1. Introduction
Helicobacter pylori is a spiral-shaped, gram-negative flagellated bacterium that usually resides in the gastric mucosa [1]. It affects approximately 50% of the world’s population, even 80% in lower and middle outcome countries [1] [2]. The prevalence according to a study conducted by Ankouane et al. in Yaoundé (Cameroon) is up to 72.5% in hospital [3]. The main route of transmission is person-to-person transmission and often occurs in the first 5 years of life [4]. The risk factors for infection with H. pylori are low socioeconomic level, promiscuity, family history of H. pylori infection or gastritis, alcohol consumption, smoking [5]. The diagnosis of H. pylori is made by noninvasive methods (the rapid urease test, the breath test, serology, stool antigen test) or invasive methods biopsy-based tests (culture and histology) [6] [7]. The gold standard is histology, but current methods have been developed, using high-definition endoscopy [7].
It has close associations with gastroduodenal disorders [8] [9]. Recent studies suggest some extra gastroduodenal disorders like chronic kidney may be related to H. pylori [10] [11] [12] [13]. Although evidence demonstrating an association between H. pylori infection and renal disease remain unknown. About 25% - 75% of chronic kidney disease (CKD) patients suffer from multiple gastrointestinal lesions and their complications (gastric erosions, peptic ulcer disease, angiodysplasia, and gastrointestinal bleeding) [14] [15] [16]. H. pylori plays a major role in the genesis of many gastrointestinal conditions both in individuals with normal renal function and CKD. It has been hypothesized that the uremic state of CKD patients increase the risk of H. pylori infection [17] [18]. This stems from the notion that H. pylori possess several pathogenetic determinants, including urease activity, converting urea to ammonia, providing protection against low pH [18]. Thus, the gastric mucosa of uremic patients could be prone H. pylori mucosal colonization, leading to mucosal damage and gastrointestinal lesions [19]. However, this was contradicted by some studies that reported no association between the uremic state and H. pylori colonization [19] [20].
The prevalence of H. pylori infection in CKD patients ranges from 20% to 64% [21] [22] [23] [24] [25]. However, the association of H. pylori and CKD patients compared to individuals with normal renal function (NRF) remains controversial. In Africa, very few data are available on the association between these two frequent conditions. We aimed to study the prevalence and the determinants of H. pylori infection and gastroduodenal lesions in CKD patients.
2. Patients and Methods
We conducted a cross-sectional study at the Douala General Hospital over 5 months from January to May 2021. We included patients over the age of 18, with CKD between stage 3 and 5 according to KDIGO classification [26], and who had freely consented to participate in the study. We excluded patients recently on proton pump inhibitors two weeks or less prior to the interview, on nonsteroidal anti-inflammatory drugs, histamine 2 receptor inhibitors, antibiotics (Amoxicillin, Clarithromycin, Metronidazole, Quinolones, Tetracycline) within one last month. A group of comparison was selected with normal renal function (NRF). Two NRF age and sex corresponding patients were included for one CKD patient.
CKD was defined as documented chronic kidney failure by a nephrologist for more than 3 months with GFR ≤ 60 ml/min [26]. The stage defined according KDIGO guidelines [26]. NRF was considered as having a normal serum creatinine level and no history of kidney disease or no risk factors of CKD for patients without serum creatinine [26]. The patients were contacted through the nephrology department of the Douala general hospital. The sample size calculation was calculated using the formula for comparing two proportions [27]:
where n is sample size; p1 and p2 are expected sample proportions of the two groups and cp,power the critical value, for a confidence interval of 95% the critical value is 1.96.
Nardone et al. reported the proportion of CKD patients with H. pylori infection as 74% (p1) and in patients with NRF as 36% (p2). Applying the above formula, the 23 participants per group, and to cover non-consenting patients, we added 20% to the minimum sample size. Therefore, the minimum sample size for our study was 28 participants per group.
After signing the informed consent form, each patient was interviewed by the principal investigator and the data collected was noted on an anonymous and individual data collection sheet. We collected data on socio-demographic characteristics (age and sex), past history (high blood pressure, diabetes, HIV status, viral hepatitis), lifestyle (notion of alcohol consumption, and/or smoking), CKD (date of diagnosis, etiology, onset of dialysis, number of weekly dialysis sessions). Then, an appointment was scheduled for the upper GIT endoscopy. Upper GIT endoscopy was performed by a single endoscopist using a FUJINON® EPX-2200 endoscopy column. This endoscopist was a senior endoscopist. During the endoscopy examination, five biopsies are taken: two in the antrum, two in fundus and one in corner of lesser curvature. These biopsies were used to check for H. pylori. The biopsies were placed in a urease rapid test kit (HelicotecUT®Plus). The result on the urease rapid test kit is given within 30 minutes to 2 hours according to the instructions available. The lesions found and the results of the urease rapid test kit were recorded in the data collection sheet for each patient. We classified endoscopic lesions according to location and the type. In the stomach, lesions were gastritis (erythematous, erosive, pseudo-nodular) and ulcer. The lesions of esophagus were esophagitis. Ulcer and bulbitis were the lesion described in duodenum.
Data were analyzed using SPSS version 28 software. Results were expressed as mean ± SD and percentages. Comparison between groups was made using chi-square test for categorical variables and Student T-test for continuous variables. Logistic regression was performed to determine factors independently associated to H. pylori infection in CKD patient (95% Confidence Interval). Results were considered statistically significant for p-value < 0.05.
Ethical considerations
Ethical approval was granted by the institutional review board (IRB) of the Faculty of Health Sciences (FHS), University of Buea n˚2021/1275-02/UB/SG/ IRB/FHS. Administrative authorization was obtained from the Administration of the Douala General Hospital n˚002AR/MINSANTE/HGD/M/01/21.
Respect for autonomy: Participants were given consent forms to sign after understanding the details (nature, risks, benefits) of the study. The participants were free to withdraw from the study at any time they pleased.
Confidentiality: Participants were given codes instead of using their names for identification. The consent forms containing names were kept separate from the data collection forms. These forms were kept secure.
Beneficence: Participants benefited from a gastroenterology consultation and knowing their H. pylori and gastroduodenal disease status for free. They were also counselled and given prescriptions if needed. The information obtained at the end of the study will improve scientific knowledge, which could help their management.
Non-maleficence: There were no risks involved in this study. All efforts were made to maximize the safety of participants.
Justice: Participants were treated equally and fairly.
3. Results
We included 33 CKD and 66 NRF patients in this study. 54.4% were males (54.4%) with a M/F ratio of 1.2. The mean age was 51.1 ± 12.8 years ranging from 26 - 77 years. Hypertension (32.3%) and diabetes (7.1%) were the main comorbidities. 75.8% of CKD patients were at stage 5, and 66.7% were on dialysis. The median duration of hemodialysis was 5 years (IQ 1.5 - 6.5). The main etiology of CKD was hypertension (Table 1). In both groups, we had a common history of chronic epigastric pain, which was more present in CKD patients, 96.9% vs 43.9% (p-value < 0.001). Epigastric pain, pyrosis, and eructation were the commonest presenting symptoms in both groups (Table 2). The CKD patients significantly presented anorexia and asthenia. The prevalence of H. pylori infection among CKD patients was 63.6% and 37.9% in patients with NRF (p-value = 0.015) (Figure 1).
Gastroduodenal lesions were present in 87.9% (95% CI: 69.9% - 98.2%) of CKD patients vs 72.7% (95% CI: 61.74% - 83.6%) in patients with NRF (p = 0.73). The most common endoscopic finding in patients with H. pylori infection was erythematous gastropathy (Table 3). The difference between CKD patients
Table 1. General characteristics of study population.
(1): mixed nephropathy, HIV, Polycystic kidney disease, chronic interstitial nephritis.
Figure 1. Prevalence of H. pylori infection.
Table 2. Clinical Presentation of study population.
and NRF patients was significant with erosive gastritis (p = 0.009) and hiatal hernia (p = 0.002) (Table 3). CKD (aOR = 1.02; CI 95% 0.14 - 0.82; p = 0.017) and dialysis (aOR = 10; CI 95% 1.08 - 91.9; p = 0.042) were independently associated to H. pylori infection (Table 4). We had no association between sex, age, endoscopic lesion, duration of dialysis and H. pylori infection in CKD patients.
4. Discussion
Upper gastrointestinal disorders are common among CKD patients. Although their etiologies are multifactorial, H. pylori infection is a known cause. In addition, there is a discrepancy in the frequency of H. pylori infection in CKD patients compared to NRF patients. In this study, we evaluated the prevalence of H. pylori infection and gastroduodenal lesions by upper GI endoscopy and a concomitant rapid urease test. Although our sample size was larger than calculated, many patients could not be included in the study because they were treated with proton pump inhibitors in an almost systematic manner; this is a bias in estimating the prevalence of H. pylori infection. In addition, the lack of follow-up does not allow us to assess the long-term impact of chronic kidney disease on H. pylori infection and the evolution of endoscopic lesions.
The prevalence of H. pylori infection was significantly higher in CKD patients than in patients with NRF (63.6% vs 37.9%). Similar findings are reported by Khedmat et al. and Nardone et al. [28] [29]. We nevertheless found contradictory results in certain studies [14] [15] [16] [20] [21]. The variation in these results may be related to different diagnostic methods, but also to the type of patients chosen. The exact relationship between H. pylori infection and CKD is still to be determined. We found no association between age or sex and H. pylori infection in CKD, according to some studies [30]. The CKD and dialysis were significantly associated with this infection. Asl et al. found high prevalence of H. pylori infection in hemodialyzed patient without a significant difference [25]. Low gastric motility, low chloride level, elevated uremia and immunosuppression in CKD patients could be synergistic risk factors for gastric colonization with H. pylori. Concerning dialysis, many study suggest that a long time in dialysis can have a protective effect to H. pylori infection [31] [32] [33] [34]. Sugimoto et al.
Table 4. Factors associated to H. pylori infection in CKD patients.
reported that being on dialysis, and specifically for less than four years is associated with H. pylori infection [23]. Rasmi et al. conducted a study with IgG serologic markers and reported that H. pylori infection significantly increased with the duration of dialysis [32]. We found no association between H. pylori infection and duration of dialysis.
Previous studies have reported multiple upper GI endoscopic lesions in CKD patients which are present in 25% - 75% of these patients [14] [15] [16]. We observed a high prevalence of gastroduodenal lesions in CKD patients is like those found in several studies [27] - [32]. It is slightly higher than that found by Cisse et al. in Senegal or Serme et al. in Burkina Faso which had respective prevalence’s of 76% and 72.9% [35] [36].
The gastroduodenal lesions were frequent in CKD patient more than NRF like Nardone et al. studies [28]. In a study on asymptomatic patients from both groups, gastroduodenal lesions were more frequent patients with NRF compared to CKD patients (95% vs 81.5% respectively) [29]. The pathogenesis of upper gastrointestinal mucosal lesions in CKD patients remains undefined, and it is uncertain whether these patients are more prone to have these lesions compared to the normal population. However, there are hypothesis on the role of uremia. Hyper uremia increases hydrogen ions back-diffusion across mucosa. In addition, CKD is associated with a lower clearance of gastrin. Hence, both factors subsequently cause acid hypersecretion which may lead to mucosal injury. Moreover, gastrin decreases pyloric sphincter tone, predisposing to biliary reflux, thus worsening the mucosal injury [37] [38] [39]. In this study we found no significant association between CKD and the type of gastroduodenal lesions. Erythematous gastritis was the commonest gastroduodenal lesion observed in H. pylori-infected patients from both groups. This is like the literature [28] [29] [30]. Karari et al. demonstrated that duodenal ulcers and duodenal bulb deformities were more frequent in H. pylori-infected CKD patients than those with NRF [24]. This is not consistent with our findings. Erosive gastritis and hiatal hernias were more common in the H. pylori-infected CKD group. We found no significant association between H. pylori infection and the existence of gastroduodenal lesions.
5. Conclusion
The prevalence of H. pylori infection in CKD patients is higher compared to those with NRF. There was no significant difference in the frequency of gastroduodenal lesions between both groups. Being CKD patients on dialysis contributed to the occurrence of this infection in CKD patients. We need more studies to evaluate the long-term impact of CKD and duration of dialysis on H. pylori infection and gastroduodenal lesions.
Author’s Contributions
Writing: Bekolo Nga Winnie, Halle-Ekane Nancy.
Data collection: Bekolo Nga Winnie, Halle-Ekane Nancy.
Corrections: Bekolo Nga Winnie, Eloumou Baganaka Servais, Ndjitoyap Ndam Antonin, Sengha Njapa Guy Roger, Fouda Hermine, Malongue Agnès, Kowo Mathurin, Noah Noah Dominique, Ankouone Andoulo Firmin, Luma Namme Henry, Halle-Ekane Marie Patrice.
Abbreviations
CKD: Chronic Kidney Disease;
NRF: Normal Renal Function;
PUD: Peptic Ulcer Disease.