Basic functions of the instrument:

Provide a suitable gas environment for the establishment of animal hypoxia experimental models. The incubator has a small volume and good airtightness, which can quickly reach the cultivation conditions and automatically change the gas concentration quickly.

The environment of the experimental chamber can be controlled through a gas controller to provide the experimental conditions required for animal experiments.

1. Product performance:

The material of the animal experimental box is made of transparent imported PPMA material bonded together, with a stable structure. It has the characteristics of being odorless, having good moisturizing properties, etc;

The entire device consists of two parts: an independent small oxygen controller and an animal incubator.

1.2 * Oxygen concentration controller, oxygen control range: 0.1% -99.99%, adjustable setting and display accuracy of 0.01%.

1.3 * Can be supplied with nitrogen (low oxygen requirement) or oxygen (high oxygen requirement) gas cylinders externally, accurately injecting gas according to the preset value to save gas.

1.4 * The incubator is equipped with an oxygen probe, which strictly monitors the gas concentration inside the incubator and provides feedback to the oxygen controller. It automatically pumps gas to reach and maintain the preset gas concentration, reducing gas consumption.

1.5 Control feedback system, which can quickly restore and maintain the set oxygen level at any time according to the preset value.

1.6 The animal culture box is equipped with multiple exhaust holes on the outside, which can be opened or closed according to the number and metabolic status of animals, facilitating the discharge of metabolic waste gas from the box and maintaining a suitable animal culture environment.

1.7 PMMA material animal incubator, with a transparent animal room at the front door,

2. Attachment configuration:

2.1 Electromagnetic valve x 1 pressure reducing valve interface x 1 silicone hose 2 meters x 1 power cord x 1

3. Application example:

It can be widely applied in various medical research to establish in vitro research models for different diseases.

Research related to heart diseaseTo conduct simulation studies on the pathological process of abnormal myocardial energy metabolism caused by myocardial ischemia and the process of myocardial blood reperfusion; Physiological and pathological research on heart disease, even cardiac arrest, caused by abnormal myocardial activity due to hypoxia or increased heart rate.

Research on Brain DiseasesConduct research and simulation on the pathological processes of brain tissue dysfunction, cerebral thrombosis, stroke, or brain tissue death caused by cerebral hypoxia.

Ophthalmic Disease ResearchMainly used to establish a model of sleep apnea syndrome, to study the pathological processes of snoring and apnea caused by hypoxia during sleep, as well as the pathological research of neonatal retinopathy, myopia or blindness caused by high oxygen protection.

Sports Medicine ResearchSimulate high-altitude hypoxic environment, establish a high-altitude hypoxic model, and study the mechanism of high-altitude training.

Research related to oxygen therapyEstablish a pathological model to investigate the physiological and pathological responses of intermittent or repeated hypoxia

Research applicable to tumorsEspecially when it comes to research on tumor hypoxia or tumor angiogenesis, such as the mechanism of HIF hypoxia inducible factor

Related research applicable to stem cellsStudies have shown that low oxygen can promote the survival, proliferation, and induction of differentiation of specific types of stem cells.

Suitable for research and developmentSimulate the physiological environment of low oxygen in living organisms to evaluate drug efficacy.