CZ.1.07/2.3.00/09.0209

V rámci 4. mezinárodní studentská konference plné barev proběhnou ve čtvrtek 18. dubna 2013 v 18 hodin dva workshopy zaměřené na biomechanickou analýzu pohybu s následujícími názvy:

  • 3D kinematická analýza a dynamická plantografie
  • Izokinetická dynamometrie

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Plantografie – metoda

Plantografie - využití ve výzkumu a klinice

Kineziologie nohy a chůze

Vyšetření nohy

Ortotika

 

Plantografie – metoda

Alvarez, Ch., De Vera, M., Chhina, H., & Black, A. (2008). Normative data for the dynamic pedobarographic profiles of children. Gait  Posture, 28, 309–315. [LINK ZDE]

Cornwall, M.W., & McPoil, T.G. (2000). Velocity of the center of pressure during walking. J Am Podiatr Med Assoc, 90(7), 334-338. [LINK ZDE]

Cornwall, M.W., & McPoil, T.G. (2003). Reliability and validity of Center-of-Pressure quantification. J Am Podiatr Med Assoc, 93(2), 142-149. [LINK ZDE]

Deschamps, K., Birch, I., Mc Innes, J., Desloovere, K., & Matricali, G.A. (2009). Inter- and intra-observer reliability of masking in plantar pressure measurement analysis. Gait Posture, 30, 379–382.

Greiner, J., Dohle, W., Schulze, T., Ostermann, T, & Hamel, J. (1999). The visual assignment of pedographic examination results to anatomical reference areas of the forefoot: a pedographic-radiological study of healthy and abnormal morphology of the forefoot. Foot and Ankle Surgery, 5, 219-226.

Han,T.R., Paik, N.J., & Im, M.S. (1999). Quantification of the path of center of pressure (COP) using an F-scan in-shoe transducer. Gait Posture, 10, 248–254.

Luger, E.J., Nissan, M., Karpf, A., Steinberg, E.L., & Dekel S. (1999). Patterns of weight distribution under the metatarsal heads. J Bone Joint Surg [Br];81-B, 199-202. [LINK ZDE]

Maetzler, M., Bochdansky, T., & Abboud, R.J. (2010). Normal pressure values and repeatability of the Emed((R)) ST2 system. Gait Posture. Jul 19. [Epub ahead of print]. [LINK ZDE]

McPoil, T.G., & Cornwall, M. W. (1998).  Variability of the Center of Pressure pattern integral during walking. J Am Podiatr Med Assoc, 88(6), 259-267. [LINK ZDE]

McPoil, T.G., Cornwall, M. W., Dupuis, L., & Cornwell, M. (1999). Variability of plantar pressure data. A comparison of the two-step and midgait methods. J Am Podiatr Med Assoc, 89(10), 495-501. [LINK ZDE]

Menz, H.B., & Morris, M.E. (2006). Clinical determinants of plantar forces and pressures during walking in older people. Gait Posture,  24, 229–236.

Murphy, D.F., Beynnon, B.D., Michelson, J.D., & Vacek, P.M. (2005). Efficacy of plantar loading parameters during gait in terms of reliability, variability, effect of gender and relationship between contact area and plantar pressure. Foot Ankle Int, 26(2), 171-9. [LINK ZDE]

Oladeji, O., Stackhouse, C., Gracely, E., & Orlin, M. (2008). Comparison of the two-step and midgait methods of plantar pressure measurement in children. J Am Podiatr Med Assoc, 98(4), 268-77. [LINK ZDE]

Pataky, T.C., Keijsers, N.L.W.,  Goulermas, J.Y., & Crompton, R.H. (2009). Nonlinear spatial warping for between-subjects pedobarographic image registration. Gait  Posture, 29, 477–482.

Putti, A.B., Arnold, G.P., Cochrane, L.A., & Abboud, R.J. (2007). The Pedar in-shoe system: repeatability and normal pressure values. Gait Posture, 25(3), 501-5. [LINK ZDE]

Putti, A.B., Arnold, G.P., Cochrane, L.A., & Abboud, R.J. (2008). Normal pressure values and repeatability of the Emed ST4 system. Gait Posture, 27(3), 501-5. [LINK ZDE]

Ramanathan, A.K., Kiran, P., Arnold, G.P., Wang, W., & Abboud, R.J. (2010). Repeatability of the Pedar-X in-shoe pressure measuring system. Foot Ankle Surg, 16(2), 70-3. [LINK ZDE]

Rothbart, B.A. (2004). Pressure plate analysis of the medial column foot insole - a statistical study. [LINK ZDE]

Urry, S., R., & Wearing, S.C. (2001). A Comparison of Footprint Indexes Calculated From Ink and Electronic Footprints. Journal of the American Podiatric Medical Association, 91(4), 203-209.

Urry, S., R., & Wearing, S.C. (2005). Arch indexes from ink footprints and pressure platforms are different. The Foot 15(2), 68-73.

 

Plantografie - využití ve výzkumu a klinice

Diabetes mellitus

Crawford, F., Inkster, M., Kleijnen, J., & Fahey, T. (2007). Predicting foot ulcers in patients with diabetes: A systematic review and meta-analysis. Q J Med, 100, 65–86. [LINK ZDE]

Hsi, W.L., Chai, H.M., & Lai, J.S. (2004). Evaluation of rocker sole by pressure–time curves in insensate forefoot during gait. Am J Phys Med Rehabil, 83, 500–506. [LINK ZDE]

Krysiak-Zielonka, I. (2008). Is it possible to predict places of occurrence of diabetic ulceration? Diabetologia Doświadczalna i Kliniczna, 8(3), 110-114. [LINK ZDE]

Mueller, M.J., Zou, D., & Lott, D.J. (2005).“Pressure Gradient” as an indicator of plantar skin injury. Diabetes Care, 28, 2908–2912. [LINK ZDE]

Owings, T.M., Apelqvist, J., Stenström, A., Becker, M., Bus, S.A., Kalpen, A., Ulbrecht, J.S., & Cavanagh, P.R. (2009). Plantar pressures in diabetic patients with foot ulcers which have remained healed. Diabet Med, 26(11), 1141-6. [LINK ZDE]

Rao, S., Saltzman, Ch.L., & Yack, H.J. (2008). Plantar fascia thickness and first metatarsal mobility in patients with diabetes and neuropathy. 1st Congress of the International Foot & Ankle Biomechanics (i-FAB) community Bologna, Italy. 4–6 September 2008. Journal of Foot and Ankle Research, 1(Suppl 1), O4. [LINK ZDE]

Rao, S., Saltzman, Ch.L., & Yack, H.J. (2009). Relationships between segmental foot mobility and plantar loading in individuals with and without diabetes and neuropathy. Gait Posture, in press [LINK ZDE]

DMO

Bennett, D., Walsh, M., O'Sullivan, R., Gallagher, J., O'Brien, T., & Newman, Ch.J. (2007). Use of a dynamic foot pressure index to monitor the effects of treatment for equinus gait in children with cerebral palsy. Journal of Pediatric Orthopedics, 27(3), 288-294. [LINK ZDE]

Czupryna, K., Nowotny, J., Nowotny-Czupryna, O., & Domagalska, M. (2006).Gait analysis in cerebral palsied children as a base for programming their rehabilitation and control of its results. Medical Rehabilitation, 10(1), 27-43. [LINK ZDE]

Falso, M., Fiaschi, A., & Manganotti, P. (2005) Pedobarometric evaluation of equinus foot disorder after injection of botulinum toxin A in children with cerebral palsy: a pilot study. Developmental Medicine & Child Neurology, 47, 396–402. [LINK ZDE]

Manganotti, P., Zaina, F., Falso, M., Milanese, F., & Fiaschi, A. (2007). Evaluation of botulinum toxin therapy of spastic equinus in paediatric patients with cerebral palsy. J Rehabil Med, 39, 115–120. [LINK ZDE]

Park, E.S., Kim, H.W., Park, C.I., Rha, D.W., & Park, C.W. (2006). Dynamic foot pressure measurements for assessing foot deformity in persons with spastic cerebral palsy. Arch Phys Med Rehabil, 87(5), 703-9. [LINK ZDE]

Obezita

Dowling, A.M., Steele, J.R., & Baur, L.A. (2001). Does obesity influence foot structure and plantar pressure patterns in prepubescent children? Int J Obes Relat Metab Disord, 25(6), 845-52. [LINK ZDE]

Dowling, A.M., Steele, J.R., & Baur, L.A. (2004). What are the effects of obesity in children on plantar pressure distributions? Int J Obes Relat Metab Disord, 28(11), 1514-9. [LINK ZDE]

Fabris, S.M, Valezi, A.C., de Souza, S.A.F, Faintuch, J., Cecconello, I., & Pedroni (Jr.), M. (2006). Computerized baropodometry in obese patients. Obesity Surgery, 16, 1574-1578. [LINK ZDE]

Gravante, G., Russo, G., Pomara, F., & Ridola, C. (2003). Comparison of ground reaction forces between obese and control young adults during quiet standing on a baropodometric platform. Clin Biomech (Bristol, Avon), 18(8), 780-2. [LINK ZDE]

Mickle, K.J., Steele, J.R., & Munro, B.J. (2006). Does excess mass affect plantar pressure in young children? Int J Pediatr Obes, 1(3), 183-8. [LINK ZDE]

Taisa, F.N., de Almeida, B.T., & da Costa, L. (2008). Comparison of static footprints and pedobarography in obese and non-obese children. Foot Ankle Int., 29(11), 1141-4. [LINK ZDE]

Parkinson, CMP

Hughes, J.R., Bowes, S.G., Leeman, A.L., O'Neill, C.J., Deshmukh, A.A., Nicholson, P.W., Dobbs, S.M., & Dobbs, R.J. (1990). Parkinsonian abnormality of foot strike: a phenomenon of ageing and/or one responsive to levodopa therapy? Br J Clin Pharmacol. 29(2), 179–186. [LINK ZDE]

Nardone, A., Godi, M., Grasso, M., Guglielmetti, S., & Schieppati, M. (2009). Stabilometry is a predictor of gait performance in chronic hemiparetic stroke patients. Gait Posture, 30(1), 5-10.

Nolan, K.J., Savalia, K.K., Yarossi, M., & Elovic, E.P. (2007). A Novel methodology to objectively quantify functional improvement after chemoneurolytic intervention. Neurorehabil Neural Repair, 21, E7. [LINK ZDE]

Gonalgie

Hoffmann L., Schwirtz A., Neubert A., & Pfaff G. (??). Anterior knee pain and its correlation to the plantar pressure [LINK ZDE]

Kul-Panza. E., & Berker, N. (2006). Pedobarographic findings in patients with knee osteoarthritis. Am J Phys Med Rehabil, 85, 228-233. [LINK ZDE]

Typy nohy, deformity

Crosbie, J., & Burns, J. (2008). Are in-shoe pressure characteristics in symptomatic idiopathic pes cavus related to the location of foot pain? Gait Posture, 27, 16–22.

De Cock, A., Willems, T., Witvrouw, E., Vanrenterghem, J., & De Clercq, D. (2006). Afunctional foot type classification with cluster analysis based on plantar pressure distribution during jogging. Gait Posture, 23, 339–347.

Diezi, C., Favre, P., & Vienne, P. (2008). Primary isolated subtalar arthrodesis: outcome after 2 to 5 years followup. Foot & Ankle International, 29(12), 1195-1202. [LINK ZDE]

Hahn, F., Maiwald, C., Horstmann, T., & Vienne, P (2008). Changes in plantar pressure distribution after Achilles tendon augmentation with flexor hallucis longus transfer. Clinical Biomechanics, 23(1), 109-116. [LINK ZDE]

Henry, A.P.J., & Waugh, W. (1975). The use of footprints in assessing the results of operations for hallux valgus. The journal of bone and joint surgery, 57-B(4), 478-471. [LINK ZDE]

Herd, F., Ramanathan, A.K., Cochrane, L.A., Macnicol, M., & Abboud, R.J. (2008). Foot pressure in clubfoot-the development of an objective assessment tool. Foot (Edinb), 18(2), 99-105. [LINK ZDE]

Huber, H., & Dutoit, M. (2004). Dynamic foot-pressure measurement in the assessment of operatively treated clubfeet. J Bone Joint Surg Am. 86-A(6), 1203-10. [LINK ZDE]

Chadwick, C., Betts, R.P., Davies, M.B., & Fernandes, J.A. (2005). Pedobarography as a measure of improvement of foot alignment following lateral column lengthening in adolescents. Journal of Bone and Joint Surgery - British 87-B (SUPP_III), 396. [LINK ZDE]

Chang, CH., Miller, F., & Schuyler, J. (2002). Dynamic pedobarograph in evaluation of varus and valgus foot deformities. J Pediatr Orthop, 22(6), 813-8. [LINK ZDE]

Jeans, K.A., & Karol, L.A. (2010). Plantar pressures following Ponseti and French physiotherapy methods for clubfoot. J Pediatr Orthop, 30(1), 82-9. [LINK ZDE]

Kumar, V., Maru, M., Attar, F., & Adedapo, A.O. (2006). Plantar foot pressure study using the Fscan pedobarograph: comparision of normal with hallux rigidus and metatarsalgia. Journal of Bone and Joint Surgery - British Volume, 88-B(SUPP_III), 406. [LINK ZDE]

Ledoux, W.R., & Hillstrom, H.J. (2002). The distributed plantar vertical force of neutrally aligned and pes planus feet. Gait Posture 15, 1–9.

Molloy, J.M., Christie, D.S., Teyhen, D.S., Yeykal, N.S., Tragord, B.S., Neal, E.M.S., Nelson, S. & McPoil T. (2009). Effect of running shoe type on the distribution and magnitude of plantar pressures in individuals with low- or high-arched feet. J Am Podiatr Med Assoc, 99(4), 330 - 338. [LINK ZDE]

Nyska, M., Shabat, S., Simkin, A., Neeb, M., Matan, Y., & Mann, G. (2003). Dynamic force distribution during level walking under the feet of patients with chronic ankle instability. Br J Sports Med, 37(6), 495-7. [LINK ZDE]

Rai, D.V., & Aggarwal, L.M.(2006). Study of plantar pressure distribution in normal and pathological foot. Pol J Med Phys Ing, 12(1), 25-34. [LINK ZDE]

Rai, D.V., Aggarwal, L.M., & Bahadur, R. (2006). Plantar pressure changes in normal and pathological foot during bipedal standing. Indian Journal of Orthopedics, 40(2), 119-122. [LINK ZDE]

Riad, J., Coleman, S., Henley, J., & Miller, F. (2007). Reliability of pediobarographs for paediatric foot deformity. J Child Orthop, 1(5), 307-12. [LINK ZDE]

Sinclair, M.F., Bosch, K., Rosenbaum, D., & Böhm, S. (2009). Pedobarographic analysis following Ponseti treatment for congenital clubfoot. Clin Orthop Relat Res, 467(5), 1223-30. [LINK ZDE]

Wong, L., Hunt, A., Burns, J., & Crosbie, J. (2008). Effect of foot morphology on center-of-pressure excursion during barefoot walking. J Am Podiatr Med Assoc, 98(2), 112-7. [LINK ZDE]

Yamamoto, H., Muneta, T., Asahina, S., & Furuya, K. (1996). Forefoot pressures during walking in feet afflicted with hallux valgus. Clin Orthop, 323, 247-53. [LINK ZDE]

Ortotika

Fuller, E., Schroeder, S., & Edwards, J. (2001). Reduction of peak pressure on the forefoot with a rigid rocker-bottom postoperative shoe. J Am Podiatr Med Assoc, 91(10), 501-507. [LINK ZDE]

Guldemond, N.A., Leffers, P., Sanders, A.P., Emmen, H., Schaper, N.C., Walenkamp, G.H.I.M. (2006). Casting methods and plantar pressure. Effects of custom-made foot orthoses on dynamic plantar pressure distribution. J Am Podiatr Med Assoc, 96(1), 9-18. [LINK ZDE]

Mueller, M.J. (1999). Application of plantar pressure assessment in footwear and insert design. J Orthop Sports Phys Ther, 29, 747–755. [LINK ZDE]

Ramanathan, A.K., John, M.C., Arnold, G.P., Cochrane, L., & Abboud, R.J. (2008). The effects of off-the-shelf in-shoe heel inserts on forefoot plantar pressure. Gait  Posture, 28, 533–537.

Ostatní

Grimshaw, A. (?). An Investigation to determine whether there is a correlation between a positive navicular drop test and changes to plantar pressures.

Hughes, J. (1993). The clinical use of pedobarography. Acta ortopaedica Belgica, 59(1), 10-16. [LINK ZDE]

Michilsens, F., Aerts P., Van Damme R., & D’Aout, K. (2009). Scaling of plantar pressures in mammals. J Zoology, 279, 236–242. [LINK ZDE]

Minns, R.J., & Craxford, A.D. (1984). Pressure under the forefoot in rheumatoid arthritis. A comparison of static and dynamic methods of assessment. Clin Orthop Relat Res, (187), 235-42. [LINK ZDE]

Putti, A.B., Arnold, G.P., & Abboud, R.J. (2010). Foot pressure differences in men and women. Foot Ankle Surg, 16(1), 21-4. [LINK ZDE]

Robinson, M., & Lake, M. (2005). Plantar pressure measurements during barefoot and shod running –relationships to lower limb kinematics. Footwear Biomechanics Group Symposium, Cleveland. [LINK ZDE]

Roy, K.J. (1988). Force, pressure, and motion measurements in the foot: current concepts. Clin Podiatr Med Surg, 5(3), 491-508. [LINK ZDE]

Tanaka, T., Hashimoto, N., Nakata, M., Ito, T., Ino, S., & Ifukube, T. (1996). Analysis of toe pressures under the foot while dynamic standing on one foot in healthy subjects. J Orthop Sports Phys Ther, 23(3), 188-93. [LINK ZDE]

Tsung, B.Y.S., Zhang, M., Fan, Y.B., & Boone, D.A. (2003).Quantitative comparison of plantar foot shapes under different weight-bearing conditions. Journal of Rehabilitation Research and Development, 40(6), 517—526. [LINK ZDE]

Turner, D.E., Helliwell, P.S., Burton, A.K., & Woodburn, J. (2007). The relationship between passive range of motion and range of motion during gait and plantar pressure measurements. Diabet Med, 24(11), 1240-6. [LINK ZDE]

Van Gheluwe, B., Kirby, K.A., & Hagman, F. (2005). Effects of simulated genu valgum and genu varum on ground reaction forces and subtalar joint function during gait. J Am Podiatr Med Assoc, 95(6), 531-541. [LINK ZDE]

VanZant, R.S., McPoil, T.G., & Cornwall, M.W. (2001). Symmetry of plantar pressures and vertical forces in healthy subjects during walking. J Am Podiatr Med Assoc, 91(7), 337-42.

Vařeka, I. (2004). Pronace/everze v subtalárním kloubu vyvolaná flexí v kolením kloubu v uzavřeném kinematickém řetězci. Rehabil. fyz. lék., 11(4), 163-168. [LINK ZDE]

Vereecke, E., D'Août, K., De Clercq, D., Van Elsacker, L. & Aerts, P. (2003), Dynamic plantar pressure distribution during terrestrial locomotion of Bonobos (Pan paniscus). Am J Phys Anthropol, 120, 373–383. [LINK ZDE]

Wearing, S.C., Smeathers, J.E., & Urry, S.R. (2003). The effect of plantar fasciitis on vertical foot-ground reaction force. Clin Orthop Relat Res, (409), 175-85. [LINK ZDE]

Williams, B.E., & Yakel, J.D. (2007). Clinical uses of in-shoe pressure analysis in podiatric sports medicine. J Am Podiatr Med Assoc, 97(1), 49-58. [LINK ZDE]

 

Kineziologie nohy a chůze

Aerts, P., Ker, R. F., De Clercq, D., & Ilsley. D. W. (1996). The effects of isolation on the mechanics of the human heel pad. J. Anat., 188(2), 417–423.

Bojsen-Møller, F. (1979). Calcaneocuboid joint and stability of the longitudinal arch of the foot at high and low gear push off. J. Anat. 129(1), 165-176. [LINK ZDE]

Brown, L.P., & Yavorsky, P. (1987). Locomotor biomechanics and pathomechanics: a review. The Journal of Orthopaedic and Sports Physical Therapy, 9(1), 3-9.

Buchanan, K.R. (2005). The relationship between forefoot, midfoot, and rearfoot static alignment in pain-free individuals. Journal of Orthopaedic & Sports Physical Therapy, 35, 559-566. [LINK ZDE]

Coplan, J.A. (1989). Rotational motion of the knee: a comparison of normal and pronating subjects. The Journal of Orthopaedic and Sports Physical Therapy, March, 366-369.

Cornwall, M.W., McPoil, T.G., Fishco, W.D., Hunt, L., Lane, C., & O’Donnell, D. (2004). The relationship between forefoot alignment and rearfoot motion during walking. Australasian Journal of Podiatric Medicine 38(2), 35-40.

Cote, K.P., Brunet II, M.E., Gansneder, B.M., & Shultz, S.J. (2005). Effects of pronated and supinated foot postures on static and dynamic postural stability. Journal of Athletic Training; 40(1), 41-46.

Daniels, T.R., Smith, J.W., Ross, T.I. (1996). Varus malalignment of the talar neck. its effect on the position of the foot and on subtalar motion. The Journal of Bone and Joint Surgery,78-A(10), 1559-1567.

Donatelli, R. (1987). Abnormal biomechanics of the foot and ankle. The Journal of Orthopaedic and Sports Physical Therapy, 9(1), 11-16.

Donatelli, R., Wooden, M., Ekedahl, S.R., Wilkes, J.S., Cooper, J., & Bush, A.J. (1999). Relationship between static and dynamic foot postures in professional baseball players. Journal of Orthopaedic & Sports Physical Therapy, 29(6), 316-330.

Glasoe, W. M., Yack, M. H. J., & Saltzman, Ch. L. (1999). Anatomy and biomechanics of the first ray. Phys. Ther., 79(9), 854-859. [LINK ZDE]

Grebing, B. R., & Coughlin, M.J. (2004). Evaluation of Morton's theory of second metatarsal hypertrophy. Journal of Bone and Joint Surgery, 86A(7), 1375-1386.

Hargrave, M.D., Carcia, Ch.R., Gansneder, B.M., & Shultz, S.J. (2003). Subtalar pronation does not influence impact forces or rate of loading during a single-leg landing. Journal of Athletic Training, 38(1), 18-23. [LINK ZDE]

Hertel, J., Gay, M.R., & Denegar, C.R. (2002). Differences in postural control during single-leg stance among healthy individuals with different foot types. Journal of Athletic Training.37(2), 129–132. [LINK ZDE]

Chen, Y., Yu, G., Mei, J., Zhou, J., & Wang, W. (2008). Assessment of subtalar joint neutral position: a cadaveric study. Chinese Medical Journal, 121(8), 735-739. [LINK ZDE]

Kim1and, W., & Tan, J. (2005). The relationship between tibial rotation and rear foot movement. Footwear Biomechanics Group Symposium, Cleveland. [LINK ZDE]

Lee, W. E. (2001). Podiatric biomechanics: an historical appraisal and discussion of the Root model as a clinical system of approach in the present context of theoretical uncertainty. Clin. Pod. Med. Surg., 18(4), 555-684.

McPoil T.G., Knecht, H.G., & Schuit, D. (1988). A survey of foot types in normal females between the ages of 18 and 30 years. J. Orthop. Sports Phys. Ther., (9), 406-409. [LINK ZDE]

Menz, H.B., Morris, M.E., & Lord, S.R. (2005). Foot and ankle characteristics associated with impaired balance and functional ability in older people. The Journals of Gerontology, 60A(12), 1546-1552.

Michaud, T.C. (1997). Custom Orthoses: The Forefoot Varus Deformity: 9 or 90 Percent Prevalence? The over-reporting of forefoot varus deformities may be the result of a variety of errors that may occur during patient examination. BioMechanics, May.

Nakhaee Z., Rahimi A. , Abaee M., Rezasoltani, A., & Khademi Kalantari, K. (2008). The relationship between the height of the medial longitudinal arch (MLA) and the ankle and knee injuries in professional runners. The Foot, 18, 84–90. [LINK ZDE]

Powers, Ch.M., Maffucci, R., & Hampton, S.(1995). Rearfoot posture in subjects with patellofemoral pain. The Journal of Orthopaedic and Sports Physical Therapy 22(4), 155-160.

Simon, J., Doederlein, L., McIntosh, A .S., Metaxiotis, D., Bock, H. G., & Wolf, S. I. (2006). The Heidelberg foot measurement method: Development, description and ssessment. Gait Posture, 23(4), 411-424.

Stebbins, J., Harrington, M., Thompson, N., Zavatsky, T., & Theologis, T. (2006). Repeatibility of model for measuring multi-segment foot kinematics in children. Gait Posture, 23(4), 401-410.

Tiberio, D. (1987). The effect of excessive subtalar joint pronation on patellofemoral mechanics: a theoretical model. The Journal of Orthopaedic and Sports Physical Therapy, 9(4), 160-165.

Tis, L. L, & Higbie, E. J. (1999). Function analysis: Static forefoot varus lacks dynamic correlate. BioMechanics

Tulchin, K., Karol, L., & St. Remy, C. (??). Kinematic and pedobarograph evaluation following adolescent triple arthrodesis. [LINK ZDE]

Vařeka, I., & Vařeková, R. (2008a). Srovnání výskytu funkčních typů nohy u mužů a žen. Rehab. fyz. Lek., 15(2), 57-62. [LINK ZDE]

Vařeka, I., Vařeková, R., Lehnert, M., Kolář, P., & Stejskal, D. (2009). The effect of foot type and laterality on ankle sprain in elite female volleyball athletes. Kinesiology 41(2), 164-171. [LINK ZDE]

Vařeka, I., & Yanac-Paredes, E.I. (2008). Funkce nohy po sejmutí sádrové fixace. Pohybové ústrojí, 15(1+2), 39-44.

Wakeling, J.M., Liphardt, A.M., & Nigg, B.M. (2003). Muscle activity reduces soft-tissue resonance at heel-strike during walking. Journal of Biomechanics, 36, 1761–1769. [LINK ZDE]

Vyšetření nohy

Dahle, L.K., Mueller, M., Delitto, A., & Diamond, J.E. (1991). Visual assessment of foot type and relationship of foot type to lower extremity injury. The Journal of Orthopaedic and Sports Physical Therapy, 14(2), 70-74.

Jam, B. (2006). Evaluation and retraining of the intrinsic foot muscles for pain syndromes related to abnormal control of pronation. Orthopaedic Division Review, 24-30 [LINK ZDE]

Prior, T.D. (2000).Biomechanical foot function: a Podiatric perspective. What´s Afoot (Vasily Medical Newsletter), [LINK ZDE]

Jung, D., Kim, M., & Chang, I. (2006). Relationship of foot type to callus location in healthy subjects. PTK, 13(4), 64-70.

Redmond, A.C. Crosbie, J., & Ouvrier, R.A. (2006). Development and validation of a novel rating system for scoring standing foot posture: The Foot Posture Index. Clinical Biomechanics, 21, 89–98

Redmond, A. (2005). The Foot Posture Index. Easy quantification of standing foot posture. Six item version. FPI-6. User guide and manual. [LINK ZDE]

Vařeka, I., & Vařeková, R. (2003). Klinická typologie nohy. Rehabil. fyz. Lék., 10(3), 94-102. . [LINK ZDE]

Vařeka, I., & Vařeková, R. (2008). The height of the longitudinal foot arch assessed by Chippaux-Smirak index in the compensated and uncompensated foot types according to Root. Acta Gymnica, 35-41. [LINK ZDE]

Ortotika

Bird, A.R., Bendrups, A.P., & Payne, C.P. (2003). The effect of foot wedging on electromyographic activity in the erector spinae and gluteus medius muscles during walking. Gait Posture 18, 81-91.

Cobb, S.C., Tis, L.L., & Johnson, J.T. (2006). The effect of 6 weeks of custom-molded foot orthosis intervention on postural stability in participants with 7 degrees of forefoot varus. Clin J Sport Med, 16(4), 316–322

Donatelli, R., Hurlbert, C., Conaway, D. & St. Pierre, R. (1988). Biomechanical Foot Orthotics: A Retrospective Study. The Journal of Orthopaedic and Sports Physical Therapy,10(6), 205-212.

Edwards, A.R. (1998). Roundtable: No one stays neutral on subtalar casting position. BioMechanics [LINK ZDE]

Glaser, E, Bursch, D, & Currie, Stuart (2009). Theory, practice combine for custom orthoses. BioMechanics [LINK ZDE]

Humble, N. (2003). Podiatric managemet in ice skating. Podiatry Managemet, 49. [LINK ZDE]

Johanson, M.A, Donatelli, R., Wooden, M.J., Andrew, P.D. & Cummings, G.S. (1994). Effects of three different posting methods on controlling abnormal subtalar pronation. Physical Therapy, 74(2), 149-158. [LINK ZDE]

Kirby, K.A. (2009). Are Root Biomechanics Dying? Podiatry Today, 4, 58-65 [LINK ZDE]

Mattacola, C.G., Dwyer, M.K., Miller, A.K., Uhl, T.L., McCrory, J.L., & Malone, T.R. (2007). Effect of orthoses on postural stability in asymptomatic subjects with rearfoot malalignment during a 6-week acclimation period. Arch Phys Med. Rehabil, 88, 653-60. [LINK ZDE]

McPoil, T., Schuit, D., & Knecht, H.G. (1989). Comparison of three methods used to obtain a neutral plaster foot impression. Physical Therapy, June [LINK ZDE]

Miller, M., & McGuire, J. (2000). Literature reveals no consensus on subtalar neutral. BioMechanics. [LINK ZDE]

Nester, C.J., van der Linden, M.L., & Bowker, P. (2003). Effect of foot orthoses on the kinematics and kinetics of normal walking gait. Gait and Posture, 180-187

Nigg, B.M., Nurse, M.A., & Stefanyshyn, D.J. (1999). Shoe inserts and orthotics for sport and physical activities. Med. Sci. Sports Exerc., 31(7 Suppl.), 421-428.

Nurse, M.A., Nigg, B.M., & Deazeley, S. (). Effects of forefoot orthotic posting on the kinematics of the lower extremities during walking [LINK ZDE]

Snedeker, J.G. Cavanagh, P.R. (1999). A method for the design of heel cushioning insoles. Presented at the 23rd Annual Meeting of the American Society of Biomechanics University of Pittsburgh October 21-23, [LINK ZDE]

Sutlive, T.G., Mitchell, S.D., Maxfield, S.N., McLean, C.L., Neumann, J.C., Swiecki, Ch.R., Hall, R.C, Bare A.C., Flynn, T.W. (2004). Identification of individuals with patellofemoral pain whose symptoms improved after a combined program of foot orthosis use and modified activity: a preliminary investigation. Phys Ther, 84(1), 49-61. [LINK ZDE]

Vařeka, I., & Vařeková, R. (2005). Patokineziologie nohy a funkční ortézování. Rehabil. fyz. Lék., 12(4), 155-166. [LINK ZDE]

 


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Sofistikovaná biomechanická diagnostika lidského pohybu, 2009-2012
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