key: cord-1037670-cr4n6e6k authors: Matsuoka, Shinsei; Kondo, Takayuki; Seishima, Ryo; Okabayashi, Koji; Tsuruta, Masashi; Shigeta, Kohei; Ishida, Takashi; Hasegawa, Hirotoshi; Kitagawa, Yuko title: Surgical glove perforation during laparoscopic colorectal procedures date: 2021-08-11 journal: Surg Endosc DOI: 10.1007/s00464-021-08670-0 sha: e750d1295c48c5fee05677b700f940897cb1f497 doc_id: 1037670 cord_uid: cr4n6e6k BACKGROUND: It has been reported that in conventional open surgery, approximately 10% of surgical gloves are perforated during surgery without being noticed. To protect both the patient and medical staff from harm, double gloving or changing gloves routinely at certain intervals during surgery is recommended. However, whether these protective measures are also necessary for laparoscopic colorectal surgery is unknown because the actual perforation rate during laparoscopic procedures is unclear. METHODS: Seventy-seven laparoscopic colorectal surgeries were evaluated, and a total of 616 surgical gloves used in the surgeries were collected for analysis. The presence of glove perforation was tested by the standard water-leak test method (EN455-1). RESULTS: Seven perforations were detected (1.1%). The duration of the laparoscopic procedure was not a statistically significant risk factor for glove perforation (p = 0.41). Postoperative surgical site infections (SSIs) were observed in 12 cases (15.6%), but there was no significant correlation between the presence of glove perforation and SSI (p = 0.92). According to the bacterial cultivation results, the majority of causative agents of SSI were enterobacteria, which belong to the major gut flora. CONCLUSION: Although the perforation rate was considerably lower than that in open surgery, surgical glove perforation occurred during laparoscopic procedures. Double gloving in laparoscopic colorectal surgery is recommended not to prevent SSI but to protect medical workers from harmful infections after direct contact with the patient. The appropriate wearing of surgical gloves is the most important protective measure against the transmission of infectious agents from a patient to the surgical staff. Nevertheless, perforation of surgical gloves occurs very frequently in clinical practice. According to past reports, approximately 10% of surgical gloves are perforated during surgery [1] [2] [3] . Furthermore, approximately 70% of surgical glove perforations go unnoticed during surgical procedures [3] . These data suggest that surgical staff are potentially unknowingly exposed to infectious agents, which is dangerous for medical workers. In addition, glove perforation has the potential to cause surgical site infection (SSI) by transmitting bacteria to the patient's body, which is dangerous for patients [4] . As colorectal surgery is generally associated with a higher SSI rate than other types of surgeries, the prevention of glove perforation during colorectal surgery may have a greater impact on decreasing the SSI rate than other protection measures [5] [6] [7] . To avoid breaching the protective barrier, thereby protecting both the medical workers and the patients from harm, double gloving or changing gloves at routine intervals during surgery is recommended [3, 8, 9] . Colorectal surgery has rapidly shifted from conventional open surgery to laparoscopic surgery in recent decades. Although reports regarding glove perforation involve mostly open surgery, it has been recently reported that the perforation rate in laparoscopic surgery is lower than that in conventional open surgery [10] . As laparoscopic surgery generally does not require manual sutures and involves relatively small skin incisions and the absence of surgical manoeuvres with the hands, it is highly likely to be protective against glove perforation. Therefore, we hypothesized that double gloving or changing surgical gloves at a certain interval may be unnecessary during laparoscopic procedures for colorectal surgery. Based on this hypothesis, medical staff may be able to reduce the frequency of glove changes in laparoscopic surgery. In general, laparoscopic surgery tends to take longer than open surgery in the same area [11] . Therefore, if routine surgical glove changes at certain intervals are performed similarly to those in open surgery, unfavourable economic problems will arise by increasing the consumption of surgical gloves. Avoiding excessive surgical glove use may contribute to saving medical resources without decreasing safety. The objectives of this study were to examine the prevalence of glove perforation during laparoscopic colorectal procedures and to describe any relationship between glove perforation and SSIs. These will help to assess the necessity of routine surgical glove changes during laparoscopic procedures. This is a prospective observational single-institutional study performed at Keio University Hospital to investigate actual perforation rate during laparoscopic colorectal procedures to examine the prevalence of glove perforation in laparoscopic procedures. Seventy-seven patients who performed laparoscopic colorectal surgeries between August 2015 and March 2019 were enrolled in this study. All surgeries were scheduled and performed by four surgical members: an operator, first assistant, second assistant, and scrub nurse. All of operators were colorectal surgery specialists. The first assistants and the second assistants were general surgery specialists or trainees. This study was approved by the institutional ethics committee and completed written informed consent from patient was obtained. We aimed to evaluate surgical glove perforation during "pure" laparoscopic procedures (Fig. 1) . To do so, the gloves of all surgical members were changed following the initiation of pneumoperitoneum and the establishment of the trocars. During the laparoscopic procedure, the same gloves were worn unless apparent holes were detected. At the time of pneumoperitoneum termination, all gloves from all surgical members were collected. Accordingly, extra-abdominal procedures such as skin incision, intestine resection, anastomosis, and wound closure were excluded from the evaluation. The presence of glove perforation was tested by the standard water-leak test method (EN455-1) [12] . In brief, the gloves were filled with 1000 ml of water and observed to detect any holes. Protexis™ latex micro surgical gloves (Cardinal Health, Ohio, USA) were used in all surgeries. All members of the surgical team in this study were single-gloved during surgery. Detailed information regarding the surgeries (operative procedure, primary disease, glovewearing time, blood loss) as well as patient information (age, sex, body mass index), which were considered potential confounders or predictors, were collected. The records of SSI, including superficial incisional SSI, deep incisional SSI, and organ/space SSI, were collected. Bacterial cultivation was performed as soon as any infectious symptoms appeared, and the results were recorded. The primary outcome was the occurrence of surgical glove perforation. Detailed information regarding perforations (i.e. which members and which areas of the gloves were perforated) were collected. The secondary outcome was During the "pure" laparoscopic procedure, the same gloves were used until the pneumoperitoneum procedure was terminated the occurrence of SSI and the correlation between glove perforation and SSI. The predictor of glove perforation is duration of laparoscopic procedures. Potential confounders such as operative procedures and experience of operator were collected. All statistical analyses were performed with the software package STATA/IC (STATA Corp., 2019. Stata Statistical Software: Release-16. StataCorp LP, College Station, TX, USA). In the descriptive analysis, continuous variables are described as means with standard deviations or medians with maximum and minimum ranges, whereas categorical variables are described as frequencies. Chi-square test and Mann-Whitney U test were used for comparison of variables as appropriate. The characteristics of the 77 patients are shown in Table 1 . Most of the surgeries were performed for colorectal cancer treatment (74 cases of colorectal cancer, 1 case of Crohn's disease, 2 cases of other diseases). Laparoscopic ileocecal resection was performed in 17 cases, laparoscopic right hemicolectomy in 12 cases, laparoscopic left hemicolectomy in 5 cases, laparoscopic anterior resection of the rectum in 24 cases, and laparoscopic partial colonic resection in 13 cases. A total of 616 surgical gloves used in the surgeries were collected for analysis. Amongst them, 7 perforations (1.1%) were detected by the water-leak test: 1 in an operator's glove, 2 in first assistants' gloves, 2 in second assistants' gloves, and 2 in scrub nurses' gloves ( Table 2 ; Fig. 2 ). In one case of first assistant glove perforation, data regarding the perforation site were missing. Amongst all the perforations, only two perforations (28.6%) were noticed by the staff member during the laparoscopic procedure. The overall median duration of the laparoscopic procedure was 205 min (93-493 min). The median time in the cases with perforated gloves was 219 min (141-477 min), whereas that in cases with non-perforated was 204 min (93-493 min) (Fig. 3) . There was no significant correlation between glove perforation and laparoscopic procedure duration time (p = 0.41). No significant difference of glove perforation rate was identified between colon and rectum surgery (colon surgery 6.4% vs rectal surgery 14.8%, p = 0.23). Postoperative SSIs occurred in 12 cases (15.6%); one case amongst the 7 glove perforation cases (14.3%) and 11 cases amongst the 70 non-perforation cases (15.7%) occurred. There was no significant correlation between the presence of glove perforation and SSI (p = 0.92). We next focused on the bacterial cultivation survey results at SSI sites to assess the impact of skin flora, which could be imported from medical workers to the patient body by glove perforation. According to the bacterial cultivation results, the majority of the causative agents of SSI were enterobacteria (Table 3 ). In the case in which glove perforation was detected on the operator's left hand, Pseudomonas aeruginosa and Enterobacter cloacae were detected. Staphylococcus aureus, a species that is part of the natural skin flora, was detected in a case with no glove perforation. Bacterial cultivation was not performed in one non-perforation case at the doctor's discretion. We revealed that glove perforation occurred even during laparoscopic procedures. The actual perforation rate was 1.1% in this study; this rate was significantly lower than that in open surgery according to previous reports [1] [2] [3] . Intriguingly, there was no significant difference in the glove perforation rate amongst surgical members. In a previous report evaluating open surgery, the operator had the greatest risk of glove perforation [13] . The possible reason for this inconsistency could be that surgical members' hand, especially those of operator, have less opportunity to come close to surgical instruments such as scissors, clamps, and electrocautery devices in laparoscopic procedures. Although a prolonged laparoscopic procedure duration usually reflects surgical challenges, such as haemorrhage, adhesion, or visceral obesity, duration of laparoscopic procedures was not significantly associated with glove perforation. In open surgery, a prolonged duration of surgical glove wear is reported to be a risk factor for glove perforation [14] . Therefore, changing gloves during surgery is recommended; the appropriate glove change interval is reported to be between 90 and 150 min [14] [15] [16] . However, in laparoscopic procedures, the risk of surgical glove perforation may not be increased by extending the operation time. The main motion performed by both the operator and assistants during the laparoscopic procedure is grasping, which may not damage the gloves and thus allow prolonged use. These results imply that glove changing at certain intervals may not be necessary during laparoscopic procedures. The correlation between glove perforation and SSI was unclear in our study. Regardless of the status of glove perforation, enterobacteria were present in most of the SSI cases. In previous literature on SSI after colorectal surgery, almost all microorganisms isolated from SSI sites were enterobacteria [17] . Based on the hypothesis that glove perforation may cause SSI, skin flora should be detected at SSI sites. However, the frequent detection of gut flora but not skin flora in this study indicates that SSI in laparoscopic surgery is mostly caused by the inappropriate handling of intestines, resulting in patient exposure to gastrointestinal content. Thus, the main risk of glove perforation in this study was the opportunity for the transmission of infectious agents from patients to surgical members and not SSI. In summary, according to our results, to minimize harm from glove perforation, double gloving might be a better practice than glove changing. Although there are no data regarding the infection rate of surgical team members after glove perforation, double gloving has been shown to offer greater protection against visible skin contamination than single gloving [18] . Amongst the methods of double gloving, we recommend double indicator gloving, which enables medical staff to visualize perforations in the outer gloves by colour changes. This practice is reported to have a better outer glove perforation detection rate than conventional double gloving in orthopaedic and trauma surgeries [19] . It is also considered to have advantages in laparoscopic colorectal surgery because quickly changing the perforated outer glove is necessary to avoid transmitting infectious agents from the patient to the surgical member. Furthermore, standardization of double indicator gloving amongst the surgical team may become a protective measure during the epidemic phases of emerging infectious diseases such as COVID-19. Some surgeons and surgical nurses may feel uncomfortable with double gloving because it may weaken their sense of touch. Further investigation of operative team members' satisfaction with double gloving is needed. The issue of defective products cannot be ignored in this study. Ersozlu et al. reported that 1% of unused surgical gloves had holes [20] . According to the manufacturer's product information, the acceptable quality limit (AQL) of the gloves used in this study is 0.65, which means that a maximum of 0.65% of unused gloves may have holes. Before starting this study, we estimated that the frequency of defective product would be much lower than the perforation rate during surgery. However, unexpectedly, the actual perforation rate was too low (1.1%) to ignore the frequency of product defects. In other words, laparoscopic procedures may not increase the perforation rate beyond that arising from defective products; the rate of increase was only 0.45%. As surgical members cannot do anything about defective products, this is another reason for recommending double gloving. There are some limitations in this study: First, this is an observational study, and the sample size is too small to allow a definitive conclusion to be reached. A larger prospective study to validate our results is expected in the future. Second, the surgical members participating in this study varied in terms of their experience levels. The proficiency level of each member may influence the glove perforation rate because trainees sometimes tend to hold and use devices in inappropriate ways. Third, we did not have any information about the surgical devices. The use of some fine devices for laparoscopic procedures, which may cause perforation more frequently than conventional devices, could influence the results. In conclusion, surgical glove perforation can occur even during "pure" colorectal laparoscopic procedures. In addition, it is important to note that all surgical members have equal risks of glove perforation, which may expose them to infectious agents. Double indicator gloving could be a reasonable technique to reduce harm due to glove perforation. However, the incidence of perforation during laparoscopic surgery was much lower than that during conventional open surgery, suggesting an additional benefit of laparoscopic surgery. Disclosures Dr. Shinsei Matsuoka, Dr. Takayuki Kondo, Dr. Ryo Seishima, Dr. Koji Okabayashi, Dr. Masashi Tsuruta, Dr. Kohei Shigeta, Prof. Hirotoshi Hasegawa, and Prof. Yuko Kitagawa have no conflicts of interest or financial ties to disclose. Risk of blood contact through surgical gloves in aesthetic procedures Surgical glove perforation How often does glove perforation occur in surgery? Comparison between single gloves and a double-gloving system Surgical glove perforation and the risk of surgical site infection Ertapenem versus cefotetan prophylaxis in elective colorectal surgery Risk factors for surgical site infection after elective resection of the colon and rectum: a singlecenter prospective study of 2,809 consecutive patients Evaluating an evidence-based bundle for preventing surgical site infection: a randomized trial Double gloving. Protecting surgeons from blood contamination in the operating room Randomized controlled trial of glove perforation in single-and double-gloving in episiotomy repair after vaginal delivery Glove perforations in open and laparoscopic abdominal surgery: the feasibility of double gloving Laparoscopic vs open surgery for colorectal cancer patients with high American Society of Anesthesiologists classes European Committee for Standardization (2017) Info-EN 455 standards Rate of glove perforation in open abdominal surgery and the associated risk factors Concentration of bacteria passing through puncture holes in surgical gloves Incidence of microperforation for surgical gloves depends on duration of wear Evaluation of surgical glove integrity during surgery in a Brazilian teaching hospital Characteristics of surgical site infection following colorectal surgery in a tertiary center: extended-spectrum β-lactamase-producing bacteria culprits in disease Intraoperative glove perforation-single versus double gloving in protection against skin contamination Glove perforation in orthopaedic and trauma surgery. A comparison between single, double indicator gloving and double gloving with two regular gloves Glove punctures in major and minor orthopaedic surgery with double gloving