Neurophysiology of Movement Laboratory
Ramaley W205
Department of Integrative Physiology
University of baby直播app
Boulder, CO 80309-0354
phone: 303-492-4975
Research Interests
Neuromuscular determinants of motor function (movement) in health and disease. Current projects address three main topics:
- Aging - identifying the adaptations responsible for the declines in sensorimotor function with advancing age.
- Motor units - characterizing the modulation of the activation signal sent from the nervous system to muscle and its influence on muscle function.
- Multiple sclerosis - evaluating therapeutic strategies that can reduce the burden of multiple sclerosis by restoring walking ability and reducing fatigue
Personnel
- Director: Roger M. Enoka, Ph.D.
- Postdoctoral Fellow: M茅lanie Henry, Ph.D.
- Visiting Scholar: Tommy Crompton
- Graduate Students:
- Logan Weinman, B.S.
- Kelsey Kroger, M.S.
- Rehab Al-Jaafari, B.S.
- Negar Rahimi, M.S.
- Ben Kott, B.S.
- Alireza Kamanesh, M.S.
- Undergraduate Students
- Eugene Riewe, Echo Cole, Isabel Cleveland
- Former Lab Members: Photos of former lab members are available in our gallery
- Collaborators:
- , M.D., Ph.D., University of baby直播app Denver;
- , Ph.D., Universite Libre de Bruxelles, Belgium;
- Yiannis Amiridis, Ph.D., Aristotle University at Thessaloniki, Greece
- , Ph.D., Imperial College, UK;
- Taian Vieira, Ph.D. and Alberto Botter, Ph.D., Politecnico di Torino, Italy;
- , Ph.D., University of Maribor, Slovenia;
- Alessandro Del Vecchio, Ph.D., Friedrich-Alexander University, Germany
Opportunities for Undergraduates
- The requirements for undergraduate students who want research experience in our Laboratory are:
- A major in integrative physiology
- Opportunities include volunteering to assist with a research project, obtaining independent study credit, securing UROP funding, or completing an honors thesis
- Students are expected to be available for at least 10 hours/week, which includes attending the weekly lab meeting, for a minimum of one semester.
- For more information, contact Ben Kott (ben.kott@colorado.edu)
Recent Publications
- Alenazy MA, Al-Jaafari R, Folkesson A, Enoka RM. Influence of transcutaneous electrical nerve stimulation on walking kinematics and standing balance of older adults who differ in walking speed. Experimental Brain Research 241: 1861-1872, 2023.
- Amiridis IG, Kannas T, Sahinis C, Negro F, Tryipdakis G, Kellis E, Enoka RM. More variability in tibialis anterior function during adduction of the foot than dorsiflexion of the ankle. Medicine and Science in Sports and Exercise 56: 851-859, 2024.
- Buard I, Yang X, Kaizer A, Lattanzio L, Kluger B, Enoka RM. Finger dexterity measured by the Grooved Pegboard test indexes Parkinson's disease severity in a tremor-dependent manner. Journal of Electromyography and Kinesiology, 66: 102695, 2022.
- Carzoli JP, Alenazy M, Richmond SB, Enoka RM. Bursting TENS increases walking endurance more than continuous TENS in middle-aged adults. Journal of Electromyography and Kinesiology 63: 102644, 2022.
- Carzoli JP, Enoka RM. Predicting balance and quantifying Romberg Quotient reference ranges in older adults. Journal of Physical Education and Sport 23: 2963-2971, 2023.
- Carzoli JP, Koger M, Amato A, Enoka RM. Tempo-controlled resistance training of the hip abductors and ankle dorsiflexors with light loads does not improve postural sway in older adults. Experimental Brain Research 240: 3049-3060, 2022.
- Courter R, Alvarez E, Enoka RM, Ahmed A. Metabolic costs of walking and arm reaching in persons with mild multiple sclerosis. Journal of Neurophysiology 129: 819-832, 2023.
- Daneshgar S, Hoitz F, Enoka RM. Temporal variability in stride kinematics during the application of TENS: a machine learning analysis. Medicine and Science in Sports and Exercise 56: 1701-1708, 2024.
- Daneshgar S, Tvrdy T, Enoka RM. Practice-induced changes in manual dexterity of older adults depends on initial pegboard time. Medicine and Science in Sports and Exercise 55: 2045-2052, 2023.
- Daneshgar S, Tvrdy T, Enoka RM. Predictors of improvement in manual dexterity for fast and slow older adults: role of force steadiness. Experimental Brain Research 242: 1971-1982, 2024.
- Darendeli A, Enoka RM. Control of motor output during steady submaximal contractions is modulated by contraction history. Experimental Brain Research 242: 675-683, 2024.
- Darendeli A, Ertan H, Enoka RM. Comparison of EMG activity in leg muscles between overground and treadmill running. Medicine and Science in Sports and Exercise 55: 517-524, 2023.
- Darendeli A, Ertan H, Cug M, Wikstrom E, Enoka RM. Comparison of EMG activity in shank muscles between individuals with and without chronic ankle instability when running on a treadmill. Journal of Electromyography and Kinesiology 70: 1026773, 2023.
- Del Vecchio A, Enoka RM, Farina D. Specificity of early motor unit adaptations with resistive exercise training. Journal of Physiology 602: 2679-2688, 2024.
- Del Vecchio A, Germer CM, Knife TM, Nuccio S, Hug F, Eskokier B, Farina D, Enoka RM. The forces generated by agonist muscles during isometric contractions arise from motor unit synergies. Journal of Neuroscience 43: 2860-2873, 2023.
- Duchateau J, Enoka RM. Distribution of motor unit properties across human muscles. Journal of Applied Physiology 132: 1-13, 2022.
- Efthymiadou E, Amiridis IG, Kannas T, Sahinis T, Lykidis A, Samoladas E, Hatzitaki V, Enok RM. Force fluctuations during steady plantar flexion and dorsiflexion in youn adults. Journal of Physical Education and Sport 23: 1606-1614, 2023.
- Farina D, Enoka RM. Evolution of surface electromyography: from muscle electrophysiology toward neural recording and interfacing. Journal of Electromyography and Kinesiology 71: 102796, 2023.
- Martinez-Valdes E, Enoka RM, Holobar A, McGill K, Farina D, Besomi M, et al. Consensus for experimental design in electromyography (CEDE) project: Single motor units. Journal of Electromyography and Kinesiology 68: 1026726, 2023.
- Pechlivanos RG, Amiridis IG, Anastasiadis N, Kannas T, Sahinis C, Duchateau J. Enoka RM. Effects of plyometric training on vertical jump performance in basketball players. European Journal of Sport Science 24: 682-692, 2024.
- Petrovic I, Amiridis IG, Holobar A, Trypidakis G, Kellis E, Enoka RM. Leg dominance does not influence maximal force, force steadiness, or motor unit discharge characteristics. Medicine and Science in Sports and Exercise 54: 1278-1287, 2022.
- Petrovic I, Amiridis IG, Holobar A, Trypidakis G, Sahinis C, Kannas T, Kellis E, Enoka RM. Alternating or concurrent exercise training does not influence force control during single-leg submaximal contractions with the dorsiflexors. Journal of Sports Science and Medicine 22: 245-253, 2023.
- Petrovic I, Amiridis IG, Kannas T, Zoi T, Holobar A, Sahinis C, Kellis E, Stankovich D, Enoka RM. Footedness but not dominance influences force steediness during isometric dorsiflexion in young men. Journal of Electromyography and Kinesiology 73: 102828, 2023.
- Skeparianos A, Amridis IG, Volariz P, Tsampalaki Z, Kannas T, Sahinis C, Salonikidis K, Negro F, Hatzitaki V, Enoka RM. Association between ankle muscle strength and postural sway in older adults. Journal of Physical Education and Sport 23: 2592-2600, 2023.
- Trpidakis G, Amiridis IG, Enoka RM, Tsatsaki E, Kellis E, Negro F. Ankle angle but not knee angle influences force fluctuations during plantar flexion. International Journal of Sports Medicine 43: 131-137, 2022.
- Tsatsaki E, Amiridis IG, Holobar A, Trypidakis G, Arabatzi F, Kellis E, Enoka RM. The length of tibialis anterior does not influence force steadiness during submaximal isometric contractions with the dorsiflexors. European Journal of Sport Science 22: 539-549, 2022.
- Tsiouri C, Amiridis IG, Kannas T, Varvariotis N, Sahinis C, Hatzitaki V, Enoka RM. Coactivation of foot and ankle muscles increases with a postural challenge. Gait & Posture 113: 238-245, 2024.
- Weinman L, Del Vecchio A, Mazzo M, Enoka RM. Motor unit modes in the calf muscles during a submaximal isometric contraction are changed by brief stretches. Journal of Physiology 602: 1385-1404, 2024.