Systematic review and meta-analysis of Veress needle entry versus direct trocar entry in gynecologic surgery

Eligibility criteria

The inclusion criteria were the following: female patients undergoing gynecological laparoscopic surgery using the DTI technique or the VN entry technique. There were no restrictions on language. We included only controlled trials and their outcomes of extraperitoneal insufflation, failed entry, vascular injury, visceral injury, and omental injury. All secondary research, such as meta-analyses and reviews, were excluded along with all animal studies, conference abstracts, and incompletely reported studies. We also excluded any studies that expressly stated or otherwise seemed to include non-gynecologic surgeries in their data sets.

Information sources

We searched Medline, ClinicalTrials.Gov, PubMed, Cochrane CENTRAL, SCOPUS, and Web of Science databases from their inception until 31 July 2021 for articles that matched our inclusion criteria.

Search and study selection

We used the following search strategy in our investigation: (Veress needle) OR (Veres needle) OR (pneumoperitoneum) AND (direct trocar insertion). We screened the included articles in three steps. The first step involved importing the results from electronic databases to an electronic spreadsheet using Endnote X V.8.0.1 (Build 1044). The second step was performed by two independent authors with a third author used to solve any conflict. This included a title and abstract screening of the articles imported to the Excel sheet. The third step was the full-text screening of the included citations from step 2. Additionally, we manually searched the references of the included papers for possible missed studies.

Data collection

We collected three categories of data from each included study. The first category was the baseline and demographic characteristics of the included participants, such as the author, year, sample size, age, body mass index (BMI), kg/m², previous operations, and type of surgery performed. The second category included the outcomes of analysis, focusing on extraperitoneal insufflation, failed entry, vascular injury, visceral and omental injury, solid organ injury, and trocar site infection. The third category included data for the risk of bias assessment. The process of data collection was done using an electronic spreadsheet.

Risk of bias assessment

Since only controlled trials were included, we evaluated the quality of this systematic review and meta-analysis using the Cochrane Risk of Bias tool.17 The tool depends on seven domains for assessment of the risk of bias: (1) randomization, (2) blinding allocation of the patients into each group, (3) blinding of patients and personnel, (4) attrition bias, (5) selection bias, (6) awareness of the outcome assessor and (7) other bias. Finally, we extracted the total risk of bias for these studies.

Analysis

We performed the meta-analysis of this study using open meta-analyst software. Our study included dichotomous outcomes and we analyzed the dichotomous data using risk ratio (RR) and 95% CI. The fixed-effects model was used when data were homogeneous, while heterogeneous data were analyzed under a random-effects model. To measure the presence among the studies, we used the I² and the p value of the χ² tests.18 Values of p<0.1 or I² >50% were significant indicators of the presence of heterogeneity.

Summary of included studies

The PRISMA flow diagram in online supplemental figure 1 shows the included studies of our literature search. In our study, we performed an analysis of data from patients of seven different studies.12 19–24 The total number of patients allocated to receive the DTI technique was 1652 patients. The number of patients allocated to the Veress needle group entry group was 1768 patients. The mean age of the DTI group was 34.6±7.7 years, while that of the Veress needle group was 34.4±6.8. A summary of the participants and their demographic data, including pregnancy BMI, previous operations, and current operation performed, is shown in table 1.

Results of risk of bias assessment

The result of the risk of bias assessment of the randomized controlled trials yielded an overall low risk of bias, according to Cochrane’s tool. According to randomization, four studies19 21–23 were at low risk and three studies12 20 24 reported inadequate data relating to randomization. According to allocation concealment, three studies19 20 22 were at low risk, and four studies12 21 23 24 reported inadequate data. One study23 was blinded to the participants and personnel and six studies12 19–22 24 reported inadequate to determine. All seven studies12 19–24 were blinded to outcome assessment. The remaining domains of the Cochrane tool were at low risk of bias for all studies. A summary of the risk of bias of all included trials is demonstrated in online supplemental figure 2.

Analysis of outcomes

1. Extraperitoneal insufflation

   All the included trials reported data on extraperitoneal insufflation.12 19–24 The pooled analysis showed that the rate of extraperitoneal insufflation was higher in the Veress needle entry group compared with the direct access entry group (RR 0.177 95% Cl (0.094 to 0.333), p<0.001). The analysis of included studies was homogenous (I2=21.656 %, p=0.264), as shown in figure 1.

2. Failed entry

   Six studies reported the rate of failed entry as an outcome.12 19 20 22 24 Failed entry was significantly higher in the Veress needle group compared with the direct access entry group (RR 0.173 95% Cl (0.102 to 0.292), p<0.001). The pooled analysis was homogenous (I2=0 %, p=0.717), as shown in figure 2.

3. Omental injury

   Four studies19 21 22 24 reported the omental injury outcome. The data showed a marked increase in the incidence of omental injury in the Veress needle group (RR 0. 418 95% Cl (0.195 to 0.896), p<0.001). The pooled analysis was homogenous (I2=39.472 %, p=0.175), as shown in figure 3.

4. Trocar site infection

   Trocar site infection was reported by three studies.19 21 24 The incidence of site infection was significantly higher in the Veress needle group (RR 0. 404 95% Cl (0.180 to 0.909), p<0.029). The pooled analysis of included studies was homogenous (I2=0 %, p=0.579), as shown in figure 4.

5. Visceral injury

   The visceral injury rate was only reported by two studies.19 20 The pooled analysis showed no difference between both groups (RR 0. 562 95% Cl (0.047 to 6.676), p<0. 648). The pooled analysis was homogenous (I2=0 %, p=0.634), as shown in figure 5D.

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Strengths

This study represents the most recent and conclusive evidence about the safety of direct access entry vrsus Veress needle entry for laparoscopy. We performed a large-scale analysis of all the recent published literature, including 3420 patients undergoing laparoscopic surgery. In addition, we have included only controlled trials to ensure the most precise evidence according to Cochrane guidelines. Another strength of this analysis was the homogeneity between the measured outcomes, which eliminated the need to solve for heterogeneity in all outcomes.

Limitations

Four of the included studies reported inadequate data about allocation concealment. Unclear allocation concealment in controlled trials may bias the results of subjectively determined outcomes in favor of a beneficial effect. Another limitation is that one study was blinded to the participants and personnel, while six studies did not report adequate data to determine blinding. Finally, our study did not consider surgeon experience or the learning curve involved in these techniques. As a result, our conclusions apply across the field generally and may not be applicable for individual experience groups, such as beginners or high-volume experts, for whom different complication rates may apply.