| Abstract|| |
Introduction: Intra-peritoneal collection (IPC) following laparoscopic appendectomy (LA) of complicated appendicitis in children is a serious complication. This is associated with a longer duration of hospital stay, more costs, and psychological upsets of both children and their parents. The aim of this study is to evaluate different factors that may affect the development of IPC following LA of complicated appendicitis. Patients and Methods: Seventy-five children were admitted with acute complicated appendicitis. All of them had LA between January 2016 and October 2020. The following variables were studied: patients' demographics, clinical findings, laboratory and imaging studies and operative parameters. Patients were divided according to their post-operative course into two groups; Group (A): patients with IPC (n = 19), Group (B): patients without IPC (n = 56). Potential risk factors for the development of post-operative IPC were identified by univariate and multivariate logistic regression analysis. Results: Nineteen cases (25.3%), out of 75 patients, presented with post-operative collection. Forty-seven (62.7%) patients were males, the overall median age was 11 (inter-quartile range [IQR] 10–13). The most significant operative variable was the operative time, which was significantly longer in Group A, 78 min (IQR 75–88) versus 56 (50–66), P = 0.001. The following variables were associated with an elevated incidence of post-operative IPC; age, body mass index, total leucocytic count (TLC), duration of symptoms, pediatric appendicitis score, pre-operative morbidity, being on medications, operative time, suction and irrigation or suction only and drain duration. In the multivariate model, TLC (odds ratios [OR]: 1.358, P 0.006), symptoms duration (OR: 2.051, P 0.012), morbidity (OR: 2.064, P 0.041) and operative time (OR: 2.631, P 0.039) were statistically significant and confirmed as being predictors of IPC post-LA in complicated appendicitis. Conclusion: Post-operative IPC is quite common after LA for complicated appendicitis. Increased TLC, prolonged symptoms duration, associated co-morbidity and operative time could be predictors of its occurrence. Improving general condition, surgical technique and reducing operative time help to reduce its incidence.
Keywords: Acute appendicitis, children, intraperitoneal collection, laparoscopic
|How to cite this article:|
Khirallah MG, Elsossuky NE, Ghazaly M. Predictive factors of post-laparoscopic appendectomy peritoneal collection in children and adolescents with complicated appendicitis. Afr J Paediatr Surg 2021;18:190-4
|How to cite this URL:|
Khirallah MG, Elsossuky NE, Ghazaly M. Predictive factors of post-laparoscopic appendectomy peritoneal collection in children and adolescents with complicated appendicitis. Afr J Paediatr Surg [serial online] 2021 [cited 2021 Nov 27];18:190-4. Available from: https://www.afrjpaedsurg.org/text.asp?2021/18/4/190/322780
| Introduction|| |
The most common childhood condition that necessitates surgical management is acute appendicitis. During the last years, laparoscopic appendectomy (LA) has been widely accepted worldwide and has become the preferred choice in centers with comprehensive laparoscopy experience.,
Recently, LA in children with complicated appendicitis gained popularity and represented the mainline of management by many surgeons.
When LA is performed for the management of complicated appendicitis, there is a higher incidence of the intra-peritoneal collection (IPC). It is estimated that IPC developed in 4.2% of cases of acute simple appendicitis and up to 6.7%–28% of cases of acute complicated appendicitis.,
This complication was associated with increased morbidity, longer hospital stay, more costs and psychological upsets among affected children.,,
The aim of this study is to predict potential risk factors related to the development of IPC post-LA of complicated appendicitis in children.
| Patients and Methods|| |
This study included 75 children presented with acute complicated appendicitis during the period from January 2017 to October 2020. Ethical Board Review was obtained with Approval code 33871/6/20.
They were evaluated according to our institutional protocol. All children were subjected to evaluation using clinical, laboratory and radiological imaging. Children were operated by laparoscopy using three ports. Data of patients were collected. Recorded variables included: patients' demographics; age, sex, body mass index (BMI), pre-operative ultrasound findings, morbidity, and medications, duration of symptoms, paediatric appendicitis score (PAS), total leucocytic count (TLC), C-reactive protein level (CRP), operative parameters (operative time, gross pathological appearance of the appendix, methods of securing the base, use of suction/irrigation and whether a drain was inserted by the end of the procedure.
Patients were divided according to their post-operative course into two groups; Group (A): included patients with IAC (n = 19), Group (B): patients without IAC (n = 56).
Data were analysed using SPSS ™ statistical package v. 21 (IBMSPSS, NY,USA). Quantitative data were expressed as median and inter-quartile range (IQR). Qualitative data were expressed as frequency and percentage.
The following tests were used:
- Mann–Whitney test of significance was used when comparing in quantitative data
- Chi-square test of significance was used to compare in qualitative data.
Finally, to determine risk factors for post-operative IPC, univariate and multivariate logistic regression models were developed. Results were considered statistically significant when P < 0.05.
| Results|| |
Nineteen cases (25.3%) presented with post-operative (IPC), the other 56 (74.7%) had a smooth post-operative course. Forty-seven (62.7%) children were male. Both groups were compared regarding age and sex. Median age for the whole cohort of patients was 11 years (IQR: 10–13). Groups varied through most of the parameters analysed, where 5 (26.3%) patients in Group A had BMI >25 kg/m2 versus only 3 (5.4%) in Group B. Similarly, the duration of symptoms from the onset of presentation till surgical intervention was significantly longer in Group A; 4 days (IQR 2.2–4.5) versus 2 days (1–2.95) in Group B (P = 0.001). Inflammatory markers, including leucocytic count and CRP were significantly higher in Group A, with P = 0.001, 0.013, respectively. Fifteen children had a pre-operative co-morbidity (six children had diabetes mellitus, 7 children on corticosteroid therapy and two children was malnourished) [Table 1].
As regards operative data, differences between such findings within both groups were not statistically significant, apart from the operative time. It was significantly longer in Group A, 78 min (75–88) versus 56 (50–66) in Group B and P = 0.001. In 40 (53.3%) children, clipping was the favoured modality of handling the base of the inflamed appendix using Hem-O-Lok, while ligature of the base was used in 35 (46.7%) patients. During laparoscopy, 27 patients (36%) found to have suppurative appendicitis, 18 (24%) had gangrenous appendicitis, 19 cases (25.3%) had perforated appendix and 11 cases (14.7%) had the pelvic collection, with no significant difference between both groups [Table 2].
Suction and peritoneal toilet were used in 9 cases (47.4%) in Group A and 21 cases (37.5%) in Group B. Suction only was performed in 10 cases (52.6%) in Group A and in 35 cases (62.5%) in Group B.
Peritoneal drains were inserted in 8 cases (42.1%) in Group A versus 18 cases (32.1%) in Group B.
The results of the univariate analysis of post-operative IAC potential risk factors employing pre-and perioperative parameters are shown in [Table 3]. The following variables were associated with an elevated incidence of post-operative IAA; age, BMI, TLC, duration of symptoms, PAS, having pre-operative morbidity (six children had diabetes mellitus, 7 children were on corticosteroids therapy and two children were malnourished), and operative time. In the multivariate model, TLC, symptoms duration, morbidity and operative time were statistically significant and confirmed as being predictors of IPC post-LA [Table 4].
|Table 3: Univariate regression analysis of predictors of postoperative collection|
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|Table 4: Multivariate regression analysis of predictors of postoperative collection|
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| Discussion|| |
LA has become the standard option of management of acute appendicitis in children at our institution. In recent years, authors preferred this option also for children with complicated appendicitis.
However, LA for complicated appendicitis has been reported to be associated with a higher incidence of post-operative IPC. In some reports, it was estimated to be 18%–26% of all cases when compared to simple appendicitis. This is considered one of the most important complications that may preclude the decision of LA in complicated cases.,
There is a strong need to study different variables that may have effect on the development of IAC in complicated appendicitis cases that will be managed by laparoscopy.
In the current study, nineteen cases (25.3%) presented with post-operative IPC. Authors reported the occurrence of IPC in children with TLC >14,000 c/mm3, duration of symptoms >2 days, BMI >23 and PAS >8. On the other hand, there was a lower incidence of IPC to occur when pre-operative antibiotics were prescribed. The study of operative variables showed that IPC was associated more with perforated appendicitis and longer operative time. The authors documented that the use of suction alone or suction and irrigation was found to have no effect on postoperative prognosis. Controlling the base of the appendix by either ligature or Hem-O-Lok did not contribute to the development of IPC. Insertion of an intra-peritoneal drain or not by the end pf the procedure was not associated with IPC development.
Schlottmann noticed that LA in obese patients, leucocytosis (20.000/mm3), perforated appendicitis or long operative time >90 min led to the development of IPC. His series of patients included both simple and complex appendicitis.
Several authors had highlighted the duration of symptoms before surgical intervention as a leading risk factor of both prolonged hospital stay and the development of IPC. They depended on that long history of disease would predispose to more complex pathology of appendix.,
Both TLC and CRP helped to predict complicated appendicitis in children if they were unusually shooting. As a sequence, the more elevation of both may be associated with an increased incidence of IPC. Emil reported a lower pre-operative TLC in children that did not develop post-operative collection to those that did (17.3 ± 5.3) versus (19.9 ± 6.8).
On the other hand, Guy and Wysocki found that even elevated TLC when associated with post-operative IPC, should not be considered as a risk factor.
During the LA series of Tartaglia, it was reported that control of mesoappendix with clipping is an important risk factor for the development of IPC. He did not explain why that happened. During the current study, the mesoappendix was controlled by monopolar cautery in all LA cases.
Lee Lee and Hong studied three different methods of controlling mesoappendix, ultrasonic energy, clipping and the use of monopolar cautery. They did not find significant differences of the incidence of IPC development.
The role of operative suction or suction/irrigation is still a field of debate. In the current study, we did not find a significant relation between suction or suction/irrigation and the development of post-operative IPC. However, we recommend adequate suction before termination of the procedure.
Furthermore, Hartwich reported that there was no clinically significant correlation between suction alone and irrigation as regard wound infection or IPC development.
St Peter had performed a prospective randomised trial that compared the use of at least 500 mL irrigation with normal saline versus suction alone in 220 children with complicated mainly perforated appendicitis. The study reported no difference in the rate or location of IPC.
Furthermore, the current results are near to that of Snow and his team. They tailored a randomised controlled trial to study the effect of suction and irrigation on the development IPC and found that its rate was equivalent between groups treated with peritoneal irrigation and suction-only techniques.
These studies explained that irrigation had a negative effect on the defense mechanism of the peritoneal cavity. This may be caused by the removal of opsonins and impairing the function of present macrophages. In addition, irrigation and suction increased the overall operative time.
This study reported that children with pre-operative co-morbidity were associated with high incidence of post-operative IPC.
According to the American Society of Anesthesiologists (ASA) stated that class III or greater was associated with increased 30-day post-operative morbidity following appendicectomy.
However, on the other hand, according to Guy and Wysocki, ASA was not associated with increased risk of peritoneal abscess in their study.
The routine use of a surgical drain post-operatively has not been proven to improve outcomes and the exact impact on the risk of post-operative remains unclear. Studies by Allemann and Narci reported that the use of drains at operation increased abscess formation and therefore were not recommended.,
The results of the current study showed that peritoneal drains were inserted in 8/19 in Group A and in 18/56 in Group B patients with no remarkable difference and no significant advantage as well.
The main limitation of this study was the need to expand it among different tertiary centres and increase the number of children subjected to LA due to complex appendicitis.
| Conclusion|| |
Post-operative IPC is quite common after LA for complicated appendicitis. Increased TLC, prolonged symptoms duration, associated co-morbidity and operative time could be predictors of its occurrence. Improving general condition, surgical technique and reducing operative time help to reduce its incidence.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
St. Peter SD, Sharp SW, Holcomb GW, Ostlie DJ. An evidence-based definition for perforated appendicitis derived from a prospective randomized trial. J Pediatr Surg 2008;43:2242-5.
Sauerland S, Lefering R, Neugebauer EA. Laparoscopic versus open surgery for suspected appendicitis. Cochrane Database Syst Rev 2002;1:1-7.
Khirallah MG, Eldesouki NI, El zanaty AA, Ismail KA, Arafa MA. Laparoscopic versus open appendectomy in children with complicated appendicitis. Ann Pediatr Surg 2017;13:17-20.
Coelho A, Sousa C, Marinho AS, Barbosa-Sequeira J, Recaman M, Carvalho F. Post-appendectomy intra-abdominal abscesses: Six years' experience in a Pediatric Surgery Department. Cir Pediatr 2017;30:152-5.
Krisher SL, Browne A, Dibbins A, Tkacz N, Curci M. Intra-abdominal abscess after laparoscopic appendectomy for perforated appendicitis. Arch Surg 2000;1136:438-41.
Moore CB, Smith RS, Herbertson R, Toevs C. Does use of intraoperative irrigation with open or laparoscopic appendectomy reduce post-operative intraabdominal abscess? Am Surg 2011;77:78-80.
Levin DE, Pegoli W Jr. Abscess after appendectomy: Predisposing factors. Adv Surg 2015;49:263-80.
St Peter SD, Holcomb GW 3rd
. Should peritoneal lavage be used with suction during laparoscopic appendectomy for perforated appendicitis? Adv Surg 2013;47:111-8.
Reid F, Choi J, Williams M, Chan S. Prospective evaluation of the Sunshine Appendicitis Grading System score. ANZ J Surg 2017;87:368-71.
Schlottmann F, Sadava EE, Pena ME, Rotholtz NA. Laparoscopic appendectomy: Risk factors for postoperative intraabdominal abscess. World J Surg 2017;41:1254-8.
Saar S, Talving P, Laos J, Põdramägi T, Sokirjanski M, Lustenberger T, et al
. Delay between onset of symptoms and surgery in acute appendicitis increases perioperative morbidity: A prospective study. World J Surg 2016;40:1308-14.
Shin CS, Roh YN, Kim JI. Delayed appendectomy versus early appendectomy in the treatment of acute appendicitis: A retrospective study. World J Emerg Surg 2014;9:8.
Emil S, Elkady S, Shbat L, Youssef F, Baird R, Laberge JM, et al
. Determinants of postoperative abscess occurrence and percutaneous drainage in children with perforated appendicitis. Pediatr Surg Int 2014;30:1265-71.
Guy S, Wysocki P. Risk factors for intra-abdominal abscess post laparoscopic appendicectomy for gangrenous or perforated appendicitis: A retrospective cohort study. Inte J Surg Open 2018;10:47-54.
Giraudo G, Baracchi F, Pellegrino L, Dal Corso HM, Borghi F. Prompt or delayed appendectomy? Influence of timing of surgery for acute appendicitis. Surg Today 2013;43:392-6.
Lee Lee J, Hong T. Comparison of various methods of mesoappendix dissection in laparoscopic appendectomy. J Laparoendosc Adv Surg Tech A 2011;24:28-31.
Hartwich JE, Carter RF, Wolfe L, Goretsky M, Heath K, St. Peter SD, et al
. The effects of irrigation on outcomes in cases of perforated appendicitis in children. J Surg Res 2013;180:222-5.
St Peter SD, Adibe OO, Iqbal CW, Fike FB, Sharp SW, Juang D, et al
. Irrigation versus suction alone during laparoscopic appendectomy for perforated appendicitis: A prospective randomized trial. Ann Surg 2012;256:581-5.
Snow HA, Choi JM, Cheng MW, Chan ST. Irrigation versus suction alone during laparoscopic appendectomy; A randomized controlled equivalence trial. Int J Surg 2016;28:91-6.
Ditillo MF, Dziura JD, Rabinovici R. Is it safe to delay appendectomy in adults with acute appendicitis? Ann Surg 2006;244:656-60.
Allemann P, Probst H, Demartines N, Schäfer M. Prevention of infectious complications after laparoscopic appendectomy for complicated acute appendicitis – The role of routine abdominal drainage. Langenbecks Arch Surg 2011;396:63-8.
Narci A, Karaman I, Karaman A, Erdoğan D, Cavuşoğlu YH, Aslan MK, et al
. Is peritoneal drainage necessary in childhood perforated appendicitis? A comparative study. J Pediatr Surg 2007;42:1864-8.
Prof. Mohammad Gharieb Khirallah
Department of Pediatric Surgery, Faculty of Medicine, Tanta University, Tanta
Source of Support: None, Conflict of Interest: None
[Table 1], [Table 2], [Table 3], [Table 4]