New Corticopontine Connections in the Primate Brain: Contralateral Projections From the Arm/Hand Area of the Precentral Motor Region

New Corticopontine Connections in the Primate Brain: Contralateral Projections From the Arm/Hand Area of the Precentral Motor Region

The ipsilateral corticopontine projection (iCPP) represents a massive descending axon system terminating in the pontine nuclei (PN). In the primate, this projection is well known for its dominant influence on contralateral upper limb movements through the classical cerebrocerebellar circuity system....

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Main Authors: Robert J. Morecraft, Jizhi Ge, Kimberly S. Stilwell-Morecraft, Diane L. Rotella, Marc A. Pizzimenti, Warren G. Darling
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-08-01
Series:Frontiers in Neuroanatomy
Subjects:
pyramidal tract
frontal lobe
corticofugal
pons
cerebrocebellar
cerebellum
Online Access:https://www.frontiersin.org/article/10.3389/fnana.2018.00068/full
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spelling doaj-fd61fb3b6bdc48bbb4f92adf3bab30c72020-11-24T23:18:40ZengFrontiers Media S.A.Frontiers in Neuroanatomy1662-51292018-08-011210.3389/fnana.2018.00068405440New Corticopontine Connections in the Primate Brain: Contralateral Projections From the Arm/Hand Area of the Precentral Motor RegionRobert J. Morecraft0Jizhi Ge1Kimberly S. Stilwell-Morecraft2Diane L. Rotella3Marc A. Pizzimenti4Marc A. Pizzimenti5Warren G. Darling6Division of Basic Biomedical Sciences, Laboratory of Neurological Sciences, Sanford School of Medicine, The University of South Dakota, Vermillion, SD, United StatesDivision of Basic Biomedical Sciences, Laboratory of Neurological Sciences, Sanford School of Medicine, The University of South Dakota, Vermillion, SD, United StatesDivision of Basic Biomedical Sciences, Laboratory of Neurological Sciences, Sanford School of Medicine, The University of South Dakota, Vermillion, SD, United StatesDepartment of Health and Human Physiology, Motor Control Laboratories, The University of Iowa, Iowa City, IA, United StatesDepartment of Health and Human Physiology, Motor Control Laboratories, The University of Iowa, Iowa City, IA, United StatesDepartment of Anatomy and Cell Biology, Carver College of Medicine, The University of Iowa, Iowa City, IA, United StatesDepartment of Health and Human Physiology, Motor Control Laboratories, The University of Iowa, Iowa City, IA, United StatesThe ipsilateral corticopontine projection (iCPP) represents a massive descending axon system terminating in the pontine nuclei (PN). In the primate, this projection is well known for its dominant influence on contralateral upper limb movements through the classical cerebrocerebellar circuity system. Although a much weaker contralateral corticopontine projection (cCPP) from motor cortex to the paramedian region has been reported in the non-human primate brain, we provide the first comprehensive description of the cCPP from the lateral motor cortex using high resolution anterograde tract tracing in Macaca mulatta. We found a relatively light cCPP from the hand/arm area of the primary motor cortex (M1), comparatively moderate cCPP from ventrolateral premotor cortex (LPMCv) and a more robust and widespread cCPP from the dorsolateral premotor cortex (LPMCd) that involved all nine contralateral PN. The M1 projection primarily targeted the dorsal pontine region, the LPMCv projection targeted the medial pontine region and LPMCd targeted both regions. These results show the first stage of the primate frontomotor cerebrocerebellar projection is bilateral, and may affect both ipsilateral and contralateral limbs. Clinically, the cCPP originating in the non-injured hemisphere may influence the recovery process of the more affected upper extremity following subtotal unilateral damage to the lateral cortical region. The cCPP may also contribute to the mild impairment of the upper limb contralateral to a unilateral cerebellar injury.https://www.frontiersin.org/article/10.3389/fnana.2018.00068/fullpyramidal tractfrontal lobecorticofugalponscerebrocebellarcerebellum
collection DOAJ
language English
format Article
sources DOAJ
author Robert J. Morecraft
Jizhi Ge
Kimberly S. Stilwell-Morecraft
Diane L. Rotella
Marc A. Pizzimenti
Marc A. Pizzimenti
Warren G. Darling
spellingShingle Robert J. Morecraft
Jizhi Ge
Kimberly S. Stilwell-Morecraft
Diane L. Rotella
Marc A. Pizzimenti
Marc A. Pizzimenti
Warren G. Darling
New Corticopontine Connections in the Primate Brain: Contralateral Projections From the Arm/Hand Area of the Precentral Motor Region
Frontiers in Neuroanatomy
pyramidal tract
frontal lobe
corticofugal
pons
cerebrocebellar
cerebellum
author_facet Robert J. Morecraft
Jizhi Ge
Kimberly S. Stilwell-Morecraft
Diane L. Rotella
Marc A. Pizzimenti
Marc A. Pizzimenti
Warren G. Darling
author_sort Robert J. Morecraft
title New Corticopontine Connections in the Primate Brain: Contralateral Projections From the Arm/Hand Area of the Precentral Motor Region
title_short New Corticopontine Connections in the Primate Brain: Contralateral Projections From the Arm/Hand Area of the Precentral Motor Region
title_full New Corticopontine Connections in the Primate Brain: Contralateral Projections From the Arm/Hand Area of the Precentral Motor Region
title_fullStr New Corticopontine Connections in the Primate Brain: Contralateral Projections From the Arm/Hand Area of the Precentral Motor Region
title_full_unstemmed New Corticopontine Connections in the Primate Brain: Contralateral Projections From the Arm/Hand Area of the Precentral Motor Region
title_sort new corticopontine connections in the primate brain: contralateral projections from the arm/hand area of the precentral motor region
publisher Frontiers Media S.A.
series Frontiers in Neuroanatomy
issn 1662-5129
publishDate 2018-08-01
description The ipsilateral corticopontine projection (iCPP) represents a massive descending axon system terminating in the pontine nuclei (PN). In the primate, this projection is well known for its dominant influence on contralateral upper limb movements through the classical cerebrocerebellar circuity system. Although a much weaker contralateral corticopontine projection (cCPP) from motor cortex to the paramedian region has been reported in the non-human primate brain, we provide the first comprehensive description of the cCPP from the lateral motor cortex using high resolution anterograde tract tracing in Macaca mulatta. We found a relatively light cCPP from the hand/arm area of the primary motor cortex (M1), comparatively moderate cCPP from ventrolateral premotor cortex (LPMCv) and a more robust and widespread cCPP from the dorsolateral premotor cortex (LPMCd) that involved all nine contralateral PN. The M1 projection primarily targeted the dorsal pontine region, the LPMCv projection targeted the medial pontine region and LPMCd targeted both regions. These results show the first stage of the primate frontomotor cerebrocerebellar projection is bilateral, and may affect both ipsilateral and contralateral limbs. Clinically, the cCPP originating in the non-injured hemisphere may influence the recovery process of the more affected upper extremity following subtotal unilateral damage to the lateral cortical region. The cCPP may also contribute to the mild impairment of the upper limb contralateral to a unilateral cerebellar injury.
topic pyramidal tract
frontal lobe
corticofugal
pons
cerebrocebellar
cerebellum
url https://www.frontiersin.org/article/10.3389/fnana.2018.00068/full
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