Can startle response magnitudes be used as a tool to predict sportive capacities? A comparative study between healthy young adults and athletes.
- Prepulse Inhibition,
- Anthropometric Measurement,
- Bosco Tests,
- Neuromuscular Exercises,
- Biological Adaptations
Copyright (c) 2019 International Journal of Physical Education, Fitness and Sports
This work is licensed under a Creative Commons Attribution 4.0 International License.
The acoustic startle reflex (ASR) is an intense reaction that involves the contraction of muscle groups in response to an unexpected stimulus. We proposed that an ASR measurement may be used to select physical characteristics among healthy people, including athletes. To find the relationship between the ASR and physical conditioning level, we designed a study to perform ASR measurements, anthropometric measurements, neuromuscular conjugation exercises, strength test, and flexibility test. We studied young adults into 4 groups: male-control, male-athlete, female-control, and female-athlete. Our results showed how the startle amplitude was decreased in athletes compared with controls. In most of the anthropometric parameters, there were differences attending to gender in control groups, but these differences diminished in athletes. In addition, some fitness values were correlated with the latency of the muscle response and with the prepulse inhibition. This study demonstrates that regular practice of a sport, aside from causing changes in common fitness variables, also promotes changes in ASR parameters. In some way, the intense body training stimulates the brain reorganization to enhance some responses related to adapt the ASR. With this study, we are opening a field for those interested in finding out new instruments to discriminate athletes.
- Kaltsatou, E. Kouidi, D. Fotiou, P. Deligiannis, The use of pupillometry in the assessment of cardiac autonomic function in elite different type trained athletes, European Journal of Applied Physiology, 111 (2011) 2079-2087.
- W. Taube, N. Kullmann, C. Leukel, O. Kurz, F. Amtage, A. Gollhofer, Differential Reflex Adaptations Following Sensorimotor and Strength Training in Young Elite Athletes, International Journal of Sports Medicine, 28 (2007) 999-1005.
- R. Parasuraman, (1998) The attentive brain: issues and prospects, Mit Press, Cambridge, Ma, 3±15.
- Thiel, G. Fink, Visual and auditory alertness: modality-specific and supra modal neural mechanisms and their modulation by nicotine, Journal of Neurophysiology, 97 (2007) 2758-2768.
- M. Bakker, J. Van Dijk, A. Van Den Maagdenberg, M. Tijssen, Startle syndromes: Review, The Lancet Neurology, 5 (2006) 513-524.
- V. Baudrie, J. H. Tulen, J. Blanc, J. L. Elghozi Autonomic components of the cardiovascular responses to an acoustic startle stimulus in rat, Journal of Autonomic Pharmacology, 17 (1997) 303-309.
- Landis, W. A. Hunt, H. Strauss (1939) The Startle Pattern, Ferrar & Rinehart Inc, New York, 168.
- K. A. Keay, P. Redgrave, P. Dean, Cardiovascular and respiratoy changes elicited by stimulation of rat superior colliculus, Brain Research Bulletin, 20 (1988) 13-26.
- V. Kumari, T. Sharma, Modulation of the startle response: An objective measure of cognitive and aﬀective processes, J Ad Schizo & Brain Res, 3 (2000) 9–15.
- J. Valls-Solé, Chapter 18 Startle and prepulse effects, Handbook of Clinical Neurophysiology, 1 (2003) 267-283.
- L. Braff, M. A. Geyer, G. A. Light, J. Sprock, W. Perry, K. S. Cadenhead, N. R. Swerdlow, Impact of prepulse characteristics on the detection of the sensoriomotor gating deficits in schizophrenia, Schizophrenia Research, 49 (2001) 171-178.
- G. A. Light, D. L. Braff, Sensory gating deﬁcits in schizophrenia: can we parse the effects of medication, nicotine use, and changes in clinical status?, Clinical Neuroscience Research, 3 (2003) 47-54.
- S. Bender, M. Weisbrod, F. Resch, Which perspectives can endophenotypes and biological markers offer in the early recognition of schizophrenia?, Journal of Neural Transmission, 114 (2007) 1199-1215.
- S. Hormigo, A. Cardoso, C. Sancho, D. E. López, C. Moreno, Associations between sensorimotor gating mechanisms and athletic performance in a variety of physical conditioning tests, European Journal of Applied Physiology, 119 (2019) 921-932.
- M. Marfell-Jones, T. Olds, A. Stewart, L. Carter, (2006) International standards for anthropometric assessment, International Society for the Advancement of Kinanthropometry, ISAK: Potchefstroom, South Africa, 32-89.
- C. Bosco, P. Komi, Potentiation of the mechanical behavior of the human skeletal muscle through prestretching, Acta Physiologica Scandinavica, 106 (1979) 467-472.
- C. Bosco, P. Luhtanen, P. Komi, A simple method for measurement of mechanical power in jumping, European journal of applied physiology and occupational, 50 (1983a) 273-282.
- C. Bosco, P. Mognoni, P. Luhtanen, Relationship between isokinetic performance and ballistic movement, European journal of applied physiology and occupational, 51 (1983b) 357-364.
- U. Meincke, D. Mörth, T. Voss, E. Gouzoulis-Mayfrank, Electromyographical differentiation between the acoustic blink and startle reflex. Implications for studies investigating startle behavior, European Archives of Psychiatry and Clinical Neuroscience, 252 (2002) 141-145.
- V. Kumari, J. Gray, P. Gupta, S. Luscher, T. Sharma, Sex differences in prepulse inhibition of the acoustic startle response, Personality and Individual Differences, 35 (2003) 733-742.
- M. A. Geyer, S. C. Dulawa, Assessment of murine startle reactivity, prepulse inhibition, and habituation, Current Protocols, 23 (2003) 8.17.1-8.17.15.
- V. Kumari, I. Aasen, T. Sharma, Sex differences in prepulse inhibition deficits in schizophrenia, Schizophrenia Research, 69 (2004) 219-235.
- W. Sheldon, The somatotype, the morphophenotype and the morphogenotype, Cold Spring Harbor Symposia on Quantitative Biology, 15 (1950) 373-382.
- J. Carter, The somatotypes of athletes-a review, Human Biology, 42 (1970) 535-569.
- J. Carter, J. Parizkova, Changes in somatotypes of european males between 17 and 24 years, American Journal of Physical Anthropology, 48 (1978) 251-254.
- P. Komi, C. Bosco, Utilization of stored elastic energy in leg extensor muscles by men and women, Medicine and Science in Sports and Exercise, 10 (1978) 261-265.
- I. Mccloskey, P. Ebeling, G. M. Goodwin, Estimation of weights and tensions and apparent involvement of a 'Sense of Effort', Experimental Neurology, 42 (1974) 220-232.
- D. I. Mccloskey, Kinesthetic Sensibility, Physiological Reviews, 58 (1978) 763-820.
- J. Paillard, M. Brouchon, (1978) Active and passive movements in the calibration of position sense, The Neuropsychology of Spatially Oriented Behavior, Dorsey Press, Illinois, 37-55.
- R. T. Slinger, V. Horsley, Upon the orientation of points in space by the muscular, arthroidial, and tactile senses of the upper limbs in normal individuals and in blind persons, Brain, 29 (1906) 1-27.
- A. B. Vallbo, K. E. Hagbarth, H. E. Torebjork, B. G. Wallin, Somatosensory, proprioceptive, and sympathetic activity in human peripheral nerves, Physiological Reviews, 59 (1979) 919-957.
- U. Granacher, A. Gollhofer, D. Strass, Training induced adaptations in characteristics of postural reﬂexes in elderly men, Gait and Posture, 24 (2006) 459-66.
- S. B. Powell, M. Weber, M. A. Geyer, Genetic models of sensorimotor gating: relevance to neuropsychiatric disorders, Current Topics in Behavioral Neuroscience,. 12 (2012) 251-318.
- W. Hasenkamp, M. P. Epstein, A. Green, L. Wilcox, W. Boshoven, B. Lewison, E. Duncan, Heritability of acoustic startle magnitude, prepulse inhibition, and startle latency in schizophrenia and control families, Psychiatry Research, 178 (2010) 236-243.
- P. Roussos, S. G. Giakoumaki, E. Adamaki, P. Bitsios, The influence of schizophrenia-related neuregulin-1 polymorphisms on sensorimotor gating in healthy males, Biological Psychiatry, 69 (2011) 479-486.
- N. R. Swerdlow, J. Sprock, G. A. Light, K. Cadenhead, M. E. Calkins, D. J. Dobie, R. Freedman, M. F. Green, T. A. Greenwood, R. E. Gur, J. Mintz, A. Olincy, K. H. Nuechterlein, A. D. Radant, N. J. Schork, Seidman, L. J. Siever, J. M. Silverman, W. S. Stone, D. W. Tsuang, M. T. Tsuang, B. I. Turetsky, D. L. Braff, Multi-site studies of acoustic startle and prepulse inhibition in humans: initial experience and methodological considerations based on studies by the Consortium on the Genetics of Schizophrenia, Schizophrenia Research, 92 (2007) 237-251.
- M. Davis, P. Gendelman, Plasticity of the acoustic startle response in the acutely decerebrate rat, Journal of Comparative and Physiological Psychology, 91 (1977) 549-563.
- L. Li, B. J. Frost, Azimuthal sensitivity of rat pinna reflex: emg recordings from cervicoauricular muscles, Hearing Research,100 (1996) 192-200.
- N. R. Swerdlow, N. L. Stephany, J. Talledo, G. Light, D. L. Braff, D. Baeyens, P. P. Auerbach, Prepulse Inhibition of Perceived Stimulus Intensity: Paradigm Assessment, Biological Psychology, 69 (2005) 133-147.
- R. M. Costa, D. Cohen, M. A. Nicolelis, Differential corticostriatal plasticity during fast and slow motor skill learning in mice, Current Biology, 14 (2004) 1124-1134.
- A. R. Luft, R. F. Macko, L. W. Forrester, F. Villagra, F. Ivey, J. D. Sorkin, J. Whitall, S. McCombe-Waller, L. Katzel, A. P. Goldberg, D. F. Hanley, Treadmill exercise activates subcortical neural networks and improves walking after stroke: a randomized controlled trial, Stroke, 39 (2008) 3341-3350.
- M. Roche, K. G. Commons, A. Peoples, R. J. Valentino, Circuitry underlying regulation of the serotonergic system by swim stress, The Journal of Neuroscience, 23 (2003) 970-977.
- N. Doidge, (2007) The Brain That Changes Itself, Penguin Group, New York,l 427.
- J. Ratey, (2008) Spark – The revolutionary new science of exercise and the brain, Little, Brown and Company, New York, 222.
- M. A. Geyer, D. L. Braff, Habituation of the blink reflex in normal and schizophrenic patients, Psychophysiology, 19 (1982) 1-6.
- M. Fendt, L. Li, J. S. Yeomans, Brain stem circuits mediating prepulse inhibition of the startle reflex, Psychopharmacology, 156 (2001) 216-224.
- J. Valls-Sole, Assessment of excitability in brainstem circuits mediating the blink reflex and the startle reaction, Clinical Neurophysiology, 123 (2012) 13-20.