T Richard Nichols

Overview

Explore the profile of T Richard Nichols including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 44

Citations 686

Followers 0

Related Specialties

Physiology

Neurology

Biology

Top 10 Co-Authors

Mark A Lyle

Timothy C Cope

Boris I Prilutsky

Claire F Honeycutt

Jinger S Gottschall

Thomas J Burkholder

Robert J Gregor

Alexander N Klishko

Jeswin A Meslie

Clotilde M J I Huyghues-Despointes

Published In

J Neurophysiol

Cells Tissues Organs

Exp Brain Res

J Physiol

Adv Exp Med Biol

Affiliations

Soon will be listed here.

Recent Articles

Role of forelimb morphology in muscle sensorimotor functions during locomotion in the cat

Rahmati S, Klishko A, Martin R, Bunderson N, Meslie J, Nichols T, et al.

J Physiol . 2024 Dec; 603(2):447-487. PMID: 39705066

Previous studies established strong links between morphological characteristics of mammalian hindlimb muscles and their sensorimotor functions during locomotion. Less is known about the role of forelimb morphology in motor outputs...

Neuromechanical Circuits of the Spinal Motor Apparatus

Nichols T

Compr Physiol . 2024 Dec; 14(5):5789-5838. PMID: 39699088

The evolution of mechanisms for terrestrial locomotion has resulted in multi-segmented limbs that allow navigation on irregular terrains, changing of direction, manipulation of external objects, and control over the mechanical...

ROLE OF FORELIMB MORPHOLOGY IN MUSCLE SENSORIMOTOR FUNCTIONS DURING LOCOMOTION IN THE CAT

Rahmati S, Klishko A, Martin R, Bunderson N, Meslie J, Nichols T, et al.

bioRxiv . 2024 Jul; PMID: 39071389

Reduced inhibition from quadriceps onto soleus after acute quadriceps fatigue suggests Golgi tendon organ contribution to heteronymous inhibition

Cuadra C, De Boef A, Luong S, Wolf S, Nichols T, Lyle M

Eur J Neurosci . 2024 Jun; 60(3):4317-4331. PMID: 38853295

Heteronymous inhibition between lower limb muscles is primarily attributed to recurrent inhibitory circuits in humans but could also arise from Golgi tendon organs (GTOs). Distinguishing between recurrent inhibition and mechanical...

Editorial: Comparative neuromechanical circuits of the sensorimotor system

Nichols T, Daley M

Front Integr Neurosci . 2022 Aug; 16:975948. PMID: 35924117

No abstract available.

Non-uniform upregulation of the autogenic stretch reflex among hindlimb extensors following lateral spinal lesion in the cat

Kajtaz E, Montgomery L, McMurtry S, Howland D, Nichols T

Exp Brain Res . 2021 Jul; 239(9):2679-2691. PMID: 34218298

Successful propagation throughout the step cycle is contingent on adequate regulation of whole-limb stiffness by proprioceptive feedback. Following spinal cord injury (SCI), there are changes in the strength and organization...

Parametric control of limb mechanics is accomplished in the spinal cord by parallel-distributed processing: A commentary on the review "Laws of nature that define biological action and perception" by Mark L. Latash

Nichols T

Phys Life Rev . 2021 Mar; 37:94-96. PMID: 33774430

No abstract available.

Redistribution of inhibitory force feedback between a long toe flexor and the major ankle extensor muscles following spinal cord injury

Niazi I, Lyle M, Rising A, Howland D, Nichols T

J Neurosci Res . 2020 Jun; 98(8):1646-1661. PMID: 32537945

Inhibitory pathways from Golgi tendon organs project widely between muscles crossing different joints and axes of rotation. Evidence suggests that the strength and distribution of this intermuscular inhibition is dependent...

Adaptation to slope in locomotor-trained spinal cats with intact and self-reinnervated lateral gastrocnemius and soleus muscles

Higgin D, Krupka A, Maghsoudi O, Klishko A, Nichols T, Lyle M, et al.

J Neurophysiol . 2019 Nov; 123(1):70-89. PMID: 31693435

Sensorimotor training providing motion-dependent somatosensory feedback to spinal locomotor networks restores treadmill weight-bearing stepping on flat surfaces in spinal cats. In this study, we examined if locomotor ability on flat...

10.

Evaluating intermuscular Golgi tendon organ feedback with twitch contractions

Lyle M, Nichols T

J Physiol . 2019 Jun; 597(17):4627-4642. PMID: 31228207

Key Points: Golgi tendon organ feedback has been evaluated most frequently using electrical stimulation of peripheral nerves, which is not a physiological or selective stimulus for Golgi tendon organs. Golgi...