Nasser Parsa, Amir Almasi-Hashiani,
Volume 14, Issue 7 (2-2012)
Abstract
Human Brucellosis is an infectious disease caused by Brucella bacteria. An average of 150 cases of brucellosis among 330 million people is reported in the USA each year. This bacterium is small, gram-negative rods that grow in phagocytes. They primarily cause diseases among different animals and humans become infected when is in contact with animals or their products. Brucella can cause various symptoms in humans which is similar to human influenza. Brucellosis is diagnosed in a laboratory by finding Brucella organisms in samples of blood or bone marrow or to detect antibodies against the bacteria in two blood samples, collected 2 weeks apart. Depending on severity of illness, recovery may take as long as several months. There is no vaccine available for human except live vaccines and that should be consulted to a health care provider. DNA findings for Brucella species in the index patients focused our attention on revealed human cancers. Also, granalomatous inflammation of testes and medulloblastomas has been linked to chronic Brucellosis infection which could be similar to Helicobacter pylori that is associated with gastric tumor formation. More scientific investigation is needed to properly address the connection of Brucella with other human malignancies.
Rahimeh Khavari , Mohammad Rezaei , Neda Soleimani , Reza Massudi ,
Volume 21, Issue 5 (10-2018)
Abstract
Background and Aim: Enterococci are among the microbial flora in human and animals digestive tract. The nosocomial pathogenicity of enterococci has emerged in recent years. The purpose of the study was to evaluate the effect of a diode laser with a wavelength of 810nm and a power of 30mw at 180s on the survival of an antibiotic resistant enterococci.
Materials and Methods: 30 clinical isolates of enterococcus bacteria were tested for sensitivity to antibiotics according to diffusion method. 10 isolates with the highest antibiotic resistance were selected and diode laser with a wavelength of 810nm and a power of 30mw for 180s were beamed on them and investigated.
Findings: The Results of our antibiotic susceptibility test showed that among 30 isolates resistant to antibiotic enterococci, 27 isolates (90%) were resistant to Oxacillin antibiotics. The results of the diode laser radiation showed that the lowest survival rate of the intended isolates was at 810nm and 30mw for 180s (0.58%).
Conclusion: Based on the results obtained, the antibacterial effect of the diode laser is at 810nm and 30mw for 180s. Therefore, it is recommended to use a 810nm diode laser to eliminate clinical strains of antibiotic-resistant enterococci.
