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2012 | 13 | 1 | 8-15
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An Evaluation of Kinesthetic Differentiation Ability in Monofin Swimmers

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Purpose. The aim of this study was to compare the ability of monofin swimmers in reproducing the bending forces that act on a monofin's surface through the specific leg movement present in swimming as well as the forces that the swimmers generated on a kinesthesiometer as part of a dry-land simulation trial. Methods. Six men, members of the National Monofin Swimming Team, took part in the study. The level of the swimmers' kinesthetic response was defined by examining their repeatability in producing the bend forces that act on a monofin's surface as a reaction to water resistance and by investigation on the pressure force generated by a swimmer's lower limbs during dry-land tests on a kinesthesiometer. Results and conclusions. It was established that a high level of kinesthetic response, estimated in the group of monofin swimmers, was the result of an adaptation evoked from the specificity of their sensory stimulus perception, received in the form of feedback from the monofin's large surface area.
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  • University School of Physical Education, Wrocław, Poland
  • University School of Physical Education, Wrocław, Poland
  • University School of Physical Education, Wrocław, Poland
  • Lovelace E., Aikens J., Vision, kinesthesis, and control of hand movement by young and old adults. Percept Mot Skills, 1990, 70, 1131-1137, doi: 10.2466/PMS.70.4.1131-1137.[Crossref]
  • Proske U., Gandewia S., The kinaesthetic senses. J Physiol, 2009, 587, 4139-4146, doi: 10.1113/jphysiol.2009.175372.[Crossref]
  • Brown L. E., Rosenbaum D., Sainburg R., Limb position drift: implications for control of posture and movement. J Neurophysiol, 2003, 9, 3105-3118, doi: 10.1152/jn.00013.2003.[Crossref]
  • Gandevia S., Smith J., Crawford M., Proske U., Taylor J., Motor commands contribute to human position sense. J Physiol, 2006, 571 (3), 703-710, doi: 10.1113/jphysiol.2005.103093.[Crossref]
  • Zatoń M., Błacha R., Jastrzębska A., Słonina K., Repeatability of pressure force during elbow flexion and extension before and after exercise. Hum Mov, 2009, 10 (2), 137-143, doi: 10.2478/v10038-009-0010-6.[Crossref]
  • Loomis J. M., Lederman S. J., Tactual perception. In: Boff K., Kaufman L., Thomas J. (eds.), Handbook of Perception and Human Performance, 1986, Vol. 2, Chapt. 31, 323-339.
  • Zawadzki J., Siemieński A., Maximal frequency, amplitude, kinetic energy and elbow joint stiffness in cyclic movements. Acta Bioeng Biomech, 2010, 12 (2), 55-63.[PubMed]
  • Starosta W., Movement symmetry in technical and tactical preparation of advanced judoists. Performance. Journal of Ege University School of Physical Education and Sports, 1996, 2 (2), 39-46.
  • Bloedel J. R., Bracha V., On the cerebellum, cutaneomuscular reflexes, movement control and the elusive engrams of memory. Behav Brain Res, 1995, 68 (1), 1-44, doi: 10.1016/0166-4328(94)00171-B.[Crossref][PubMed]
  • Wolpert D., Miall C., Kawato M., Internal models in the cerebellum. Trends Cognit Sci, 1998, 2, 338-347, doi: 10.1016/S1364-6613(98)01221-2.[Crossref]
  • Goodwin G., McCloskey D., Matthews P., The contribution of muscle afferents to kinaesthesia shown by vibration induced illusions of movement and by the effects of paralysing joint afferents. Brain, 1972, 95, 705-748, doi: 10.1093/brain/95.4.705.[Crossref]
  • Gandevia S., Kinaesthesia: roles for afferent signals and motor commands. In: Rowell L. B., Sheperd T. J. (eds.), Handbook of Physiology, section 12, Exercise: regulation and integration of multiple systems. Oxford University Press, New York, 1996, 128-172.
  • Wołk R., Zatoń M., Dependence between kinaesthetic differentiation abilities and motor learning [in Polish]. Wydawnictwo Sejmowe, Warszawa 1998, 192-196.
  • Albiński P., Zatoń K., Klarowicz A., Changes in the level of kinesthetic differentiation in the training process among swimmers between 14 and 18 years of age. Pol J Environ Stud, 2006, 15, (5B, 2), 646-650.
  • Czabański B., Selected issues of learning and teaching of sport technique [in Polish]. AWF, Wrocław 1989.
  • Bajdziński M., Starosta W., Kinaesthetic differentiation and its conditioning [in Polish]. Instytut Sportu AWF, Warszawa; Instytut Kultury Fizycznej AWF, Gorzów Wlkp. 2002.
  • Fung Y. C., Biomechanics: Motion, Flow, Stress, and Growth. Springer, New York 1990.
  • Starosta W., Movement coordination as an element in sport selection. Biol Sport, 1984, 2, 139-153.
  • Rejman M., Klarowicz A., Identification of the propulsive forces generated in monofin swimming. In: Wolański W. (ed.), Biomechanics' 06: International Conference, 06-08 IX Zakopane. Wydawnictwo Katedry Mechaniki Stosowanej, Gliwice 2006, 291-296.
  • Klarowicz A., Zatoń K., Changes in kinesthetic differentiation during program of fitness swimming for students. Annales Universitatis Mariae Curie-Skłodowska Lublin - Polonia. Section D Medicina, 2006, 60, Suppl. 16, 291, 258-261.
  • Rejman M., The dynamic and timing criteria of assessment the monofin swimming technique. Acta Bioeng Biomech, 2001, 3 (2), 67-79.
  • Bober T., Kulig K., Burnfield J. M., Pietraszewski B., Predictive torque equations for joints of the extremities. Acta Bioeng Biomech, 2002, 4 (2), 49-60.
  • Rejman M., Colman V., Persyn U., The metod of assessing the kinematics and dynamics of single fin movements. Hum Mov, 2003, 2 (8), 54-62.
  • Rejman M., Ochmann B., Modelling of monofin swimming technique: optimization of feet displacement and fin strain. J Appl Biomech, 2009, 25 (4), 340-350.
  • Gandevia S. C., McCloskey D. I., Burke D., Kinaesthetic signals and muscle contraction. Trends Neurosci, 1992, 15 (2), 62-65, doi: 10.1016/0166-2236(92)90028-7.[Crossref][PubMed]
  • Puni A. C., Motor Memory and Movement Activity [in Polish]. Kultura Fizyczna, 1967, 11, 526-529.
  • Bremer D., Sperle N. (eds.), Fehler, Mangel, Abweichungen im Sport. Schriftenreihe des ADH "Sport & Lernen", Putty, Wuppertal 1984.
  • Albiński P., Zatoń K., Changes in the level of kinesthetic differentiation in the training process among swimmers between 14 and 18 years of age. Pol J Environ Stud, 2006, 15, 646-650.
  • Maglischo E. W., Swimming Fastest. Human Kinetics, Champaign 2003.
  • Lackner J. R., DiZio P., Multisensory, cognitive, and motor influences on human spatial orientation in weightlessness. J Vestib Res, 1993, 3 (3), 361-372.
  • Allen T., Ansems G., Proske U., Effects of muscle conditioning on position sense at the human forearm during loading or fatigue of elbow flexors and the role of the sense of effort. J Physiol, 2007, 580, 423-434, doi: 10.1113/jphysiol.2006.125161.[Crossref]
  • Bullock J., Boyle J., Wang M. B., NMS Physiology. 4th ed., Lippincott Williams & Wilkins, Baltimore-Philadelphia 2001.
  • Rejman M., Frąckiewicz A., Overload of the ankle joints during monofin swimming - Mechanism and diagnosis. In: Zatoń K., Jaszczak M. (eds.), Science in Swimming II. AWF, Wrocław 2008, 196-202.
  • Zatoń K., Klarowicz A., Verbal information raising awareness of the kinesthetic sense and the accuracy of movement performance in the teaching/learning process of swimming for young school. In: Zatoń K., Rejman M. (eds.), Science in Swimming I. AWF, Wrocław 2007, 111-116.
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