razor blade Search Results


single edge razor blades  (Genesee Scientific)
92
Genesee Scientific single edge razor blades
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Single Edge Razor Blades, supplied by Genesee Scientific, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/single edge razor blades/product/Genesee Scientific
Average 92 stars, based on 1 article reviews
single edge razor blades - by Bioz Stars, 2026-06
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razor blade  (Carl Zeiss)
90
Carl Zeiss razor blade
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Razor Blade, supplied by Carl Zeiss, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
razor blade - by Bioz Stars, 2026-06
90/100 stars
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dorco cartridge  (DORCO CO LTD)
90
DORCO CO LTD dorco cartridge
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Dorco Cartridge, supplied by DORCO CO LTD, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
dorco cartridge - by Bioz Stars, 2026-06
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razor blades wilkinson sword  (Wilkinson Sword)
90
Wilkinson Sword razor blades wilkinson sword
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Razor Blades Wilkinson Sword, supplied by Wilkinson Sword, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
razor blades wilkinson sword - by Bioz Stars, 2026-06
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double-edge razor blades (camb machine knives cmk169s  (Machine Knives International)
90
Machine Knives International double-edge razor blades (camb machine knives cmk169s
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Double Edge Razor Blades (Camb Machine Knives Cmk169s, supplied by Machine Knives International, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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double-edge razor blades (camb machine knives cmk169s - by Bioz Stars, 2026-06
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surgical blade personna  (Personna Medical)
90
Personna Medical surgical blade personna
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Surgical Blade Personna, supplied by Personna Medical, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
surgical blade personna - by Bioz Stars, 2026-06
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super razor blades  (Personna Medical)
90
Personna Medical super razor blades
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Super Razor Blades, supplied by Personna Medical, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
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razor blade 0.0009  (Personna Medical)
90
Personna Medical razor blade 0.0009
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Razor Blade 0.0009, supplied by Personna Medical, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
razor blade 0.0009 - by Bioz Stars, 2026-06
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razor blades  (DUTSCHER DOMINIQUE)
90
DUTSCHER DOMINIQUE razor blades
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Razor Blades, supplied by DUTSCHER DOMINIQUE, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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razor blade tissue slicer  (Stoelting inc)
90
Stoelting inc razor blade tissue slicer
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Razor Blade Tissue Slicer, supplied by Stoelting inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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razor blade tissue slicer - by Bioz Stars, 2026-06
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razor blades  (Black Hawk Industrial)
90
Black Hawk Industrial razor blades
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Razor Blades, supplied by Black Hawk Industrial, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
razor blades - by Bioz Stars, 2026-06
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razor blade industry blade model 420–4  (Fabrik GmbH)
90
Fabrik GmbH razor blade industry blade model 420–4
Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and <t>razor</t> <t>blades.</t> (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the <t>edge</t> of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.
Razor Blade Industry Blade Model 420–4, supplied by Fabrik GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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razor blade industry blade model 420–4 - by Bioz Stars, 2026-06
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Image Search Results


Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and razor blades. (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the edge of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.

Journal: STAR Protocols

Article Title: Transmission electron microscopic analysis of myelination in the murine central nervous system

doi: 10.1016/j.xpro.2022.101304

Figure Lengend Snippet: Illustration of tissue sectioning and embedding (A) Brain sectioning. (A1) Brain in a brain slicer matrix. Arrow shows the true lambda . (A2) Brain was cut into 1 mm slices with a brain slicer matrix and razor blades. (A3) Three coronal sections of the mouse brain. The second section was used for corpus callosum analysis. The line shows the edge of corpus callosum. (A4) Trimming of the brain to obtain the region of interest, corpus callosum. (A5) Enlarged picture of Figure A4. The line shows the edge of corpus callosum. (A6) Embedding mark cut at the outer edge of the corpus callosum. (B) Separated right and left optic nerves using a razor blade. (C) Spinal cord sectioning. (C1) Spinal cord was cut into 1 mm slices at the region of lumbar enlargement with a spinal cord slicer matrix and razor blades. (C2) Four coronal sections of spinal cord. (D) Immersion fixation of tissues sections in 3% glutaraldehyde at 4°C in a refrigerator overnight. (E–G) Resin embedding of the corpus callosum, optic nerve and spinal cord. Small, printed labels are included in the blocks to identify the sample. Scale bars: (A3, A4, B and C2) 0.5 cm; (A5 and A6) 0.25 cm; (E–G) 1 cm.

Article Snippet: Single edge razor blades , Genesee Scientific , 38-101.

Techniques:

Journal: STAR Protocols

Article Title: Transmission electron microscopic analysis of myelination in the murine central nervous system

doi: 10.1016/j.xpro.2022.101304

Figure Lengend Snippet:

Article Snippet: Single edge razor blades , Genesee Scientific , 38-101.

Techniques: Recombinant, Electron Microscopy, Injection, Sterility, Software, Microscopy, Modification