Prolonged Antibiotic Treatment does not Prevent Intra-Abdominal Abscesses in Perforated Appendicitis

There is no single evidence-based antibiotic treatment strategy for uncomplicated or perforated appendicitis, particularly because there is no indisputable evidence for any optimal antimicrobial therapy after surgery for appendicitis in children [3]. Despite a marked decline in associated mortality during the past 50 years, perforation and complication rates remain unchanged, because they are influenced strongly by factors untouched by the intervening therapeutic advances. Scanty data exist about optimal duration of postoperative antibiotic treatment, whereas it is important to treat patients with adequate antimicrobial therapy and to avoid overtreatment.

Some authors advocate a predefined duration of antimicrobial treatment, whereas others discontinue antibiotics depending on the patient’s clinical signs regardless of length of therapy. Unfortunately, studies that have investigated antibiotic regimens and included duration of postoperative antibiotic treatment as a point of interest often included children with perforated as well as gangrenous appendicitis [4‐9], thereby assembling a different population, with a lower rate of postoperative intra-abdominal abscesses. The recently published guidelines from the Therapeutic Agents Committee of the Surgical Infection Society for antimicrobial therapy in children recommend that, with respect to perforated appendicitis, treatment duration should be based on the patient’s response to treatment and intravenous therapy should be continued until the patient is afebrile, has normal white blood cell counts—in brief, has no symptoms of infection left at all [3]. However, these recommendations are partly based on studies that included children with gangrenous appendicitis. Gangrenous appendicitis is a different entity with an intact intestinal lining that should be treated by resection, with only 24 h of postoperative antibiotics [10, 11]. In the current study, only children with perforated appendicitis were included to narrow the spectrum of the disease and to examine the influence of antibiotic therapy in a patient population that is most prone to develop intra-abdominal abscesses. By selecting this predisposed group, we designed to enlarge the possible effects of the different antibiotic treatment protocols.

Duration of antibiotic treatment could be determined by relying on criteria, such as normalized acute phase proteins (e.g., CRP), white blood count, and normal findings at bedside examination. However, in theory, this could lead to excessive use of antibiotics, because abnormal findings may be caused by an inflammatory response rather than an infection [10]. In the current study, the serum white blood count was not a reliable determinant to decide whether to discharge a patient. Snelling et al. presented a clear overview of abundant (often unspecified) criteria upon which antibiotic treatment is modified or discontinued in the current practice [4]. Opponents of the use of such criteria plead that management of infections should include patient support and antimicrobial therapy, but above all it should include an intervention to deal with the underlying process (e.g., drainage of an intra-abdominal abscess) [10‐12]. Only when infections are not easily controllable, prolonged antibiotic therapy may be required. Thus, persistence of inflammation beyond the time of antibiotic therapy is not an indication to continue, restart, or change the antibiotic, but it is a hint that a treatable source of infection might be present, in absence of which signs of inflammation will remit spontaneously.

The current study was set up as a retrospective study with the primary purpose to compare two antibiotic treatment regimens in two patient groups with an equally high risk of abscess formation postoperatively. However, whereas the multicenter design of the study enabled us to weigh both regimens, it also increased the amount of variability between both treatment groups. For example, the mean age in hospital B is significantly lower than in hospital A. It is reported in literature that appendicitis may manifest itself more severe in younger children [13, 14]. Therefore, in theory, it is possible that the negative impact of age blurs the beneficial effect of prolonged antibiotic treatment, and the same assumption can be made for the sex difference and surgical approach, even though comparison of the two surgical protocols revealed no differences in general. To exclude the influence of potentially confounding factors, such as age, sex, and surgical technique on abscess formation, each factor has been taken into account in multivariate regression risk analysis, which revealed that no other potential risk factors apart from female sex predispose to intra-abdominal abscess development postoperatively. Because both participating centers are university hospitals, surgical procedures were performed by multiple surgeons and residents under supervision. This explains the relatively high risk of open surgery, because to enable residents to learn the standard open procedure, after diagnosis of a positive appendix using a scope without inflating the abdomen, open appendectomy may have been performed when the resident was not yet trained to perform laparoscopic appendectomy. It would have been more elegant to compare treatment groups within one hospital to eliminate the risk of confounding variables.

Both patient groups were identical regarding the onset and type of antibiotics. Although children in hospital B received gentamicin as part of the standard antibiotic protocol, and only 18.8% of children in hospital A did, we believe that we compared two adequate and equivalent antibiotic regimens. As stated, our purpose was to compare the duration of adequate antibiotic treatment to determine whether a more aggressive antibiotic approach would reduce the risk of intra-abdominal abscess formation. Whereas the postoperative intra-abdominal abscess rate found in the current study is relatively high, it is still within the range reported in previous studies for the pediatric population operated on for perforated appendicitis (3–24%) [6, 15‐18]. Using a strict definition for perforated appendicitis elevates the abscess rate within this population [17], and because clear definitions for both perforated appendicitis and intra-abdominal abscess were applied in the current study, this could explain the high abscess rates that were found.

Not minifying the limitations of the current study, the clear results imply that prolonged antibiotic treatment after surgery for perforated appendicitis based on serum CRP level does not reduce the incidence of intra-abdominal abscesses. These findings are in agreement with the study by Henry et al. who also found no correlation between length of postoperative antibiotic treatment and abscess formation in children operated on for perforated appendicitis [15], and with the study by Lelli et al. who reviewed a historical cohort of children [19].

We would like to suggest a randomized, controlled trial to determine the optimal duration of postoperative antibiotic treatment for children with perforated appendicitis.