ABSTRACT
Bronchoalveolar lavage is an important animal experimental technique in the study of respiratory system and its pathological changes. It can acquire a variety of biochemical factors, inflammatory mediators and immune cells from the respiratory tract and lungs, and provides an important evaluation index and reference for animal experiment. Bronchoalveolar lavage is an effective and reliable method for the diagnosis of respiratory diseases. It has been gradually standardized and widely used in clinical practice at present, however, there is no set of standard for bronchoalveolar lavage in rats and mice. The results of bronchoalveolar lavage fluid are affected by many factors, such as the lavage fluid, suction pressure, the amount of lavage and recovery, and the retention time of lavage fluid in the lungs. Successful and efficient acquisition of lavage specimens is the key to the study and evaluation of respiratory diseases. This paper summarizes the current lavage methods commonly used by domestic and foreign researchers, and provides a reference for further research in the this field.
ABSTRACT
Objective To investigate the effect of high-dose coenzyme Q10 on the central nervous system in mice,and to provide experimental basis for clinical safety evaluation.Methods Mice were randomly divided into vehicle control group,perillartine control group,positive control group (chlorpromazine or diazepam) and coenzyme Q10 low,medium and high dose groups (1.5,3.0 and 6.0 g/kg,equivalent to 75,150,and 300 times of clinical dosage,respectively).The corresponding drugs were ig given to mice with the volume of 40 mL/kg.The general behavior of mice was observed directly,the motor coordination ability was observed by rotating stick method,and Anymaze animal behavior video analysis system was used to observe the spontaneous activity of mice and synergistic reaction with sub-threshold dose of pentobarbital sodium.Results There were no significant differences in the general behavioral activity,and the number of spontaneous activity times,mean resident time,and ratio of sleeping were found in all coenzyme Q10 groups,compared with the vehicle and perillartine control groups.Conclusion High dose of coenzyme Q10 has no significantly toxic effect on the central nervous system in mice,which could provide a reliable experimental basis for further medication study and clinical application of high-dose coenzyme Q 10.
ABSTRACT
Objective To investigate the effect of high-dose coenzyme Q10 on the central nervous system in mice,and to provide experimental basis for clinical safety evaluation.Methods Mice were randomly divided into vehicle control group,perillartine control group,positive control group (chlorpromazine or diazepam) and coenzyme Q10 low,medium and high dose groups (1.5,3.0 and 6.0 g/kg,equivalent to 75,150,and 300 times of clinical dosage,respectively).The corresponding drugs were ig given to mice with the volume of 40 mL/kg.The general behavior of mice was observed directly,the motor coordination ability was observed by rotating stick method,and Anymaze animal behavior video analysis system was used to observe the spontaneous activity of mice and synergistic reaction with sub-threshold dose of pentobarbital sodium.Results There were no significant differences in the general behavioral activity,and the number of spontaneous activity times,mean resident time,and ratio of sleeping were found in all coenzyme Q10 groups,compared with the vehicle and perillartine control groups.Conclusion High dose of coenzyme Q10 has no significantly toxic effect on the central nervous system in mice,which could provide a reliable experimental basis for further medication study and clinical application of high-dose coenzyme Q 10.