Katelyn Shortt
Overview
Explore the profile of Katelyn Shortt including associated specialties, affiliations and a list of published articles.
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Articles
13
Citations
181
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0
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Recent Articles
1.
Ahmadian M, Williams A, Mannozzi J, Konecny F, Hoiland R, Wainman L, et al.
J Physiol
. 2022 Sep;
600(22):4779-4806.
PMID: 36121759
The assessment of left ventricular (LV) contractility in animal models is useful in various experimental paradigms, yet obtaining such measures is inherently challenging and surgically invasive. In a cross-species study...
2.
Skinnider M, Rogalski J, Tigchelaar S, Manouchehri N, Prudova A, Jackson A, et al.
Mol Cell Proteomics
. 2021 Jun;
20:100096.
PMID: 34129941
Despite the emergence of promising therapeutic approaches in preclinical studies, the failure of large-scale clinical trials leaves clinicians without effective treatments for acute spinal cord injury (SCI). These trials are...
3.
Streijger F, Kim K, So K, Manouchehri N, Shortt K, Okon E, et al.
J Neurotrauma
. 2021 May;
38(21):2937-2955.
PMID: 34011164
After acute traumatic spinal cord injury (SCI), the spinal cord can swell to fill the subarachnoid space and become compressed by the surrounding dura. In a porcine model of SCI,...
4.
Keung M, Streijger F, Herrity A, Ethridge J, Dougherty S, Aslan S, et al.
J Neurotrauma
. 2021 Jan;
38(9):1306-1326.
PMID: 33499736
There is an increasing need to develop approaches that will not only improve the clinical management of neurogenic lower urinary tract dysfunction (NLUTD) after spinal cord injury (SCI), but also...
5.
Williams A, Manouchehri N, Erskine E, Tauh K, So K, Shortt K, et al.
Nat Commun
. 2020 Oct;
11(1):5209.
PMID: 33060602
Chronic high-thoracic and cervical spinal cord injury (SCI) results in a complex phenotype of cardiovascular consequences, including impaired left ventricular (LV) contractility. Here, we aim to determine whether such dysfunction...
6.
Cheung A, Streijger F, So K, Okon E, Manouchehri N, Shortt K, et al.
J Neurotrauma
. 2020 Apr;
37(15):1696-1707.
PMID: 32233727
Current practice guidelines for acute spinal cord injury (SCI) recommend augmenting mean arterial blood pressure (MAP) for the first 7 days post-injury. After SCI, the cord may be compressed by...
7.
Shadgan B, Macnab A, Fong A, Manouchehri N, So K, Shortt K, et al.
J Neurotrauma
. 2019 May;
36(21):3034-3043.
PMID: 31044642
Despite advances in the treatment of acute spinal cord injury (SCI), measures to mitigate permanent neurological deficits in affected patients are limited. Immediate post-trauma hemodynamic management of patients, to maintain...
8.
Kim K, Streijger F, So K, Manouchehri N, Shortt K, Okon E, et al.
J Neurotrauma
. 2019 Mar;
36(21):3005-3017.
PMID: 30816064
One of the challenges associated with conducting experiments in animal models of traumatic spinal cord injury (SCI) is inducing a consistent injury with minimal variability in the degree of tissue...
9.
Jutzeler C, Streijger F, Aguilar J, Shortt K, Manouchehri N, Okon E, et al.
Ann Clin Transl Neurol
. 2019 Jan;
6(1):68-82.
PMID: 30656185
Objective: The objective was to track and compare the progression of neuroplastic changes in a large animal model and humans with spinal cord injury. Methods: A total of 37 individuals...
10.
Kim K, Streijger F, Manouchehri N, So K, Shortt K, Okon E, et al.
J Korean Neurosurg Soc
. 2018 Sep;
61(5):539-547.
PMID: 30196652
Traumatic spinal cord injury (SCI) research has recently focused on the use of rat and mouse models for in vivo SCI experiments. Such small rodent SCI models are invaluable for...