Background
Appendicitis is a common pediatric surgical emergency. Even with the use of ultrasonagraphy and computed tomography (CT), perforation rates in children have been reported to be 30 % over the last 30 years, and some perforated patients presented themselves with an appendiceal abscess [1‐3].
Appendiceal abscess can immediately be treated by surgery or by non-surgical management, consisting of treatment with parenteral antibiotics alone, or treatment with antibiotics and ultrasound- or CT-guided drainage, followed by an interval appendectomy [4, 5]. But the need for a future interval appendectomy remains debatable [6‐10]. Without an interval appendectomy, the risks of recurrent appendicitis and missed pathological findings are uncertain. The recurrence rate after treatment with percutaneous drainage and antibiotics for patients with an appendiceal abscess was found to be low, and an interval appendectomy in most cases was not required [11, 12].
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In this study, we used dataset from Taiwan’s National Health Insurance (NHI) to analyze the effectiveness of percutaneous drainage therapy, and to determine the possible indicating factors for performing an interval appendectomy.
Methods
Data source
This study used data from the Taiwan National Health Insurance (NHI) program, which the government initiated in 1995, and which covers 99 % of the population of 23 million people. The Bureau of the NHI (BNHI) in Taiwan has released a research-oriented database through the Collaboration Center for Health Information Application (CCHIA). In 1999, the BNHI began to release all claims data in electronic form, to allow researchers to trace almost all uses of medical services for all people in Taiwan, including all children with appendicitis.
We extracted datasets between 2007 and 2012 from the NHI research database (NHIRD) released by the BNHI through the CCHIA. The study protocol was approved by the Taipei Medical University Joint Institutional Review Board without the need to obtain signatures of study participants, because the NHIRD consists of de-linked secondary data.
Study sample
We enrolled 1225 pediatric patients (≤18 years of age) with a diagnosis of an appendiceal abscess who received non-surgical treatment between January 2007 and December 2012, because the International Classification of Disease, Ninth Revision, Clinical Modification (ICD-9-CM) codes were available since 2007.
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Inpatient claims, which included records of all hospitalizations, provided a substantial amount of information. We linked study participants to the inpatient claims data to identify appendiceal abscess (540.9), percutaneous drainage (470.22C) and postoperative complications include an intra-abdominal abscess (IAA,998.59) and postoperative bowel obstruction (PBO,560.81 or 997.4) based on ICD-9-CM codes.
Patients were divided into three age groups: ≤ 6, 7 ~ 12, and 13 ~ 18 years old. The definition of an interval appendectomy is a patient who had initial medical therapy with intravenous antibiotics or possibly drainage followed by an elective appendectomy. The definition of recurrent appendicitis is a patient who has appendicitis again after initial non-surgical treatment without an appendectomy. Excluded from the study were patients for whom the initial non-surgical treatment failed or who had recurrent appendicitis and received immediate surgery.
Statistical analysis
We performed a univariate analysis between different age group and treatment methods. We present continuous variables as the mean ± standard deviation (SD) and analyzed differences in these parametric variables between groups with Student’s t-test. We also present categorical variables as ratios, and analyzed differences in non-parametric variables between groups with Chi-square test. A multivariate logistic regression analysis was used to identify independent factors including factors of different age groups, gender, the use of antibiotics, the use of percutaneous drainage, and recurrent or non-recurrent appendicitis. The relationship between potential variables and the necessity for an interval appendectomy was assessed by odds ratios (ORs) and related 95 % confidence intervals (CIs).
We used the Statistical Analytic System software version 9.3 (SAS Institute, Cary, NC, USA) to analyze the data in this study. Differences between groups were considered significant if p values were < 0.05.
Results
Totally, 6190 children had an appendiceal abscess, and non-surgical treatment was used in 1,225 patients. Table 1 lists of demographic data of all patients with an appendiceal abscess. Of 1225 patients, 185 received an interval appendectomy, 78 had recurrent appendicitis, and 10 had postoperative complications after an interval appendectomy.
Table 1
Demographic data of appendiceal abscess patients
Variable | Patients with aappendiceal abscess | Non-operative treatment | Drainage | Recurrence | Interval appendectomy |
|---|---|---|---|---|---|
n (%) | n (%) | n (%) | n (%) | ||
Age group (years) | |||||
≤ 6 | 628 | 233 (37.1) | 27 (11.6) | 18 (7.8) | 47 (20.2) |
7 ~ 12 | 2296 | 494 (21.5) | 55 (11.1) | 29 (5.8) | 84 (17.0) |
13 ~ 18 | 3266 | 498 (15.2) | 68 (13.7) | 31 (6.2) | 54 (10.8) |
Gender | |||||
Male | 3786 | 687 (18.15) | 90 (13.1) | 42 (6.1) | 98 (14.3) |
Female | 2404 | 538 (22.38) | 60 (11.2) | 36 (6.6) | 87 (16.1) |
Total | 6190 | 1225 (19.8) | 150 (12.2a) | 78 (6.3a) | 185 (15.1a) |
Of the 1225 children presenting with an appendiceal abscess had non-surgical treatment. 150 (2.2 %) patients were treated by percutaneous drainage with antibiotics, and the remaining 1075 (97.8 %) were only given antibiotics without percutaneous drainage. The average time of hospital stay for patients treated with percutaneous drainage (at 12.8 ± 8.9 days) was longer than that without drainage (9.7 ± 6.4 days) (p < 0.05). Table 2 demonstrates that patients treated with percutaneous drainage and antibiotics had significantly lower rates of recurrent appendicitis (p < 0.05), a significantly smaller chance of receiving an interval appendectomy (p < 0.05), and a significantly smaller chance of postoperative complications (p < 0.05) after an interval appendectomy than those without percutaneous drainage treatment.
Table 2
Comparison of therapeutic effectiveness in patients with and without percutaneous drainage
Without drainage (%) | With drainage (%) | |
|---|---|---|
R ecurrence | ||
Yes | 73 (6.79) | 5 (3.33) a |
No | 1002 (93.21) | 145 (96.67) |
Interval appendectomy (IA) | ||
Yes | 174 (16.19) | 11 (7.33) a |
No | 901 (83.81) | 139 (92.67) |
Postoperative complications after IA | ||
Yes | 10 (5.75) | 0 (0) a |
No | 164 (94.25) | 11 (100) |
In our study (Table 1), 185 (15.1 %) patients received an interval appendectomy and the remaining 1040 (84.9 %) did not. Data from the multivariate logistic regression analyses (Table 3) showed that pediatric patients who received percutaneous drainage had a significantly smaller need to receive an interval appendectomy (OR = 2.249, 95 % CI = 1.187 ~ 4.260, p < 0.05), older (13 ~ 18 years) patients had a significantly smaller need to receive an interval appendectomy than those who were ≤ 6 years, (OR = 2.071, 95 % CI = 1.34 ~ 3.19, p < 0.01), and those who were 7–12 years old (OR = 1.662, 95 % CI = 1.15 ~ 2.41, p < 0.01), and patients with recurrent appendicitis were significantly likely to have an increased incidence of receiving an interval appendectomy (OR = 3.231, 95 % CI = 1.95 ~ 5.35, p < 0.001).
Table 3
Multivariate logistic regression of indicating factors for performing an interval appendectomy
Variable | Odds ratio | 95 % Confidence interval | |
|---|---|---|---|
Gender | |||
Female | 1 | - | - |
Male | 1.025 | 0.743–1.414 | |
Age group (years) | |||
13–18 | 1 | - | - |
7–12** | 1.662 | 1.146–2.410 | |
≤ 6** | 2.071 | 1.344–3.193 | |
Drainage | |||
Yes | 1 | - | - |
No* | 2.249 | 1.187–4.260 | |
Recurrence | |||
No | 1 | - | - |
Yes*** | 3.231 | 1.950–5.354 | |
Discussion
To the best of our knowledge, this is the first study to use a large nationwide database to study the effectiveness of percutaneous drainage therapy, and to determine the indicating factors for receiving an interval appendectomy in patients with appendiceal abscess.
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Some recent reports mentioned that treatment of acute appendicitis with abscess formation or phlegmon with non-surgical management in children followed by an elective appendectomy has become well-recognized and accepted [13‐15]. Non-surgical treatment of a pediatric appendiceal abscess is now also an acceptable approach in Taiwan. As shown in Table 1, 19.8 % of patients with appendiceal abscess received non-surgical treatment, consisting of parenteral antibiotics alone and ultrasound- or CT-guided drainage, followed by an interval appendectomy [4, 5]. We found that 12.2 % of patients received treatment with percutaneous drainage and antibiotics, but another 87.8 % of them received only antibiotics. Older children (13 ~ 18 years of age) had an increased incidence of receiving percutaneous drainage in our study. In our opinion, the reason may have been that the technique of drainage is more easily to be performed in older children who are physically larger.
Previous reports revealed that percutaneous drainage with the use of antibiotics is more efficient than treatment with antibiotics alone to successfully and completely treat appendiceal abscess without an interval appendectomy [11, 12]. We had the same findings (Table 2), showing that patients treated with percutaneous drainage and antibiotics had a significantly not only decreased rate of receiving an interval appendectomy (p < 0.05), but also had a significantly lower rate of recurrent appendicitis (p < 0.05) and had a significantly smaller chance of having postoperative complications (p < 0.05) after an interval appendectomy. The average time of hospital stay (12.8 ± 8.9 days) was longer for patients treated with percutaneous drainage than those without drainage (9.7 ± 6.4 days) but with antibiotics alone (p < 0.05). Based on these data, we suggest that the therapeutic effectiveness of percutaneous drainage may be due to patients’ hospitalization until drainage was completely stopped.
There are few reports dealing with indicating factors for performing an interval appendectomy. The presence of an appendicolith, increased blood C-reactive protein levels, elevated percent bands of white blood cells, and partial small bowel obstruction on admission are reported to be associated with an increased risk of recurrent appendicitis, and thus, such patients should receive an interval appendectomy [16‐18]. In the multivariate logistic regression analyses from our national database (Table 3), we found that pediatric patients had a significantly smaller need to receive an interval appendectomy later on if they had received percutaneous drainage (OR = 2.249, p < 0.05) and were significantly older (13 ~ 18 years) (p < 0.01). But if the pediatric patients had recurrent appendicitis, they had a significantly greater need to receive an interval appendectomy (OR = 3.231, p < 0.001).
Study limitations
Readers are warned against over-interpreting our study data because it has two major limitations. First, with a population-based database, we had no other available clinical data including patients’ descriptions of clinical presentation, laboratory data, severity of appendiceal abscess, or pathologic confirmation of an appendiceal abscess. Second, we were unsure whether the staff surgeon decided to treat patients with non-surgical treatment, the use of percutaneous drainage, and performing an interval appendectomy.
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Conclusions
In this our study, we used nationwide data in Taiwan to demonstrate that the therapeutic effectiveness of percutaneous drainage and antibiotics was more beneficial than antibiotics alone in treating patients with appendiceal abscess. We also found three factors significantly associated with receiving an interval appendectomy: recurrent appendicitis, being aged less than 13 years, and treatment with antibiotics only.
Acknowledgements
Winston W. Shen gave constructive editing comments on the manuscript.
Funding
No funding was obtained for this study.
Availability of data and materials
The data that support the findings of this data are available from [the Collaboration Center for Health Information Application (CCHIA)] but restrictions apply to the availability of these data, which were used under license which you must apply previously and be accepted for the current study, so are not publicly available. Data are however available from the authors upon reasonable request and with permission of [CCHIA].
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Authors’ contributions
L-CC (first author and correspond author) : contributed to conception and design the research, and had been involved in drafting the manuscript. C-KF (co-first author) : did analysis and interpretation of data, and was involved in drafting the manuscript. H-CS: investigated and resolved the questions related to the accuracy of the data within manuscript. L-HC : also help investigate and resolve the questions related to the accuracy of the data within manuscript. S-MW: was involved in drafting the manuscript. H-HC: revised important intellectual content of the manuscript. C-WK : had most acquisition of data, and analysis and interpretation of data. C-RJ (co-correspond author) : contributed to conception and design of the research and gave final approval of the version to be published. All authors read and approved the final manuscript.
Competing interests
The authors declare that they have no competing interests.
Consent for publication
“Not applicable” in this section.
Ethics approval and consent to the participate
The study was approved by the TMU-Joint Institutional Review Board without the need of obtaining signature of study participants, reference number is 201404074.
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