Browsing Open Research by Author "Haavik, H"
Now showing items 1-5 of 5
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Induction of long-term depression-like plasticity by pairings of motor imagination and peripheral electrical stimulation
Jochumsen, M; Signal, N; Nedergaard, RW; Taylor, D; Haavik, H; Niazi, IK (Frontiers Media S.A., 2015)Long-term depression (LTD) and long-term potentiation (LTP)-like plasticity are models of synaptic plasticity which have been associated with memory and learning. The induction of LTD and LTP-like plasticity, using ... -
Manipulation of Dysfunctional Spinal Joints Affects Sensorimotor Integration in the Pre-fontal Cortex: A Brain Source Localization Study
Lelic, D; Niazi, IK; Holt, K; Jochumsen, M; Dremstrup, K; Yielder, P; Murphy, B; Drewes, AM; Haavik, H (Hindawi, 2016)Objectives. Studies have shown decreases in N30 somatosensory evoked potential (SEP) peak amplitudes following spinal manipulation (SM) of dysfunctional segments in subclinical pain (SCP) populations. This study sought to ... -
A Multiday Evaluation of Real-time Intramuscular EMG Usability With ANN
Waris, A; Zia ur Rehman, M; Niazi, IK; Jochumsen, M; Englehart, K; Jensen, W; Haavik, H; Kamavuako, EN (MDPI AG, 2020)Recent developments in implantable technology, such as high-density recordings, wireless transmission of signals to a prosthetic hand, may pave the way for intramuscular electromyography (iEMG)-based myoelectric control ... -
Pairing Voluntary Movement and Muscle-located Electrical Stimulation Increases Cortical Excitability
Jochumsen, M; Niazi, I; Signal, N; Nedergaard, RW; Holt, K; Haavik, H; Taylor, D (Frontiers Media S.A, 2016)Learning new motor skills has been correlated with increased cortical excitability. In this study, different location of electrical stimulation (ES), nerve, or muscle, was paired with voluntary movement to investigate if ... -
Self-paced Online Vs. Cue-based Offline Brain-computer Interfaces for Inducing Neural Plasticity
Jochumsen, M; Navid, MS; Nedergaard, RW; Signal, N; Rashid, U; Hassan, A; Haavik, H; Taylor, D; Niazi, IK (MDPI AG, 2019)Brain-computer interfaces (BCIs), operated in a cue-based (offline) or self-paced (online) mode, can be used for inducing cortical plasticity for stroke rehabilitation by the pairing of movement-related brain activity with ...