Emerg Infect DisEmerging Infect. DisEIDEmerging Infectious Diseases1080-60401080-6059Centers for Disease Control and Prevention15898179332037104-075510.3201/eid1105.040755Letters to the EditorLetterHelicobacter pylori, Republic of GeorgiaHelicobacter pylori in GeorgiaKretsingerKatrina*SobelJeremy*TarkhashviliNatoChakvetadzeNeliMoistrafishviliMarinaSikharulidzeMerabGoldBen D.*ChubinidzeMarinaImnadzePaataCenters for Disease Control and Prevention, Atlanta, Georgia, USA;National Center for Disease Control, Tbilisi, Republic of Georgia;Emory University School of Medicine, Atlanta, Georgia, USAAddress for correspondence: Jeremy Sobel, Centers for Disease Control and Prevention, 1600 Clifton Rd, Mailstop A38, Atlanta, GA 30333, USA; fax: 404-639-2205; email: jsobel@cdc.gov52005115780781Keywords: prevalenceHelicobacter pyloriGeorgia (Republic of)social classstomach neoplasms

To the Editor: Helicobacter pylori infection is a principal cause of chronic active gastritis and peptic ulcer disease as well as gastric adenocarcinoma and mucosa-associated lymphoid tissue lymphoma (1). Poverty and crowding have been associated with infection epidemiologically (2,3). The Republic of Georgia has a per capita annual income of US $591, making it one of the poorest countries in the world (4,5). Georgia also reports a high annual incidence of gastric cancer, 17/100,000 population in 2002 (National Center for Disease Control, Tbilisi, unpub. data), which suggests an elevated prevalence of H. pylori infection. Testing and treatment for H. pylori are not practiced in this country, and diagnostic capacity for H. pylori is nonexistent. In October 2003, we conducted an exploratory pilot study of H. pylori infection to begin characterizing prevalence and risk factors for infection.

We studied a convenience sample of adults residing in or near the capital city of Tbilisi. Urban participants were recruited in 11 of Tbilisi's 12 residential districts and in 1 district of Rustavi, a city 20 miles south of Tbilisi. Rural participants were recruited from 3 villages within 10 miles of Tbilisi. In each district or village, we nonsystematically selected 10 households and recruited 1 adult per household. Exclusion criteria included age <18 years; reported allergy to omeprazole, clarithromycin, or amoxicillin; or treatment with any antimicrobial agent within the preceding 2 weeks. This protocol was reviewed and approved by the Human Subjects Review Board at the National Center for Disease Control, Tbilisi. Active infection with H. pylori was measured by a validated, point-of-care 13C-urea breath test (Meretek Corporation, Lafayette, CO, USA) (6). Participants responded to a questionnaire that requested information about gastrointestinal symptoms during the preceding 12 months; diagnosis of gastritis, peptic ulcer disease, and gastric cancer made by a physician; family history of peptic ulcer disease or gastric cancer; and knowledge about H. pylori. Low, medium, or high socioeconomic status categories were designated on an ecologic basis, according to average real estate prices and common perception of the living standard of the participant's district or village of residence. Analyses were conducted with SAS (SAS Institute, Cary, NC, USA) version 9.0. Measures of inference are not reported because participants did not constitute a rigorously selected population sample.

Of 136 persons eligible to participate in the study, 135 (99%) consented to take part. Median age was 39 (range 19 – 79); 82 participants (61%) were women. Twenty-seven (20%) reported having some knowledge of H. pylori, but none had been tested or treated for the infection. Ninety-seven (72%) participants had active H. pylori infection: 58 (71%) of 82 women and 39 (74%) of 53 men. Thirty (77%) of 39 participants ≥50 years of age tested positive for H. pylori compared to 67 (70%) of 96 participants <50 years of age.

Seventy-one (84%) of 85 participants residing in neighborhoods of low-socioeconomic status were infected versus 26 (52%) of 50 participants residing in neighborhoods of medium- or high-socioeconomic status (crude prevalence odds ratio 4.68). Twenty-three (85%) rural participants were infected compared to 74 (69%) of 108 urban participants (crude prevalence odds ratio 2.64).

Gastrointestinal symptoms were common, but did not correlate with active infection. One hundred five participants (78%) reported recurrent epigastric pain within the past year; and 120 participants (89%) reported a variety of gastrointestinal symptoms, including epigastric pain. Persons with active infection were no more likely to report epigastric pain (75 [78%] of 97) than persons without infections (30 [79%] of 38). One participant reported gastric cancer and was H. pylori–positive. Seven participants reported a family history of gastric cancer; all were H. pylori–positive. Five participants, of whom 3 were H. pylori–positive, reported a history of gastric surgery for peptic ulcer disease. More rural participants (23 of 27) reported a history of ruptured ulcers or a family member with gastric cancer than did urban participants (74 of 108). The frequency of reported gastrointestinal symptoms was similar between urban and rural participants.

To our knowledge, this is the first survey of H. pylori infection in Georgia. We found a high rate of infection with H. pylori. Participants also reported a very high rate of dyspeptic symptoms, although these were not correlated with infection. This small convenience sample survey has several limitations, however. First, our participants did not constitute a systematically selected population sample. Second, rural populations were underrepresented. Finally, we used neighborhood or village of residence as a marker for socioeconomic status without specific income information from the participants. Therefore, socioeconomic status misclassification possibly occurred and the association between infection and socioeconomic status may not be accurate.

Nevertheless, it is unlikely that we substantially over- or underrepresented infection prevalence in the general population. Despite the limitations of this study, our results clearly indicate that H. pylori is a serious public health problem in Georgia. There is a pressing need to educate medical professionals and the general public about H. pylori infection and gastrointestinal illness and to introduce diagnosis of this infection and appropriate treatment for it into standard medical practice. In addition, rigorous population surveys that include children are needed to identify high-risk groups of persons for targeted public health interventions (7).

Suggested citation for this article: Kretsinger K, Sobel J, Tarkhashvili N, Chakvetadze N, Moistrafishvili M, Sikharulidze M, et al. Helicobacter pylori, Republic of Georgia [letter]. Emerg Infect Dis [serial on the Internet]. 2005 May [date cited]. http://dx.doi.org/10.3201/eid1105.040755

Acknowledgments

We thank John Heinrich for facilitating the use of an accurate point-of-care test of active H. pylori infection in the field. We also thank Maiko Chokheli, Ekaterina Jhorjholiani, and Tamuna Zardiashvili for assistance with data collecting.

This study was supported by a grant from the Biotechnology Engagement Program (BTEP) #13, Department of Health and Human Services. Dr. Gold is supported in part by a grant from the National Institutes of Health, NIDDK (DK-53708).

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