Helicobacter pylori is a human pathogen bacterium associated with gastritis, peptic ulcer, and gastric cancer. It can be identified through the 16S rRNA gene and characterized through cagA and vacA virulence genes. Clinical cultures of H. pylori were isolated and identified from human stomach biopsies. The isolates were characterized according to their colonial and microscopic morphology, and molecular genotyping was conducted to determine the bacterial virulence. A phylogenetic analysis of the 16S rRNA gene sequencing was performed. In addition, multilocus sequence typing analysis was performed to determine the phylogeographic nature of the isolated strains. Three bacterial isolates were selected from 22 gastric biopsies, identified as H. pylori through colonial morphology, Gram staining, urease, catalase, and oxidase tests and identification of the ureC gene through end-point PCR. Amplification of 16S rRNA, urea, and tonB genes was performed, as well. Differences between the cagA and vacA genotypes were determined among the isolates. The phylogenetic analysis confirmed the identity of the three isolates as the specie Helicobacter pylori. Different genotypes were obtained for each H. pylori strain, and all the clinical isolates showed the vacA s2/m2 genotype, indicating an absence of the VacA cytotoxin. Only HCGDL-MR01 is a cagA gene carrier with a greater risk to develop a serious disease, such as stomach cancer and peptic ulcer. The multilocus sequence typing placed all the strains within the hpEurope population structure.