Standard Model 68001 stereotaxic instrument for rats
Model 68037 stereotaxic instrument for mouse
Standard Model 68001 stereotaxic instrument for rats
Model 68037 stereotaxic instrument for mouse
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Standard Stereotaxic Instruments

Value-priced stereotaxic instruments to meet all basic neuroscience research application requirements

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Value-priced standard stereotaxic instruments to meet all basic neuroscience research application requirements. The ‘U’-Frame design provides stability and adaptability. Dual-lead screws ensure stable, accurate and smooth manipulation. The Standard Stereotaxic Instrument includes a 100 micron 3-axes, left-hand manipulator arm, rat adaptor, traditional (18˚) ear bars, and standard probe holder. Other subassembly options are available such as dual arm, mouse adaptor, 45°ear bars, etc.

  • Unique UP indicator to prevent incorrect operation
  • Double-lead screw design, more stable and accurate operation
  • Relieve eyestrain by light interrupted
  • Curved nose clamp secure the animal firmly
  • Adaptors of rats, mice, birds, cats and other different animal are optional

 

Technical Parameters

  1. Adaptors available for rat, mouse, rabbit, guinea pig, etc.
  2. Working distance in each dimension is 80 mm with precise alignment to 0.1mm resolution.
  3. Vertical direction: 180° rotation and lock at any angles.
  4. Horizontal direction: 360° rotation and lock at any angles.
  5. Dual-lead screws ensure stable, accurate and smooth manipulation.
  6. Accuracy and flexibility can be maintained at variable temperatures.
  7. Extended base plate (400mm x 255mm) is applicable for a variety of animal sizes.
  8. Unique anti-clockwise UP mark engraved in the knob prevents incorrect operation.
  9. Vertical lock and fixing knob are separated to ensure accurate function at any angle.
  10. To ensure a precise designed lateral rotation operating space, the distance between knob and the U-shaped frame is 28mm.
  11. Laser engraved scales enable comfortable reading.
  12. Curved nose clamp design secures the head of animals.
  13. Ear bar locked plate pressing instead of clamping ensures more stability.
  14. Syringe pump, micro camera and drill can be attached to instruments.

 

Model Information

Model Product Description Adaptor Ear bar Three-dimensional manipulator Holder Base plate
68001 Stereotaxic for Rat 68021 Rat 18° SGL-Left 68201 68861N
68002 Stereotaxic for Rat 68021 Rat 18° Dual 68201 68861N
68005 Stereotaxic for Rat 68021 Rat 45° SGL-Left 68201 68861N
68006 Stereotaxic for Rat 68021 Rat 45° Dual 68201 68861N
68037 Stereotaxic for Mouse 68030 Mouse Included in 68030 SGL-Left 68201 68861N
68038 Stereotaxic for Mouse 68030 Mouse Included in 68030 Dual 68201 68861N
68043 Stereotaxic for Mouse 68055 60° SGL-Left 68201 68861N
68044 Stereotaxic for Rat 68055 60° Dual 68201 68861N
68535 Stereotaxic for Mouse 68077 60° SGL-Left 68201 68861N
68536 Stereotaxic for Rat 68078 18° Dual 68201 68861N

 

References

  1. Yang Y, Cui Y, Sang K, Dong Y, Ni Z, Ma S, Hu H. Ketamine blocks bursting in the lateral habenula to rapidly relieve depression. Nature. 2018 Feb 14;554(7692):317-322.
  2. Cui Y, Yang Y, Ni Z, Dong Y, Cai G, Foncelle A, Ma S, Sang K, Tang S, Li Y, Shen Y, Berry H, Wu S, Hu H. Astroglial Kir4.1 in the lateral habenula drives neuronal bursts in depression. Nature. 2018 Feb 14;554(7692):323-327.
  3. Zhou H, Xiong GJ, Jing L, Song NN, Pu DL, Tang X, He XB, Xu FQ, Huang JF, Li LJ, Richter-Levin G, Mao RR, Zhou QX, Ding YQ, Xu L. The interhemispheric CA1 circuit governs rapid generalisation but not fear memory. Nat Commun. 2017 Dec 19;8(1):2190.
  4. Huang L, Yuan T, Tan M, Xi Y, Hu Y, Tao Q, Zhao Z, Zheng J, Han Y, Xu F, Luo M, Sollars PJ, Pu M, Pickard GE, So KF, Ren C. A retinoraphe projection regulates serotonergic activity and looming-evoked defensive behaviour. Nat Commun. 2017 Mar 31;8:14908.
  5. Liu Y, Lai S, Ma W, Ke W, Zhang C, Liu S, Zhang Y, Pei F, Li S, Yi M, Shu Y, Shang Y, Liang J, Huang Z. CDYL suppresses epileptogenesis in mice through repression of axonal Nav1.6 sodium channel expression. Nat Commun. 2017 Aug 25;8(1):355.
  6. Wang GQ, Cen C, Li C, Cao S, Wang N, Zhou Z, Liu XM, Xu Y, Tian NX, Zhang Y, Wang J, Wang LP, Wang Y. Deactivation of excitatory neurons in the prelimbic cortex via Cdk5 promotes pain sensation and anxiety. Nat Commun. 2015 Jul 16;6:7660.
  7. Li WG, Liu MG, Deng S, Liu YM, Shang L, Ding J, Hsu TT, Jiang Q, Li Y, Li F, Zhu MX, Xu TL. ASIC1a regulates insular long-term depression and is required for the extinction of conditioned taste aversion. Nat Commun. 2016 Dec 7;7:13770.
  8. Hao X, Gu H, Chen C, Huang D, Zhao Y, Xie L, Zou Y, Shu HS, Zhang Y, He X, Lai X, Zhang X, Zhou BO, Zhang CC, Chen GQ, Yu Z, Yang Y, Zheng J. Metabolic Imaging Reveals a Unique Preference of Symmetric Cell Division and Homing of Leukemia-Initiating Cells in an Endosteal Niche. Cell Metab. 2019 Apr 2;29(4):950-965.
  9. Diao Y, Cui L, Chen Y, Burbridge TJ, Han W, Wirth B, Sestan N, Crair MC, Zhang J. Reciprocal Connections Between Cortex and Thalamus Contribute to Retinal Axon Targeting to Dorsal Lateral Geniculate Nucleus. Cereb Cortex. 2018 Apr 1;28(4):1168-1182.
  10. Chen X, Guo Y, Feng J, Liao Z, Li X, Wang H, Li X, He J. Encoding and retrieval of artificial visuoauditory memory traces in the auditory cortex requires the entorhinal cortex. J Neurosci. 2013 Jun 12;33(24):9963-74.
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