M5012 Standard digital brain stereotaxic device

  Brain stereotaxic device is a device used to locate and fix the brain of experimental animals. During the experiment, a brain locator is first used to fix the animal's head so that it does not undergo any relative movement. Then, using the three-dimensional coordinate system specified by the markers or other reference points outside the animal's skull, and based on the experimental animal's brain localization map, the position of certain neural nuclei under the cerebral cortex, such as the hippocampus, is determined in order to perform targeted stimulation, destruction, injection of drugs, guidance and positioning of the studied neural nuclei under non direct visual exposure. It can be used for establishing animal models of Parkinson's disease, epilepsy, brain tumors, learning and memory, neural stem cell transplantation, cerebral ischemia, and other research.
  The Meyue BIO M5012 Standard digital brain stereotaxic device adopts a universal U-shaped base open structure, which facilitates multi angle operation; Suitable for various animal experiments (rats, mice, lizards, birds, cats, guinea pigs, etc.); The operating arm, which can rotate 180 degrees vertically and 360 degrees horizontally, provides researchers with flexible and accurate positioning; At the same time, it is also equipped with various specifications of probes and electrode fixing clamps, and can provide customized fixing clamps according to different experimental requirements of users to meet various experimental requirements.

1. Suitable for brain localization in mice and rats
2. Displacement sensors and LCD digital display screens have been added to the 3D operating arm of the original standard brain stereotaxic device
3. The range of movement for X, Y, and Z coordinates is 0-80mm, with a reading accuracy of 10um; Directly reading data on the LCD screen can reduce the risk of human reading errors and improve accuracy
4. The movement distances of the X, Y, and Z axes can be displayed in real-time on the LCD screen, and users do not need to view the data in front or behind. They can directly read the movement distances of the X, Y, and Z axes
5. The X, Y, and Z axes can be zeroed at any position on the display screen, and can be directly located at the Bregma point according to the map, avoiding secondary readings and calculations and simplifying the experimental operation process
6. The use of LCD screen display enables surgery to be performed under low light conditions, suitable for dim environments with limited reading cursor scale
7. It can accurately locate in three-dimensional space and adjust the rotation angle
8. It can rotate 180 degrees vertically and lock any position at any time
9. Vertical locking and positioning button separation ensure precise operation at any angle, with precisely designed lateral rotation operating space
10. The scale component processed with special technology eliminates the fatigue caused by reading. The animal adapter head adopts a curved design spring structure for compression, which does not harm the structural organization of the animal head and achieves the purpose of fixation
11. The ear rod adopts a pressure plate method and is equipped with springs; Push symmetrically towards the center, with consistent readings on both sides
12. Can be matched with micro injection pumps, microscopic camera devices, cranial drills, electrodes, etc. for precise positioning
13. Different animal adapters such as rats, mice, cats, rabbits, geckos, and guinea pigs can be optionally selected
14. Simple and exquisite appearance, convenient and flexible installation and adjustment methods
15. Imported sensors and display screens are selected, with stable and reliable quality, and will not cause display abnormalities due to humid or water ingress environments
16. The digital display screen adopts a removable battery box, which allows for easy battery replacement without the need for tools. Using battery power avoids electronic noise and electromagnetic interference, making it suitable for electrophysiological experiments
17. To prevent misoperation, add a one key locking mechanism in the Y direction (to prevent misoperation during the experiment)
18. One click zeroing design for the rotating seat (ensuring the verticality of the cross arm)