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W Zev Rymer

Explore the profile of W Zev Rymer including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 44
Citations 660
Followers 0
Related Specialties
Neurology
Biomedical Engineering
Rehabilitation Medicine
Top 10 Co-Authors
Ping Zhou
Nina L Suresh
Sheng Li
Milap S Sandhu
David Chen
Gregory E P Pearcey
David J Reinkensmeyer
Matthieu K Chardon
Chao-Jung Hsu
Elliot J Roth
Published In
Exp Brain Res
Annu Int Conf IEEE Eng Med Biol Soc
Clin Neurophysiol
J Neurophysiol
Muscle Nerve
Affiliations
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Recent Articles
1.
Acute Intermittent Hypoxia in People Living With Chronic Stroke: A Case Series
Pearcey G, Barry A, Sandhu M, Carroll T, Roth E, Rymer W
Stroke . 2025 Feb; PMID: 39996325
Background: Acute intermittent hypoxia (AIH) is a novel therapeutic intervention that facilitates recovery of function, but the tolerability and effectiveness have not been tested in people living with chronic stroke....
2.
Effects of acute intermittent hypoxia on fatigue resistance and voluntary activation of leg muscles in intact humans
Nehrujee A, Rymer W, Sandhu M
J Neurophysiol . 2025 Feb; 133(3):763-764. PMID: 39903171
No abstract available.
3.
A research protocol to study the critical time window for rehabilitation after incomplete spinal cord injury: early vs. late locomotor training
Henry M, Coxe R, Barry A, ODonnell A, Kessler A, Shan G, et al.
BMC Neurol . 2024 Dec; 24(1):482. PMID: 39702102
Spinal cord injury (SCI) often results in severe motor and sensory deficits, leading to significant disability. Preclinical studies and retrospective studies suggest that a critical window of enhanced neuroplasticity may...
4.
Acute intermittent hypoxia increases maximal motor unit discharge rates in people with chronic incomplete spinal cord injury
Pearcey G, Afsharipour B, Holobar A, Sandhu M, Rymer W
J Physiol . 2024 Jul; 602(21):5699-5711. PMID: 39058666
Acute intermittent hypoxia (AIH) is an emerging technique for enhancing neuroplasticity and motor function in respiratory and limb musculature. Thus far, AIH-induced improvements in strength have been reported for upper...
5.
A Research Protocol to Study the Priming Effects of Breathing Low Oxygen on Enhancing Training-Related Gains in Walking Function for Persons With Spinal Cord Injury: The BOST Trial
Muter W, Mansson L, Tuthill C, Aalla S, Barth S, Evans E, et al.
Neurotrauma Rep . 2023 Nov; 4(1):736-750. PMID: 38028272
Trial Registration: ClinicalTrials.gov, NCT05563103.
6.
Acute intermittent hypoxia enhances strength, and modulates spatial distribution of muscle activation in persons with chronic incomplete spinal cord injury
Afsharipour B, Pearcey G, Rymer W, Sandhu M
Exp Neurol . 2023 Jun; 367:114452. PMID: 37271217
Acute intermittent hypoxia (AIH) is an emerging technique for facilitating neural plasticity in individuals with chronic incomplete spinal cord injury (iSCI). A single sequence of AIH enhances hand grip strength...
7.
Anodal transcutaneous DC stimulation enhances learning of dynamic balance control during walking in humans with spinal cord injury
Lin J, Hsu C, Dee W, Chen D, Rymer W, Wu M
Exp Brain Res . 2022 May; 240(7-8):1943-1955. PMID: 35622090
Deficits in locomotor function, including impairments in walking speed and balance, are major problems for many individuals with incomplete spinal cord injury (iSCI). However, it remains unclear which type of...
8.
A New Definition of Poststroke Spasticity and the Interference of Spasticity With Motor Recovery From Acute to Chronic Stages
Li S, Francisco G, Rymer W
Neurorehabil Neural Repair . 2021 May; 35(7):601-610. PMID: 33978513
The relationship of poststroke spasticity and motor recovery can be confusing. "True" motor recovery refers to return of motor behaviors to prestroke state with the same end-effectors and temporo-spatial pattern....
9.
Acute intermittent hypoxia boosts spinal plasticity in humans with tetraplegia
Christiansen L, Chen B, Lei Y, Urbin M, Richardson M, Oudega M, et al.
Exp Neurol . 2020 Sep; 335:113483. PMID: 32987000
Paired corticospinal-motoneuronal stimulation (PCMS) elicits spinal synaptic plasticity in humans with chronic incomplete cervical spinal cord injury (SCI). Here, we examined whether PCMS-induced plasticity could be potentiated by acute intermittent...
10.
Varied movement errors drive learning of dynamic balance control during walking in people with incomplete spinal cord injury: a pilot study
Lin J, Hsu C, Dee W, Chen D, Rymer W, Wu M
Exp Brain Res . 2020 Mar; 238(4):981-993. PMID: 32189042
The purpose of this study was to determine whether the application of a varied pelvis perturbation force would improve dynamic balance control and gait stability of people with incomplete spinal...