Difference in the Distribution Pattern of Helicobacter pylori and Grade of Gastritis in the Antrum and in the Body between Duodenal Ulcer and Benign Gastric Ulcer Patients

Article information

Korean J Intern Med. 2000;15(1):32-36
Department of Internal Medicine, Kangnam General Hospital, Public Corporation, Seoul, Korea
*Department of Anatomical Pathology, Kangnam General Hospital, Public Corporation, Seoul, Korea
Address reprint requests to: Nayoung Kim, M.D. Department of Internal Medicine Kangnam General Hospital, Public Corporation #171-1, Samsung-Dong, Kangnam-Ku,, Seoul, 135-090, Korea

Abstract

Objectives

To investigate the relationship between the Helicobacter pylori (H. pylori) colonization and the grade of gastritis in the antrum and in the body of patients with duodenal ulcer (DU) or benign gastric ulcer (BGU)

Methods

This study was performed in H. pylori-positive 220 DU patients and 180 BGU patients. H. pylori density was evaluated by modified Giemsa staining and CLO test, and gastritis grade was graded by H&E staining in the antrum and in the body.

Results

H. pylori grade by Giemsa staining was 1.24 in the antrum and 0.82 in the body for DU group (p < 0.01), and those of BGU group were slightly reversed, 0.83 and 0.87, respectively, but without statistical significance. Similarly H. pylori grade by CLO test was 3.1 in the antrum and 2.8 in the body for DU group (p < 0.01), and those of BGU group 2.3 and 2.6 (p < 0.05), respectively. In contrast, gastritis grade was 1.7 in the antrum and 1.2 in the body for DU group (p < 0.01), and those of BGU group 1.6 and 1.3 (p<0.01), respectively, similar to those of DU. However, there was a correlation between H. pylori grade and gastritis grade in the antrum and in the body, not only in DU but also in BGU group (p < 0.01).

Conclusion

In spite of different distribution patterns of H. pylori between DU group and BGU group, gastritis grade of the antrum was significantly higher than that of the body in both DU and BGU. However, gastritis is correlated with H. pylori density not only in DU but also in BGU patients. It looks like the inflammatory reaction to H. pylori is stronger in the antrum than in the body.

INTRODUCTION

H. pylori causes chronic gastritis and peptic ulcer1,2), and it is known that there is a strong correlation between the number of H. pylori and the severity of inflammatory cell infiltration3,4). However, H. pylori has been isolated from patients with chronic gastritis showing no sign of activity and from histologically normal mucosa5). In addition, although most studies described more severe gastritis in the antrum than in the body4,68), the density of H. pylori colonization in the body may be similar to that in the antrum9). Nowadays, it is accepted chronic gastritis caused by H. pylori as a main precursor of duodenal ulcer (DU) and benign gastric ulcer (BGU) in a large proportion of ulcer patients10, 11). However, their pathogenensis is thought to be different1214). We conducted this study to investigate whether there is any difference in the distribution pattern of H. pylori and grade of gastritis in the antrum and in the body between DU and BGU groups, and whether there is correlation between the density of H. pylori colonization and the grade of gastritis in patients with DU or BGU.

MATERIALS AND METHODS

This study was performed in H. H. pylori -positive 220 patients with active DU and 180 patients with active BGU, who were enrolled from January to December in 1997. H. pylori tests were performed by modified Giemsa staining with two mucosal biopsies and by CLO test with one biopsy from the greater curvature aspect of antrum and body, respectively. The patient was regarded as H. pylori positive if either Giemsa staining or CLO test was positive in the antrum or in the body. The grade of H. pylori colonization by Giemsa staining was graded 0–315); that is, rated grade 0 if there was none in the section, rated grade 1 if there were one or a few isolated groups of H. pylori, rated grade 2 if there was a variable layer of H. pylori on the mucosal surface and grade 3 if this layer was more or less continuous. The grade of H. pylori colonization by CLO test was as follows: rated grade 4 if the test became positive within 20 minutes, rated grade 3 if within 1 hour, rated grade 2 if within 3 hours, grade 1 if within 24 hours and grade 0 if it was negative. The severity and activity of gastritis was graded on a scale of 0–316). Grade 0 corresponds to no inflammatory cell infiltrate, grade 1 to mildly increased cellularity in the lamina propria, including lymphocytes and plasma cells but without significant numbers of neutrophils, grade 2 to moderate numbers of lymphocytes and infiltration of the mucosa with neutrophils and grade 3 to severe mucosal infiltration of large numbers of both lymphocytes and neutrophils.

All data were presented as mean ± SD. For statistical analysis, continuous variables, including age, was analyzed by Student’s t test, and categorical variables such as sex by Chi-square test. To compare the grade of H. pylori colonization and the grade of gastritis between the antrum and the body in each of DU and BGU group, Wilcoxon signed rank sum test was used. Wilcoxon rank sum test was used for analyzing the grade of H. pylori colonization and the grade of gastritis between DU and BGU groups. To examine whether there is any correlation between H. pylori colonization and gastritis, Spearman correlation coefficient was used. A p value of <0.05 was considered to be significant.

RESULTS

The mean age of DU group was 43.9 ± 12.7 years and that of BGU group was 52.6 ± 13.6 years, which is significantly higher (p < 0.01) than that of DU group (Table 1). The number of males was 187(85%) in DU group, and 129(72%) in BGU group, which is lower than that of DU group (p < 0.01) (Table 1). The mean grade of H. pylori colonization by Giemsa staining was 1.24 in the antrum and 0.82 in the body for DU group, which is much lower than that of the antrum, 1.24 (p < 0.01) (Figure 1). That of BGU group was 0.83 in the antrum and 0.87 in the body, and there was no statistical significance. The grade of H. pylori colonization 1.24 in the antrum of DU group was higher than that of BGU group, 0.83 (p<0.01). Similarly, the mean grade of H. pylori colonization by CLO test was 3.1 in the antrum and 2.8 in the body for DU group, which is lower than that of the antrum (p<0.01) (Figure 2). Those of BGU group were 2.3 in the antrum and 2.6 in the body, which is higher than that of the antrum (p < 0.05). The grade of H. pylori colonization in the antrum of DU group, 3.1 was higher than that of BGU group, 2.3 (p< 0.01). There was a good correlation (correlation coefficient (r)=0.49, p<0.001) in H. pylori grade between CLO test and Giemsa staining irrespective of the antrum and the body of DU or BGU group. The mean grade of gastritis was 1.7 in the antrum and 1.2 in the body for DU group, which is lower than that of the antrum (p < 0.01) (Figure 3). Similarly, that of BGU group was 1.6 in the antrum and 1.3 in the body, which is lower than that of the antrum, 1.6 (p<0.01). The grade in the antrum of DU group, 1.7, was higher than in that of BGU group, 1.6 (p<0.05). The grade in the body of DU group, 1.2, was lower than in the body of BGU group, 1.3 (p<0.05). Gastritis grade was positively correlated with the grade of H. pylori colonization from Giemsa staining (p<0.01) and CLO test (p<0.01) in the antrum of DU group. Positive correlation was found only by Giemsa staining (p<0.01), not by CLO test in the body of DU group. In the BGU group, the gastritis grade was positively correlated with the grade of H. pylori colonization from Giemsa staining and CLO test, not only in the antrum (p < 0.01) but also in the body (p < 0.01). Correlation coefficient (r) between gastritis and H. pylori grade by Giemsa staining was higher than that by CLO test, and higher in the antrum than in the body, in both of the DU and BGU patients (Figure 4), although all of these p values were less than 0.01, except that by CLO test in the body of DU (p=0.062).

Figure 1.

The grade of H. pylori colonization by Giemsa staining in the antrum and in the body of patients with duodenal ulcer (DU) or benign gastric ulcer (BGU). Values are mean ± SD.

Figure 2.

The grade of H. pylori colonization by CLO test in the antrum and in the body of patients with duodenal ulcer (DU) or benign gastric ulcer (BGU). Values are mean ± SD.

Figure 3.

The grade of gastritis in the antrum and in the body of patients with duodenal ulcer (DU) or benign gastric ulcer (BGU). Values are mean ± SD.

Figure 4.

Correlation coefficient (r) between H. pylori grade and gastritis in the antrum and in the body of patients with duodenal ulcer and benign gastric ulcer.

DISCUSSION

For clinical management, the most important piece of information is whether H. pylori is present or not. However, variations in colonization density may have a bearing on disease association17). For instance, the major cause of DU and BGU is H. pylori, but their pathogenensis is thought to be different. That is, if the H. pylori infection occurs when the gastric acid secretion from parietal cell is high, H. pylori resides and multiplies in the antrum avoiding the body, causing chronic antral gastritis and DU12). However, if H. pylori infection occurs in the low acid secretory state, such as malnutrition, immaturity, and intercurrent infection, pangastritis and multifocal gastric atrophy occur and BGU or stomach cancer can develop12,13). Actually, we found that H. pylori density was higher in the antrum than in the body for DU patients (p< 0.01, Figure 1, Figure 2), similar to other reports3,4,1820). This result can be explained by the fact that patients with DU may be resistant to colonization of the oxyntic mucosa by H. pylori by virtue of the increased acid secretion found in this group of patients11). In contrast, topographic distribution of H. pylori was somewhat reversed for BGU patients, that is, H. pylori density of the body was higher than that of the antrum in BGU patients by CLO test (p < 0.05, Figure 2), suggesting different pathogenesis results in different diseases, such as DU or BGU. Comparing DU group with BGU, H. pylori density of the antrum of BGU group was lower than that of DU (p < 0.01, Figure 1, Figure 2), but H. pylori density of the body of BGU group was similar to that of DU. However, Louw et al.18) has reported more extensive colonization with H. pylori in the body of BGU group than DU.

In general, gastric mucosal inflammation caused by H. pylori is more severe in the antrum than that in the body3,8,9,21). We found that the gastritis grade of the antrum was significantly higher than that of the body in both of DU and BGU (Figure 3) in spite of different distribution of H. pylori between the DU and BGU group. There are a couple of hypotheses for this phenomenon. First, the inflammatory response to H. pylori infection may be poorer in the body mucosa than in the antral mucosa, that is, body mucosa might be more resistant to H. pylori associated gastritis than the antral mucosa9). Supporting this concept, it has been reported that H. pylori induced C-X-C chemokines such as IL-8 and growth regulated (GROα) both in the antrum and in the body, but the association between chemokine expression and inflammation is less in the body22). Second, H. pylori might colonize the normal antrum and extent proximally along the lesser curvature and into the body with subsequent development of gastritis3,5,19). Comparing gastritis of DU group with that of BGU, gastritis of the antrum was higher in DU than that in BGU (p<0.01), and that of the body of DU was lower than that in BGU (p < 0.05). This finding can be correlated with the distribution of H. pylori colonization because H. pylori grade of the antrum in DU was higher than that of BGU by both Giemsa staining(Figure 1) and CLO test (Figure 2), and H. pylori grade in DU was slightly lower than that in BGU by Giemsa staining, although there was no statistical significance(Figure 1).

Gastritis grade was correlated with the grade of H. pylori by Giemsa staining (p < 0.01) and CLO test (p<0.01) in the antrum of DU group and in the body of DU group by Giemsa staining (p < 0.01). In addition, in the BGU group, the gastritis grade was correlated with the grade of H. pylori colonization from Giemsa staining and CLO test, not only in the antrum (p< 0.01) but also in the body (p < 0.01), although gastritis in the body was less severe in spite of higher H. pylori grade than in the antrum. This positive correlation between the density of H. pylori and gastritis confirms that H. pylori plays an important role in the development of gastritis. In investigating the distribution of H. pylori, we used CLO test which is commonly used for diagnosing H. pylori infection because of its convenience, in addition to modified Giemsa staining which is frequently used for evaluating H. pylori density. Because the color of CLO test kit becomes red as the urease of H. pylori metabolizes urea to ammonia, the biopsy specimen size can affect the rapidity of a positive result. However, we always obtained biopsy specimens by the same kind of biopsy forceps (Olympus FB-25K-1, diameter 6 mm), and it was supposed that the difference of biopsy specimen in size may not be so significant that it could affect the mean grade of CLO test. CLO test was well correlated with Giemsa staining in evaluating H. pylori grade (correlation coefficient (r)=0.49, p< 0.001) irrespective of antrum and body of DU or BGU group, but correlation coefficient between gastritis and H. pylori density by Giemsa staining was higher than that by CLO test (Figure 4).

In conclusion, in spite of different distribution pattern of H. pylori between DU and BGU group, gastritis grade of the antrum was significantly higher than that of the body in both of DU and BGU. However, gastritis was correlated with H. pylori density not only in DU but also in BGU patients. It looks like the inflammatory reaction to H. pylori is stronger in the antrum than in the body.

References

1. Rauws EAJ, Langenberg W, Houthoff HJ, Zanen HC, Tytgat GNJ. Campylobacter pylori associated chronic antral gastritis. A prospective study of its prevalence and the effects of antibacterial and antiulcer treatment. Gastroenterology 1988;94:33–40.
2. Van der Hulst RWM, Tytgat GNJ. Helicobacter pylori and peptic ulcer disease. Scand J Gastroenterol 1996;31(Suppl 220):10–18.
3. Satoh K, Kimura K, Yoshida Y, Kasano T, Kihira K, Taniguchi Y. A topographical relationship between Helicobacter pylori and gastritis: quantitative assessment of Helicobacter pylori in the gastric mucosa. Am J Gastroenterol 1991;86:285–291.
4. Bayerdorffer E, Lehn N, Hatz R, Mannes GA, Oertel H, Sauerbruch T, Stolte M. Difference in expression of Helicobacter pylori gastritis in antrum and body. Gastroenterology 1992;102:1575–1582.
5. Bayerdorffer E, Oertel H, Lehn N, Kasper G, Mannes GA, Sauerbruch T, Stolte M. Topographic association between active gastritis and Campylobacter pylori colonization. J Clin Pathology 1989;42:834–839.
6. Miederer SE, Paul F, Stadelmann O, Deyle P, Ottenjann R. Pylorocardial expansion of gastritis? Endoscopy 1969;4:169–174.
7. Ottenjann R, Rosch W, Elaster K. Is gastritis a diffuse process? Findings of gastroscopic biopsy at different levels. Klin Wochenschr 1971;49:27–31.
8. Kimura K. Chronological transition of the fundic-pyloric border determined by stepwise biopsy of the lesser and greater curvatures of the stomach. Gastroenterology 1972;63:584–592.
9. Blomberg B, Jarnerot G, Kjellander J, Danielsson D, Kraaz W. Prevalence of Campylobacter pylori in an unselected Swedish population of patients referred for gastroscopy. Scand J Gastroenterol 1988;23:358–362.
10. Tytgat GNJ, Rauws EAJ. The role of Campylobacter pylori in gastroduodenal diseases. A “believer’”s point of view. First Meeting of the European Campylobacter pylori Study Group. Bordeaux 1988. Gastroenterol Clin Biol 1989;13:118B–121B.
11. Graham DY. Campylobacter pylori and peptic ulcer disease. Gastroenterology 1989;96(2 Pt 2 Suppl):615–625.
12. Dixon MF. Helicobacter pylori and peptic ulceration: histopathological aspects. J Gastroenterol Hepatol 1991;6:125–130.
13. Sipponen P, Seppala K, Aarynen M, Helske T, Kettunen P. Chronic gastritis and gastroduodenal ulcer: a case control study on risk of coexisting duodenal or gastric ulcer in patients with gastritis. Gut 1989;30:922–929.
14. Mielke S, Bayerdorffer E, Meining A, Stolte M, Malfertheiner P. Identifying persons at risk for gastric cancer. Helicobacter 1997;2(Suppl 1):S61–S66.
15. Madsen JE, Vetvik K, Aase S. Helicobacter pylori and chronic active inflammation of the duodenum and stomach in duodenal ulcer patients treated with ranitidine, misoprostol, or an acid-neutralizing agent. Scand J Gastroenterol 1991;26:465–470.
16. Fitzgibbons PL, Dooley CP, Cohen H, Appleman MD. Prevalence of gastric metaplasia, inflammation, and Campylobacter pylori in the duodenum of members of a normal population. Am J Clin pathol 1988;90:711–714.
17. Khulusi S, Mendall MA, Patel P, Levy J, Badve S, Northfield TC. Helicobacter pylori infection density and gastric inflammation in duodenal ulcer and non-ulcer subjects. Gut 1995;37:319–324.
18. Louw JA, Falck V, van Rensburg C, Zak J, Adams G, Marks IN. Distribution of Helicobacter pylori colonisation and associated gastric inflammatory changes: difference between patients with duodenal and gastric ulcers. J Clin Pathol 1993;46:754–756.
19. Hazell SL, Hennessy WB, Borody TJ, Carrick J, Ralston M, Brady L, Lee A. Campylobacter pyloridis gastritis II: Distribution of bacteria and associated inflammation in the gastroduodenal environment. Am J Gastroenterol 1987;82:297–301.
20. Borsch G, Adamek R, Sandmann M, Wegener M, Schimidt G, Leverkus F, Reitemeyer E. Comparison of biopsy urease test and histologic examination for detection of Campylobacter pylori in duodenal, antral and fundic biopsies. Hepato-Gastroenterology 1987;34:236–241.
21. Stolte M, Eidt S, Ohnsmann A. Differences in Helicobacter pylori-associated gastritis in the antrum and body of the stomach. Z Gastroenterol 1990;28:229–233.
22. Yamaoka Y, Kita M, Kodama T, Sawai N, Tanahashi T, Kashima K, Imanishi J. Chemokines in the gastric mucosa in Helicobacter pylori infection. Gut 1998;42:609–617.

Article information Continued

Figure 1.

The grade of H. pylori colonization by Giemsa staining in the antrum and in the body of patients with duodenal ulcer (DU) or benign gastric ulcer (BGU). Values are mean ± SD.

Figure 2.

The grade of H. pylori colonization by CLO test in the antrum and in the body of patients with duodenal ulcer (DU) or benign gastric ulcer (BGU). Values are mean ± SD.

Figure 3.

The grade of gastritis in the antrum and in the body of patients with duodenal ulcer (DU) or benign gastric ulcer (BGU). Values are mean ± SD.

Figure 4.

Correlation coefficient (r) between H. pylori grade and gastritis in the antrum and in the body of patients with duodenal ulcer and benign gastric ulcer.