Quantitative Ultrastructural Analysis of Periodontal Afferent Terminals in the Trigeminal Motor Nucleus.
- Author:
Kuk Pil PARK
1
;
Jeong Uk GONG
;
Cheong Hee LEE
;
Kwang Heon JO
;
Mae Ja PARK
;
Yong Chul BAE
Author Information
1. Department of Anatomy, School of Medicine, Catholic University of Daegu, Korea.
- Publication Type:Original Article
- Keywords:
Periodontal masseteric reflex;
Trigeminal motor nucleus;
Afferent terminal;
Synapse;
HRP
- MeSH:
Animals;
Carisoprodol;
Cats;
Dendrites;
Horseradish Peroxidase;
Mastication;
Microscopy, Electron;
Mitochondrial Size;
Neurons;
Periodontal Ligament;
Reflex;
Synapses
- From:Korean Journal of Anatomy
2003;36(1):11-22
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Little is known about processing mechanism of sensory input from the periodontal ligaments to the trigeminal motor nucleus for the control of chewing force and modulation of chewing pattern. Low threshold mechanoreceptive periodontal afferent was labeled with horseradish peroxidase by use of intra-axonal injection technique and investigated with electron microscopy. Quantitative ultrastructural analysis was performed on the 39 serially reconstructed labeled boutons in the trigeminal motor nucleus in cat. Labeled bouton contained clear spherical vesicles and one or two large dense cored vesicles. Most of labeled boutons were dome or round shape. All the analysed labeled boutons were presynaptic to dendritic shaft or distal dendrite and those presynaptic to soma or proximal dendrite were not observed. A large number of labeled boutons (46.2%) were postsynaptic to one or two presynaptic pleomorphic vesicle containing endings. Synaptic triad, in that a presynaptic ending which is presynaptic to the labeled bouton, in turn, is presynaptic to dendrite that is postsynaptic to the labeled bouton, was observed in 10.3% of the labeled boutons. Most of the labeled boutons showed simple synaptic organization, in that 64.1% of the labeled boutons made synaptic contacts with one or two neuronal profiles. One (2.6%) of the 39 analyzed labeled boutons showed synaptic contacts with 5 or more neuronal profiles. Labeled bouton volume, mitochondrial volume, apposed surface area and active zone area showed wide variation. These ultrastructural parameters were positively correlated with bouton volume. The values for apposed surface area and active zone area with presynaptic p-endings, in contrast to those with postsynaptic dendrites, showed narrow range and had little correlation with bouton volume. The present study revealed characteristic features on ultrastructural parameters of labeled boutons from periodontal afferent which is involved in periodontal masseteric reflex, and that influence on the postsynaptic trigeminal motoneurons showed wide variability.
