Asghar Mogheiseh; Abdollah Derakhshandeh; Sara Heidarifar; Esmaeil Bandariyan
Volume 11, Issue 1 , March 2020, , Pages 89-92
Abstract
The microbial population of the uterus fluctuates during the estrous cycle. Microflora of uterus may affect the establishment and maintenance of pregnancy in bitches. The endoscopic samples obtained from the vagina and uterus of 20 female adult mixed‑breed dogs. The uterine lavage samples were prepared ...
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The microbial population of the uterus fluctuates during the estrous cycle. Microflora of uterus may affect the establishment and maintenance of pregnancy in bitches. The endoscopic samples obtained from the vagina and uterus of 20 female adult mixed‑breed dogs. The uterine lavage samples were prepared for cytology, bacterial (aerobic and anaerobic) and fungal cultures. Uterine tissue samples were evaluated for the presence of E. coli by the polymerase chain reaction. The pure growth of bacteria was observed in seven plates out of the nineteen cultured samples (36.84%) and five Gram-negative and two Gram-positive bacteria were detected. The highest number of isolated bacteria was related to the samples of the diestrus and anestrus stages of the estrous cycle, while the lowest number of bacteria was observed in the samples of the estrous stage. Moreover, Citrobacter spp. was the most frequent group of isolated bacteria. The neutrophils were detected in the cytology of uterine samples. The fungi growth was observed in three uterine samples. Cladosporium and Penicillium isolated from the samples were related to the estrus stage, and yeast was grown in diestrus samples. 16srRNA gene existed in all of the estrous uterine samples in which the bacterial culture was negative. However, the presence of this gene was proven in two samples (33.30%) of negative bacterial culture samples from the diestrus and anestrus stages. In conclusion, the normal bitches’ uteri were infected with various bacteria in estrus, diestrus and anestrus stages of the estrous cycle, and it could coincide with the fungi infection.
Microbiology
Masood Adibhesami; Malahat Ahmadi; Amir Abbas Farshid; Farshid Sarrafzadeh-Rezaei; Bahram Dalir-Naghadeh
Volume 8, Issue 1 , March 2017, , Pages 23-28
Abstract
The microorganisms have been noted as the main cause of delayed wound healing.The most common pathogen causing the wound infections is Staphylococcus aureus. Silver nanoparticles (AgNPs) show ample antibacterial activities. In the present study, the effect of AgNPs on mouse wounds inoculated with S. ...
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The microorganisms have been noted as the main cause of delayed wound healing.The most common pathogen causing the wound infections is Staphylococcus aureus. Silver nanoparticles (AgNPs) show ample antibacterial activities. In the present study, the effect of AgNPs on mouse wounds inoculated with S. aureus was investigated. Sixty male mice (20 to 30 g) were anesthetized, full-thickness skin wounds were made on their back and then the bacterial suspension was added to each wound bed. Treatments were administered on wound bed topically including gentamicin (8 mg kg-1), AgNPs (0.08 mg kg-1, 0.04 mg kg-1 and 0.02 mg kg-1) and normal saline in the control group. Wound healing was monitored macroscopically by taking digital photographs on days 0, 7, 14 and 21 of the experiment. Topical application of gentamicin and AgNPs (0.08 and 0.04 mg kg-1) significantly increased the rate of wound healing more than treatment with AgNPs at a dose of 0.02 mg kg-1and normal saline. The presence of silver nanoparticles in AgNPs groups (especially 0.08 mg kg-1) improved wound appearance better than other groups without silver nanoparticles (gentamicin and control groups) and led to lesser wound scars. According to data analysis, healing rate of treated mice with gentamicin and AgNPs (0.08 mg kg-1) was significantly (p < 0.001) faster than treated mice with other AgNPs doses and normal saline. The results of current study introduced an in vivo nanosilver accelerating effects on the treatment of on S. aureus infected skin wounds.