Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle

<p> The nervous system contains specific connections reflecting different types of projection patterns. Some of these projections have a topographic arrangement, while others have a diffuse pattern. Projections from spinal cord motor pools to different muscles are topographic. At a finer scale...

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Main Author: Cramer, Edith Karina Schimmerling
Format: Others
Language:en
Published: 1993
Online Access:https://thesis.library.caltech.edu/7277/1/Cramer_eks_1993.pdf
Cramer, Edith Karina Schimmerling (1993) Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/4fwg-dk86. https://resolver.caltech.edu/CaltechTHESIS:11202012-095703986 <https://resolver.caltech.edu/CaltechTHESIS:11202012-095703986>
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spelling ndltd-CALTECH-oai-thesis.library.caltech.edu-72772021-11-04T05:01:39Z https://thesis.library.caltech.edu/7277/ Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle Cramer, Edith Karina Schimmerling <p> The nervous system contains specific connections reflecting different types of projection patterns. Some of these projections have a topographic arrangement, while others have a diffuse pattern. Projections from spinal cord motor pools to different muscles are topographic. At a finer scale, patterns of projections within several muscles are topographic. These muscles tend to be flat and/or segmented. This thesis presents an investigation of the projection pattern in the innervation of the rabbit soleus muscle, which is compact and has only one tendon of origin and one tendon of insertion. Using intracellular recording of endplate potentials, tension overlap between pairs of ventral root filaments, and retrograde labeling of motor neurons following small injections of horseradish peroxidase into different regions within the muscle, it was shown that the soleus receives diffuse innervation from the spinal cord. It is thus likely that topography is related to muscle function, and that it correlates with spatial heterogeneity within muscles.</p> <p> Another type of specificity in connections to muscles is that between fast and slow motor neurons and their corresponding muscle fiber types. These connections form distinct types of motor units. We have investigated the maturation of motor unit types during postnatal synapse elimination.</p> <p> The ratio of motor unit tension at polyinnervated ages to that at singly innervated ages has been used to estimate the degree of polyinnervation for fast versus slow muscle fibers. Twitch and tetanic tension yield conflicting results. This contradiction was resolved using latencies to endplate potentials as an indicator of muscle fiber type. We found that fast and slow muscle fibers are polyinnervated to the same extent during both early and intermediate stages of synapse elimination, implying that specific tension, and not polyinnervation, changes differently in fast versus slow muscle fibers. These changes are consistent with those found in twitch/tetanus ratios. During synapse elimination, the twitch/tetanus ratios for fast motor units increase while those for slow motor units decrease. Furthermore, these intracellular recordings suggest a high degree of specificity at birth, which is further refined during synapse elimination.</p> 1993 Thesis NonPeerReviewed application/pdf en other https://thesis.library.caltech.edu/7277/1/Cramer_eks_1993.pdf Cramer, Edith Karina Schimmerling (1993) Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/4fwg-dk86. https://resolver.caltech.edu/CaltechTHESIS:11202012-095703986 <https://resolver.caltech.edu/CaltechTHESIS:11202012-095703986> https://resolver.caltech.edu/CaltechTHESIS:11202012-095703986 CaltechTHESIS:11202012-095703986 10.7907/4fwg-dk86
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language en
format Others
sources NDLTD
description <p> The nervous system contains specific connections reflecting different types of projection patterns. Some of these projections have a topographic arrangement, while others have a diffuse pattern. Projections from spinal cord motor pools to different muscles are topographic. At a finer scale, patterns of projections within several muscles are topographic. These muscles tend to be flat and/or segmented. This thesis presents an investigation of the projection pattern in the innervation of the rabbit soleus muscle, which is compact and has only one tendon of origin and one tendon of insertion. Using intracellular recording of endplate potentials, tension overlap between pairs of ventral root filaments, and retrograde labeling of motor neurons following small injections of horseradish peroxidase into different regions within the muscle, it was shown that the soleus receives diffuse innervation from the spinal cord. It is thus likely that topography is related to muscle function, and that it correlates with spatial heterogeneity within muscles.</p> <p> Another type of specificity in connections to muscles is that between fast and slow motor neurons and their corresponding muscle fiber types. These connections form distinct types of motor units. We have investigated the maturation of motor unit types during postnatal synapse elimination.</p> <p> The ratio of motor unit tension at polyinnervated ages to that at singly innervated ages has been used to estimate the degree of polyinnervation for fast versus slow muscle fibers. Twitch and tetanic tension yield conflicting results. This contradiction was resolved using latencies to endplate potentials as an indicator of muscle fiber type. We found that fast and slow muscle fibers are polyinnervated to the same extent during both early and intermediate stages of synapse elimination, implying that specific tension, and not polyinnervation, changes differently in fast versus slow muscle fibers. These changes are consistent with those found in twitch/tetanus ratios. During synapse elimination, the twitch/tetanus ratios for fast motor units increase while those for slow motor units decrease. Furthermore, these intracellular recordings suggest a high degree of specificity at birth, which is further refined during synapse elimination.</p>
author Cramer, Edith Karina Schimmerling
spellingShingle Cramer, Edith Karina Schimmerling
Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle
author_facet Cramer, Edith Karina Schimmerling
author_sort Cramer, Edith Karina Schimmerling
title Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle
title_short Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle
title_full Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle
title_fullStr Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle
title_full_unstemmed Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle
title_sort motor neuron projection patterns and maturation of motor unit types in the rabbit soleus muscle
publishDate 1993
url https://thesis.library.caltech.edu/7277/1/Cramer_eks_1993.pdf
Cramer, Edith Karina Schimmerling (1993) Motor Neuron Projection Patterns and Maturation of Motor Unit Types in the Rabbit Soleus Muscle. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/4fwg-dk86. https://resolver.caltech.edu/CaltechTHESIS:11202012-095703986 <https://resolver.caltech.edu/CaltechTHESIS:11202012-095703986>
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