TY - JOUR
T1 - Pyramidal weakness
T2 - Is it time to retire the term?
AU - Castle-Kirszbaum, Mendel
AU - Goldschlager, Tony
N1 - Publisher Copyright:
© 2020 American Association of Clinical Anatomists
PY - 2021/4
Y1 - 2021/4
N2 - Pyramidal weakness, that is, the weakness that preferentially spares the antigravity muscles, is considered an integral part of the upper motor neuron syndrome. Despite its name, pyramidal weakness has very little to do with the pyramidal tract, and preeminent texts on neurology, neuroanatomy, and clinical examination differ considerably in their descriptions and localization of this enigmatic finding. Evidence from human and nonhuman primate studies demonstrates that lesions confined only to the corticospinal (pyramidal) tract cause significant deficits in fine motor control of the hand, but do not cause posturing or patterned weakness of the extremities. Lesioning of the corticofugal fibers, particularly the corticoreticular and corticopontine tracts, leads to dysbalanced output from reticulospinal, and vestibulospinal systems, which along with changes in rubrospinal tract output balance, probably accounts for the pyramidal weakness pattern. Importantly, this would delineate that pyramidal weakness could only be incited by lesions above the brainstem. It has also been suggested that the inherently greater strength of the antigravity musculature is the substrate for pyramidal weakness, independent of any preferential motor innervation. These hypotheses require further testing in myometric studies with carefully selected participants.
AB - Pyramidal weakness, that is, the weakness that preferentially spares the antigravity muscles, is considered an integral part of the upper motor neuron syndrome. Despite its name, pyramidal weakness has very little to do with the pyramidal tract, and preeminent texts on neurology, neuroanatomy, and clinical examination differ considerably in their descriptions and localization of this enigmatic finding. Evidence from human and nonhuman primate studies demonstrates that lesions confined only to the corticospinal (pyramidal) tract cause significant deficits in fine motor control of the hand, but do not cause posturing or patterned weakness of the extremities. Lesioning of the corticofugal fibers, particularly the corticoreticular and corticopontine tracts, leads to dysbalanced output from reticulospinal, and vestibulospinal systems, which along with changes in rubrospinal tract output balance, probably accounts for the pyramidal weakness pattern. Importantly, this would delineate that pyramidal weakness could only be incited by lesions above the brainstem. It has also been suggested that the inherently greater strength of the antigravity musculature is the substrate for pyramidal weakness, independent of any preferential motor innervation. These hypotheses require further testing in myometric studies with carefully selected participants.
KW - corticospinal tract
KW - false localizing signs
KW - pyramidal weakness
UR - http://www.scopus.com/inward/record.url?scp=85098444186&partnerID=8YFLogxK
U2 - 10.1002/ca.23715
DO - 10.1002/ca.23715
M3 - Review Article
C2 - 33347647
AN - SCOPUS:85098444186
SN - 0897-3806
VL - 34
SP - 478
EP - 482
JO - Clinical Anatomy
JF - Clinical Anatomy
IS - 3
ER -