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Jessica Barth

Explore the profile of Jessica Barth including associated specialties, affiliations and a list of published articles. Areas
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Articles 21
Citations 301
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Recent Articles
1.
Resnik L, Borgia M, Graczyk E, Barth J, Ni P
PLoS One . 2024 Jun; 19(6):e0299155. PMID: 38917074
Factors associated with upper limb prosthesis adoption are not well understood. In this study, we explored how prosthesis usability experience relates to the extent of prosthesis adoption through the development...
2.
Hayward K, Dalton E, Barth J, Brady M, Cherney L, Churilov L, et al.
Neurorehabil Neural Repair . 2023 Oct; 38(1):30-40. PMID: 37837348
Control comparator selection is a critical trial design issue. Preclinical and clinical investigators who are doing trials of stroke recovery and rehabilitation interventions must carefully consider the appropriateness and relevance...
3.
Hayward K, Dalton E, Barth J, Brady M, Cherney L, Churilov L, et al.
Int J Stroke . 2023 Oct; 19(2):169-179. PMID: 37824750
Control comparator selection is a critical trial design issue. Preclinical and clinical investigators who are doing trials of stroke recovery and rehabilitation interventions must carefully consider the appropriateness and relevance...
4.
Barth J, Geed S, Mitchell A, Brady K, Giannetti M, Dromerick A, et al.
Arch Rehabil Res Clin Transl . 2023 Sep; 5(3):100282. PMID: 37744191
Objective: To present the development of a novel upper extremity (UE) treatment and assess how it was delivered in the Critical Periods After Stroke Study (CPASS), a phase II randomized...
5.
Bochniewicz E, Emmer G, Dromerick A, Barth J, Lum P
Sensors (Basel) . 2023 Mar; 23(6). PMID: 36991822
Trials for therapies after an upper limb amputation (ULA) require a focus on the real-world use of the upper limb prosthesis. In this paper, we extend a novel method for...
6.
Barth J, Lohse K, Bland M, Lang C
J Neuroeng Rehabil . 2023 Feb; 20(1):24. PMID: 36810072
Background: Accelerometers allow for direct measurement of upper limb (UL) activity. Recently, multi-dimensional categories of UL performance have been formed to provide a more complete measure of UL use in...
7.
Edwardson M, Brady K, Giannetti M, Geed S, Barth J, Mitchell A, et al.
Neurorehabil Neural Repair . 2022 Dec; 37(1):76-79. PMID: 36575958
The Critical Periods After Stroke Study (CPASS, n = 72) showed that, compared to controls, an additional 20 hours of intensive upper limb therapy led to variable gains on the...
8.
Barth J, Lohse K, Konrad J, Bland M, Lang C
Front Rehabil Sci . 2022 Apr; 2. PMID: 35382114
Background: The use of wearable sensor technology (e.g., accelerometers) for tracking human physical activity have allowed for measurement of actual activity performance of the upper limb (UL) in daily life....
9.
Dromerick A, Geed S, Barth J, Brady K, Giannetti M, Mitchell A, et al.
Proc Natl Acad Sci U S A . 2021 Sep; 118(39). PMID: 34544853
Restoration of human brain function after injury is a signal challenge for translational neuroscience. Rodent stroke recovery studies identify an optimal or sensitive period for intensive motor training after stroke:...
10.
Lang C, Waddell K, Barth J, Holleran C, Strube M, Bland M
Neurorehabil Neural Repair . 2021 Sep; 35(10):903-914. PMID: 34510934
Wearable sensors allow for direct measurement of upper limb (UL) performance in daily life. To map the trajectory of UL performance and its relationships to other factors post-stroke. . Participants...