Möchten Sie über diese Zeitschrift informiert bleiben? Klicken Sie bitte auf die Buttons, um unsere Alerts zu abonnieren.
Möchten Sie über diese Zeitschrift informiert bleiben? Klicken Sie bitte auf die Buttons, um unsere Alerts zu abonnieren.
Postural changes and their effects in elite riders when actively influencing the horse versus sitting passively at trot
in Comparative Exercise PhysiologySearch for other papers by M.T. Engell in
Current site
Google Scholar
Search for other papers by H.M. Clayton in
Current site
Google Scholar
Search for other papers by A. Egenvall in
Current site
Google Scholar
Search for other papers by M.A. Weishaupt in
Current site
Google Scholar
Search for other papers by L. Roepstorff in
Current site
Google Scholar
The objectives were to compare sagittal plane posture of the pelvis, trunk and head of elite dressage riders when they ride actively to train the horse versus sitting passively and following the horses’ movements at trot, and to evaluate the effects of these changes in rider posture on load distribution on the horse’s back. Synchronised motion capture and saddle mat data of seven elite dressage riders were used to measure minimal and maximal angles and range of motion (ROM) for the pelvic, trunk and head segments, the angle between pelvis and trunk segments, phase-shift between pitching motions of pelvis and trunk, and pelvic translation relative to the saddle. Non-parametric statistical tests compared variables between the two rider postures. In the passive rider posture the pelvis, trunk and head showed two pitching cycles per stride. Maximal posterior and anterior pelvic rotation occurred, respectively, early and late in the horse’s diagonal stance phase. Compared with pelvic movements, trunk movements were slightly delayed and head movements were out-of-phase. In the active rider posture the pelvis and trunk pitched further posteriorly throughout the stride. Most of the riders showed similar sagittal plane movements of the axial body segments but with some notable individual variations.
-
Alexander, J., Hobbs, S.J., May, K., Northrop, A., Brigden, C. and Selfe, J., 2014. Postural characteristics of female dressage riders using 3D motion analysis and the effects of an athletic taping technique: a randomised control trial. Physical Therapy in Sport 16: 154-161.
'Postural characteristics of female dressage riders using 3D motion analysis and the effects of an athletic taping technique: a randomised control trial ' () 16 Physical Therapy in Sport : 154 -161 .
-
Blokhuis, M., Aronsson, A., Hartmann, E., Van Reenan, C. and Keeling, L., 2008. Assessing riders seat and horses behaviour. Difficulties and perspectives. Journal of Applied Animal Welfare Science 11: 191-203.
'Assessing riders seat and horses behaviour. Difficulties and perspectives ' () 11 Journal of Applied Animal Welfare Science : 191 -203 .
-
Brodal, P., 2004. Det nevrobiologiske grunnlaget for balanse (Neurological basis of balance). Fysioterapeuten 8: 25-30.
'Det nevrobiologiske grunnlaget for balanse (Neurological basis of balance) ' () 8 Fysioterapeuten : 25 -30 .
-
Buchner, H.H., Obermüller, S. and Scheidl, M., 2000. Body centre of mass movement in the sound horse. Veterinary Journal 160: 225-234.
'Body centre of mass movement in the sound horse ' () 160 Veterinary Journal : 225 -234 .
-
Buchner, H.H., Savelberg, H.H., Schamhardt, H.C., Merkens, H.W. and Barneveld, A., 1994. Kinematics of treadmill versus overground locomotion in horses. Veterinary Quarterly 2: 87-90.
'Kinematics of treadmill versus overground locomotion in horses ' () 2 Veterinary Quarterly : 87 -90 .
-
Byström, A., Rhodin, M., Von Peinen, K., Weishaupt, M.A. and Roepstorff, L., 2009. Basic kinematics of the saddle and rider in high-level dressage horses trotting on a treadmill. Equine Veterinary Journal 41: 280-284.
'Basic kinematics of the saddle and rider in high-level dressage horses trotting on a treadmill ' () 41 Equine Veterinary Journal : 280 -284 .
-
Byström, A., Roepstorff, L., Von Peinen, K., Weishaupt, M.A. and Rhodin, M., 2015. Differences in rider movement pattern between different degrees of collection at the trot in high-level dressage horses ridden on a treadmill. Human Movement Science 41: 1-8.
'Differences in rider movement pattern between different degrees of collection at the trot in high-level dressage horses ridden on a treadmill ' () 41 Human Movement Science : 1 -8 .
-
Fruehwirth, B., Peham, C., Scheidl, M. and Schobesberger, H., 2004. Evaluation of pressure distribution under an English saddle at walk, trot and canter. Equine Veterinary Journal 36: 754-757.
'Evaluation of pressure distribution under an English saddle at walk, trot and canter ' () 36 Equine Veterinary Journal : 754 -757 .
-
Haussler, K.K., 1999. Osseous spinal pathology. Veterinary Clinics of North America Equine Practice 15: 103-112.
'Osseous spinal pathology ' () 15 Veterinary Clinics of North America Equine Practice : 103 -112 .
-
Hobbs, S.J. and Clayton, H.M., 2014. Sagittal plane torque around the centre of mass in trotting horses. Journal of Biomechanics 47: 1278-1286.
'Sagittal plane torque around the centre of mass in trotting horses ' () 47 Journal of Biomechanics : 1278 -1286 .
-
Jeffcott, L.B., 1980. Disorders of the thoracolumbar spine of the horse. Equine Veterinary Journal 12: 197-210.
'Disorders of the thoracolumbar spine of the horse ' () 12 Equine Veterinary Journal : 197 -210 .
-
Kang, O.D., Ryu, Y.C., Ryew, C.C., Oh, W.Y., Lee, C.E. and Kang, M.S., 2010. Comparative analyses of rider position according to skills levels during walk and trot in Jeju horse. Human Movement Science 29: 956-963.
'Comparative analyses of rider position according to skills levels during walk and trot in Jeju horse ' () 29 Human Movement Science : 956 -963 .
-
Lagarde, J., Peham, C., Licka, T. and Kelso, J.A.S., 2005. Coordination dynamics of the horse-rider system. Journal of Motor Behaviour 37: 418-424.
'Coordination dynamics of the horse-rider system ' () 37 Journal of Motor Behaviour : 418 -424 .
-
Münz, F., Eckardt, F., Heipertz-Hengst, C., Peham, C. and Witte, K., 2013. A preliminary study of an inertial sensor-based method for the assessment of human pelvis kinematics in dressage riding. Journal of Equine Veterinary Science 33: 950-955.
'A preliminary study of an inertial sensor-based method for the assessment of human pelvis kinematics in dressage riding ' () 33 Journal of Equine Veterinary Science : 950 -955 .
-
Münz, A., Eckardt, F. and Witte, K., 2014. Horse-rider interaction in dressage riding. Human Movement Science 33: 227-237.
'Horse-rider interaction in dressage riding ' () 33 Human Movement Science : 227 -237 .
-
Panni, A.S. and Tulli, A., 1994. Analysis of the movements involved in horse riding. Journal of Sport Traumatology and Related Research 16: 196-205.
'Analysis of the movements involved in horse riding ' () 16 Journal of Sport Traumatology and Related Research : 196 -205 .
-
Peham, C., Kotschwar, A.B., Borkenhagen, B., Kuhnke, S., Molsner, J. and Baltacis, A., 2010. A comparison of forces acting on the horse’s back and the stability of the rider’s seat in different positions at the trot. Veterinary Journal 184: 56-59.
'A comparison of forces acting on the horse’s back and the stability of the rider’s seat in different positions at the trot ' () 184 Veterinary Journal : 56 -59 .
-
Peham, C., Licka, T., Kapaun, M. and Scheidl, M., 2001. A new method to quantify harmony of the horse-rider system in dressage. Sports Engineering 4: 95-101.
'A new method to quantify harmony of the horse-rider system in dressage ' () 4 Sports Engineering : 95 -101 .
-
Peham, C., Licka, T., Schobesberger, H. and Meschan, E., 2004. Influence of the rider on the variability of the equine gait. Human Movement Science 23: 663-671.
'Influence of the rider on the variability of the equine gait ' () 23 Human Movement Science : 663 -671 .
-
Roussouly, P., Gollogly, S., Berthonnaud, E. and Dimnet, J., 2005. Classification of the normal variation in the sagittal alignment of the human lumbar spine and pelvis in the standing position. Spine 30: 346-353.
'Classification of the normal variation in the sagittal alignment of the human lumbar spine and pelvis in the standing position ' () 30 Spine : 346 -353 .
-
Schils, S.J., Greer, N.L., Stoner, L.J. and Kobluk, C.N., 1993. Kinematic analysis of the equestrian walk, posting trot and sitting trot. Human Movement Science 12: 693-712.
'Kinematic analysis of the equestrian walk, posting trot and sitting trot ' () 12 Human Movement Science : 693 -712 .
-
Schöllhorn, W.L., Peham, C., Licka, T. and Scheidl, M., 2006. A pattern recognition approach for the quantification of horse and rider interaction. Equine Veterinary Journal 36: 400-405.
'A pattern recognition approach for the quantification of horse and rider interaction ' () 36 Equine Veterinary Journal : 400 -405 .
-
Söderkvist, I. and Wedin, P.A., 1993. Determining the movements of the skeleton using well-configured markers. Journal of Biomechanics 26: 1473-1477.
'Determining the movements of the skeleton using well-configured markers ' () 26 Journal of Biomechanics : 1473 -1477 .
-
Symes, D. and Ellis, R., 2009. A preliminary study into rider asymmetry within equitation. Veterinary Journal 181: 34-37.
'A preliminary study into rider asymmetry within equitation ' () 181 Veterinary Journal : 34 -37 .
-
Terada, K., Clayton, H.M., Lanovaz, J.L. and Kato, K., 2006. Stabilization of wrist position during horseback riding at trot. Equine and Comparative Exercise Physiology 3: 179-184.
'Stabilization of wrist position during horseback riding at trot ' () 3 Equine and Comparative Exercise Physiology : 179 -184 .
-
Terada, K., Mullineaux, D.R., Kiyotada, K. and Clayton, H.M., 2004. Electromyographic activity of the rider’s muscles at trot. Equine and Comparative Exercise Physiology 1: 193-198.
'Electromyographic activity of the rider’s muscles at trot ' () 1 Equine and Comparative Exercise Physiology : 193 -198 .
-
Townsend, H.G.G., Leach, D.H., Doige, C.E. and Kirkaldy-Willis, W.H., 1986. Relationship between spinal biomechanics and pathological changes in the equine thoracolumbar spine. Equine Veterinary Journal 18: 107-112.
'Relationship between spinal biomechanics and pathological changes in the equine thoracolumbar spine ' () 18 Equine Veterinary Journal : 107 -112 .
-
Viry, S., Sleimen-Malkoun, R., Temprado, J.-J., Frances, J.-P., Berton, E., Laurent, M. and Nicol, C., 2013. Patterns of horse-rider coordination during endurance race: a dynamical system approach. PLoS ONE 8: e71804.
'Patterns of horse-rider coordination during endurance race: a dynamical system approach ' () 8 PLoS ONE : e71804 .
-
Van Weeren, P.R., Van den Bogert, A.J. and Barneveld, A., 1992. Correction models for skin displacement in equine kinematic gait analysis. Journal of Equine Veterinary Science 12: 178-192.
'Correction models for skin displacement in equine kinematic gait analysis ' () 12 Journal of Equine Veterinary Science : 178 -192 .
-
Von Peinen, T., Wiestner, T., Bogish, S., Roepstorff, L., Van Weeren, P.R. and Weishaupt, M.A., 2009. Relationship between the forces acting on the horse's back and the movements of rider and horse while walking on a treadmill. Equine Veterinary Journal 41: 285-291.
'Relationship between the forces acting on the horse's back and the movements of rider and horse while walking on a treadmill ' () 41 Equine Veterinary Journal : 285 -291 .
-
Von Peinen, K., Wiestner, T., Von Rechtenberg, B. and Weishaupt, M.A., 2010. Relationship between saddle pressure measurements and clinical signs of saddle soreness at the withers. Equine Veterinary Journal 42 (Suppl. 38): 650-653.
'Relationship between saddle pressure measurements and clinical signs of saddle soreness at the withers ' () 42 Equine Veterinary Journal : 650 -653 .
-
Weishaupt, M.A., Hogg, H.P., Wiestner, T., Denoth, J., Stüssi, E. and Auer, J.A., 2002. Instrumented treadmill for measuring vertical ground reaction forces in horses. American Journal of Veterinary Research 63: 520-527.
'Instrumented treadmill for measuring vertical ground reaction forces in horses ' () 63 American Journal of Veterinary Research : 520 -527 .
-
Wolframm, I.A. Bosga, J. and Meulenbroek, R.G.J., 2013. Coordination dynamics in horse-rider dyads. Human Movement Science 32: 157-170.
'Coordination dynamics in horse-rider dyads ' () 32 Human Movement Science : 157 -170 .
| Insgesamt | Letzte 365 Tage | In den letzten 30 Tagen | |
|---|---|---|---|
| Aufrufe von Kurzbeschreibungen | 0 | 0 | 0 |
| Gesamttextansichten | 518 | 170 | 20 |
| PDF-Downloads | 536 | 163 | 3 |
Postural changes and their effects in elite riders when actively influencing the horse versus sitting passively at trot
in Comparative Exercise PhysiologySearch for other papers by M.T. Engell in
Current site
Google Scholar
PubMed
Search for other papers by H.M. Clayton in
Current site
Google Scholar
PubMed
Search for other papers by A. Egenvall in
Current site
Google Scholar
PubMed
Search for other papers by M.A. Weishaupt in
Current site
Google Scholar
PubMed
Search for other papers by L. Roepstorff in
Current site
Google Scholar
PubMed
The objectives were to compare sagittal plane posture of the pelvis, trunk and head of elite dressage riders when they ride actively to train the horse versus sitting passively and following the horses’ movements at trot, and to evaluate the effects of these changes in rider posture on load distribution on the horse’s back. Synchronised motion capture and saddle mat data of seven elite dressage riders were used to measure minimal and maximal angles and range of motion (ROM) for the pelvic, trunk and head segments, the angle between pelvis and trunk segments, phase-shift between pitching motions of pelvis and trunk, and pelvic translation relative to the saddle. Non-parametric statistical tests compared variables between the two rider postures. In the passive rider posture the pelvis, trunk and head showed two pitching cycles per stride. Maximal posterior and anterior pelvic rotation occurred, respectively, early and late in the horse’s diagonal stance phase. Compared with pelvic movements, trunk movements were slightly delayed and head movements were out-of-phase. In the active rider posture the pelvis and trunk pitched further posteriorly throughout the stride. Most of the riders showed similar sagittal plane movements of the axial body segments but with some notable individual variations.
| Insgesamt | Letzte 365 Tage | In den letzten 30 Tagen | |
|---|---|---|---|
| Aufrufe von Kurzbeschreibungen | 0 | 0 | 0 |
| Gesamttextansichten | 518 | 170 | 20 |
| PDF-Downloads | 536 | 163 | 3 |
