Materials
Name | Company | Catalog Number | Comments |
Bone removal drill | World Precision Instruments | IDEAL MICRO-DRILL | Also sold by Harvard Apparatus. Any high quality surgical bone drill will suffice. |
Drill burr (#1/4 or 1/2 Carbide Round Burr) | World Precision Instruments | 501860 (#1/4) 501860 (#1/2) |
Also sold by Harvard Apparatus |
Staples | Lyreco | 5.002.567 | Crown = 8 mm Leg = 4 mm |
Paperclip | Any standard 25 mm paperclip | ||
Needle drivers | Fine Science Tools | 12003-15 | |
Tissue scissors | Fine Science Tools | 14028-10 | |
Adson forceps | Fine Science Tools | 11027-12 | 1 x 2 teeth |
Blunt forceps | Fine Science Tools | 11293-00 | |
Spinal forks | Harvard Apparatus | 724813 | |
Dental cement | GACD | 12-565 & 12-568 | |
Silicone elastomer | World Precision Instruments | KWIK-SIL | Also avaiable through Coherent Scientific and Fisher Scientific |
Cyanoacrylate | Eleco-EFD | Cyanolit 201 | |
Microscope | Zeiss | 7MP | Our microscope is in an upright configuration and is equipped with 5 NDD detectors. |
Objective lens | Zeiss | W Plan-Apochromat 20x/1.0 DIC M27 75mm | Working distance = 1.8 mm |
References
- Kim, J. V., Dustin, M. L. Innate response to focal necrotic injury inside the blood-brain barrier. J. Immunol. 177 (8), 5269-5277 (2006).
- Xu, H. -T., Pan, F., Yang, G., Gan, W. -B. Choice of cranial window type for in vivo imaging affects dendritic spine turnover in the cortex. Nat. Neurosci. 10 (5), 549-551 (2007).
- Holtmaat, A., Bonhoeffer, T., et al. Long-term, high-resolution imaging in the mouse neocortex through a chronic cranial window. Nat. Protoc. 4 (8), 1128-1144 (2009).
- Dray, C., Rougon, G., Debarbieux, F. Quantitative analysis by in vivo imaging of the dynamics of vascular and axonal networks in injured mouse spinal cord. Proc. Natl. Acad. Sci. U.S.A. 106 (23), 9459-9464 (2009).
- Kerschensteiner, M., Schwab, M. E., Lichtman, J. W., Misgeld, T. In vivo imaging of axonal degeneration and regeneration in the injured spinal. 11 (5), 572-577 (2005).
- Ylera, B., Ertürk, A., et al. Chronically CNS-injured adult sensory neurons gain regenerative competence upon a lesion of their peripheral axon. Curr. Biol. 19 (11), 930-936 (2009).
- Dibaj, P., Nadrigny, F., et al. NO mediates microglial response to acute spinal cord injury under ATP control in vivo. Glia. 58 (9), 1133-1144 (2010).
- Dibaj, P., Steffens, H., et al. In Vivo imaging reveals distinct inflammatory activity of CNS microglia versus PNS macrophages in a mouse model for ALS. PloS One. 6 (3), (2011).
- Johannssen, H. C., Helmchen, F. In vivo Ca2+ imaging of dorsal horn neuronal populations in mouse spinal cord. J. Physiol. 588 (18), 3397-3402 (2010).
- Nikić, I., Merkler, D., et al. A reversible form of axon damage in experimental autoimmune encephalomyelitis and multiple sclerosis). Nat. Med. 17 (4), 495-499 (2011).
- Di Maio, A., Skuba, A., et al. In vivo imaging of dorsal root regeneration: rapid immobilization and presynaptic differentiation at the CNS/PNS border. J. Neurosci. 31 (12), 4569-4582 (2011).
- Laffray, S., Pagès, S., Dufour, H., De Koninck, P., De Koninck, Y., Côté, D. Adaptive movement compensation for in vivo imaging of fast cellular dynamics within a moving tissue. PloS One. 6 (5), (2011).
- Fenrich, K. K., Weber, P., Hocine, M., Zalc, M., Rougon, G., Debarbieux, F. Long-term in vivo imaging of normal and pathological mouse spinal cord with subcellular resolution using implanted glass windows. J. Physiol. 590 (16), 3665-3675 (2012).
- Kuerten, S., Angelov, D. N. Comparing the CNS morphology and immunobiology of different EAE models in C57BL/6 mice - a step towards understanding the complexity of multiple sclerosis). Ann. Anat. 190 (1), 1-15 (2008).
- Mendel, I., Kerlero de Rosbo, N., Ben-Nun, A. A myelin oligodendrocyte glycoprotein peptide induces typical chronic experimental autoimmune encephalomyelitis in H-2b mice: fine specificity and T cell receptor V beta expression of encephalitogenic T cells. Eur. J. Immunol. 25 (7), 1951-1959 (1995).
- Farrar, M. J., Bernstein, I. M., Schlafer, D. H., Cleland, T. A., Fetcho, J. R., Schaffer, C. B. Chronic in vivo imaging in the mouse spinal cord using an implanted. Nat. Methods. , (2012).
- Moreno, B., Jukes, J. -P., et al. Systemic inflammation induces axon injury during brain inflammation. Ann. Neurol. 70 (6), 932-942 (2011).
- Lassmann, H., van Horssen, J. The molecular basis of neurodegeneration in multiple sclerosis. FEBS Lett. 585 (23), 3715-3723 (2011).
- Yenari, M. A., Han, H. S. Neuroprotective mechanisms of hypothermia in brain ischaemia. Nat. Rev. Neurosci. 13 (4), 267-278 (2012).
- Kalmbach, A. S., Waters, J. Brain surface temperature under a craniotomy. J. Neurophysiol. 108 (11), 3138-3146 (2012).
- Pérez-Nievas, B. G., García-Bueno, B., Madrigal, J. L. M., Leza, J. C. Chronic immobilisation stress ameliorates clinical score and neuroinflammation in a MOG-induced EAE in Dark Agouti rats: mechanisms implicated. J. Neuroinflammation. 7, 60 (2010).
- Bjartmar, C., Kidd, G., Mörk, S., Rudick, R., Trapp, B. D. Neurological disability correlates with spinal cord axonal loss and reduced N-acetyl aspartate in chronic multiple sclerosis patients. Ann. Neurol. 48 (6), 893-901 (2000).