Preparation of vaccine against diabetic foot pathogenic bacteria using low level diode laser

Backgrround:: Since the invention of laser in 1960, lasers have been developed and approved in many fields. Lasers can now be regarded as practical tools with unique properties that have been utilized effectively in several applications in fields of medical and biological sciences. Objjecttiives:: T...

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Veröffentlicht in:Al-Kindy College medical journal 2013-06, Vol.9 (2), p.29-31
Hauptverfasser: Radi, Zaynab Awwad, Rustum, Ihsan F., al-Mukhtar, Sadiq Abbas
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Sprache:eng
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Zusammenfassung:Backgrround:: Since the invention of laser in 1960, lasers have been developed and approved in many fields. Lasers can now be regarded as practical tools with unique properties that have been utilized effectively in several applications in fields of medical and biological sciences. Objjecttiives:: The aim of the current study was to preparation of vaccines (live attenuated and killed) by irradiation of the bacteria by the low level diode laser. Metthods:: six bacterial isolates were isolated from human samples of diabetic foot infections, which used for preparation of vaccines. The experiment was conducted on fifteen adult male rabbits; they were divided into three groups with 5 rabbits each. Blood samples were collected from the marginal ear vein of the rabbits after one month of the vaccination, for the purpose of measuring the concentration of the immunoglobulins which present in their serum, using Radial Immunodiffusion (RID) method by specialized kits (LTA-Italy). Resulltts:: After irradiation of the bacterial suspensions with the diode laser for different exposure times and different frequencies, and the wavelengths used were (660, 820, 915) nm, the growth of bacterial isolates decreased until killed of bacteria at 40 min. The results of IgA concentrations for the three groups were highly significant (P < 0.01) when comparing the attenuated with control group, while were significant (P < 0.05) between the killed vaccine and control groups, and not significant variations between the attenuated and killed groups, Concllusiions:: Wavelength (660) nm was more effective in killing the bacteria, and the variations were not significant between the live attenuated and the killed vaccine
ISSN:1810-9543
2521-4365