Helicobacter pylori (H. pylori) colonizes the gastric mucosa mainly at the antrum, producing gastric inflammation. Patients may remain asymptomatic for their whole life, or develop multiple gastric pathologies such as gastritis, peptic ulcer disease or gastric cancer,1 and an association with non-digestive diseases has also been described.2,3H. pylori eradication is also a challenge for physicians in so much as it improves the clinical outcome of patients with duodenal ulcer, prevents recurrence and decreases the risk of gastric cancer in infected patients.4 Since the positive results of a randomized control trial in 1996,5 the therapy for H. pylori eradication has been based on a combination of two antibiotics and a proton pump inhibitor (PPI). Clarithromycin or metronidazole, with amoxicillin plus a proton pump inhibitor is the recommended first line therapy if local resistance rate is below 15–20%.1 However, the increasing rates of antibiotic resistance reported worldwide, especially in western, central and southern European countries, has meant that these recommendations have had to change.6,7 The 2016 update from the Spanish Consensus conference on the management of H. pylori proposes a quadruple regimen as fist-line therapy.8

What is more, there is wide geographical variation regarding the prevalence of antibiotic resistance, with differences in clarithromycin resistance rates being greater than 10% between different regions of Europe.9 Since empirical treatment with clarithromycin is no longer recommended if local primary resistance rates exceed 15–20%,10 knowledge of local resistance rates is crucial to provide the most appropriate first-line and second-line treatment regimes.

The main objective of the present study was to describe the evolution of primary resistance to antibiotics in H. pylori strains isolated in this region of Spain over a 13-year period, as well as to identify possible associated factors. The evolution of the H. pylori isolates was also described according to various criteria (age, gender and eradication criteria).

At the present study, H. pylori was isolated in 1604 patients ranging from 63% in 2004 to 39% in 2016. Primary resistances rates found to clarithromycin, metronidazole and levofloxacin was on average 19%, 40% and 17% respectively.

This study shows, therefore, a high overall primary resistance rate to the three antibiotics tested. This data are similar to other studies across Europe, although rates are variable between countries.7 In fact, a recent systematic review and meta-analysis in World Health Organization regions between 2006 and 2016 showed a prevalence of primary resistance to clarithromycin and metronidazole of more than 15% in Europe.15

The rate of resistance to clarithromycin remained more or less stable during the period studied, although an increase was observed with respect to a previous Spanish multicentre study carried out in 2009 in which this hospital took part, where clarithromycin resistance rate was 14%.16 This data were included in a multicentre European study were average resistance rate for clarithromycin was 17.5%.7 Other Spanish studies described resistance to clarithromycin of 18%.16 The stability in the clarithromycin resistance rate described in this study is in agreement with the data extracted from the meta-analysis mentioned above, where the clarithromycin resistance rate remained around 28% between 2006 and 2016.15 Also, the results presented here highlight the fact that women have more resistance to clarithromycin than men, also something demonstrated in other studies.17,18 This finding could possibly be explained by the use of macrolides to treat gynaecological and urinary infections.19

With respect to levofloxacin, recent data from Europe describe increasing resistance rates, albeit with wide variability among countries, ranging from 4% in Croatia to 28% in Belgium, while in Spain a resistance rate of 14% has been reported20,21 and, interestingly, these results show an association with consumption of quinolones.7 Levofloxacin-based triple therapy is currently recommended as a second-line therapy in several guidelines, but taking into consideration the resistance rate found in the area of this study, which is over 15%, the importance of controlling the evolution of this resistance should be emphasized. Levofloxacin, which was started to be tested in our hospital in 2010 had 15% resistance in the first two tears, but this had increased to 22% by 2015, something which should probably be more widely advertised within the regional health service. This data, however, does not match with the results reflected by Savoldi et al.,15 where the rate of resistance to levofloxacin decreases throughout the study period. The current study also registered an increased risk of levofloxacin resistance with age, something which could maybe be expected due to the extensive use of quinolones for respiratory infections, which are more common in older people. In the latest programme concerning outpatient antibiotic use in Europe, Spain was one of the countries with the highest consumption of quinolones, with a defined daily dose (DDD) per 1000 inhabitants per day of between 2.3 and 2.92.22 A multicentre cross sectional study carried out in Andalucía20 detected variability in clarithromycin and levofloxacin resistance rates between different treatment centres, which could only be explained by the existence of differences in the use of macrolides and quinolones in the different centres. Further multicentre studies of resistance rates together with data on the consumption of these antibiotics should be performed.

Resistance to metronidazole in this work is at a comparably high level to that reported in other studies conducted in Europe, which has remained stable for 14 years.7 The rate of resistance to metronidazole varies between different countries because it is widely used to treat parasitic diseases and anaerobic or gynaecological infections. Its use in gynaecological infections is reflected in the higher resistance in female patients found in some studies.23 This, however, is not the case in the current study. The impact of the high resistance rate to metronidazole found (40%) on eradication success is, however, limited and can be overcome by increasing the length of treatment or adding bismuth salts in quadruple therapies.24

The most recent Spanish Consensus Conference (2016) on the treatment of H. pylori infection8 recommends as a first line empirical treatment a quadruple therapy containing clarithromycin and metronidazole. In this study the combined resistance rate for both drugs was 9%, as has been observed in other Spanish studies25 but not in Savoldi meta-analysis15 where this rate was 1%. Anyway, this resistance rate is not too high at the moment, in spite of the high resistance to each drug separately, making the empiric use of quadruple therapy including them a good option.

Therefore, although the eradication treatments used over the last 20 years has led to a decrease in the prevalence of the infection itself and H. pylori-related diseases, the success of these treatments is now compromised by the increasing resistance that H. pylori is developing to antibiotics.26 Although antimicrobial resistance is not the only reason for treatment failure, this increase in resistance has reached such a level that the latest Spanish Consensus on H. pylori infection no longer recommends the use of classical empiric triple therapy, but rather a quadruple therapy comprising clarithromycin plus metronidazole plus amoxicillin plus IBP.8 The European consensus, however, still recommends triple therapy as the first line empiric treatment in areas with low clarithromycin resistance.13 This is one of the major reasons why H. pylori resistance needs to be assessed in surveillance programmes. A recent meta-analysis showed that culture guided triple therapy was more effective than empiric therapy, as well as it being more cost efficient.27 In addition, there are other studies that have tested a culture-based strategy in naïve patients which have shown higher efficacy and better cost-effectiveness than standard therapy. Tailored treatment thus seems to represent the most logical next step.28,29

Regarding MIC distributions, they showed a normal distribution with a clear separation between susceptible and resistant strains for clarithromycin and levofloxacin, but nor for metronidazole, which had a continuous distribution, the same as in other similar studies.5,7,30

With regard to prevalence, H. pylori is a very common infection that affects about 50% of the world's population, though over the last decades there has been a decline in its prevalence in most developed countries. This decrease could be explained by increased knowledge of H. pylori disease, improvements in non-invasive diagnostic techniques and the better use of the test and treat strategy. In the present study we analyzed the population attending the Gastroenterology Unit with symptoms that justified a treatment for H. pylori eradication. The overall positive rate was 47%, with a declining trend over the studied period as has been described in other studies.31 It should however be recognized that during this time period there has been a 64% increase in the number of samples received at the laboratory due to less restrictive inclusion criteria when looking for H. pylori, a fact which also contributes to the declining tendency described.

As expected, patients with ulcer disease showed a higher rate of H. pylori isolations than patients with no ulcer disease, and within the ulcer group, those patients with duodenal ulcer or erosive duodenitis were more likely to have a positive culture for H. pylori. It is worth noting the high percentage of patients with a positive culture from the group of patients where the eradication criteria registered for H. pylori was family history of gastric cancer. Probably these patients presented with dyspepsia or some other intestinal symptoms in addition to this family history although these symptoms have not been recorded. Nevertheless, we can confirm in this work that the prevalence of H. pylori is as high as other studies have shown.

Taking into account that resistance to antibiotics is the most important reason for therapeutic failure, it is easy to see the importance of the periodic determination of antibiotic resistance patterns in each region in order to establish what the best therapy combination is to eradicate H. pylori. Hence it is essential to carry out microbiological studies to see if the downward trend in infection continues, as well as its association with new pathologies and, above all, the resistance profile. Furthermore, faster and more sensitive methodologies for the detection of resistance mechanisms are necessary, as well as studies relating the rate of resistance with the consumption of antibiotics.

The author(s) received no specific funding for this work.

The authors declare no conflict of interests.