Addition of angled rungs to the horizontal ladder walking task for more sensitive probing of sensorimotor changes

Addition of angled rungs to the horizontal ladder walking task for more sensitive probing of sensorimotor changes

One method for the evaluation of sensorimotor therapeutic interventions, the horizontal ladder walking task, analyzes locomotor changes that may occur after disease, injury, or by external manipulation. Although this task is well suited for detection of large effects, it may overlook smaller changes...

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Veröffentlicht in:PloS one 2021-02, Vol.16 (2), p.e0246298-e0246298
Hauptverfasser: Eisdorfer, Jaclyn T, Phelan, Michael A, Keefe, Kathleen M, Rollins, Morgan M, Campion, 3rd, Thomas J, Rauscher, Kaitlyn M, Sobotka-Briner, Hannah, Senior, Mollie, Gordon, Gabrielle, Smith, George M, Spence, Andrew J
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Analysis
Animals
Bioengineering
Biology and Life Sciences
Circuits
Computer programs
Design
Drafting software
Engineering and Technology
Evaluation
Female
Funding
Gait Disorders, Neurologic - diagnosis
Gait Disorders, Neurologic - physiopathology
Hypotheses
Laboratory animals
Locomotion
Medicine
Medicine and Health Sciences
Methodology
Motor neurons
Nervous system
Neuromodulation
Perceptual-motor processes
Perturbation
Proprioception
Rats
Rats, Sprague-Dawley
Research and Analysis Methods
Research facilities
Sensorimotor system
Sensory neurons
Social Sciences
Software
Spinal cord injuries
Therapeutic applications
Visualization
Walking
Walking - physiology
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container_end_page e0246298
container_issue 2
container_start_page e0246298
container_title PloS one
container_volume 16
creator Eisdorfer, Jaclyn T
Phelan, Michael A
Keefe, Kathleen M
Rollins, Morgan M
Campion, 3rd, Thomas J
Rauscher, Kaitlyn M
Sobotka-Briner, Hannah
Senior, Mollie
Gordon, Gabrielle
Smith, George M
Spence, Andrew J
description One method for the evaluation of sensorimotor therapeutic interventions, the horizontal ladder walking task, analyzes locomotor changes that may occur after disease, injury, or by external manipulation. Although this task is well suited for detection of large effects, it may overlook smaller changes. The inability to detect small effect sizes may be due to a neural compensatory mechanism known as "cross limb transfer", or the contribution of the contralateral limb to estimate an injured or perturbed limb's position. The robust transfer of compensation from the contralateral limb may obscure subtle locomotor outcomes that are evoked by clinically relevant therapies, in the early onset of disease, or between higher levels of recovery. Here, we propose angled rungs as a novel modification to the horizontal ladder walking task. Easily-adjustable angled rungs force rats to locomote across a different locomotion path for each hindlimb and may therefore make information from the contralateral limb less useful. Using hM3Dq (excitatory) Designer Receptors Exclusively Activated by Designer Drugs (DREADDs) expressed in large diameter peripheral afferents of the hindlimb in the intact animal, we characterized the sensitivity of our design to detect stepping differences by comparing locomotor changes observed on angled rungs to those observed on a standard horizontal ladder. On our novel asymmetrical ladder, activation of DREADDs resulted in significant differences in rung misses (p = 0.000011) and weight-supporting events (p = 0.049). By comparison, on a standard ladder, we did not observe differences in these parameters (p = 0.86 and p = 0.98, respectively). Additionally, no locomotor differences were detected in baseline and inactivated DREADDs trials when we compared ladder types, suggesting that the angled rungs do not change animal gait behavior unless intervention or injury is introduced. Significant changes observed with angled rungs may demonstrate more sensitive probing of locomotor changes due to the decoupling of cross limb transfer.
doi_str_mv 10.1371/journal.pone.0246298
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Using hM3Dq (excitatory) Designer Receptors Exclusively Activated by Designer Drugs (DREADDs) expressed in large diameter peripheral afferents of the hindlimb in the intact animal, we characterized the sensitivity of our design to detect stepping differences by comparing locomotor changes observed on angled rungs to those observed on a standard horizontal ladder. On our novel asymmetrical ladder, activation of DREADDs resulted in significant differences in rung misses (p = 0.000011) and weight-supporting events (p = 0.049). By comparison, on a standard ladder, we did not observe differences in these parameters (p = 0.86 and p = 0.98, respectively). Additionally, no locomotor differences were detected in baseline and inactivated DREADDs trials when we compared ladder types, suggesting that the angled rungs do not change animal gait behavior unless intervention or injury is introduced. 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Although this task is well suited for detection of large effects, it may overlook smaller changes. The inability to detect small effect sizes may be due to a neural compensatory mechanism known as "cross limb transfer", or the contribution of the contralateral limb to estimate an injured or perturbed limb's position. The robust transfer of compensation from the contralateral limb may obscure subtle locomotor outcomes that are evoked by clinically relevant therapies, in the early onset of disease, or between higher levels of recovery. Here, we propose angled rungs as a novel modification to the horizontal ladder walking task. Easily-adjustable angled rungs force rats to locomote across a different locomotion path for each hindlimb and may therefore make information from the contralateral limb less useful. Using hM3Dq (excitatory) Designer Receptors Exclusively Activated by Designer Drugs (DREADDs) expressed in large diameter peripheral afferents of the hindlimb in the intact animal, we characterized the sensitivity of our design to detect stepping differences by comparing locomotor changes observed on angled rungs to those observed on a standard horizontal ladder. On our novel asymmetrical ladder, activation of DREADDs resulted in significant differences in rung misses (p = 0.000011) and weight-supporting events (p = 0.049). By comparison, on a standard ladder, we did not observe differences in these parameters (p = 0.86 and p = 0.98, respectively). Additionally, no locomotor differences were detected in baseline and inactivated DREADDs trials when we compared ladder types, suggesting that the angled rungs do not change animal gait behavior unless intervention or injury is introduced. Significant changes observed with angled rungs may demonstrate more sensitive probing of locomotor changes due to the decoupling of cross limb transfer.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>33544764</pmid><doi>10.1371/journal.pone.0246298</doi><tpages>e0246298</tpages><orcidid>https://orcid.org/0000-0003-3285-3473</orcidid><oa>free_for_read</oa></addata></record>
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source MEDLINE; DOAJ Directory of Open Access Journals; Public Library of Science (PLoS) Journals Open Access; EZB-FREE-00999 freely available EZB journals; PubMed Central; Free Full-Text Journals in Chemistry
subjects Analysis
Animals
Bioengineering
Biology and Life Sciences
Circuits
Computer programs
Design
Drafting software
Engineering and Technology
Evaluation
Female
Funding
Gait Disorders, Neurologic - diagnosis
Gait Disorders, Neurologic - physiopathology
Hypotheses
Laboratory animals
Locomotion
Medicine
Medicine and Health Sciences
Methodology
Motor neurons
Nervous system
Neuromodulation
Perceptual-motor processes
Perturbation
Proprioception
Rats
Rats, Sprague-Dawley
Research and Analysis Methods
Research facilities
Sensorimotor system
Sensory neurons
Social Sciences
Software
Spinal cord injuries
Therapeutic applications
Visualization
Walking
Walking - physiology
title Addition of angled rungs to the horizontal ladder walking task for more sensitive probing of sensorimotor changes
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