Portable Stereotaxic Surgery Frame for Mouse

Instead of a U-frame design, this instrument utilises adaptors to enlarge operating space thus offering additional working space for surgical instruments, while holding the mouse or neonatal rat firmly and accurately.

Product Enquiry

If you would like to send us an enquiry about this product, please click the button below, fill in the form and submit.

Product Enquiry

Product Enquiry

Please fill out the form if you would like to enquire about this product.

"*" indicates required fields

Name
Please indicate the name of your University or company
We would really like to stay in touch, so that we can inform you about new products, training events and other news that we think might be of interest to you. To comply with data protection regulations, we can only contact you in this way if we have your explicit permission to do so. By ticking the opt in box you are giving consent for Linton Instrumentation to process your data and you understand that you have the right to withdraw it at any time.*

RWD Logo

Instead of a U-frame design, this instrument utilises adaptors to enlarge operating space thus offering additional working space for surgical instruments, while holding the mouse or neonatal rat firmly and accurately. The Stereotaxic Instruments include 3-axes, left-hand manipulator arm, mouse nose clip, mouse 18 ° and 45° ear bars, and standard probe holder. Multiple subassembly options are available such as dual-arm, digital, etc.

Key Benefits

  • Specific fixed base ( 255mm x 255mm) for mice, fixed more quickly.
  • Replacing the U-frame enlarges the operating space and also makes it more economical and reliable.
  • Unique UP indicator to prevent incorrect operation..
  • Double-lead screw design, more stable and accurate operation.
  • The ear bar is made of polyoxymethylene resin, 4 different fixed points with 1mm resolution for scales.

 

Technical Parameters

  • Base plate size : 255mm x 255mm.
  • Ear bars made of polyoxymethlene resin, unique and light.
  • Height adjustment range for palate clip: 20mm (0mm~+20mm).
  • Height adjustment range for ear bars: 20mm(0~+20mm).
  • Ear bars with laser engraved scales (1mm resolution).
  • Working distance in 3 dimension is 80 mm with precise alignment to 0.1mm resolution.
  • Vertical direction: 180° rotation and lock at any angles.
  • Horizontal direction: 360° rotation and lock at any angles.
  • Dual-lead screws ensure stable, accurate and smooth manipulation.
  • Accuracy and flexibility can be maintained at variable temperatures.
  • Unique anti-clockwise UP mark engraved in the knob prevents incorrect operation.
  • Vertical lock and fixing knob are separated to ensure accurate function at any angle.
  • Replacing the U-frame enlarges the operating space and also makes it more economical and reliable.
  • Laser engraved scales enable comfortable reading.
  • Ear bar locked plate pressing instead of clamping ensures more stability.
  • Syringe pump, micro camera and drill can be attached to instruments.

 

Model Information

 Model

Product Description

nose clip

Ear bar

Three-dimensional manipulator

Holder

Base plate

68507

Stereotaxic for Mouse

68033 mouse

18°&45°

SGL-Left

68201

68863S

68510

Stereotaxic for Mouse

 68033 mouse

18°&45°

Dual

68201

68863D

68513

Stereotaxic for Mouse

 68033 mouse

18°&45°

Digital, SGL-Left

68201

68863S

68516

Stereotaxic for Mouse

 68033 mouse

18°&45°

Digital, Dual

68201

68863D

 

References

Diao, Y., Cui, L., Chen, Y., Burbridge, T. J., Han, W., Wirth, B., … & Zhang, J. (2018). Reciprocal connections between cortex and thalamus contribute to retinal axon targeting to dorsal lateral geniculate nucleus. Cerebral Cortex, 28(4), 1168-1182.

Fan, X. C., Fu, S., Liu, F. Y., Cui, S., Yi, M., & Wan, Y. (2018). Hypersensitivity of prelimbic cortex neurons contributes to aggravated nociceptive responses in rats with experience of chronic inflammatory pain. Frontiers in molecular neuroscience, 11, 85.

Liu, Y., Lai, S., Ma, W., Ke, W., Zhang, C., Liu, S., … & Shu, Y. (2017). CDYL suppresses epileptogenesis in mice through repression of axonal Nav1. 6 sodium channel expression. Nature communications, 8(1), 1-17.

Tang, Y., Lin, Y. H., Ni, H. Y., Dong, J., Yuan, H. J., Zhang, Y., … & Chang, L. (2017). Inhibiting Histone Deacetylase 2 (HDAC 2) Promotes Functional Recovery From Stroke. Journal of the American Heart Association, 6(10), e007236.

Huang, L., Yuan, T., Tan, M., Xi, Y., Hu, Y., Tao, Q., … & Luo, M. (2017). A retinoraphe projection regulates serotonergic activity and looming-evoked defensive behaviour. Nature communications, 8(1), 1-13.

Zhu, M., Li, H., Gyanwali, B., He, G., Qi, C., Yang, X., … & Tang, A. (2017). Auditory brainstem responses after electrolytic lesions in bilateral subdivisions of the medial geniculate body of tree shrews. Neurological Sciences, 38(9), 1617-1628.

Lei, Z., Wang, D., Chen, N., Ma, K., Lu, W., Song, Z., … & Wang, J. H. (2017). Synapse innervation and associative memory cell are recruited for integrative storage of whisker and odor signals in the barrel cortex through miRNA-mediated processes. Frontiers in cellular neuroscience, 11, 316.

Zhou, H., Xiong, G. J., Jing, L., Song, N. N., Pu, D. L., Tang, X., … & Richter-Levin, G. (2017). The interhemispheric CA1 circuit governs rapid generalisation but not fear memory. Nature communications, 8(1), 1-10.

Zhang, J., Liu, H., Du, X., Guo, Y., Chen, X., Wang, S., … & Zhang, W. (2017). Increasing of blood-brain tumor barrier permeability through transcellular and paracellular pathways by microbubble-enhanced diagnostic ultrasound in a C6 glioma model. Frontiers in neuroscience, 11, 86.

Li, G. F., Zhao, H. X., Zhou, H., Yan, F., Wang, J. Y., Xu, C. X., … & Zhang, H. L. (2016). Improved anatomical specificity of non-invasive neuro-stimulation by high frequency (5 MHz) ultrasound. Scientific reports, 6(1), 1-11.

Liu, M. G., Li, H. S., Li, W. G., Wu, Y. J., Deng, S. N., Huang, C., … & Xu, T. L. (2016). Acid-sensing ion channel 1a contributes to hippocampal LTP inducibility through multiple mechanisms. Scientific reports, 6, 23350.

Zhao, Baisong, et al. “Hyperbaric oxygen pretreatment improves cognition and reduces hippocampal damage via p38 mitogen-activated protein kinase in a rat model.” Yonsei medical journal 58.1 (2017): 131-138.

Zhao, Yunan, et al. “Decreased glycogen content might contribute to chronic stress-induced atrophy of hippocampal astrocyte volume and depression-like behavior in rats.” Scientific reports 7 (2017): 43192.

Espinosa, P., Silva, R. A., Sanguinetti, N. K., Venegas, F. C., Riquelme, R., González, L. F., … & Sotomayor-Zárate, R. (2016). Programming of dopaminergic neurons by neonatal sex hormone exposure: effects on dopamine content and tyrosine hydroxylase expression in adult male rats. Neural plasticity, 2016.

Li, Wei-Guang, et al. “ASIC1a regulates insular long-term depression and is required for the extinction of conditioned taste aversion.” Nature communications 7.1 (2016): 1-15.

Wang, G. Q., Cen, C., Li, C., Cao, S., Wang, N., Zhou, Z., … & Wang, J. (2015). Deactivation of excitatory neurons in the prelimbic cortex via Cdk5 promotes pain sensation and anxiety. Nature communications, 6(1), 1-16.

You may also like…