Product Categories
Product Selection
Manufacturers
In Vivo Smoke and Poison Modeling System BKALSPS
Contact
In Vivo Smoke and Poison Modeling System BKALSPS
Capacity: 16 cages of mice
Filter: HEPA
Smoke generator: rotary shaft design, batch smoke combustion kit
Introduction:
A Stable and Efficient Experimental Platform for Animal Models
With the advancement of disease research, experimental animal models have become integral to medical studies. However, traditional smoke exposure methods often encounter challenges such as secondhand smoke hazards, uncontrollable smoke concentrations, uneven exposure durations, and inconsistent drug atomization, resulting in low disease modeling success rates, reproducibility issues, and significant consumption of human and material resources.
To overcome these challenges, we introduce a live animal smoke exposure system that offers long-term, stable, and automated smoke fumigation for laboratories. This system is primarily used to establish COPD-related disease models in mice, rats, and guinea pigs, and can also be applied for drug nebulization to facilitate inhalation exposure research and analysis.
Key Features and Benefits:
-Innovative Design and User-Friendliness
-Floor-mounted integrated design, sleek and user-friendly.
-Transparent tempered glass observation port allows for real-time monitoring of animal status.
-Integrated monitoring functions for temperature, humidity, oxygen, carbon dioxide, carbon monoxide, and other parameters.
-Graphical operation interface for ease of use.
High Automation and Resource Efficiency
-Automated smoke poisoning eliminates the need for prolonged experimenter presence.
-Remote operation capabilities via mobile devices and other devices save on manpower.
Health and Safety Considerations
-Exhaust gas treatment with HEPA high-efficiency filters ensures filtered exhaust and safeguards the cleanliness and safety of both personnel and the environment.
Stability and Efficiency for Improved Success Rates
-Stable smoke output, controllable concentration, and uniform exposure time for animal models enhance experimental reproducibility and success rates.
Compare This Product