Chet T Moritz
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Explore the profile of Chet T Moritz including associated specialties, affiliations and a list of published articles.
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Articles
47
Citations
1201
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Recent Articles
1.
Shrivastav S, DeVol C, Landrum V, Bjornson K, Roge D, Steele K, et al.
IEEE Trans Biomed Eng
. 2025 Mar;
PP.
PMID: 40030608
Objective: The purpose of this pilot study was to evaluate the effects of transcutaneous spinal cord stimulation (tSCS) and short-burst interval locomotor treadmill training (SBLTT) on spasticity and mobility in...
2.
DeVol C, Shrivastav S, Landrum V, Bjornson K, Roge D, Moritz C, et al.
Gait Posture
. 2025 Jan;
118:25-32.
PMID: 39884154
Background: Children with cerebral palsy (CP) have an injury to the central nervous system around the time of birth that affects the development of the brain and spinal cord. This...
3.
DeVol C, Shrivastav S, Spomer A, Bjornson K, Roge D, Moritz C, et al.
J Biomech
. 2024 Nov;
177:112397.
PMID: 39522477
Quantifying individualized rehabilitation responses and optimizing therapy for each person is challenging. For interventions like treadmill training, there are multiple parameters, such as speed or incline, that can be adjusted...
4.
Malik R, Samejima S, Shackleton C, Miller T, Pedrocchi A, Rabchevsky A, et al.
J Neural Eng
. 2024 Jan;
21(1).
PMID: 38271712
Electrical spinal cord stimulation (SCS) has emerged as a promising therapy for recovery of motor and autonomic dysfunctions following spinal cord injury (SCI). Despite the rise in studies using SCS...
5.
Mondello S, Young L, Dang V, Fischedick A, Tolley N, Wang T, et al.
J Neural Eng
. 2023 Jul;
20(5).
PMID: 37524080
Spinal cord injury (SCI) leads to debilitating sensorimotor deficits that greatly limit quality of life. This work aims to develop a mechanistic understanding of how to best promote functional recovery...
6.
Samejima S, Hanna R, Cariappa B, Arvizu R, Nimbalkar S, Montgomery-Walsh R, et al.
IEEE Trans Neural Syst Rehabil Eng
. 2023 Apr;
PP.
PMID: 37015545
There is growing evidence on the efficacy of electrical stimulation delivered via spinal neural interfaces to improve functional recovery following spinal cord injury. For such interfaces, carbon-based neural arrays are...
7.
Samejima S, Shackleton C, Miller T, Moritz C, Kessler T, Krogh K, et al.
Neuroscientist
. 2023 Jan;
30(3):378-389.
PMID: 36631741
Spinal cord injury leads to disruption in autonomic control resulting in cardiovascular, bowel, and lower urinary tract dysfunctions, all of which significantly reduce health-related quality of life. Although spinal cord...
8.
Samejima S, Henderson R, Pradarelli J, Mondello S, Moritz C
Exp Neurol
. 2022 Jul;
357:114178.
PMID: 35878817
Spinal cord injuries lead to permanent physical impairment despite most often being anatomically incomplete disruptions of the spinal cord. Remaining connections between the brain and spinal cord create the potential...
9.
Samejima S, Caskey C, Inanici F, Shrivastav S, Brighton L, Pradarelli J, et al.
Phys Ther
. 2022 Jan;
102(1).
PMID: 35076067
Objective: This study investigated the effect of cervical and lumbar transcutaneous spinal cord stimulation (tSCS) combined with intensive training to improve walking and autonomic function after chronic spinal cord injury...
10.
Samejima S, Ievins A, Boissenin A, Tolley N, Khorasani A, Mondello S, et al.
J Neurosci Methods
. 2021 Dec;
366:109433.
PMID: 34863839
Background: Although there is currently no cure for paralysis due to spinal cord injury (SCI), the highest treatment priority is restoring arm and hand function for people with cervical SCI....