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出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2016/02/12 15:35:20」(JST)
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Fastigial nucleus |
Cross-section of the cerebellum. Fastigial nucleus labeled at top-right.
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Identifiers |
NeuroLex ID |
Fastigial nucleus |
TA |
A14.1.07.411 |
FMA |
72537 |
Anatomical terms of neuroanatomy
[edit on Wikidata]
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The fastigial nucleus or nucleus fastigii is located in the cerebellum. It is one of the four deep cerebellar nuclei (the others being the nucleus dentatus, nucleus emboliformis and nucleus globosus), and is grey matter embedded in the white matter of the cerebellum.
It refers specifically to the concentration of gray matter nearest to the middle line at the anterior end of the superior vermis, and immediately over the roof of the fourth ventricle, from which it is separated by a thin layer of white matter.[1] It is smaller than the nucleus dentatus, but somewhat larger than the nucleus emboliformis and nucleus globosus. The fastigial nucleus is the smallest in size, with the dentate being the largest and the interposed being intermediate in size.
Although it is one dense mass, it is made up of two sections: the rostral fastigial nucleus and the caudal fastigial nucleus.
Contents
- 1 Structure
- 1.1 Rostral fastigial nucleus
- 1.2 Caudal fastigial nucleus
- 2 References
- 3 External links
Structure
The Purkinje cells of the cerebellar cortex project into the deep cerebellar nuclei and inhibit the excitatory output system via GABAergic synapses. The fastigial nucleus receives its input from Purkinje cells in the vermis. Most of its efferent connections travel via the inferior cerebellar peduncle to the vestibular nuclei, which are located at the junction of the pons and the medulla oblongata.
The fastigial nucleus sends excitatory projections beyond the cerebellum. The likely neurotransmitters of fastigial nucleus axons are glutamate and aspartate.
Rostral fastigial nucleus
The rostral fastigial nucleus (rFN) is related to the vestibular system. It receives input from the vestibular nuclei and contributes to vestibular neuronal activity. The rFN interprets body motion and places it on spatial planes to estimate the movement of the body through space.[2] It deals with antigravity muscle groups and other synergies involved with standing and walking.[3]
Caudal fastigial nucleus
The caudal fastigial nucleus (cFN) is related to saccadic eye movements. The Purkinje cell output from the oculomotor vermis relays through the cFN, where neurons directly related to saccadic eye movements are located.[4]
References
This article incorporates text in the public domain from the 20th edition of Gray's Anatomy (1918)
- Online Medical Dictionary entry
- ^ John K. Harting, Ph.D. (1997). "The Global Cerebellum '97". University of Wisconsin Medical School. Retrieved 2007-06-28.
- ^ Brooks & Cullen, <http://www.jneurosci.org/content/29/34/10499.full.pdf> [Multimodal integration in rostral fastigial nucleus provides an estimate of body movement], 2009
- ^ James D. Geyer, Janice M. Keating, Daniel C. Potts (1998). Neurology for the Boards. Philadelphia: Lippincott-Raven. p. 9.
- ^ Kleine, Guan, & Buttner, <http://jn.physiology.org/content/90/5/3137.full.pdf+html> [Saccade-related neurons in the primate fastigial nucleus: what do they encode?], 2003
External links
- Illustration and text: cere/text/P5/fastig.htm at the University of Wisconsin-Madison Medical school
- http://www.mona.uwi.edu/fpas/courses/physiology/neurophysiology/Cerebellum.htm
- http://www.lib.mcg.edu/edu/eshuphysio/program/section8/8ch6/s8ch6_29.htm
- NIF Search - Fastigial Nucleus via the Neuroscience Information Framework
Anatomy of the cerebellum
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Surface |
Lobes |
- Anterior lobe
- Posterior lobe
- Flocculonodular lobe
- Primary fissure
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Medial/lateral |
- Vermis: anterior
- Central lobule
- Culmen
- Lingula
- posterior
- Vallecula of cerebellum
- Hemisphere: anterior
- posterior
- Biventer lobule
- Cerebellar tonsil
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Grey matter |
Deep cerebellar nuclei |
- Dentate
- interposed
- Fastigial
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Cerebellar cortex |
- Molecular layer
- Stellate cell
- Basket cell
- Purkinje cell layer
- Purkinje cell
- Bergmann glia cell = Golgi epithelial cell
- Granule cell layer
- Golgi cell
- Granule cell
- Unipolar brush cell
- Fibers: Mossy fibers
- Climbing fiber
- Parallel fiber
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White matter |
Internal |
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Peduncles |
- Inferior (medulla): Dorsal spinocerebellar tract
- Olivocerebellar tract
- Cuneocerebellar tract
- Juxtarestiform body (Vestibulocerebellar tract)
- Trigeminocerebellar fibers
- Middle (pons): Pontocerebellar fibers
- Superior (midbrain): Ventral spinocerebellar tract
- Dentatothalamic tract
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Brain and spinal cord: neural tracts and fasciculi
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Sensory/
ascending |
PCML |
1°: |
- Pacinian corpuscle/Meissner's corpuscle → Posterior column (Gracile fasciculus/Cuneate fasciculus) → Gracile nucleus/Cuneate nucleus
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2°: |
- → sensory decussation/arcuate fibers (Posterior external arcuate fibers, Internal arcuate fibers) → Medial lemniscus/Trigeminal lemniscus → Thalamus (VPL, VPM)
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3°: |
- → Posterior limb of internal capsule → Postcentral gyrus
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Anterolateral/
pain |
Fast/lateral |
- 1° (Free nerve ending → A delta fiber) → 2° (Anterior white commissure → Lateral and Anterior Spinothalamic tract → Spinal lemniscus → VPL of Thalamus) → 3° (Postcentral gyrus) → 4° (Posterior parietal cortex)
2° (Spinomesencephalic tract → Superior colliculus of Midbrain tectum)
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Slow/medial |
- 1° (Group C nerve fiber → Spinoreticular tract → Reticular formation) → 2° (MD of Thalamus) → 3° (Cingulate cortex)
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Motor/
descending |
Pyramidal |
- flexion: Primary motor cortex → Posterior limb of internal capsule → Decussation of pyramids → Corticospinal tract (Lateral, Anterior) → Neuromuscular junction
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Extrapyramidal |
flexion: |
- Primary motor cortex → Genu of internal capsule → Corticobulbar tract → Facial motor nucleus → Facial muscles
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flexion: |
- Red nucleus → Rubrospinal tract
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extension: |
- Vestibulocerebellum → Vestibular nuclei → Vestibulospinal tract
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extension: |
- Vestibulocerebellum → Reticular formation → Reticulospinal tract
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- Midbrain tectum → Tectospinal tract → muscles of neck
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Basal ganglia |
direct: |
1° (Motor cortex → Striatum) → 2° (GPi) → 3° (Lenticular fasciculus/Ansa lenticularis → Thalamic fasciculus → VL of Thalamus) → 4° (Thalamocortical radiations → Supplementary motor area) → 5° (Motor cortex)
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indirect: |
1° (Motor cortex → Striatum) → 2° (GPe) → 3° (Subthalamic fasciculus → Subthalamic nucleus) → 4° (Subthalamic fasciculus → GPi) → 5° (Lenticular fasciculus/Ansa lenticularis → Thalamic fasciculus → VL of Thalamus) → 6° (Thalamocortical radiations → Supplementary motor area) → 7° (Motor cortex)
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nigrostriatal pathway: |
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Cerebellar |
Afferent |
- Vestibular nuclei → Vestibulocerebellar tract → ICP → Cerebellum → Granule cell
- Pontine nuclei → Pontocerebellar fibers → MCP → Deep cerebellar nuclei → Granule cell
- Inferior olivary nucleus → Olivocerebellar tract → ICP → Hemisphere → Purkinje cell → Deep cerebellar nuclei
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Efferent |
- Dentate nucleus in Lateral hemisphere/pontocerebellum → SCP → Dentatothalamic tract → Thalamus (VL) → Motor cortex
- Interposed nucleus in Intermediate hemisphere/spinocerebellum → SCP → Reticular formation, or → Cerebellothalamic tract → Red nucleus → Thalamus (VL) → Motor cortex
- Fastigial nucleus in Flocculonodular lobe/vestibulocerebellum → Vestibulocerebellar tract → Vestibular nuclei
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Bidirectional:
Spinocerebellar |
Unconscious
proprioception |
- lower limb → 1° (muscle spindles → DRG) → 2° (Posterior thoracic nucleus → Dorsal/posterior spinocerebellar tract → ICP → Cerebellar vermis)
- upper limb → 1° (muscle spindles → DRG) → 2° (Accessory cuneate nucleus → Cuneocerebellar tract → ICP → Anterior lobe of cerebellum)
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Reflex arc |
- lower limb → 1° (Golgi tendon organ) → 2° (Ventral/anterior spinocerebellar tract→ SCP → Cerebellar vermis)
- upper limb → 1° (Golgi tendon organ) → 2° (Rostral spinocerebellar tract → ICP → Cerebellum)
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UpToDate Contents
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English Journal
- Degeneration of the cerebellum in Huntington's disease (HD): possible relevance for the clinical picture and potential gateway to pathological mechanisms of the disease process.
- Rüb U, Hoche F, Brunt ER, Heinsen H, Seidel K, Del Turco D, Paulson HL, Bohl J, von Gall C, Vonsattel JP, Korf HW, den Dunnen WF.SourceDr. Senckenbergisches Chronomedizinisches Institut, Goethe-University, Frankfurt/Main, Germany. Drueb@gmx.de
- Brain pathology (Zurich, Switzerland).Brain Pathol.2013 Mar;23(2):165-77. doi: 10.1111/j.1750-3639.2012.00629.x. Epub 2012 Sep 21.
- Huntington's disease (HD) is a polyglutamine disease and characterized neuropathologically by degeneration of the striatum and select layers of the neo- and allocortex. In the present study, we performed a systematic investigation of the cerebellum in eight clinically diagnosed and genetically confi
- PMID 22925167
- Cognitive processes involved in smooth pursuit eye movements: behavioral evidence, neural substrate and clinical correlation.
- Fukushima K, Fukushima J, Warabi T, Barnes GR.SourceDepartment of Neurology, Sapporo Yamanoue Hospital Sapporo, Japan ; Department of Physiology, Hokkaido University School of Medicine Sapporo, Japan.
- Frontiers in systems neuroscience.Front Syst Neurosci.2013;7:4. doi: 10.3389/fnsys.2013.00004. Epub 2013 Mar 19.
- Smooth-pursuit eye movements allow primates to track moving objects. Efficient pursuit requires appropriate target selection and predictive compensation for inherent processing delays. Prediction depends on expectation of future object motion, storage of motion information and use of extra-retinal m
- PMID 23515488
- Neurogenic neuroprotection: clinical perspectives.
- Mandel M, Talamoni Fonoff E, Bor-Seng-Shu E, Teixeira MJ, Chadi G.AbstractNeurogenic neuroprotection is a promising approach for treating patients with ischemic brain lesions. In rats, stimulation of the deep brain nuclei has been shown to reduce the volume of focal infarction. In this context, protection of neural tissue can be a rapid intervention that has a relatively long-lasting effect, making fastigial nucleus stimulation (FNS) a potentially valuable method for clinical application. Although the mechanisms of neuroprotection induced by FNS remain partially unclear, important data have been presented in the last two decades. A 1-h electrical FNS reduced, by 59%, infarctions triggered by permanent occlusion of the middle cerebral artery in Fisher rats. The acute effect of electrical FNS is likely mediated by a prolonged opening of potassium channels, and the sustained effect appears to be linked to inhibition of the apoptotic cascade. A better understanding of the neuronal circuitry underlying neurogenic neuroprotection may contribute to improving neurological outcomes in ischemic brain insults.
- Functional neurology.Funct Neurol.2012 Oct-Dec;27(4):207-16.
- Neurogenic neuroprotection is a promising approach for treating patients with ischemic brain lesions. In rats, stimulation of the deep brain nuclei has been shown to reduce the volume of focal infarction. In this context, protection of neural tissue can be a rapid intervention that has a relatively
- PMID 23597434
Japanese Journal
- Trans-postpyramidal Fissure Approach for Ventral Vermian Cavernous Hemangioma : Case Report
- Effect of lesions of cerebellar fastigial nuclei on lymphocyte functions of rats
- Neuroscience research : the official journal of the Japan Neuroscience Society 51(3), 275-284, 2005-03-01
- NAID 10015451333
Related Links
- vestibular nuclei, nu´clei vestibula´res the four cellular masses in the floor of the fourth ventricle: superior (rostral or cranial), lateral, medial, and inferior (caudal) vestibular nuclei; in them are the terminations of the branches of the ...
- Contents Anatomy Now for the FASTIGIAL nucleus. To exit the cerebellum, the axons of cells in the fastigial nuclei take two routes that we did not discuss in the brain stem or spinal cord series of ...
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