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Hot and cold plate pain meter
At present, the screening test methods (physical methods) for acute pain analgesics are basically hot plate test, tail flick test or animal plantar tenderness irradiation test, but these are the normal stimulation response thresholds of animals, which belong to a kind of physiological pain. Physiological pain is essentially different from pathological pain. Physiological pain is an alarm system for self-protection for survival, while pathological pain is a disease that hinders survival. Due to the different manifestations and mechanisms of the two types of pain, their experimental methods for analgesic drugs are also different. For example, some analgesic drugs have better analgesic effects on physiological and pathological pain. However, some drugs only have an effect on physiological pain, so different experimental methods and instruments can be used to screen out drugs with different points of action. The hot and cold plate pain measuring instrument is an instrument that can complete the physiological pain experiment and the pathological pain experiment on the same instrument.
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plantar tenderizer
The plantar touch allodynia test is currently an internationally and domestically recognized experimental method for screening analgesic drugs. Objective factors (such as: holding, tying, pulling, twisting, etc.) make the pain threshold of the animal truly manifest. The plantar touch sensitivity test is developed on the basis of the plantar heat sting test, which overcomes a lot of drawbacks in the plantar heat sting test.
Plantar pain system
The plantar pain system is mainly used to evaluate mechanical pain (threshold) and can be used to detect all sensory threshold pain tests. Electronic data display, with units of N (Newton) and g (gram) displayed simultaneously; The device can accurately detect and automatically record animal pain thresholds. Easy to operate. This device is equipped with three types of probes. An instrument that can accurately detect and automatically record pain thresholds. When in use, insert the probe into the experimental object, and based on the reaction of the experimental object, the instrument can quickly display the results. The built-in sensor, as the core component, is fixed to the component. The instrument is calibrated before leaving the factory, and there is no longer a need to purchase any calibration equipment.
Smart Hot Plate Meter
The instrument is easy to use, has clear indicators, minimal tissue damage, can be used repeatedly by animals, and has a longer pain response latency, which is convenient for observing and measuring small differences between drugs, and comparing the strength, speed and duration of drug analgesia. At the same time, the test data can be exported, and the test experiments on mice, rats and guinea pigs can be conveniently completed. It is an ideal instrument for teaching and scientific research. It is one of the more advanced hot plate instruments at home and abroad.
Volume Meter
The toe volume measuring instrument is an instrument used for screening and identifying antipyretic and anti-inflammatory drugs. It is an instrument that evaluates the potency of drugs by measuring the swelling process of rats' toes after inflammation, and understands the time of action and drug efficacy patterns. This instrument has the advantages of accurate measurement, accurate timing, accurate printing, and convenient operation. Compared with similar foreign products, it has improved by one level in terms of style, structure, and accuracy. However, the requirements for medium (liquid) use and operational technology are far lower than those of similar foreign products.
Rat and rat plantar hot prick pain instrument
The ZS-RCT-200 Hot Stinger Pain Instrument is another successful product independently developed after summarizing the various advantages and disadvantages of similar products at home and abroad. Possess independent intellectual property rights. It adopts new methods and technologies such as fast approaching, slow stabbing, automatic recording, data storage and printing, and PC online connection, making complex and difficult experiments (such as plantar inversion and inaccurate positioning) convenient, simple, and fast. The stimulation site is precise and consistent, ensuring the true effect of the experiment. The mouse box part of the instrument is an assembly structure that is easy to disassemble, reasonable in structure, easy to clean, and aesthetically pleasing.
Thermal runaway tester
The thermal escape tester can adjust the temperature arbitrarily between 2°C and 66°C, and can also set the temperature range, from low to high or from high to low. As a result, researchers can use it for pain sensitivity tests, to study the cold sensitivity of receptors, or for "dynamic" experiments under temperature changes within a certain temperature range. The real-time temperature is displayed on the LCD screen, the minimum change range is 0.1°C, and the response time is 0.1s.
Rat tail light pain tester
The light thermal tail flick method, also known as the light thermal tail flick method or the radiation thermal tail flick method, is based on the principle of irradiating a beam of light onto the tail of a mouse to generate a heat harvesting effect, causing local warming of the tail and causing pain. When the pain threshold that the animal can tolerate is exceeded, the animal produces effective tail flick avoidance. This method is used to determine the level and changes of the animal's pain threshold, which is called the light thermal tail flick method.
Channel type rat foot support force measuring instrument
Measuring the difference in the support force between the hind paws of rats and mice is currently an advanced method for screening analgesic and anti-inflammatory drugs. Animals will have the strength to support their body weight between the inflammatory and painful feet and the normal feet without restraint. Difference, the greater the difference, the more painful the inflammatory foot, the use of drugs with analgesic effect can reduce the difference, so as to identify the efficacy and role of anti-inflammatory and analgesic drugs.
Electronic Pain Meter
The electronic tenderness instrument is a replacement product of the XZC-A type (balance type) tenderness instrument. It has the functions of accurate pressure, convenient operation, data printing, computer connection, etc. It is one of the most practical instruments for scientific research and teaching, and has been well received by experts and professors in practical use.
Small animal thrombus generator
The instrument uses a physical method (direct current stimulation) to damage the endothelial cells of the carotid artery, thereby activating coagulation factors, starting the coagulation mechanism, causing platelets and fibrin to aggregate, and forming a mixed thrombus, which is similar to the beginning of the human body. Thrombosis, the pathological mechanism of thrombus formation by this method is very similar to that of human beings, and has more practical significance than chemical method (ferric chloride method), hematoporphyrin method, isolated circulation method, and cardiopulmonary bypass silk thread method. Therefore, electrical stimulation The tethering method has been recognized by the world.
Drinking water electric shock experiment system
The ZS-D3000 drinking water electric shock experimental system is a classic animal drinking water electric shock conflict anxiety research experiment. It can detect the efficacy of anti-anxiety drugs and reduce animal resistance behavior through punishment. A large number (up to 64 simultaneous) measurement positions can be detected. The software controls the drinking/shock ratio, shock frequency length, measurement mode, interval recording and overall duration. The number of electric shocks for drinking water in a unit time interval can be automatically transferred to an Excel worksheet.