Helicobacter Pylori Infection Clinical Trial
Official title:
Comparison of the Efficacy of Triple Therapy With or Without Acetylcysteine in the First Line of Helicobacter Pylori Infection- A Multicenter Randomized Comparative Trial
Helicobacter pylori infection has been shown to be associated with the development of
gastric cancer and peptic ulcer diseases. Eradication of H. pylori infection could reduce
the occurence or recurrence of these diseases. The triple treatment including a proton pump
inhibitor, clarithromycin, and amoxicillin or metronidazole to treat H pylori infection,
proposed at the first Maastricht conference has become universal since all the consensus
conferences and guidelines around the world recommended it. However, the eradication rate of
clarithromycin-based triple therapy has been declining in recent years, probably related to
the increasing resistant rate to clarithromycin. It was estimated that 15-20% of patients
would fail from first line standard eradication therapy and need second line rescue therapy.
The H. pylori persistence in human infections and its resistance to the drugs commonly used
in antimicrobial therapy have been attributed not only to genetic variability, but also to
ability of H. pylori to form biofilm as a strategy to overcome environmental stress and to
protect itself. Several recent reports indicate that H. pylori forms biofilm either in vitro
or in vivo, N-acetylcysteine (NAC) were thought to reduce and prevent biofilm formation. Two
small-scale clinical trials showed NAC offers additive effect on eradication effects of H.
pylori therapy. A recent trial showed N-acetylcysteine pre-treatment before a culture-guided
antibiotic regimen is effective in treating refractory H. pylori infection.
Aims: Therefore, we aim to assess
1. Whether triple therapy containing N-acetyl cysteine is more effective than standard
triple therapy
2. the impact of antibiotic resistance and cytochrome P450 C19(CYP2C19) polymorphism on
the eradication rate of triple therapy containing N-acetyl cysteine.
Helicobacter pylori infection has been shown to be associated with the development of
gastric cancer and peptic ulcer diseases. Eradication of H. pylori infection could reduce
the occurrence or recurrence of these diseases. The triple treatment including a proton pump
inhibitor, clarithromycin, and amoxicillin or metronidazole to treat H pylori infection,
proposed at the first Maastricht conference has become universal since all the consensus
conferences and guidelines around the world recommended it. However, the eradication rate of
clarithromycin-based triple therapy has been declining in recent years, probably related to
the increasing resistant rate to clarithromycin. It was estimated that 15-20% of patients
would fail from first line standard eradication therapy and need second line rescue therapy.
Measures to improved H. pylori eradication rate include (1) increase treatment duration, (2)
add other antibiotics or use antibiotics not previously used, (3) introducing new
therapeutic agents, and (4) potent acid inhibition. Our group has shown the 10- or 14-day
sequential therapy, which consists of a proton-pump inhibitor and amoxicillin for the first
5 or 7 days, followed by a proton-pump inhibitor plus clarithromycin and metronidazole (or
tinidazole) for another 5 or 7days, provides good eradication in first line H. pylori
eradication. However, complexity of sequential therapy is complex and adverse effect
resulted from adding one more antibiotic may have poor effect on compliance and leads to
treatment failure. A simplified regimen for H. pylori infection is worthy of investigation.
Introducing new therapeutic agents The H. pylori persistence in human infections and its
resistance to the drugs commonly used in antimicrobial therapy have been attributed not only
to genetic variability, but also to ability of H. pylori to form biofilm as a strategy to
overcome environmental stress and to protect itself. A biofilm is a dense aggregation of
microbial cells bound together by a slimy extracellular matrix of polysaccharide and
protein. When bacteria group together in these multicellular communities, they are able to
tolerate antimicrobial challenges that normally eradicate free-floating individual cells. It
is currently accepted that biofilms are implicated in over 80% of the chronic infections
caused by bacteria, including middle ear otitis, endocarditis, urinary tract infections and
lung infections of patients with cystic fibrosis. The importance of biofilm in medicine is
due to its role in persistence of the infection because biofilm is not removed and bacteria
in biofilms are 1000 more resistant to antibiotics and host defenses as compared to those
free living bacteria.
Several recent reports indicate that H. pylori forms biofilm either in vitro or in vivo,
Cole et al studied the ability of 19 H. pylori clinical isolates and reference strains in
Brain Heart Infusion broth supplemented with 0.1% β-cyclodextrin. Both strains were able to
form biofilm and the biofilm produced had a similar progression when compared to biofilm
formed by other bacterial species. The first evidence of in vivo biofilm formation arose in
2006. The authors compared, by scanning electron microscopy, gastric biopsies from urease
positive and negative patients, detecting the presence of dense mature biofilm in the
pathogen positive biopsies while biofilm was absent in the urease negative biopsies, which
is indicative that H. pylori is able to form biofilm in the human gastric mucosa. To this
context, it is notable that stress conditions stimulate H. pylori to enter coccoid forms
that when the antibiotic concentration reduces, can resuscitate and repopulate the biofilm
and the infection relapses. In vitro study, H. pylori biofilm formation decreases the
susceptibility to clarithromycin and that H. pylori clarithromycin resistance mutations are
more frequently generated in biofilms than in planktonic cells.
Because antibacterial susceptibility of a particular strain is favored when the biofilm is
destabilized, it is believed that a combination of antimicrobial agents and anti-biofilm
molecules should be synergistic. N-acetylcysteine (NAC) being both a mucolytic agent and a
thiol-containing antioxidant agent was successfully used in medical practice for the
treatment of patients with chronic respiratory tract infections. The NAC positive effects
were thought to be due not only to mucus-dissolving properties, but also, interestingly, to
the capability to reduce and prevent biofilm formation. NAC was able to avoid biofilm
formation and to destabilize the already formed biofilm at concentrations over 10 mg/mL,
similar to results observed with other pathogens. On the other hand, in vivo studies with
two groups of 20 individuals each, one group (treated) received N-acetyl-cysteine for one
week before the anti-H. pylori treatment for refractory H. pylori infection while the other
group (untreated controls) did not received the destabilizing agent, showed eradication of
the infection in 65% of the cases for the N-acetyl-cysteine treated group as detected by the
urea breath test. The control group showed only 20% of successful eradication, suggesting
that N-acetyl-cysteine act as a biofilm destabilizing agent that favor in vivo the activity
of antibiotic substances.
Potent acid inhibition Acid inhibition has also proven an important component of eradication
therapy. The antibiotics, particularly clarithromycin, which is used against H. pylori, are
subject to pH-dependent degradation. This degradation is reduced by increasing gastric pH.
Achieving a pH above 4 maximizes the efficacy of the antibiotic. Second, proton pump
inhibitors (PPIs) may alter the transport of antibiotics from the plasma to the gastric
juice and mucosa by altering the pH or by affecting active transport processes. The minimum
inhibitory concentration (MIC) of the antibiotics against H. pylori is often lower at higher
pHs. Finally, because H. pylori is sensitive to changes in gastric pH, PPI-induced
elevations of pH, the gastric contents may become less hospitable to H. pylori. The
importance of achieving adequate acid inhibition has been highlighted by recent studies.
First, increasing the PPI dose was found to raise cure rates when used in dual
anti-Helicobacter pylori therapies. Second, a previous meta-analysis by our group showed
that triple therapy using a standard dose of PPI twice a day achieves higher cure rates than
the same antibiotics plus the PPI once daily. Previous meta-analyses show that H. pylori
treatment achieves lower cure rates in extensive metabolizers than in poor PPI metabolizers.
All this evidence supports the hypothesis that achieving a potent acid inhibition can
improve cure rates of H. pylori treatment.
Lansoprazole, a proton pump inhibitor that specifically inhibits H+K+-ATPase in the gastric
parietal cell, effectively inhibits both basal- and gastric-stimulated acid secretion. Our
studies have proved lansoprazole-based H. pylori eradication achieved high successful rate.
Dexlansoprazole modified release (MR), a new generation of proton pump inhibitor, is a novel
modified release formulation of dexlansoprazole, an enantiomer of lansoprazole.
Dexlansoprazole MR employs an innovative Dual Delayed Release (DDR) technology designed to
prolong the plasma concentration-time profile of dexlansoprazole and extend the duration of
acid suppression. In a phase 1 pharmacokinetic/pharmacodynamic study of Dexlansoprazole MR
60 and 90 mg once daily also produced significant increases in the percentage of time with
intragastric pH >4 over 24-h postdose compared with lansoprazole 30 mg once daily (∼70% for
dexlansoprazole MR vs. 60% for lansoprazole, P < 0.05). Since acid inhibition is crucial in
H. pylori treatment. Whether a more potent PPI, Dexlansoprazole MR could improve the
efficacy of H. pylori treatment has not been investigated.
Therefore, the primary purpose of the proposed study is to compare the efficacy of
dexlansoprazole MR based triple therapy with or without N-acetyl cysteine for helicobacter
pylori eradication
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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