MODULE 3 - SECTION 3 - THE SECOND ORDER NEURONS of the DCML |
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Spinal Cord
Fibers of this pathway are organized in a somatotopic manner (fibers from adjacent parts of the body's surface run in adjacent parts of the pathway), and the color code used to represent this is:
Sacral - green
Lumbar - purple
Low Thoracic - red
High Thoracic - light blue
Cervical - dark blue
The first order neurons of this pathway are large myelinated axons which enter in the medial part of the dorsal root. The region where each dorsal root enters the spinal cord is often called the "dorsal root entry zone" and these fibers enter in the medial part of the zone. The fibers then bifurcate, with one branch passing deeply to terminate in the dorsal horn and the other branch passing medially to ascend in the posterior funiculus. |
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This slide passes through the caudal medulla. Second order neurons, within the nucleus gracilis give rise to fibers which decussate and begin to pile up ventrally as the first component of the medial lemniscus.
We will remind you repeatedly of the great clinical importance of knowing the level at which motor and sensory pathways cross the midline. For the DC-ML pathway the decussation occurs here, at the level of the caudal medulla. |
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Formation of the medial lemniscus is now almost complete. It seems to be squeezed into a vertical band as it tries to get by the two inferior olives. Note that the central canal of the spinal cord is now opening up to form the fourth ventricle, roofed by choroid plexus.
Recognize that at this level, sensory information from the lower part of the body (red) travels in the ventral part of the medial lemniscus, and information from the upper part of the body travels in the more dorsal (blue) part of the structure. |
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| Formation of the medial lemniscus is complete. |
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| Little change here. This is a classical section through the mid-medulla. |
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| Still the mid-medulla, and little change. Note the openings, laterally, which allow CSF to escape from the fourth ventricle into the subarachnoid space. Note that an exiting cranial nerve passes right by the medial lemniscus; why might that relationship be important? |
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| Little change. The medial lemniscus is still "pressed against the midline" and held in a vertical position by the inferior olive. |
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| We are approaching the border between the medulla and the pons. The fourth ventricle is getting smaller. We have almost reached the rostral pole if the inferior olive. As this nucleus gets smaller, the lower part of the medial lemniscus will begin to "slide" laterally. |
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| We are approaching the border between the medulla and the pons. The fourth ventricle is getting smaller. The inferior olive is almost gone, and the lateral drift of the medial lemniscus is beginning. The component contributed by the Nucleus Gracilis (red = lower body) has been in the most ventral part of the lemniscus till now; as the lemniscus assumes a horizontal orientation, the red fibers will lie most laterally. Note the close relationship of the medial lemniscus to the pyramid. |
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We now pass from the medulla to the pons. Note that the ventral part of the brainstem now looks a bit different.. That's because of the appearance of a "bump" on the ventral aspect of the pons, called the "basilar pons". You can see it in the sagittal view at the left. The medial lemniscus ascends through the more dorsal partof the pons in a regenion referred to as the tegementum.
Now that the inferior olive is gone, the medial lemniscus begins to move laterally; as it does so the gracile (= red = lower body) |
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| The medial lemniscus has completed its 90 degree rotation into a horizontal position. The basilar pons is getting bigger. |
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| The medial lemniscus has reachd the lateral edge of the brainstem. |
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| The dorsal part of this section passes through what division of the brainstem? How can that be, since the ventral part of the section clearly passes through the pons? |
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| The medial lemniscus begins to rotate a bit more. |
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| Little change. |
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Well, we call this one of our "trifecta" slides. The sagittal view may help you understand that the ventral part of the slide passes through the basilar pons (mostly clipped off in this view), the mid portion of the slide passes through the tegmentum of the midbrain, and the most dorsal part of the slide passes through the thalamus.
Here, the medial lemniscus runs in the tegmentum of the midbrain. |
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SITE MAP MOD 3 HOME PIXBRAIN HOME I WANT TO COMMENT
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