The overall mission of the National Center of Neuromodulation for Rehabilitation (NC NM4R) will be ?fostering the success of the NM4R researcher?. The principal objective of the NC NM4R Pilot Studies Program is to prioritize, provide and manage short-term funding for scientifically meritorious, new and innovative projects through a competitive program with open solicitation and peer review. The goal is to provide adequate resources, support and training for pilot investigators to develop sufficient preliminary data to prepare a competitive extramural grant application as Principal Investigator that will directly utilize one or more of the NC NM4R resources. The program will focus on enabling NC NM4R affiliates (e.g., investigators who have participated in NC NM4R workshops and/or collaborative opportunities) to conduct proof-of-principle or feasibility studies and/or explore an area that is distinct from their currently funded research using neuromodulatory methodologies supported by the NC NM4R. Not only will this component provide a pilot studies program for qualified researchers (Aim 1), we will also have extensive interactions with these investigators before submission and after they receive their award (Aim 2). This program will solicit pilot study applicatons annually by broadly advertising a request for applications (RFA) five months in advance of the anticipated award date. Methods of distributing the RFA will include announcements on the NC NM4R web site, e-newsletter, listserv announcements to Center affiliates and other targeted avenues with national reach. Submission will be web-based with a two-phase application process including a Letter of Intent (LOI) followed by a full application after interactions with the NC NM4R. Applications will be peer-reviewed and scored using the NIH scale, then prioritized according to four criteria: 1) quality of the research (scientific merit, innovation and impact); 2) relevance to the mission of the Center and direct involvement of one or more of the NC NM4R resources in the research plan; 3) qualifications of the research team to lead the research effort toward securing extramural funding, and 4) stimulation of collaborative efforts with NC NM4R investigators. We plan to fund an average of four new or competitive continuation pilot studies per year with 12-month project periods. Applicants must be eligible Principal Investigators as defined by their home organization and have the skills, knowledge and resources necessary to carry out the proposed work plan; they also must be eligible to submit an NIH R01 or equivalent as PI from their institution. Investigators will receive one year of research support along with access to NC NM4R cores, equipment and other resources as needed to perform an investigator-initiated project related to the mission of the NC NM4R. We envision that the Pilot Studies Program will enable investigators to form interdisciplinary, interactive, sustainable research projects that will impact NM4R research.

Project Start
Project End
Budget Start
2019-07-01
Budget End
2020-06-30
Support Year
5
Fiscal Year
2019
Total Cost
Indirect Cost
Name
Medical University of South Carolina
Department
Type
DUNS #
183710748
City
Charleston
State
SC
Country
United States
Zip Code
29407
Chhatbar, Pratik Y; Kautz, Steven A; Takacs, Istvan et al. (2018) Evidence of transcranial direct current stimulation-generated electric fields at subthalamic level in human brain in vivo. Brain Stimul 11:727-733
Eftekhar, Amir; Norton, James J S; McDonough, Christine M et al. (2018) Retraining Reflexes: Clinical Translation of Spinal Reflex Operant Conditioning. Neurotherapeutics :
Alawieh, Ali; Andersen, Meredith; Adkins, DeAnna L et al. (2018) Acute Complement Inhibition Potentiates Neurorehabilitation and Enhances tPA-Mediated Neuroprotection. J Neurosci 38:6527-6545
Badran, Bashar W; Dowdle, Logan T; Mithoefer, Oliver J et al. (2018) Neurophysiologic effects of transcutaneous auricular vagus nerve stimulation (taVNS) via electrical stimulation of the tragus: A concurrent taVNS/fMRI study and review. Brain Stimul 11:492-500
Badran, Bashar W; Mithoefer, Oliver J; Summer, Caroline E et al. (2018) Short trains of transcutaneous auricular vagus nerve stimulation (taVNS) have parameter-specific effects on heart rate. Brain Stimul 11:699-708
Dowdle, Logan T; Brown, Truman R; George, Mark S et al. (2018) Single pulse TMS to the DLPFC, compared to a matched sham control, induces a direct, causal increase in caudate, cingulate, and thalamic BOLD signal. Brain Stimul 11:789-796
Grattan, Emily S; Skidmore, Elizabeth R; Woodbury, Michelle L (2018) Examining Anosognosia of Neglect. OTJR (Thorofare N J) 38:113-120
Alawieh, Ali; Zhao, Jing; Feng, Wuwei (2018) Factors affecting post-stroke motor recovery: Implications on neurotherapy after brain injury. Behav Brain Res 340:94-101
Bayona, Hernán; Owolabi, Mayowa; Feng, Wuwei et al. (2017) A systematic comparison of key features of ischemic stroke prevention guidelines in low- and middle-income vs. high-income countries. J Neurol Sci 375:360-366
Chhatbar, Pratik Y; Chen, Rong; Deardorff, Rachael et al. (2017) Safety and tolerability of transcranial direct current stimulation to stroke patients - A phase I current escalation study. Brain Stimul 10:553-559

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