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Morphological characteristics of intrinsic foot muscles among flat foot and normal foot using ultrasonography

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The purpose of this study was to compare the morphology of the intrinsic foot muscle between typical foot and flat foot with the use ultrasound. Methods: Thirty-seven healthy participants were recruited in this study. Foot types were classified using the Foot posture index 6-item version. A total of 43 flat feet and 31 typical feet were examined. Using B-mode ultrasound imaging, the morphology of the abductor hallucis, oblique head of adductor hallucis, abductor digiti minimi, and flexor digitorum brevis muscles were measured. Morphology of all muscles measured was normalized by body height. The independent Student’s t-test was used to examine the differences in the thickness and the cross-sectional area (CSA) of the intrinsic foot muscle among the two groups. Results: The thickness of abductor hallucis was significantly larger in flat foot group. The thickness and CSA of abductor digiti minimi and the thickness of oblique head of adductor hallucis were significantly smaller in flat foot group. Conclusions: Our results showed hypertrophied adductor hallucis, atrophied abductor digiti minimi, and atrophied oblique head of the adductor hallucis in individuals with flat feet, suggesting a possible tendency to hypertrophy in muscles that are located in a medial position and a possible tendency to atrophy in muscles that are located in a lateral position in flat feet.
Słowa kluczowe
Rocznik
Strony
161--166
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
  • Graduate School of Health Sciences, Morinomiya University of Medical Sciences
  • Graduate School of Health Sciences, Morinomiya University of Medical Sciences
  • Inclusive Medical Science Research Institute, Morinomiya University of Medical Sciences
Bibliografia
  • [1] ANGIN S., CROFTS G., MICKLE K.J., NESTER C.J., Ultrasound evaluation of foot muscles and plantar fascia in pes planus, Gait Posture, 2014, 40(1), 48–52, DOI: 10.1016/j.gaitpost.2014.02.008.
  • [2] BRENNER E., Insertion of the abductor hallucis muscle in feet with and without hallux valgus, Anat. Rec., 1999, 254 (3), 429–434, DOI: 10.1002/(SICI)1097-0185(19990301)254:3<429 ::AID-AR14>3.0.CO;2-5.
  • [3] DE MAESENEER M., MADANI H., LENCHIK L. et al., Normal Anatomy and Compression Areas of Nerves of the Foot and Ankle: US and MR Imaging with Anatomic Correlation, RadioGraphics, 2015, 35 (5), 1469–1482, DOI: 10.1148/rg. 2015150028.
  • [4] DONOVAN A., ROSENBERG Z.S., CONRADO F., MR Imaging of Entrap ment Neuropathies of the Lower Extremity, Part 2. Knee leg ankle foot, RadioGraphics, 2010, 30, 983–1000, DOI: 10.1148/rg.304095188.
  • [5] FIOKOWSKI P., BRUNT D., BISHOP M., WOO R., HORODYSKI M., Intrinsic pedal musculature support of the medial longitudinal arch: an electromyography study, J. Foot and Ankle Surg., 2003, 42 (6), 327–333, DOI: 10.1053/j.jfas.2003.10.003.
  • [6] FRASER J.J., FEGER M.A., HERTEL J., Midfoot and Forefoot Involvement in Lateral Ankle Sprains and Chronic Ankle Instability, Part 1. Anatomy and Biomechanics, Int. J. Sports Phys. Ther., 2016, 11 (6), 992–1005, PMCID: PMC5095951.
  • [7] HEADLEE D.L., LEONARD J., HART J.M., INGERSOLL C.D., HERTEL J., Fatigue of the plantar intrinsic foot muscle increases navicular drop, J. Electromyogr. Kinesiol., 2008, 18 (3), 420–425, DOI: 10.1016/j.jelekin.2006.11.004.
  • [8] HUANG Y.C., WANG L.Y., WANG H.C., CHANG K.L., LEONG C.P., The relationship between the flexible flatfoot and plantar fasciitis: ultrasonographic evaluation, Chang Gung Med. J., 2004, 27 (6), 443–448, PMID: 15455545.
  • [9] IAQUINTO J.M., WAYNE J.S., Computational Model of the Lower Leg and Foot/Ankle Complex: Application to Arch Stability, J. Biomech. Eng., 2010, 132 (2), 021009, DOI: 10.1115/1.4000939.
  • [10] KWON Y.H., HUTCHESON L., CASEBOLT J.B., RYU J.H., SINGHAL K., The effects of railroad ballast surface and slope on rearfoot motion in walking, J. Appl. Biomech., 2012, 28 (4), 457–65, DOI: https://doi.org/10.1123/jab.28.4.457
  • [11] MCKEON P.O., HERTEL J., BRAMBLE D., DAVIS I., The foot core system: A new paradigm for understanding intrinsic foot muscle function, Br. J. Sports Med., 2015, 49 (5), 290, DOI: 10.1136/bjsports-2013-092690.
  • [12] MICKLE K.J., NESTER C.J., CROFTS G., STEELE J.R., Reliability of ultrasound to measure morphology of the toe flexor muscles, J. Foot Ankle Research., 2013, 6 (1), 12, DOI: 10.1186/1757-1146-6-12.
  • [13] MURLEY G.S., MENZ H.B., LANDORF K.B., Foot posture influences the electromyographic activity of selected lower limb muscles during gait, J. Foot Ankle Res., 2009, 2 (1), 1–9, DOI: 10.1186/1757-1146-2-35.
  • [14] NEAL B.S., GRIFFITHS I.B., DOWLINGS G.J. et al., Foot posture as a risk factor for lower limb overuse injury: a systematic review and meta-analysis, J. Foot Ankle Research., 2014, 7(1), 55, DOI: 10.1186/s13047-014-0055-4.
  • [15] REDMOND A.C., CRANE Y.Z., MENZ H.B., Normative values for the Foot Posture Index, J. Foot Ankle Res., 2008, 1, 6, DOI: https://doi.org/10.1186/1757-1146-1-6.
  • [16] RODRIGUES R.N., LOPES A.A., TORRES J.M., MUNDIM M.F., SILVA L.G., SILVA B.R., Compressive neuropathy of the first branch of the lateral plantar nerve: a study by magnetic resonance imaging, Radiol. Bras., 2016, 48 (6), 368–372, DOI: 10.1590/0100-3984.2013.0028.
  • [17] STARKEY C., Athletic training and sports medicine: an integrated approach, 5th ed., Burlington, Jones & Bartlett Learning, 2013.
  • [18] TAS S., UNLUER N.O., KORKUSUZ F., Morphological and mechanical properties of plantar fascia and intrinsic foot muscles in individuals with and without flat foot, J. Orthop. Surg., 2018, 26 (3), 1–6, DOI: 10.1177/2309499018802482.
  • [19] TAŞ S., ÇETIN A., An investigation of the relationship between plantar pressure distribution and the morphologic and mechanic properties of the intrinsic foot muscles and plantar fascia, Gait Posture, 2019, (72), 217–221, DOI: https:// doi.org/10.1016/j.gaitpost.2019.06.021.
  • [20] THORDARSON D.B., SCHMOTZER H., CHON J., PETERS J., Dynamic support of the human longitudinal arch, A Biomechanical Evaluation, 1995, (316), 165–172, PMID: 7634700.
  • [21] TONG J.W., KONG P.W., Association Between Foot Type and Lower Extremity Injuries: Systematic Literature Review With Meta-analysis, Journal of Orthopaedic and Sports Physical Therapy, 2013, 43 (10), 700–714, DOI: 10.2519/jospt.2013.4225.
  • [22] WONG Y.S., Influence of the Abductor Hallucis Muscle on the Medial Arch of the Foot: A Kinematic and Anatomical Cadaver Study, Foot Ankle Int., 2007, 28 (5), 617–620, DOI: 10.3113/FAI.2007.0617.
  • [23] ZHANG X., AELES J., VANWANSEELE B., Comparison of foot muscle morphology and foot kinematics between recreational runners with normal feet and with asymptomatic over-pronated feet, Gait Posture, 2017, 54, 290–294, DOI: 10.1016/ j.gaitpost.2017.03.030.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-41f1239f-3b68-4ce5-9694-02485892e492
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