Here below is a BRAIN DISSECTION lab report. We do the lab with the 8th graders. Enjoy!
Title: Brain dissection.
Purpose: to list and describe the principal structures of the sheep brain; to identify important parts of the sheep brain.
Equipment: dissection pan, brain scalpel, scissors.
Background: The sheep brain is quite similar to the human brain except for proportion. The sheep has a smaller cerebrum. Also the sheep brain is oriented anterior to posterior whereas the human brain is superior to inferior.
External Anatomy (Part A).
1. The tough outer covering of the sheep brain is the dura mater, one of three meninges (membranes) that cover the brain. You will need to remove the dura mater to see most of the structures of the brain. Remove the dura mater while leaving other structures intact.
2. The most famous feature of the brain is the cerebrum - which is divided into nearly symmetrical left and right hemispheres by a deep longitudinal fissure.
3. The surface of the cerebrum is covered with large folds of tissue called gyri. The grooves between the gyri are sulci. The deeper sulci are often termed fissures. The fissures are used as landmarks to divide the surface of the cerebrum (the cerebral cortex) into regions: locate each of the lobes: frontal lobe, parietal lobe, occipital lobe, temporal lobe.
4. The smaller, rounded structure at the back of the brain is the cerebellum. The cerebellum has smaller gyri that are roughly parallel to one another. Compare the gyri of the cerebellum to that of the cerebrum. Removing the dura mater from the cerebellum can be not that simple. Look for areas on the side of the brain that you can snip to peel the dura mater off.
5. Turn the brain over so that the cerebrum is down. The most prominent structure on the ventral (down) side of the brain is the optic chiasma, where the two optic nerves cross over each other and form an “X” shape. Locate the optic chiasma.
6. The hypophysis is a large round structure under the chiasma. If you removed this area with the dura mater, you may need to replace it to see the chiasma and pituitary gland.
7. Toward the front of the brain are two prominent round structures, the olfactory bulbs.
8. Toward the back of the brain are bulges that indicate the midbrain, the pons, and the medulla.
9. Occulomotor nerves may be visible to each side of the pituitary gland. Or in some cases you may find them stuck to the dura mater that you removed with the pituitary gland.
10. Carefully bend the cerebellum to get an inside glimpse of the brain. The bumps you see (kind of resemble a “butt”) are the superior colliculi. The smaller ones underneath are inferior colliculi.
11. If you gently push those structures down, you can see the tiny nub of the pineal gland.
Internal Anatomy (Part B).
1. Use a knife or long-bladed scalpel to cut the specimen along the longitudinal fissure. This will allow you to separate the brain into the left and the right hemisphere. Lay one side of the brain on your tray to locate the structures visible on the inside. You should also cut through the cerebellum.
2. The corpus callosum had been connecting the two cerebral hemispheres and can now be clearly seen in the brain section.
3. The tiny space within the corpus callosum (which hold cerebrospinal fluid) is called the lateral ventricle. Underneath it, you can find the third ventricle. There are other ventricles within the brain, but those are the easiest to locate in a preserved specimen. The white area between those two ventricles is the fornix. The fourth ventricle is the space under the cerebellum.
3. Inferior to the corpus callosum is a round structure known as the thalamus. It seems it almost perfectly centred. Just behind the thalamus is the pineal body (gland). The hypothalamus is also round shaped but is lower and toward the front of the brain.
4. The pons, medulla, cerebellum and spinal cord are also visible in the side view of the brain. Gently separate the cerebellum at the transverse fissure, which separates it from the cerebrum.
5. Within the cerebellum, you can see the arbor vitae, named such because the white lines resemble a tree.
6. Use a scalpel to cut a cross section of the cerebrum in the occipital lobe area. You should be able to see the color and texture differences of the white matter and the gray matter.
Result: We carried out all the stages of the lab work correctly.
While conducting part A …
In part B …
Conclusion: In part A … I think it was … It is also possible that the brain …
In part B … I think it was the result of … Point proven.