Your search keyword '"Kemal S. Türker"' showing total 7 results

1. A reliability study on the cumulative averaging method for estimating effective stimulus time in vibration studies

Author

Aysegül Kilic, Gülsah Soytürk, Ayse Karaoglu, Betilay Topkara Arslan, Ilhan Karacan, and Kemal S. Türker

Subjects

Biophysics, Neuroscience (miscellaneous), Neurology (clinical)

Published

2023

2. Estimating and minimizing movement artifacts in surface electromyogram

Author

Ilhan Karacan, Betilay Topkara Arslan, Ayşe Karaoglu, Tugba Aydin, Simon Gray, Pekcan Ungan, and Kemal S. Türker

Subjects

Biophysics, Neuroscience (miscellaneous), Neurology (clinical)

Published

2023

3. Cutaneous silent period evoked in human first dorsal interosseous muscle motor units by laser stimulation

Author

Mehmet Cemal Kahya, Kemal S. Türker, and Oğuz Sebik

Subjects

Adult, Male, Nociception, 0301 basic medicine, Biophysics, Neuroscience (miscellaneous), Stimulation, Electromyography, Inhibitory postsynaptic potential, complex mixtures, law.invention, 03 medical and health sciences, 0302 clinical medicine, law, Reflex, parasitic diseases, Reaction Time, Humans, Medicine, Latency (engineering), Muscle, Skeletal, Motor Neurons, medicine.diagnostic_test, business.industry, fungi, Neural Inhibition, Anatomy, Evoked Potentials, Motor, Hand, Laser, Electric Stimulation, 030104 developmental biology, Female, Silent period, Neurology (clinical), business, Neuroscience, 030217 neurology & neurosurgery

Abstract

Painful stimulation of the hand results in an inhibitory response in the hand muscles known as the cutaneous silent period (CSP). In this study, we employed probability- and frequency-based analysis methods to examine the CSP induced by laser stimuli. Subjects were asked to contract their first dorsal interosseous muscle so that selected motor units discharged at a rate of about 8Hz. Laser pulses were delivered to the palm of the hand, and reflex responses were recorded. The stimuli generated CSP in all test subjects. We found that the latency of the CSP evoked using laser stimulation was longer than that the previously published latency values of the CSP evoked using electrical stimulation. Using only the presently generated laser induced CSP data, the CSP duration was longer when analyzed via peristimulus frequencygram method compared to the probability-based methods such as peristimulus time histogram and surface electromyogram. In the light of the current results, we suggest that laser stimulation could be used when studying pain pathways in human subjects and the frequency-based analysis methods can be preferred because they are previously shown to be more reliable for obtaining the synaptic activity profile. These results can be used to standardize the CSP methods in basic and clinical research.

Published

2016

4. Post-activation depression of primary afferents reevaluated in humans

Author

Abdullah Salih Budan, Kemal S. Türker, Betilay Topkara, Murat Necdet Yüce, Beatrice Selen Şenocak, and Mustafa Görkem Özyurt

Subjects

Adult, Biophysics, Neuroscience (miscellaneous), Electromyography, Stimulus (physiology), Diagnostic tools, H-Reflex, 03 medical and health sciences, 0302 clinical medicine, Humans, Medicine, Neurons, Afferent, Muscle, Skeletal, Soleus muscle, medicine.diagnostic_test, business.industry, Motor control, Neural Inhibition, 030229 sport sciences, Muscle relaxation, Neurology (clinical), Tibial Nerve, H-reflex, medicine.symptom, business, Neuroscience, 030217 neurology & neurosurgery, Muscle Contraction, Muscle contraction

Abstract

Amplitude variation of Hoffmann Reflex (H-reflex) was used as a tool to investigate many neuronal networks. However, H-reflex itself is a subject to intrinsic changes including post-activation depression (P-AD). We aimed to investigate P-AD and its implication on motor control in humans. Upon tibial nerve stimulation in 23 healthy participants, peak-to-peak amplitude change of H-reflex was investigated using surface electromyography (SEMG) of soleus muscle. Variety of stimulus intensities, interstimulus intervals (ISIs), voluntary contraction levels/types and force recording were used to investigate the nature of P-AD. We have shown that P-AD was significantly stronger in the shorter ISIs. The only exception was the ISI of 200 msecs which had a weaker P-AD than some of the longer ISIs. Sudden muscle relaxation, on the other hand, further increased the effectiveness of the ongoing P-AD. Moreover, P-AD displayed its full effect with the first stimulus when there was no muscle contraction and was efficient to reduce the muscle force output by about 30%. These findings provide insight about the variations and mechanism of P-AD and could lead to improvements in diagnostic tools in neurological diseases.

Published

2020

5. Triceps surae stretch and voluntary contraction alters maximal M-wave magnitude

Author

Kemal S. Türker and Kylie Tucker

Subjects

Adult, Male, Contraction (grammar), Materials science, Adolescent, Biophysics, Neuroscience (miscellaneous), Electromyography, Voluntary contraction, Muscle Stretching Exercises, Recording electrode, medicine, Humans, Signal cancellation, Muscle, Skeletal, medicine.diagnostic_test, Anatomy, Evoked Potentials, Motor, Amplitude, Reflex, Female, Muscle bulk, Neurology (clinical), Ankle, Muscle Contraction, Biomedical engineering

Abstract

Reliability of the motor response (M-wave) is fundamental in many reflex studies; however it has recently been shown to change during some investigations. The aim of this investigation was to determine if triceps surae stretch and voluntary contraction, or recording and analysis techniques, affect the maximal M-wave magnitude. The maximal M-wave was investigated in human gastrocnemius and soleus during different foot positions and during triceps surae contraction. Both bipolar and monopolar-recoding methods, and area and peak-to-peak (PTP) amplitude analysis methods were used. Results: Maximal M-wave magnitude changed significantly between test muscle conditions, and is largest during dorsiflexion, probably due to changes in muscle bulk and recording electrode relationship. The maximal M-wave was up to 88% smaller when recorded by bipolar electrodes compared to monopolar electrodes, which is discussed in relation to signal cancellation. Area analysis provided more significant differences in M-wave magnitude between test muscle conditions than did PTP amplitude analysis, and the maximal M-wave shape changed significantly between test muscle conditions. This study suggests that maximal M-wave magnitude can vary depending on muscle condition, it highlights the importance of using correct recording and analysis techniques, and questions the reliability of using M-wave magnitude to monitor the relationship between the nerves and stimulating electrodes. (c) 2006 Elsevier Ltd. All rights reserved.

Published

2007

6. Properties of synaptic noise in tonically active human motoneurons

Author

Timothy S. Miles, Jason D. Warren, and Kemal S. Türker

Subjects

Physics, Membrane potential, Spike train, Biophysics, Neuroscience (miscellaneous), Probability density function, Synaptic noise, Noise, Amplitude, Histogram, Excitatory postsynaptic potential, Neurology (clinical), Biological system, Neuroscience

Abstract

The objective of these experiments was to determine the amount of synaptic noise on the cell membrane at various intervals after an action potential in a motoneuron firing at a specified frequency. Sources of noise such as variations in the level of voluntary drive were minimized by selecting only segments of the spike train in which the unit was running within prescribed frequency limits. The level of the membrane potential of the motoneuron during these intervals was determined using two test "pulses" (compound Ia excitatory postsynaptic potentials) of known amplitude. This enabled the probability of the membrane potential falling within a voltage "window" of known size at known times after the preceding spike to be determined. The probability density histograms showed that the fluctuations of membrane potential about a target interspike trajectory (i.e., the membrane noise) increased with time after the preceding spike. These fluctuations in the membrane potential can be accounted for by a one-dimensional "random walk" model of membrane noise. This model explains the salient features of the interval histograms, such as positive skewness at low target frequencies. A quantitative test of the model demonstrated its applicability to the motor pools of tibialis and masseter.

Published

1992

7. High pass filtering and rectification of SEMG as a tool to demonstrate synchronous motor unit activity during vibration

Author

Ilhan Karacan, Oğuz Sebik, Kemal S. Türker, and Muharrem Cidem

Subjects

Male, Motor Neurons, Electromyography, business.industry, Computer science, Biophysics, Neuroscience (miscellaneous), Action Potentials, Vibration, Axons, Rectification, Embedded system, Electronic engineering, Humans, Neurology (clinical), business, Synchronous motor, High-pass filter, Unit (ring theory), Algorithms, Muscle Contraction

Published

2014