Background
The prevalence of
Helicobacter pylori (H. pylori) infection has decreased over the past decade, changed from 66.9 to 54.4% between 1998 and 2011, but its prevalence is still high in Korea [
1].
H. pylori infection is a known risk factor of upper gastrointestinal diseases, such as chronic gastritis, peptic ulcer disease, mucosa-associated lymphoid tissue (MALT) lymphoma, and gastric cancer [
2,
3]. Eradication of
H. pylori reduces the recurrence rate of peptic ulcer disease or recurrent gastric cancer after endoscopic resection of early gastric cancer, and it also induces the remission of MALT lymphoma [
4‐
6]. Therefore,
H. pylori eradication has critical role in promoting national health in Korea, where 95% of confirmed
H. pylori strains have highly virulent East Asian-type cytotoxin-associated gene A which is potent in causing gastric cancer [
7,
8].
Triple therapy (TT) consists of proton-pump inhibitor (PPI), clarithromycin, and amoxicillin has been considered as standard first-line treatment for
H. pylori in Korea since 1998 [
9]. Recently updated Korean guideline also recommended TT as the first-line regimen [
10]. However, the efficacy of TT has decreased progressively. The recent nationwide survey reported the decreasing trend of eradication rate of TT which was 84.9–87.5% from 2001 to 2007, but 80.0–81.4% from 2008 to 2010 (
P < 0.0001) [
11]. The most important factor of reduced efficacy of TT is increasing antibiotic resistance of
H. pylori, especially to clarithromycin [
12]. The primary resistance rate to clarithromycin increased from 23.7 to 71.2%, whereas amoxicillin increased from 6.3 to 14.9% during the period of 2003–2012 [
13].
Therefore, several protocols have been suggested in order to overcome treatment failure of TT, including the extending of treatment duration, the use of four-drug regimen such as sequential therapy (SET), concomitant therapy, hybrid therapy, and the prescription of novel antibiotics such as levofloxacin [
14]. Reasonable treatment regimens need to attain
H. pylori eradication rate of higher than 80.0% by intention to treat (ITT) analysis, and higher than 90.0% by per protocol (PP) analysis [
15,
16]. Several previous meta-analyses reported the superiority of SET than TT [
17,
18], whereas other studies revealed conflicting results [
19,
20].
In Ewha Womans University Medical Center, SET has been tried as an alternative first-line treatment for H. pylori since 2013. So, we aimed to compare 7-day TT with 10-day SET as the first line treatment in our medical center. We also evaluated the adverse events of the two regimens, clinical factors associated with successful eradication, and effectiveness of the second line treatment after these two treatments.
Methods
Study subjects
From January 2013 to December 2015, 1240 patients who were older than 18-year old, diagnosed with H. pylori infection and treated with TT or SET at Ewha Womans University Hospital were enrolled retrospectively. H. pylori infection was confirmed by histology, rapid urease test (HP Kit™, Jongkeundang, Korea), C-urea breath test or serum H. pylori anti-body test. At least 4 weeks after treatment, H. pylori eradication was demonstrated by any of these tests. The patients who had undertaken previous H. pylori eradication therapy or gastric surgery were excluded.
We evaluated demographic information, residence area, current status of smoking and alcohol consumption, comorbidities, endoscopic diagnosis, indication for H. pylori eradication, drug compliance, and treatment-related adverse events through medical records review. Endoscopic findings and the results of endoscopic biopsies were also reviewed retrospectively. For detailed analysis, drug compliance was divided into two categories; good or poor compliance. Good compliance was defined if the patient took more than 80% of the prescribed medicine, and who took less than 80% of prescribed medicine was belonged to poor compliance group. For the PP analysis, patients who were poorly compliant or lost to follow-up were excluded.
Standard TT for seven days consists of twice a day amoxicillin (1000 mg), clarithromycin (500 mg), and standard dose of PPI. SET for 10 days consists of twice a day amoxicillin (1000 mg), standard dose of PPI for 5 days, followed by twice a day clarithromycin (500 mg), metronidazole (500 mg), and standard dose of PPI for another 5 days.
This study was approved by the Institutional Review Board of our medical center (IRB number; 2016-04-051-002).
Statistical analyses
All statistical analyses were performed with using SPSS program, version 22.0. Continuous variables were reported as the mean with the standard deviation. To analyze the baseline clinical characteristics, adverse events and eradication rates between the two groups, Student t-test or the Mann-Whitney U test was used for continuous variables, and the chi-square or the Fisher’s exact test was used for categorical variables. H. pylori eradication rates were demonstrated by ITT and PP analyses. Univariate and multivariate logistic regression were performed for evaluating independent associated factors with successful H. pylori eradication. The P value of < 0.05 was considered as statistical significance.
Discussion
Our study revealed that the eradication rate of TT was below the recommended threshold by both of ITT and PP analyses. This result is in accordance with the most recent meta-analysis for treatment of
H. pylori, which concluded that SET was superior than TT showing the overall eradication rate of TT for 69.8 and 77.0%, and SET for 79.7 and 85.0% by ITT and PP analyses, respectively [
14]. The most important cause of decreased efficacy of TT is considered as increasing antibiotic resistant rate, especially to clarithromycin [
21]. The eradication rate of
H. pylori was significantly different depending on the resistance or sensitivity to clarithromycin of the strain; 67.9% for clarithromycin-resistant strains and 95.5% for the clarithromycin-sensitive strains [
12].
Previous studies proposed several clinical factors associated with
H. pylori eradication failure including, age, gender, smoking, previous antibiotics usage [
22,
23]. The most recent study in Korea reported that female gender could be associated with treatment failure, based on the fact that
H. pylori strain with point mutation in the 23S rRNA were preferentially infected in women which could result in treatment failure with clarithromycin [
24]. Also, smoking may increase treatment failure by reducing antibiotics delivery to gastric mucosa, because smoking decreases gastric blood flow and mucus secretion and smoking itself is an indicator for poor compliance [
24‐
26]. However, we could not find any statistically significant clinical factor to predict successful eradication of
H. pylori.
Our study supports SET as an alternative first-line treatment for several reasons. First, SET achieved reasonable target by both of ITT and PP analyses, whereas TT showed unacceptable efficacy. The reason for relatively higher efficacy of SET for
H. pylori eradication compared with TT could be based on decreased resistance rate to metronidazole [
27], because the resistance to nitroimidazole reduces the efficacy of sequential therapy up to 50% [
21,
28,
29]. The resistance rate to metronidazole was reported 40.5% during 1994–1999 [
30], 49.6% between 2003 and 2005 [
31], and 27.5% between 2003 and 2009 [
12] in Korea. And clarithromycin resistance is thought to have less effect on the efficacy of SET than on TT [
32]. Second, treatment-related adverse events of SET were tolerable in most of the patients. There was no patient who discontinued the treatment due to treatment-related adverse event in our study. Also, no significant differences were found regarding overall complication rates or incidence of individual complication between two groups. Third, drug compliance in the SET group was comparable with that of the TT group. There has been concern about complex administration schedule and higher complication rates of SET than TT [
14] which could directly influence on drug compliance and possibly lower drug efficacy. But, our study revealed good compliance of the SET group, almost 85.0%, which was not statistically different from the TT group and showed no significant difference regarding adverse events between the two groups. In our medical center, all physicians explained possible treatment-related complications before prescribing medication with sufficient time, and this was also thought to be the cause of good compliance of SET. Fourth, we suggested reasonable treatment option in cases of treatment failure of first-line SET. One of the major concerns of four-drug regimen is choice of second-line treatment when first-line eradication therapy failed, because there could be more chances of acquiring antibiotic resistance [
33]. According to the Maastricht IV Consensus Report, BCQT is recommended as optimal second-line treatment [
34], and 2013 revised Korean guidelines also recommends BCQT for second-line option after failure of first-line TT [
10]. However, there is no definite guideline for the second-line treatment after failure of SET. According to our results, BCQT could be good second-line treatment option after failure of first-line SET.
This study has several limitations. First, test for
H. pylori identification or antibiotic sensitivity test was not performed which could clarify direct influence of antibiotic susceptibility on eradication rate. Antibiotic resistance rate, especially clarithromycin resistance is significant factor for determining the efficacy of
H. pylori eradication with TT or SET [
24]. Thus, these kinds of tests are the best way to reduce eradication failure arising from antibiotic resistance [
21]. But, it is very difficult to test all patients in the general clinics, and cost-effectiveness is another problem [
21]. In a recent prospective study evaluating the efficacy of SET and amoxicillin/tetracycline containing bismuth quadruple therapy (PBAT) for the first-line eradication in the patients from nine different provinces, SET did not reach the 90% eradication rate in the PP analysis despite SET was more effective than PBAT [
35]. This discordance with our result could be explained by the difference of local antibiotic resistance. In Korea, it has been reported that antibiotics resistance of
H. pylori is differ according to the geographic region. In Seoul where our institution is located, resistance rate to clarithromycin is known to be 14.8%, however above study included the provinces in which showed higher resistance rate compared to Seoul such as Busan (42.1%) or Gyeonggi (32.5%) [
27], and that might be the cause for the decreased efficacy of SET. The dicision for the appropriate empirical antibiotic therapy should be made based on the data of recentlly updated local antibiotic resistance [
11], and therfore nationwide updated data for antibiotic resistance of
H. pylori should be surveyed.
Second, as this study was conducted retrospectively, there were limitations to obtain detailed medical information such as previous medication history including antibiotics or PPI which could have an influence on eradication failure or diagnosis of
H. pylori infection. Also, treatment-related adverse events in our study might be down-estimated for the same reason. Compared with previous studies which reported SET-related adverse event rates from 23.3 [
14] to 48.0% [
32], there was relatively small number of complications in our study (3.3%).
Third, this study enrolled the patients only in the single-center, and the majority of them resided in Seoul. So applying the results of this study to another area could have limitation. However, this study has strength in terms of its large number of study subjects and assessment of the efficacy of rescue therapy after failure of first-line eradication therapy.