
OBJECTIVES:
To assess the effectiveness and safety of RAS in the treatment of women with benign and malignant gynaecological disease.
SEARCH METHODS:
For this update, we searched the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE via Ovid, and EMBASE via Ovid, on 8 January 2018. We searched www.ClinicalTrials.gov. on 16 January 2018.
SELECTION CRITERIA:
Randomised controlled trials (RCTs) comparing RAS versus CLS or open surgery in women requiring surgery for gynaecological disease.
DATA COLLECTION AND ANALYSIS:
Two review authors independently assessed studies for inclusion and risk of bias, and extracted study data and entered them into an Excel spreadsheet. We examined different procedures in separate comparisons and for hysterectomy subgrouped data according to type of disease (non-malignant versus malignant). When more than one study contributed data, we pooled data using random-effects methods in RevMan 5.3.
MAIN RESULTS:
We included 12 RCTs involving 1016 women. Studies were at moderate to high overall risk of bias, and we downgraded evidence mainly due to concerns about risk of bias in the studies contributing data and imprecision of effect estimates. Procedures performed were hysterectomy (eight studies) and sacrocolpopexy (three studies). In addition, one trial examined surgical treatment for endometriosis, which included resection or hysterectomy. Among studies of women undergoing hysterectomy procedures, two studies involved malignant disease (endometrial cancer); the rest involved non-malignant disease.• RAS versus CLS (hysterectomy)Low-certainty evidence suggests there might be little or no difference in any complication rates between RAS and CLS (risk ratio (RR) 0.92, 95% confidence interval (CI) 0.54 to 1.59; participants = 585; studies = 6; I² = 51%), intraoperative complication rates (RR 0.77, 95% CI 0.24 to 2.50; participants = 583; studies = 6; I² = 37%), postoperative complications (RR 0.81, 95% CI 0.48 to 1.34; participants = 629; studies = 6; I² = 44%), and blood transfusions (RR 1.94, 95% CI 0.63 to 5.94; participants = 442; studies = 5; I² = 0%). There was no statistical difference between malignant and non-malignant disease subgroups with regard to complication rates. Only one study reported death within 30 days and no deaths occurred (very low-certainty evidence). Researchers reported no survival outcomes.Mean total operating time was longer on average in the RAS arm than in the CLS arm (mean difference (MD) 41.18 minutes, 95% CI -6.17 to 88.53; participants = 148; studies = 2; I² = 80%; very low-certainty evidence), and the mean length of hospital stay was slightly shorter with RAS than with CLS (MD -0.30 days, 95% CI -0.53 to -0.07; participants = 192; studies = 2; I² = 0%; very low-certainty evidence).• RAS versus CLS (sacrocolpopexy)Very low-certainty evidence suggests little or no difference in rates of any complications between women undergoing sacrocolpopexy by RAS or CLS (RR 0.95, 95% CI 0.21 to 4.24; participants = 186; studies = 3; I² = 78%), nor in intraoperative complications (RR 0.82, 95% CI 0.09 to 7.59; participants = 108; studies = 2; I² = 47%). Low-certainty evidence on postoperative complications suggests these might be higher with RAS (RR 3.54, 95% CI 1.31 to 9.56; studies = 1; participants = 68). Researchers did not report blood transfusions and deaths up to 30 days.Low-certainty evidence suggests that RAS might be associated with increased operating time (MD 40.53 min, 95% CI 12.06 to 68.99; participants = 186; studies = 3; I² = 73%). Very low-certainty evidence suggests little or no difference between the two techniques in terms of duration of stay (MD 0.26 days, 95% CI -0.15 to 0.67; participants = 108; studies = 2; I² = 0%).• RAS versus open abdominal surgery (hysterectomy)A single study with a total sample size of 20 women was included in this comparison. For most outcomes, the sample size was insufficient to show any possible differences between groups.• RAS versus CLS for endometriosisA single study with data for 73 women was included in this comparison; women with endometriosis underwent procedures ranging from relatively minor endometrial resection through hysterectomy; many of the women included in this study had undergone previous surgery for their condition. For most outcomes, event rates were low, and the sample size was insufficient to detect potential differences between groups.
AUTHORS' CONCLUSIONS:
Evidence on the effectiveness and safety of RAS compared with CLS for non-malignant disease (hysterectomy and sacrocolpopexy) is of low certainty but suggests that surgical complication rates might be comparable. Evidence on the effectiveness and safety of RAS compared with CLS or open surgery for malignant disease is more uncertain because survival data are lacking. RAS is an operator-dependent expensive technology; therefore evaluating the safety of this technology independently will present challenges.
