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http://dx.doi.org/10.21598/JKPNFA.2022.20.2.167

Changes in Plantar Pressure and Gait Characteristics in Adults with Asymptomatic Flexible Pes Planus by Different Taping  

Kim, Jong-Soon (Department of Physical Therapy, College of Health Sciences, Catholic University of Pusan)
Publication Information
PNF and Movement / v.20, no.2, 2022 , pp. 167-177 More about this Journal
Abstract
Purpose: Pes planus is a common foot deformity that involves the loss of the medial longitudinal arch. The medial longitudinal arch deformity is usually asymptomatic; however, it can lead to an increased risk of pain and injury. Low-Dye taping is designed to treat plantar heel pain and pes planus. However, low-Dye taping is relatively complex, and a considerable amount of time is required to apply the tape correctly. The purpose of this study was to compare the acute effect of two different types of taping (low-Dye taping and modified Mulligan taping) on arch reformation, plantar pressure, and gait characteristics in participants with asymptomatic flexible pes planus. Methods: Twenty subjects (9 males and 11 females; mean age = 21.95 years) with asymptomatic flexible pes planus voluntarily participated in this study. Arch reformation was evaluated using navicular height measurements. Changes in plantar pressure distribution were measured using BioRecue equipment. Gait parameters were measured using spatiotemporal data collected during consecutive gait cycles using a G-WALK device. One-way analysis of variance was used to compare the three different conditions (i.e., bare foot, low-Dye taping, and modified Mulligan taping) for each variable. Results: Navicular height was significantly increased in subjects who underwent the two types of taping compared to those who experienced the bare foot condition. The plantar pressure was significantly shifted to the posterolateral area after modified Mulligan taping compared with the bare foot condition. There were no significant differences in the gait parameters. Conclusion: The findings of this study indicate that modified Mulligan taping has a similar effect to low-Dye taping, and modified Mulligan taping is a simpler method than low-Dye taping.
Keywords
Low-Dye taping; Modified Mulligan taping; Pes planus;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 Atik A, Ozyurek S. Flexible flatfoot. Nothern Clinics of Istanbul. 2014;1(1):57-64.   DOI
2 Beauchet O, Allali G, Sekhon H, et al. Guidelines for assessment of gait and reference values for spatiotemporal gait parameters in older adults: The biomathics and canadian gait consortiums initiative. Frontier in Human Neuroscience. 2017;11:353.   DOI
3 Carr JB 2nd, Yang S, Lather LA. Pediatric pes planus: A state-of-the-art review. Pediatrics. 2016;137(3): e20151230.   DOI
4 Chae YH, Kim JS, Kang Y, et al. Clinical and biomechanical effects of low-Dye taping and figure-8 modification of low-Dye taping in patients with heel pad atrophy. Annals of Rehabilitation Medicine. 2018;42(2):222-228.   DOI
5 Coughlin MJ, Mann RA, Saltzman CL. Surgery of the foot an ankle. 8th ed. Philadelphia. Mosby. 2007.
6 Dahle LK, Mueller M, Delitto A, et al. Visual assessment of foot type and relationship of foot type to lower extremity injury. Journal of Orthopaedic & Sports Physical Therapy. 1991;14(2):70-74.   DOI
7 Franco AH. Pes cavus and pes planus. Analyses and treatment. Physical Therapy. 1987;67(5):688-694.   DOI
8 Franettovich M, Chapman A, Blanch P, et al. Continual use of augmented low-Dye taping increases arch height in standing but does not influence neuromotor control of gait. Gait & Posture. 2010;31(2):247-250.   DOI
9 Kawai H, Taniguchi Y, Seino S, et al. Reference values of gait parameters measured with a plantar pressure platform in community-dwelling older Japanese adults. Clinical Interventions in Aging. 2019;14:1265-1276.   DOI
10 Keenan AM, Tanner CM. The effect of high-Dye and low-Dye taping on rearfoot motion. Journal of the American Podiatric Medical Association. 2001;91(5):255-261.   DOI
11 Kelly LA, Cresswell AG, Farris DJ. The energetic behaviour of the human foot across a range of running speeds. Scientific Reports. 2018;8(1):10576.   DOI
12 Kim JS, Lee MY. The effect of short foot exercise using visual feedback on the balance and accuracy of knee joint movement in subjects with flexible flatfoot. Medicine(Baltimore). 2020;99(13):e19260
13 Kim T, Park JC. Short-term effects of sports taping on navicular height, navicular drop and peak plantar pressure in healthy elite athletes: A within-subject comparison. Medicine(Baltimore). 2017;96(46):e8714.
14 Kitaoka HB, Ahn TK, Luo ZP, et al. Stability of the arch of the foot. Foot & Ankle International. 1997;18(10):644-648.   DOI
15 Lange B, Chipchase L, Evans A. The effect of low-Dye taping on plantar pressures, during gait, in subjects with navicular drop exceeding 10 mm. Journal of Orthopaedic & Sports Physical Therapy. 2004;34(4):201-209.   DOI
16 Lau LK, Wee SL, Pang WJB, et al. Reference values of gait speed and gait spatiotemporal parameters for a south east asian population: The yishun study. Clinical Interventions in Aging. 2020;15:1753-1765.   DOI
17 Okamura K, Kanai S, Fukuda K, et al. The effect of additional activation of the plantar intrinsic foot muscles on foot kinematics in flat-footed subjects. Foot (Edinburgh). 2019;38:19-23.   DOI
18 Lukhi J, Pawar A, Warude T, et al. Effect of Mulligan's calcaneal taping versus kinesiotaping in plantar fasciitis. Innovare Journal of Health Sciences, 2018;6(1):6-9.
19 Michaudet C, Edenfield KM, Nicolette GW, et al. Foot and ankle conditions: Pes planus. FP Essentials. 2018;465:18-23.
20 Newell T, Simon J, Docherty CL. Arch-taping techniques for altering navicular height and plantar pressures during activity. Journal of Athletic Training. 2015;50(8):825-832.   DOI
21 O'Sullivan K, Kennedy N, O'Neill E, et al. The effect of low-dye taping on rearfoot motion and plantar pressure during the stance phase of gait. BMC Musculoskeletal Disorders. 2008;9:111.   DOI
22 Park J, Kim T. Acute effect of taping on plantar pressure characteristics in athletes with exercise-induced leg pain: a description and comparison of groups. The Physician and Sportsmedicine. 2019;47(2):212-219.   DOI
23 Prusak KM, Prusak KA, Hunter I, et al. Comparison of two taping techniques on navicular drop and center-of-pressure measurements during stance. Athletic Training & Sports Health Care. 2014;6(6):252-260.   DOI
24 Russo SJ, Chipchase LS. The effect of low-Dye taping on peak plantar pressures of normal feet during gait. Australian Journal of Physiotherapy. 2001;47(4):239-244.   DOI
25 Wenger D, Rang M. The art and practice of children's orthopedics. New York. Raven Press. 1993.
26 Hadley A, Griffiths S, Griffiths L, et al. Antipronation taping and temporary orthoses. Effects on tibial rotation position after exercise. Journal of the American Podiatric Medical Association. 1999;89(3):118-123.   DOI
27 Bishop C, Arnold JB, May T. Effects of taping and orthoses on foot biomechanics in adults with flat-arched feet. Medicine & Science in Sports & Exercise. 2016;48(4):689-696.   DOI
28 Chen TL, Wong DW, Peng Y, et al. Prediction on the plantar fascia strain offload upon Fascia taping and Low-Dye taping during running. Journal of Orthopaedic Translation. 2019;20:113-121.   DOI
29 Delbroek T, Vermeylen W, Spildooren J. The effect of cognitive-motor dual task training with the biorescue force platform on cognition, balance and dual task performance in institutionalized older adults: a randomized controlled trial. The Journal of Physical Therapy Science. 2017;29(7):1137-1143.   DOI
30 Kelly LA, Racinais S, Tanner CM, et al. Augmented low dye taping changes muscle activation patterns and plantar pressure during treadmill running. Journal of Orthopaedic & Sports Physical Therapy. 2010;40(10):648-655.   DOI
31 Kim SJ, Lee BG, Sung IL. Adult flatfoot. Journal of the Korean Medical Association. 2014;57(3):243-252.   DOI
32 Koh HLA, Lin WH, Kong PW. Comfort and ground reaction forces in flat-footed female runners: comparison of low-Dye taping versus sham taping. Journal of Sports Science and Medicine. 2020;19(3):620-626.
33 Payehdar S, Saeedi H, Ahmadi A, et al. Comparing the immediate effects of UCBL and modified foot orthoses on postural sway in people with flexible flatfoot. Prosthetics and Orthotics International. 2016;40(1):117-122.   DOI
34 Levinger P, Murley GS, Barton CJ, et al. A comparison of foot kinematics in people with normal- and flat-arched feet using the Oxford Foot Model. Gait & Posture. 2010;32(4):519-523.   DOI
35 Mueller MJ, Host JV, Norton BJ. Navicular drop as a composite measure of excessive pronation. Journal of the American Podiatric Medical Association. 1993;83(4):198-202.   DOI
36 Okamura K, Fukuda K, Oki S, et al. Effects of plantar intrinsic foot muscle strengthening exercise on static and dynamic foot kinematics: A pilot randomized controlled single-blind trial in individuals with pes planus. Gait & Posture. 2020;75(1):40-45.   DOI
37 Sanchez-Rodriguez R, Valle-Estevez S, Fraile-Garcia PA, et al. Modification of pronated foot posture after a program of therapeutic exercises. International Journal of Environmental Research and Public Health. 2020;17(22):8406.   DOI
38 Struzik A, Stawarz M, Zawadzki J. The effect of low-Dye taping on hopping performance in handball players. Acta of Bioengineering and Biomechanics. 2020;22(3):3-8.
39 Vicenzino B, McPoil T, Buckland S. Plantar foot pressures after the augmented low dye taping technique. Journal of Athletic Training. 2007;42(3):374-380.
40 Unver B, Erdem EU, Akbas E. Effects of short-foot exercises on foot posture, pain, disability, and plantar pressure in pes planus. Journal of Sport Rehabilitation. 2019;29(4):436-440.   DOI
41 Staheli LT, Chew DE, Corbett M. The longitudinal arch. A survey of eight hundred and eighty-two feet in normal children and adults. The Journal of bone and joint surgery American volume. 1987;69(3):426-428.   DOI
42 Yurt Y, Sener G, Yakut Y. The effect of different foot orthoses on pain and health related quality of life in painful flexible flat foot: a randomized controlled trial. European Journal of Physical and Rehabilitation Medicine. 2019;55(1):95-102.
43 Alam F, Raza S, Moiz JA, et al. Effects of selective strengthening of tibialis posterior and stretching of iliopsoas on navicular drop, dynamic balance, and lower limb muscle activity in pronated feet: A randomized clinical trial. The Physician and Sportsmedicine. 2019;47(3):301-311.   DOI
44 Aenumulapalli A, Kulkarni MM, Gandotra AR. Prevalence of flexible flat foot in adults: A cross-sectional study. Journal of Clinical and Diagnostic Research. 2017;11(6):AC17-AC20.
45 Agrawal S, Deshpande M. Effectiveness of Mulligan's taping for the short term management of plantar heel pain-Randomised control trial. International Journal of Biomedical and Advance Research. 2015; 6(07):531-536.   DOI
46 Schulthies SS, Draper DO. A modified low-dye taping technique to support the medial longitudinal arch and reduce excessive pronation. Journal of Athletic Training. 1995;30(3):266-268.
47 Tang M, Wang L, You Y, et al. Effects of taping techniques on arch deformation in adults with pes planus: A meta-analysis. PLoS One. 2021;16(7):e0253567.   DOI
48 Troiano G, Nante N, Citarelli GL. Pes planus and pes cavus in Southern Italy: a 5 years study. Annali dell'Istituto Superiore di Sanita. 2017;53(2):142-145.
49 Verbruggen LA, Thompson MM, Durall CJ. The effectiveness of low-Dye taping in reducing pain associated with plantar fasciitis. Journal of Sport Rehabilitation. 2018;27(1):94-98.   DOI
50 Unver B, Bek N. Effects of different external supports on plantar pressure-time integral and contact area in flexible flatfoot. Journal of the American Podiatric Medical Association. 2021;111(3):Article_11.
51 Yoho R, Rivera JJ, Renschler R, et al. A biomechanical analysis of the effects of low-Dye taping on arch deformation during gait. Foot(Edinburgh). 2012;22(4):283-286.