Nelson Rao Pushpanathan and Mohd Nizam Md Hashim contributed equally to this study as co-first authors.
Laparoscopic appendicectomy (LA) has several advantages over conventional open appendicectomy (OA). However, about 5% to 10% of LA patients still need to be converted to open surgery. Identifying risk factors that contribute to conversion to OA allows for early identification of patients who may benefit from primary OA. This study aimed to determine the conversion rate of LA to OA and to identify its associated risk factors among patients with acute or perforated appendicitis.
A retrospective review of medical records was performed among patients with acute or perforated appendicitis who underwent LA between December 2015 and January 2017. With the use of multivariable logistic regression analyses, the predictors of conversion from laparoscopic to OA were investigated.
Out of 120 patients, 33 cases were converted to OA which gives a conversion rate of 27.5%. Among 33 patients who were converted to OA, 27 patients (81.8%) had perforated appendix, while in the LA group, perforated appendix cases consisted of 34.5% (P<0.001). Histopathology of the appendix was the predictor of conversion from LA to OA (adjusted odds ratio, 8.82; 95% confidence interval, 3.13–24.91; P<0.001).
The result from our study shows that the overall conversion rate for the study period was high. Patients with perforated appendicitis had a higher risk of conversion to OA. Therefore, preoperative diagnosis of perforated appendicitis may be paramount in predicting conversion to OA.
Appendicitis is the inflammation of the appendix and one of the most common conditions that require surgery. Worldwide the estimated lifetime risk of having appendicitis is 7% to 8%. Introduced by Semm [
About 5% to 10% of LA patients still undergo a conversion to open surgery for multiple reasons [
Conversion from LA to OA not only removes all the beneficial attributes of laparoscopic approach as highlighted, but it also increases cost and operating time [
An ethical clearance was obtained from the Human Research Ethics Committee of Universiti Sains Malaysia in Kelantan, Malaysia (No. USM/JEPeM/18040206). Informed consent has been waived by the Ethics Committee.
This is a retrospective review of patients with acute or perforated appendicitis who were referred/treated or diagnosed and underwent LA at Hospital Universiti Sains Malaysia (HUSM) in Kubang Kerian, Kelantan, Malaysia from December 2015 until January 2017. HUSM is an academic, tertiary care center, and one of the largest hospitals in Kelantan.
Between December 2015 and January 2017, 120 patients with acute or perforated appendicitis who underwent LA met the inclusion and exclusion criteria. The inclusion criteria for this study were the age of 12 years old and above as the patients below 12 years old were managed by the pediatric surgery team, hence, excluded in our study, clinical diagnosis on presentation of either acute or perforated appendicitis, and patients who underwent LA during the study period. The exclusion criteria were any patients who had other acute abdomen diagnosis such as perforated viscus, ectopic pregnancy, pelvic inflammatory disease, cases with suspected malignancy, patients with palpable appendicular mass, and those with incomplete data or missing data or duplicated entries and loss to follow up.
The diagnosis of appendicitis was based on the presence of positive history and suggestive clinical examination findings; characteristic migratory abdominal pain, anorexia, nausea, fever, rebound tenderness, and leukocytosis. A combination of each of the signs and symptoms increases the probability of the diagnosis of appendicitis.
OA was performed through a Lanz incision and laparoscopic approach performed through 10-mm infraumbilical camera port placement with 2 working ports of 5 mm at the left iliac fossa and suprapubic area using the Karl Storz Image1 S Laparoscopic System (Tuttlingen, Germany).
The sample size was calculated using 2 means and 2 proportions formula for both continuous and categorical variables, respectively to obtain the appropriate sample size for the factors associated with conversion from LA to OA. The calculation was done using the PS (Power and Sample Size Calculations, ver. 3.0.12). The final targeted sample size was determined by considering 20% drop-out rate. The estimated sample size for this study was 120 samples.
This study involved secondary data collection. A retrospective medical record review of all patients with acute or perforated appendicitis who were referred/treated or diagnosed and underwent LA at HUSM over a 14-month period (December 2015 to January 2017) was performed. Patients’ medical records were reviewed in detail to obtain patient demographics and clinical characteristics. All information needed is recorded in the data collection form to reduce bias. Variables that were required for the study were age, sex, ethnicity, histopathology of the appendix, temperature on presentation, duration of symptoms on presentation, and total white blood cell.
Demographics and clinical data were reported as frequencies or proportions for categorical data, means± standard deviations or medians (interquartile ranges) for continuous variables, as appropriate. Differences in patient demographics and clinical characteristics between groups (LA and OA) were evaluated by the Mann-Whitney U-test, Pearson chi-square test, or Fisher exact test, as appropriate.
The data were analyzed by univariable analysis (simple logistic regression) and multivariable analysis (multiple logistic regression). Conversion from LA to OA was the outcome variable. Independent variables were possible risk factors for conversion from laparoscopic to OA included age, sex, ethnicity, histopathology of the appendix, temperature on presentation, duration of symptoms on presentation, and total white blood cell. In this study, all the independent variables were included for multiple logistic regression. All odds ratios (ORs) were presented with 95% confidence intervals (CI). Statistical analysis was carried out using IBM SPSS Statistics for Windows ver. 22.0 (IBM Corp., Armonk, NY, USA). The limit of significance was set at 0.05.
One hundred and twenty patients met the inclusion and exclusion criteria and were included in the study. The total numbers of patients with preoperative diagnosis of acute and perforated appendicitis who underwent LA at HUSM during the study period were 83 patients (69.2%) and 37 patients (30.8%), respectively. In total, 57 females (47.5%) were included in the study with the age of 31.6± 16.98 years old. Exclusion cases were 5 cases, of which 3 cases were excluded for appendicular mass and 2 cases for pelvic inflammatory disease. All 5 cases were treated conservatively with antibiotics and hydrations. Postoperative diagnosis is consistent with the preoperative diagnosis.
Of the 120 patients who underwent initial LA, 33 cases were converted to OA, of which 30 cases were through Lanz incision and 3 cases were through midline laparotomy approach, the decision for midline laparotomy were mainly due to difficult anatomy, which the conversion rate was 27.5%. There were no significant differences between the LA and OA in terms of age, sex, ethnicity, temperature on presentation, duration of symptoms on presentation, and total white blood cells. However, there was a statistical difference in terms of histopathology of the appendix. In 33 patients who were converted to OA, 27 of them (81.8%) had perforated appendix, while in the LA group, perforated appendix cases consisted of 34.5% (P<0.001).
In this dataset, all variables were included in the multiple logistic regression. Multiple logistic regression showed that histopathology of the appendix was the predictor of conversion from LA to OA in patients with acute or perforated appendicitis. After adjustment for age, sex, ethnicity, temperature on presentation, duration of symptoms on presentation, and total white blood cells, the result showed that perforated appendix resulted in greater odds of converting to OA (adjusted OR, 8.82; 95% CI, 3.13–24.91; P<0.001).
In the current era, advancements in laparoscopic surgery and instruments have been exponentially growing. This has led to few advantages of LA over conventional OA such as reduced postoperative pain, lesser rates of surgical site infections, and shorter hospital stay [
Of the 120 patients who underwent initial LA, 33 cases were converted to OA, which the conversion rate was 27.5%. The conversion rate in our population was higher if compared to Australia and Japan, which were 5.09% and 10%, respectively [
In our setting, most of our laparoscopic appendicectomies are performed by trainees with the minimum experience of 2 to 3 years of postgraduate experience who are honing their skills and are in the training process which could contribute to this higher conversion rate with their limited technical abilities in comparison with senior surgeons. Furthermore, the learning curve of surgeon from our protocol is to perform LA is after 10 cases as first assistant and 10 cases as the second assistant. Other than that, a better selection of patients may reduce the conversion rate as we can directly proceed to open surgeries in patients with specific criteria.
Our study identified histopathology of the appendix as an independent risk factor for conversion from LA to OA in patients with acute or perforated appendicitis on multivariable analysis. Patients presented with perforated appendix had nearly 9 times higher odds to convert to OA if compared to other histopathology. Other factors such as age, sex, ethnicity, temperature on presentation, duration of symptoms on presentation, and total white blood cells were found to have no association with conversion to OA using multiple logistic regression (P>0.05).
As the results show, this can be a challenge as the histopathological diagnosis is available only after the surgery has been performed, hence being a limiting factor to rely upon as the early identification of this is crucial to reduce the conversion rate and better planning of surgery for the patient. However, this brings into consideration that, imaging such as ultrasonography (USG) abdomen or high-resolution CT preoperatively can be beneficial to confirm the diagnosis of complicated appendicitis such as gangrenous, phlegmonous, or perforated appendicitis. This can be accurately diagnosed particularly with the usage of CT scans. USG is preferred mainly in children and pregnant women due to the reduced risk of ionizing radiation and intravenous contrast usage. A meta-analysis by Keyzer et al. [
We recognize the limitations of this study. This study is focused on acute or perforated appendicitis patients in a single tertiary center and it could be expanded to other centers for future studies. We are also limited by the retrospective nature of this study. Future research is needed to identify other predictors of conversion to OA such as the location of the appendix or any previous abdominal surgeries as well as biomarkers usage such as CRP. As we do not perform CRP biomarker tests and preoperative radiologic examination for our appendicitis cases, we recommended that these methods should be considered for future studies. The usage of CRP readings and preoperative imaging such as USG or CT abdomen, which is objective, relatively inexpensive, simple, and effective can identify this high-risk group of patients and potentially reduce the conversion rate. In this study, we did not capture the parameters for surgical outcomes, for example operation time, postoperative hospital stay, and postoperative complication as we analyzed the conversion rate and its risk factors. Therefore, we are unable to compare these parameters between both groups.
In conclusion, the results showed that the conversion rate was high and perforated appendicitis was the predictor for conversion to open in LA. The conversion rate can be improved by proper identification of the high-risk patients.
No potential conflict of interest relevant to this article was reported.
None.
Patient demographics and clinical characteristics
Variable | Total | LA | OA |
P-value |
---|---|---|---|---|
No. of patients | 120 | 87 | 33 | |
Age (yr) | 31.6 ± 16.98 | 24.0 (18.0)b | 27.0 (26.0)b | 0.609 |
Sex | ||||
Male | 57 (47.5) | 37 (42.5) | 20 (60.6) | 0.077 |
Female | 63 (52.5) | 50 (57.5) | 13 (39.4) | |
Ethnicity | ||||
Malay | 118 (98.3) | 85 (97.7) | 33 (100.0) | > 0.999 |
Chinese | 2 (1.7) | 2 (2.3) | 0 (0.0) | |
Histopathology | ||||
Perforated | 57 (47.5) | 30 (34.5) | 27 (81.8) | < 0.001 |
Others | 63 (52.5) | 57 (65.5) | 6 (18.2) |
|
Temperature on presentation (°C) | ||||
≤ 37.5 | 84 (70.0) | 61 (70.1) | 23 (69.7) | 0.964 |
> 37.5 | 36 (30.0) | 26 (29.9) | 10 (30.3) | |
Duration of symptoms on presentation (hr) | ||||
≤ 48 | 89 (74.2) | 66 (75.9) | 23 (69.7) | 0.491 |
> 48 | 31 (25.8) | 21 (24.1) | 10 (30.3) | |
Total white blood cell (x109/L) | ||||
≤ 20,000 | 104 (86.7) | 77 (88.5) | 27 (81.8) | 0.372 |
> 20,000 | 16 (13.3) | 10 (11.5) | 6 (18.2) |
Values are presented as number only, mean±standard deviation, bmedian (interquartile range), or number (%).
LA, laparoscopic appendicectomy; OA, (conversion from LA to) open appendicectomy.
Thirty cases were converted to Lanz and 3 cases were converted to midline laparotomy.
Histopathological examination of acute appendicitis and suppurative appendicitis. The reason for conversion was difficult anatomy described as extensive adhesions, bowel dilatations with difficulty in identifying the base of the appendix.
Mann-Whitney U-test.
Pearson chi-square test.
Fisher exact test.
Predictors of conversion from laparoscopic appendicectomy to open appendicectomy from simple and multiple logistic regression
Variable | Simple logistic regression |
Multiple logistic regression |
||||
---|---|---|---|---|---|---|
β | Crude OR (95% CI) | P-value | β | Adjusted OR (95% CI) | P-value | |
Age (yr) | 0.11 | 1.01 (0.98–1.04) | 0.435 | 0.02 | 1.02 (0.99–1.06) | 0.192 |
Sex | ||||||
Female | 0 | 1 | 0 | 1 | ||
Male | 0.73 | 2.08 (0.92–4.71) | 0.079 | 0.64 | 1.91 (0.76–4.81) | 0.172 |
Ethnicity | ||||||
Malay | 0 | 1 | 0 | 1 | ||
Chinese | –20.26 | NE | > 0.999 | –19.91 | NE | > 0.999 |
Histopathology | ||||||
Others | 0 | 1 | 0 | 1 | ||
Perforated | 2.15 | 8.55 (3.18–22.99) | < 0.001 | 2.18 | 8.82 (3.13–24.91) | < 0.001 |
Temperature on presentation (°C) | ||||||
≤ 37.5 | 0 | 1 | 0 | 1 | ||
> 37.5 | 0.02 | 1.02 (0.43–2.44) | 0.964 | –0.51 | 0.60 (0.22–1.66) | 0.327 |
Duration of symptoms on presentation (hr) | ` | |||||
≤ 48 | 0 | 1 | 0 | 1 | ||
> 48 | 0.31 | 1.37 (0.56– 3.33) | 0.492 | 0.55 | 1.74 (0.62–4.88) | 0.296 |
Total white blood cell (x109/L) | ||||||
≤ 20,000 | 0 | 1 | 0 | 1 | ||
> 20,000 | 0.54 | 1.71 (0.57–5.16) | 0.340 | 0.40 | 1.49 (0.42–5.24) | 0.538 |
β, regression coefficient; OR, odds ratio; CI, confidence interval; NE, not estimable.
Hosmer-Lemshow test (P=0.727), classification table (overall correctly classified percentage=73.3%) and Nagelkerke R2 (0.307) were applied to check the model fitness.
All variables were included in the multiple logistic regression.