In the fields of microbiological research, clinical testing, and food microbiological testing, the cultivation of anaerobic microorganisms requires strict control of the oxygen content in the environment to ensure strain activity and accuracy of cultivation results. Shanghai Boxun Medical R&DAnaerobic cultivation systemWith its precise regulation ability and stable operation performance in anaerobic environments, it has become a commonly used equipment for relevant institutions to carry out anaerobic microbial cultivation work.
Practical features
•Accurate environmental regulationUsing high-precision sensors and a microcomputer control system, the fluctuation of oxygen concentration in the cabin is controlled within a range of ± 0.1%, and the temperature control accuracy can reach ± 0.5 ℃, ensuring that different types of anaerobic microorganisms (such as tetanus bacilli, bifidobacteria, etc.) meet specific requirements for their growth environment and reducing cultivation failures caused by environmental fluctuations.
•Easy to operateEquipped with a touch control interface, preset cultivation programs for various common anaerobic microorganisms (such as clinical strain cultivation, environmental microbial cultivation, etc.), operators only need to select the corresponding program to automatically complete environmental construction and parameter maintenance. At the same time, the system supports manual adjustment of parameters, and can customize indicators such as oxygen concentration and temperature according to special cultivation needs.
•stable operationCore components such as gas valves, catalysts, sensors, etc. are made of durable materials and mature accessories to reduce the probability of failure during long-term use; The equipment is equipped with safety mechanisms such as overheating protection and air path blockage alarm. When the temperature inside the cabin is abnormal or the air path fails, an alarm will be automatically issued and protective measures will be activated to avoid damage to the bacterial strain and equipment.
•Strong capacity adaptabilityWe offer a variety of cabin volume specifications (ranging from tens of liters to hundreds of liters) to meet different volume requirements - small cabins are suitable for laboratory cultivation of a small number of bacterial strains, while large cabins are suitable for batch sample processing in clinical testing or expanded cultivation of bacterial strains in industrial production. The cabin's layered design allows for flexible placement of different containers such as culture dishes and test tubes.
•Easy to clean and maintainThe inner wall of the cultivation chamber is made of stainless steel material, with a smooth and easy to clean surface. The chamber can be regularly sterilized through ultraviolet disinfection function; Modular design is adopted for consumable components such as catalysts and filters, which can be replaced without disassembling the equipment body, reducing maintenance difficulty and costs.
Adapt to application scenarios
•Clinical laboratory fieldUsed in hospital laboratory departments to isolate and culture anaerobic pathogenic bacteria (such as Bacteroides fragilis and Clostridium perfringens) in patient samples (such as blood, pus, and feces), providing strain basis for the diagnosis of anaerobic bacterial infections and assisting doctors in formulating treatment plans.
•Microbial research fieldIn scientific research laboratories, we support experiments on the physiological characteristics of anaerobic microorganisms, drug resistance testing, and metabolite analysis, providing stable cultivation conditions for topics such as gut microbiota research and environmental anaerobic microbial diversity analysis.
•Food testing fieldUsed by food enterprises or testing institutions to detect and count anaerobic microorganisms (such as Clostridium botulinum and lactic acid bacteria) in food, evaluate the hygiene control effect during food processing, and ensure food quality and safety for consumption.
The Shanghai Boxun Medical Anaerobic Cultivation System provides reliable support for the cultivation of anaerobic microorganisms in multiple fields through precise regulation of anaerobic environments, convenient operation methods, and stable operational performance, helping to efficiently carry out related research and detection work.