ABSTRACT
The aim of thos survey is establishment of an animal model through which a rapid distortion of the hair cell of cochlea administering amikacin and furosemide and using distortion product otoacoustic emission [DPOAE] the functioning of rat's ear would be assessed. Forty-eight male Sprague dawley rats [with average of weight 200-250g, 12 weeks post natal] were randomly divided into six equal groups. Except the control group the rest received 0.5mg/g, 0.75mg/g, 1mg/g, 1.25mg/g, and 1.5mg/g, of subcutaneous amikacin respectively. 30 minutes later every rat received 0.1mg/g of furosemide intrapritoneally. DPOAE of rats was measured prior to these injections and 72 hours later. Then tissue section of the rat's cochlea was prepared.Data were analyzed by means of SPSS [version 17] and ANOVA test and paired sample T test at the significant level of p= 0.05. All the cases had a significant decrease in their DPOAE with the frequencies 2KHz-8KHz [p=0.05].The most change in DPOAE was in rats which had received 1mg/g - 1.5mg/g amikacin. Histological studies approved distortion of hair cell even within the apical turn. To establish a deafness model due to losing hair cells, it is recommended to use a combination of 1mg/g amikacin and 0.1mg/g furosemide. Besides, DPOAE can be used to approve deafness
ABSTRACT
Low intensity pulsed ultrasound [LIPUS] has been shown in healing of fractures. This study investigates the effect of LIPUS as a fracture-healing adjunct on the denervated tibial fractures in rabbit model. Twenty four male Dutch rabbits were randomly divided into four groups including two control and two ultrasound-treated [US-treated] groups. A standardized mid-tibial osteotomy was performed in the right tibia. Ipsilateral sciatic nerve was cut two centimeter above the right knee. After three days, the rabbits of US-treated groups received the therapeutic dose [100 mW/cm[]] of ultrasound for 15 minutes per day until the 6th and 8th week and the control groups did not receive any treatment. The rabbits were sacrificed at weeks 6th and 8th post surgery and the external fixator and tibia were carefully removed. Radiographs were taken by lateral and anteroposterior views. Mechanical testing of rabbit's tibiae was used. The specimens were taken from callus of fracture for histomorphometric study of trabecula in the fractured area. Immunohistochemical staining for ki67 was used to evaluate cellular proliferation. Radiographs showed the callus was visible indicating the ossification of the callus tissue without any significant difference between US- treated and control groups. Biomechanical, histomorphic and immunohistochemical evaluations had no significant difference between control and US-treated groups after 6 and 8 weeks postoperation. These finding suggest that ultrasound therapy with features which applied in this study had no significant effect on denervated tibial fracture repair in rabbits