Narendra Bhadra
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Explore the profile of Narendra Bhadra including associated specialties, affiliations and a list of published articles.
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32
Citations
370
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Recent Articles
1.
Van Acker 3rd G, Vrabec T, Bhadra N, Chae J, Kilgore K, Bhadra N
Bioelectron Med (Lond)
. 2024 Sep;
1(2):107-116.
PMID: 39301195
Aims: Nerve conduction block using implanted electrodes is being used increasingly for clinical applications. Alternatively, non-invasive electrical nerve block would be beneficial for applications including pain block and muscle spasticity....
2.
Bhadra N, Vrabec T, Kilgore K, Bhadra N
Bioelectron Med (Lond)
. 2024 Sep;
2(2):63-71.
PMID: 39301011
Aim: To validate the use of motor activation thresholds (MoT) to titrate stimulation amplitudes for spinal cord stimulation in rodent models. Methods: We recorded thresholds for MoT and sciatic compound...
3.
Vrabec T, Bhadra N, Wainright J, Bhadra N, Kilgore K
Int IEEE EMBS Conf Neural Eng
. 2024 Sep;
2013:283-286.
PMID: 39290569
Kilohertz frequency alternating current (KHFAC) has been shown to produce a fast acting, reversible nerve block. The principal drawback to this technique is a short, but intense burst of firing...
4.
Goh A, Roberts D, Wainright J, Bhadra N, Kilgore K, Bhadra N, et al.
Sensors (Basel)
. 2022 Jun;
22(11).
PMID: 35684899
The application of direct current (DC) produces a rapid and reversible nerve conduction block. However, prolonged injection of charge through a smooth platinum electrode has been found to cause damage...
5.
Vrabec T, Wainright J, Bhadra N, Shaw L, Kilgore K, Bhadra N
IEEE Trans Neural Syst Rehabil Eng
. 2019 Apr;
27(5):836-845.
PMID: 30951474
Direct current (DC) nerve block has been shown to provide a complete block of nerve conduction without unwanted neural firing. Previous work shows that high capacitance electrodes can be used...
6.
Roldan L, Eggers T, Kilgore K, Bhadra N, Vrabec T, Bhadra N
J Neurosci Methods
. 2019 Jan;
315:48-54.
PMID: 30641091
Background: Kilohertz frequency alternating currents (KHFAC) produce rapid nerve conduction block of mammalian peripheral nerve and have potential clinical applications in reducing peripheral nerve hyperactivity. The experimental investigation of KHFAC...
7.
Kumsa D, Hudak E, Bhadra N, Mortimer J
J Neural Eng
. 2018 Dec;
16(2):026018.
PMID: 30560809
Objective: Charge injection through platinum neural stimulation electrodes is often constrained by the Shannon limit (Shannon 1992 IEEE Trans. Biomed. Eng. 39 424-6) of k = 1.75. By leveraging the...
8.
Bhadra N, Vrabec T, Bhadra N, Kilgore K
Bioelectron Med (Lond)
. 2018 Feb;
1(1):39-54.
PMID: 29480897
Introduction: Electrical nerve block uses electrical waveforms to block action potential propagation. Materials & Methods: Two key features that distinguish electrical nerve block from other nonelectrical means of nerve block:...
9.
Bhadra N, Foldes E, Vrabec T, Kilgore K, Bhadra N
J Neural Eng
. 2018 Jan;
15(1):016012.
PMID: 29309274
Objective: Application of kilohertz frequency alternating current (KHFAC) waveforms can result in nerve conduction block that is induced in less than a second. Conduction recovers within seconds when KHFAC is...
10.
Kumsa D, Bhadra N, Hudak E, Mortimer J
J Neural Eng
. 2017 Aug;
14(5):056003.
PMID: 28813367
Objective: Our mission is twofold: (1) find a way to safely inject more charge through platinum electrodes than the Shannon limit (k = 1.75) permits and (2) nurture an interest...