Influence of motor unit synchronization on amplitude characteristics of surface and intramuscularly recorded EMG signals
暂无分享,去创建一个
Todor I. Arabadzhiev | Nonna A. Dimitrova | George V. Dimitrov | Vladimir G. Dimitrov | N. Dimitrova | G. Dimitrov | V. Dimitrov | T. Arabadzhiev
[1] C. D. De Luca,et al. Myoelectrical manifestations of localized muscular fatigue in humans. , 1984, Critical reviews in biomedical engineering.
[2] D. Jones. Strength of skeletal muscle and the effects of training. , 1992, British medical bulletin.
[3] H. Thysell,et al. Heparin-induced increase of diamine oxidase in lymph and blood plasma of rat, guinea-pig and rabbit. , 1971, Acta physiologica Scandinavica.
[4] N. Dimitrova,et al. Muscle fatigue during dynamic contractions assessed by new spectral indices. , 2006, Medicine and science in sports and exercise.
[5] M. Narici,et al. Early skeletal muscle hypertrophy and architectural changes in response to high-intensity resistance training. , 2007, Journal of applied physiology.
[6] Derek Ball,et al. Effects of prior heavy exercise on VO(2) kinetics during heavy exercise are related to changes in muscle activity. , 2002, Journal of applied physiology.
[7] Paul DeVita,et al. Neuromuscular and balance responses to flywheel inertial versus weight training in older persons. , 2009, Journal of biomechanics.
[8] G V Dimitrov,et al. Influence of the afterpotentials on the shape and magnitude of the extracellular potentials generated under activation of excitable fibres. , 1979, Electromyography and clinical neurophysiology.
[9] N. Dimitrova. Influence of the length of the depolarized zone on the extracellular potential field of a single unmyelinated nerve fibre. , 1973, Electromyography and clinical neurophysiology.
[10] G. Kamen,et al. Neural Adaptations to Resistive Exercise , 2006, Sports medicine.
[11] G. V. Dimitrov,et al. Electromyography (EMG) Modeling , 2006 .
[12] G V Dimitrov,et al. Fatigue analysis of interference EMG signals obtained from biceps brachii during isometric voluntary contraction at various force levels. , 2009, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.
[13] N. Dimitrova,et al. Interpretation of EMG changes with fatigue: facts, pitfalls, and fallacies. , 2003, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.
[14] O. Rutherford,et al. Physiological changes in skeletal muscle as a result of strength training. , 1989, Quarterly journal of experimental physiology.
[15] E Stålberg,et al. Scanning EMG in normal muscle and in neuromuscular disorders. , 1991, Electroencephalography and clinical neurophysiology.
[16] Carlo J. De Luca,et al. Physiology and Mathematics of Myoelectric Signals , 1979 .
[17] W J Kraemer,et al. Changes in agonist-antagonist EMG, muscle CSA, and force during strength training in middle-aged and older people. , 1998, Journal of applied physiology.
[18] R. Stein,et al. Synchronization of human motor units: possible roles of exercise and supraspinal reflexes. , 1975, Electroencephalography and clinical neurophysiology.
[19] E. Evans,et al. Muscle activation and the slow component rise in oxygen uptake during cycling. , 2000, Medicine and science in sports and exercise.
[20] G V Dimitrov,et al. Simulation analysis of interference EMG during fatiguing voluntary contractions. Part II--changes in amplitude and spectral characteristics. , 2008, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.
[21] C J De Luca,et al. The relation between the myoelectric signal and physiological properties of constant-force isometric contractions. , 1978, Electroencephalography and clinical neurophysiology.
[22] T. Noakes,et al. Low frequency of the "plateau phenomenon" during maximal exercise in elite British athletes , 2003, European Journal of Applied Physiology.
[23] K Roeleveld,et al. Motor unit synchronization during fatigue: described with a novel sEMG method based on large motor unit samples. , 2009, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.
[24] John G Semmler,et al. Motor Unit Synchronization and Neuromuscular Performance , 2002, Exercise and sport sciences reviews.
[25] N. Dimitrova,et al. Precise and fast calculation of the motor unit potentials detected by a point and rectangular plate electrode. , 1998, Medical engineering & physics.
[26] A. Dimitrov,et al. Effects of changes in intracellular action potential on potentials recorded by single‐fiber, macro, and belly–tendon electrodes , 2008, Muscle & nerve.
[27] K. Seki,et al. Firing rate modulation of human motor units in different muscles during isometric contraction with various forces , 1996, Brain Research.
[28] Roberto Merletti,et al. The extraction of neural strategies from the surface EMG. , 2004, Journal of applied physiology.
[29] J. Brisswalter,et al. Relationship between oxygen uptake slow component and surface EMG during heavy exercise in humans: influence of pedal rate. , 2009, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.
[30] D G Sale,et al. Neural adaptation to resistance training. , 1988, Medicine and science in sports and exercise.
[31] T. Moritani,et al. Neural factors versus hypertrophy in the time course of muscle strength gain. , 1979, American journal of physical medicine.
[32] Vladimir G. Dimitrov,et al. Interpretation of EMG integral or RMS and estimates of "neuromuscular efficiency" can be misleading in fatiguing contraction. , 2010, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.
[33] M. V. Narici,et al. Changes in force, cross-sectional area and neural activation during strength training and detraining of the human quadriceps , 2006, European Journal of Applied Physiology and Occupational Physiology.
[34] K. Häkkinen,et al. Strength training induced adaptations in neuromuscular function of premenopausal women with fibromyalgia: comparison with healthy women , 2001, Annals of the rheumatic diseases.
[35] Jacques Duchateau,et al. Training adaptations in the behavior of human motor units. , 2006, Journal of applied physiology.
[36] E. Simonsen,et al. Increased rate of force development and neural drive of human skeletal muscle following resistance training. , 2002, Journal of applied physiology.
[37] W J Kraemer,et al. Changes in electromyographic activity, muscle fibre and force production characteristics during heavy resistance/power strength training in middle-aged and older men and women. , 2001, Acta physiologica Scandinavica.
[38] B. Whipp,et al. The maximally attainable VO2 during exercise in humans: the peak vs. maximum issue. , 2003, Journal of applied physiology.
[39] D. Sale,et al. Neuromuscular adaptations in human muscle following low intensity resistance training with vascular occlusion , 2004, European Journal of Applied Physiology.
[40] R. Enoka,et al. Motor-unit synchronization increases EMG amplitude and decreases force steadiness of simulated contractions. , 2000, Journal of neurophysiology.
[41] Beatrix Vereijken,et al. Changes in agonist EMG activation level during MVC cannot explain early strength improvement , 2005, European Journal of Applied Physiology.
[42] D. Stegeman,et al. Influence of motoneuron firing synchronization on SEMG characteristics in dependence of electrode position. , 2001, Journal of applied physiology.
[43] G V Dimitrov,et al. Estimate of M-wave changes in human biceps brachii during continuous stimulation. , 2005, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.
[44] T S Miles,et al. Synchronization of motor units in human masseter during a prolonged isometric contraction. , 1990, The Journal of physiology.
[45] Tamara J. Dartnall,et al. Motor unit synchronization is increased in biceps brachii after exercise-induced damage to elbow flexor muscles. , 2008, Journal of neurophysiology.
[46] G V Dimitrov,et al. Bipolar recording of potentials generated by excitable fibres in a volume conductor. , 1977, Agressologie: revue internationale de physio-biologie et de pharmacologie appliquees aux effets de l'agression.
[47] E Cafarelli,et al. Adaptations in the activation of human skeletal muscle induced by short-term isometric resistance training. , 2007, Journal of applied physiology.
[48] D. Schneider,et al. Muscle glycogen reduction in man: relationship between surface EMG activity and oxygen uptake kinetics during heavy exercise , 2006, Experimental physiology.
[49] G V Dimitrov,et al. Amplitude-related characteristics of motor unit and M-wave potentials during fatigue. A simulation study using literature data on intracellular potential changes found in vitro. , 2002, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.
[50] S. Ward,et al. Indices of electromyographic activity and the “slow” component of oxygen uptake kinetics during high-intensity knee-extension exercise in humans , 2006, European Journal of Applied Physiology.
[51] G V Dimitrov,et al. Simulation analysis of the performance of a novel high sensitive spectral index for quantifying M-wave changes during fatigue. , 2005, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.
[52] Metin Akay,et al. Wiley encyclopedia of biomedical engineering , 2006 .
[53] R. Edwards,et al. Human muscle function and fatigue. , 2008, Ciba Foundation symposium.
[54] B. Parratte,et al. Is the VO2 slow component in heavy arm-cranking exercise associated with recruitment of type II muscle fibers as assessed by an increase in surface EMG? , 2006, Applied physiology, nutrition, and metabolism = Physiologie appliquee, nutrition et metabolisme.
[55] A. Daffertshofer,et al. Fatigue-related changes in motor-unit synchronization of quadriceps muscles within and across legs. , 2008, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.
[56] B. Whipp. The slow component of O2 uptake kinetics during heavy exercise. , 1994, Medicine and science in sports and exercise.
[57] P V Komi,et al. Electromyographic changes during strength training and detraining. , 1983, Medicine and science in sports and exercise.
[58] J Hanson,et al. Changes in the action potential and contraction of isolated frog muscle after repetitive stimulation. , 1971, Acta physiologica Scandinavica.
[59] Phillip B. Watts,et al. Physiology of difficult rock climbing , 2004, European Journal of Applied Physiology.
[60] Alexander G. Dimitrov,et al. Factors affecting the turns analysis of the interference EMG signal , 2008, Biomed. Signal Process. Control..
[61] Jonathan P. Folland,et al. Morphological and Neurological Contributions to Increased Strength , 2007, Sports medicine.
[62] O. Lippold,et al. The relation between force and integrated electrical activity in fatigued muscle , 1956, The Journal of physiology.
[63] William J Kraemer,et al. Neural factors account for strength decrements observed after short-term muscle unloading. , 2002, American journal of physiology. Regulatory, integrative and comparative physiology.
[64] A J Fuglevand,et al. Estimating the strength of common input to human motoneurons from the cross‐correlogram. , 1992, The Journal of physiology.
[65] E Stålberg,et al. Simulation of macro EMG motor unit potentials. , 1983, Electroencephalography and clinical neurophysiology.
[66] M. Izquierdo,et al. Neuromuscular adaptations during concurrent strength and endurance training versus strength training , 2003, European Journal of Applied Physiology.
[67] S. Mori,et al. Discharge patterns of soleus motor units with associated changes in force exerted by foot during quiet stance in man. , 1973, Journal of neurophysiology.
[68] J. Semmler,et al. Motor unit discharge and force tremor in skill- and strength-trained individuals , 1998, Experimental Brain Research.
[69] A. Lucia,et al. Analysis of the aerobic-anaerobic transition in elite cyclists during incremental exercise with the use of electromyography. , 1999, British journal of sports medicine.
[70] M. SHlNOHARA,et al. Increase in neuromuscular activity and oxygen uptake during heavy exercise. , 1992 .