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Videosurgery and Other Miniinvasive Techniques
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Original paper

Reconsideration of indications for choledochoscopic gallbladder-preserving surgery and preventive measures for postoperative recurrence of gallstones

Qian Cheng Du
1
,
Yan Yan Wang
2
,
Chen Liang Hu
3
,
Ying Zhou
3

1.
Department of General Surgery, Shanghai Fourth People’s Hospital Affiliated to Tongji University School of Medicine, Shanghai, China
2.
Department of Hematology, Affiliated Fuyang Hospital of Anhui Medical University, Fuyang, China
3.
Department of Hepatopancreatobiliary Surgery, the Affiliated Hospital of Qinghai University, Xining, China
Videosurgery Miniinv 2020; 15 (1): 87–96
Online publish date: 2019/10/17
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Introduction

Cholecystolithiasis is a common digestive system disease worldwide, and the prevalence is estimated to be 10–20% [1]. Laparoscopic cholecystectomy (LC) is the main treatment method for cholecystolithiasis, and this procedure has been regarded as the ‘gold standard’ approach for several years. However, postcholecystectomy syndrome, which includes chronic abdominal discomfort, alkaline reflux gastritis, dyspepsia, fatty diarrhea, bile duct injury, the occurrence of colonic cancer and other symptoms, has been reported by previous experimental and clinical studies [25]. With the deeper recognition of gallbladder function, many hepatobiliary surgeons argue that cholecystectomy for gallstones presents the possibility of unnecessary excision or overtreatment.

Choledochoscopic gallbladder-preserving surgery is a minimally invasive surgical method to remove gallstones and retain the function of the gallbladder. Percutaneous cholecystolithotomy was first described as a treatment for gallstones in 1985, and the indications were for patients with related symptoms or who demonstrated a serious risk of LC [6]. Cholecystolithotomy is suitable for almost 78% of patients with gallstones, but gallstone recurrence after the operation occurs in 31% to 44% of these patients [7]. Therefore, the development of gallbladder-preserving therapies has been stalled. The recurrence rate of gallstones has been significantly reduced by the development of minimally invasive techniques, the recognition of surgical indications and effective postoperative preventive measures [8, 9]. However, it is still unclear which possible factors could be used to predict the recurrence of cholecystolithiasis after choledochoscopic gallbladder-preserving surgery.

Regular diet can reduce the cholesterol saturation of bile in the gallbladder and can decrease the risk of cholestasis from regular gallbladder emptying [10, 11]. The uniformity of gallstones is an important factor affecting the rate of stone clearance by shock-wave lithotripsy [12]. However, there have not been any other reports related to the regularity of diet and the uniformity of gallstones in terms of recurrence factors or the time to recurrence of cholecystolithiasis. To better evaluate the feasibility of choledochoscopic gallbladder-preserving surgery, it is necessary to analyze the possible factors associated with recurrence and the time to recurrence.

Aim

The aims of the present study were to predict the recurrence rate with a long-term follow-up, analyze the factors associated with gallstone recurrence and select suitable candidates in order to prevent the recurrence of gallstones after choledochoscopic gallbladder-preserving surgery.

Material and methods

The protocol was approved by the Institutional Review Board of Qinghai Renji Hospital and was successfully registered in the Chinese Clinical Trial Registry (ChiCTR, No. ChiCTR1900020779).

Patients

A retrospective medical chart review was conducted for patients who had received choledochoscopic gallbladder-preserving surgery at the affiliated hospital of Qinghai University and at Qinghai Renji Hospital from January 2012 to January 2018. The diagnostic criteria for cholecystolithiasis are based on color Doppler ultrasound. Gallstones appear as mobile hyperechoic foci that cast marked posterior acoustic shadowing [13]. Patients who were diagnosed with cholecystolithiasis and who received choledochoscopic gallbladder-preserving surgery were enrolled in this study. Patients without postoperative follow-up data or who could not be followed up and who had a postoperative follow-up time of less than 6 months were excluded.

Clinical data

Baseline data, including sex, age, body mass index (BMI), pregnancy history, family history, diet, blood type, preoperative symptoms and neutrophil ratio as well as preoperative alanine transaminase (ALT), preoperative aspartate amino transferase (AST), postoperative ALT, postoperative AST, preoperative total cholesterol (TCH), preoperative triglyceride (TG), preoperative high-density lipoprotein (HDL), preoperative low-density lipoprotein (LDL), preoperative apolipoprotein A (APOA), and preoperative apolipoprotein B (APOB) levels, were collected. The follow-up visit was recorded, including the date and ultrasound results. The uniformity of gallstones was graded as uniform (solitary gallbladder stone or the size and shape of all gallstones were approximately the same) or nonuniform (the size and shape of multiple existing gallstones were different). The regularity of diet was graded as regular (not skipping breakfast or reducing the interval between two meals) or irregular (not eating breakfast, eating one meal and forgetting the next meal, or a long interval between two meals) [14]. The recurrence of cholecystolithiasis was defined as no residual gallstones found in the gallbladder during the operation and postoperative color Doppler ultrasound revealing gallstones in the gallbladder.

Treatment

The informed consent form for surgery was signed by all patients or authorized trustees. Most patients underwent choledochoscopic gallbladder-preserving surgery, and a few patients underwent laparoscopic choledochoscopic gallbladder-preserving surgery. We selected an incision under the right costal margin, and the length of the incision was approximately 4 centimeters under general anesthesia. The fundus of the gallbladder was found, and it was guided toward the incision (part of the operation was assisted by laparoscopic monitoring). A small incision was made at the bottom of the fundus of the gallbladder according to the size of the stone. After the bile was suctioned out, a soft fiber choledochoscope was placed into the gallbladder (Photo 1 A). The gallstones were removed from the gallbladder using a grasping basket guided by the soft fiber choledochoscope (Photo 1 B). When the gallstones were removed completely, the choledochoscope was placed into the gallbladder again. The bile was observed to flow from the neck of the gallbladder into the fundus of the gallbladder because the neck of the gallbladder did not have residual stones (Photo 1 C); then, using stitches, the fundus of the gallbladder was sutured continuously (4/0 Vicryl Plus) (Photo 1 D). In the absence of active bleeding and bile leakage, the drainage tube was not routinely placed in the surgical field.

Photo 1

Surgery photographs. A – The gallbladder stone was clearly seen after the bile was suctioned out, B – the gallstones were removed from the gallbladder using a grasping basket guided by the soft fiber choledochoscope, C – the bile was observed to flow from the neck of the gallbladder into the fundus of the gallbladder, D – using stitches the fundus of gallbladder was sutured continuously

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Postoperative management

The patients usually resumed a normal diet after 8 h of postoperative fasting. All patients were discharged from the hospital 2 days after surgery. Postoperative oral ursodeoxycholic acid (5 mg/kg/day) was administered for 3 months routinely, and patients were encouraged to eat fatty meals regularly after surgery to promote regular gallbladder contractions. Ultrasound examination was performed approximately every 6–12 months after the operation. If ultrasonography revealed gallstones in the gallbladder, the time of recurrence of gallstones was recorded.

Statistical analysis

Statistical analysis of the data was performed using SPSS software version 23.0 (IBM Corporation, 2015, USA). All continuous variables that followed a normal distribution are described as the mean ± standard deviation and were compared using the independent t-test. The univariate analysis of the postoperative recurrence and possible clinical factors was tested by Pearson χ2 test. Recurrence-free survival was analyzed using Kaplan-Meier curves with statistical comparison with the log-rank test. A logistic regression analysis model was established to assess the relationship between postoperative gallstone recurrence and possible clinical factors. A bilateral probability (p) value < 0.05 was considered statistically significant.

Results

A total of 145 patients with cholecystolithiasis were treated with choledochoscopic gallbladder-preserving surgery. The postoperative complications of the patients were evaluated by the Clavien-Dindo classification, and all patients were considered grade I. The mean age of these patients was 36.60 ±11.57 years with an age range of 14–52 years. The mean follow-up time was 39.72 ±24.44 months, ranging from 6 to 90 months. The baseline characteristics of the included patients with choledochoscopic gallbladder-preserving surgery are listed in Table I.

Table I

Baseline characteristics of the included patients after gallbladder-preserving cholecystolithotomy

VariableTotalRecurrence
YesNo
Age [years]:36.60 ±11.57
 > 4067 (46.2%)760
 ≤ 4078 (53.8%)771
Sex:
 Female92 (63.4%)1082
 Male53 (36.6%)449
BMI [kg/m2]:23.16 ±3.54
 > 2814 (9.7%)311
 ≤ 28131 (90.3%)13118
Pregnancy history (N):
 ≥ 256 (68.3%)759
 ≤ 126 (31.7%)323
Family history:
 Present26 (17.9%)521
 Absent119 (82.1%)9110
Lifestyle:
 Free40 (27.6%)931
 Regular105 (72.4%)5100
Preoperative symptoms:
 Present120 (82.8%)13107
 Absent25 (17.2%)124
Number of gallstones:
 < 3104 (71.7%)797
 ≥ 341 (28.3%)734
Maximal diameter of gallstones:
 < 2 cm92 (63.4%)686
 ≥ 2 cm53 (36.6%)845
Shape of gallstones:
 Uniform96 (66.2%)492
 Non-uniform49 (33.8%)1039
Gallbladder wall:
 Normal105 (72.4%)1293
 Thickening40 (27.6%)238
Gallbladder mucosa:
 Smooth112 (77.2%)11101
 Rough33 (22.8%)330
Gallbladder contraction function:
 < 30%30 (20.7%)426
 ≥ 30%115 (79.3%)10105
Preoperative inflammation:
 Present44 (30.3%)836
 Absent101 (69.7%)695
White blood cells [×109/l]5.96 (3.00–10.93)6.67 (4.63–9.61)5.93 (3.00–10.93)
Neutrophil ratio (%)56.70 (36.20–80.90)56.62 (48.20–77.30)56.70 (36.20–80.90)
Preoperative ALT [U/l]26 (9–376)21 (10–114)26 (9–376)
Preoperative AST [U/l]24 (13–188)21.50 (13–56)25 (13–188)
Postoperative ALT [U/l]23 (12–117)19 (16–117)23 (12–78)
Postoperative AST [U/l]25 (15–77)26 (19–43)25 (15–77)
Preoperative TCH [mmol/l]3.94 (1.18–7.37)3.66 (2.53–5.34)4.06 (1.18–7.37)
Preoperative TG [mmol/l]1.41 (0.37–4.73)1.29 (0.67–2.48)1.44 (0.37–4.73)
Preoperative HDL [mmol/l]1.07 (0.60–2.13)1.05 (0.84–1.26)1.08 (0.60–2.13)
Preoperative LDL [mmol/l]2.30 (1.02–4.36)2.07 (1.20–3.04)2.32 (1.02–4.36)
Preoperative APOA [g/l]1.11 (0.60–2.01)1.11 (0.80–1.43)1.11 (0.60–2.01)
Preoperative APOB [g/l]0.74 (0.26–1.91)0.80 (0.26–1.91)0.74 (0.36–1.23)

[i] TG – triglyceride, TCH – total cholesterol, BMI – body mass index, ALT – alanine transaminase, AST – aspartate amino transferase, HDL – high-density lipoprotein, LDH – low-density lipoprotein, APOA – apolipoprotein A, APOB – apolipoprotein B.

After a median follow-up of 36 months, 14 out of 145 patients (9.66%) experienced recurrence. Of the 14 patients who experienced recurrence, 10 (71.4%) received cholecystectomy, 2 (14.3%) received choledochoscopic gallbladder-preserving surgery, and 2 (14.3%) received conservative treatment. The mean time to recurrence was 30.07 ±21.21 months, ranging from 9 to 61 months after choledochoscopic gallbladder-preserving surgery. The estimated 1-year, 3-year and 5-year recurrence rates for all patients were 2.4%, 7.8% and 12.5%, respectively (Figure 1).

Figure 1

Kaplan-Meier survival curve of the estimated recurrence rate of 145 patients after choledochoscopic gallbladder-preserving surgery

/f/fulltexts/WIITM/37965/WIITM-15-37965-g002_min.jpg

Univariate analysis demonstrated that pregnancy history (p = 0.008, Pearson χ2 test), the uniformity of gallstones (p = 0.002, Pearson χ2 test), whether patients had preoperative inflammation (p = 0.022, Pearson χ2 test), whether patients were administered postoperative oral drugs (p = 0.022, Pearson χ2 test) and the regularity of diet (p = 0.001, Pearson χ2 test) were factors that were significantly related to recurrence (Table II). Multivariate analysis according to the logistic regression model showed that the uniformity of gallstones (OR = 0.079; 95% CI: 0.010–0.590; p = 0.013) and the regularity of diet (OR = 0.074; 95% CI: 0.010–0.528; p = 0.009) were independent prognostic factors for predicting recurrence (Table III).

Table II

Univariate analysis of possible clinical factors for recurrence

VariableP-value
Age (< 40/≥ 40)0.765
Sex (male/female)0.514
BMI (< 28/≥ 28 kg/m2)0.192
Preoperative symptoms (yes/no)0.293
Pregnancy history (≤ 1/≥ 2)0.008
Preoperative TCH (< 5.17/≥ 5.17 mmol/l)0.529
Preoperative TG (< 1.7/≥ 1.7 mmol/l)0.803
Number of gallstones (< 3/≥ 3)0.058
Maximal diameter of gallstones (< 2/≥ 2 cm)0.092
Gallbladder wall (normal/thickening)0.241
Gallbladder mucosa (smooth/rough)0.901
Gallbladder contraction function (< 30%/≥ 30%)0.444
Uniformity of gallstones (uniform/nonuniform)0.002
Preoperative inflammation (present/absent)0.022
Postoperative oral medication (yes/no)0.022
Regularity of diet (regular/irregular)0.001
Family history (present/absent)0.068
Smoker (yes/no)0.127
Long-time drinking (yes/no)0.275

[i] TG – triglyceride, TCH – total cholesterol, BMI – body mass index.

Table III

Results of multivariate analyses for recurrence after gallbladder-preserving cholecystolithotomy

VariableOR95% CIP-value
Pregnancy history (≤ 1/≥ 2)0.1900.030–1.1970.077
Uniformity of gallstones (uniform/non-uniform)0.0790.010–0.5900.013
Preoperative inflammation (present/absent)1.0880.160–7.3970.931
Postoperative oral medication (yes/no)2.8400.417–19.3530.286
Regularity of diet (regular/irregular)0.0740.010–0.5280.009

[i] OR – odds ratio, CI – confidence interval.

The recurrence rates were analyzed using Kaplan-Meier curves, and the differences between patients with various clinical factors after choledochoscopic gallbladder-preserving surgery were assessed using the two-sided log-rank test. The estimated 1-year recurrence rate of patients with uniform gallstones was 1.3% compared with 4.3% in patients with nonuniform gallstones. After 3 and 5 years, the recurrence rates were 4 versus 14% and 6.8 versus 22.4%, respectively (p = 0.005, Figure 2 A). The estimated 1-year recurrence rate of patients with a regular diet was 1.1% compared with 5.7% in patients with an irregular diet. After 3 and 5 years, the recurrence rates were 4.8 versus 16% and 7.4 versus 24.2%, respectively (p = 0.002, Figure 2 B). Other factors, including age, sex, BMI, family history, smoking, long-term drinking, preoperative TCH, preoperative TG, the number of gallstones, the maximal diameter of gallstones, and gallbladder contraction function, were not significantly associated with recurrence.

Figure 2

Kaplan-Meier analysis of the recurrence rate of patients with uniform gallstones versus nonuniform gallstones (A), regular lifestyle versus irregular lifestyle (B)

/f/fulltexts/WIITM/37965/WIITM-15-37965-g003_min.jpg

The prognostic evaluation was established by counting the number of independent risk factors (nonuniform gallstones and an irregular diet) for each patient. The sum of the risk factors of each patient was calculated, and the final result is shown. All patients were divided into three levels based on the final results (0, 1 and 2). The frequency distribution of patients with different independent risk factors is shown in Figure 3. The greater the number of independent risk factors was, the higher was the recurrence rate.

Figure 3

Number of patients with different independent risk factors

/f/fulltexts/WIITM/37965/WIITM-15-37965-g004_min.jpg

Discussion

The treatment of cholecystolithiasis ranges from conservative treatment to resection surgery [1518]. Operative treatment still remains the first-line choice of treatment for cholecystolithiasis [19]. The two major types of operative treatment for cholecystolithiasis are cholecystectomy and choledochoscopic gallbladder-preserving surgery [2022]. In our study, all patients with cholecystolithiasis underwent choledochoscopic gallbladder-preserving surgery, and this operation has been demonstrated to be a safe and effective operative method. In comparison with the benefits of cholecystectomy, those of choledochoscopic gallbladder-preserving surgery are significant, including fewer complications, fewer choledochus injuries and rapid recovery as well as rarely affecting digestive function [17, 2325].

Although choledochoscopic gallbladder-preserving surgery has been indicated to successfully remove cholecystolithiasis and to preserve the function of the gallbladder, postoperative recurrence remains an issue. There are relatively few clinical studies on the recurrence of cholecystolithiasis after choledochoscopic gallbladder-preserving surgery. Lievens and Schutz et al. reported that the overall recurrence rate was 31% and that the cumulative probability was 44% 4 years postoperatively in 100 patients after cholecystolithotomy [7]. The high recurrence rate was due to the improper selection of surgical indications, the use of old endoscopic techniques, and the lack of effective postoperative preventive measures. However, with the development of endoscopy techniques and the further recognition of gallbladder-preservation surgery, the recurrence rate of gallstones has decreased significantly. Tan et al. reported that the overall recurrence rate was 4.92% in 61 patients within a 26-month follow-up [8], and Gao et al. reported that the recurrence rate of 517 patients was 1.2%, a very low recurrence rate, within a long-term follow-up [9]. Our study showed that the overall recurrence rate of cholecystolithiasis was 9.66% in 145 patients after choledochoscopic gallbladder-preserving surgery with a median follow-up of 36 months. There was a difference between the results of previous reports and those of our center. The reason for this difference may be the differences in the number of patients, in the length of follow-up, in the inclusion criteria and in the postoperative preventive measures. To explore the reason for postoperative gallstone recurrence, we speculated whether the reason for postoperative recurrence was related to high-risk factors for gallstone disease.

There was a sex difference, with a female prevalence, in the individuals in our study. The female-to-male ratio of the patients with recurrence was 2.5 : 1. However, the sex difference was not found to be related to recurrence, and the result is in line with a published study [26]. Gallbladder contraction function associated with recurrence for choledochoscopic gallbladder-preserving surgery has been reported. Huang et al. noted that the probability of stone recurrence after choledochoscopic gallbladder-preserving surgery was significantly higher in patients with poor gallbladder contraction function than in those with good gallbladder contraction function [27]. However, our study showed that gallbladder contraction function was not an independent risk factor for cholecystolithiasis recurrence. In China, it has been reported that gallbladder contraction function recovers significantly approximately 3 months after choledochoscopic gallbladder-preservation surgery in patients with poor gallbladder contraction function. The reason for this finding might be that the stimulation of the gallbladder mucosa was relieved after gallstones were removed. This discrepancy also might have occurred because the filled cholecystolithiasis or the obstructive cystic duct affected gallbladder emptying. Additionally, gallbladder contraction function is not equal to gallbladder function. Therefore, dissatisfactory gallbladder contraction function is not an absolute contraindication to choledochoscopic gallbladder-preserving surgery. Additionally, no statistically significant relationship was found in terms of age, BMI, pregnancy history, family history or recurrence. None of these factors should be considered indications or contraindications for this treatment.

There have been many reports about the relationship between the maximal diameter of gallstones or the number of gallstones and recurrence, but there has been no report about the relationship between the uniformity of gallstones and recurrence [2628]. Villanova et al. found that patients with multiple stones had a significantly higher recurrence rate than those who had a single stone [29]. Tan et al. found that the probability of gallstone recurrence was significantly higher in patients with a maximal diameter of gallstones ≥ 2.0 cm [8]. However, our results showed that neither the maximal diameter of gallstones nor the number of gallstones was an independent risk factor for gallstone recurrence. Interestingly, the uniformity of gallstones was obviously related to gallstone recurrence. The difference in recurrence rate between the uniform gallstones and the nonuniform gallstones was also significant using Kaplan-Meier curve analysis after considering the recurrence time. These discrepant results might be because different stages of gallstone formation result in nonuniform gallstones. Therefore, patients with nonuniform gallstones should not be recommended to undergo choledochoscopic gallbladder-preserving surgery.

Eating patterns are currently recognized as a risk factor for gallstone formation. However, it was not conclusive whether recurrence after choledochoscopic gallbladder-preserving surgery was related to the regularity of diet. A regular eating pattern can decrease the cholesterol saturation of bile and can reduce the chances of cholestasis by promoting regular gallbladder emptying [10, 30]. Excessive greasy meat intake can increase the probability of cholelithiasis; however, fruit, vegetable and nut intake can prevent cholelithiasis [14]. In our study, we discovered that the recurrence rate in patients with an irregular diet was higher than that in patients with a regular diet, and the difference was statistically significant. Therefore, a regular diet after choledochoscopic gallbladder-preserving surgery is crucial for preventing the recurrence of cholecystolithiasis. We encouraged patients to eat moderately fatty meals (vegetable fatty acid) early after surgery to promote gallbladder emptying.

The strength of this study was the mostly complete analysis of patients for recurrence of cholecystolithiasis after choledochoscopic gallbladder-preserving surgery with a long-term follow-up. The study also had some limitations. We were unable to obtain more specific factors, such as the shape and location of the gallstones, the components of the gallstones, and preoperative or postoperative differences. Further prospective studies and analyses with larger sample sizes are needed to confirm these clinical predictors.

Conclusions

Nonuniform gallstones combined with an irregular diet are significant risk factors that predict cholecystolithiasis recurrence. Choledochoscopic gallbladder-preserving surgery is not recommended for patients with nonuniform gallstones and an irregular diet. Furthermore, age, sex, BMI, pregnancy history, family history, postoperative oral drugs, gallbladder contraction function, maximal diameter of gallstones, number of gallstones, preoperative TCH, and preoperative TG are not associated with gallstone recurrence.

Conflict of interest

The authors declare no conflict of interest.

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