Acute effects of different orthoses on lower extremity kinetics and kinematics during running; a musculoskeletal simulation analysis

• Autorzy: Sinclair Jonathan , Ingram Jane , Taylor Paul John , Chockalingam Nachiappan

Identyfikatory

DOI

10.5277/ABB-01405-2019-02

• Języki publikacji: EN

Abstrakty

EN

The current investigation aimed to examine the effects of different orthotic conditions on the biomechanical mechanisms linked to the aetiology of chronic pathologies using musculoskeletal simulation. Methods: 16 male and 20 females ran over an embedded force plate at 4.0 m/s, in five different conditions (medial, lateral, no-orthoses, semi-custom and off the shelf). Kinematics of the lower extremities were collected using an eight-camera motion capture system and lower extremity joint loading also explored using a musculoskeletal simulation approach. Differences between orthoses conditions were examined using 2  2 mixed ANOVA. Results: External instantaneous load rate was significantly reduced in the off the shelf orthoses (male = 1290.60 and female = 1567.10 N/kg/s), compared to the medial (male = 1480.45 and female = 1767.05 N/kg/s) and semi-custom (male = 1552.99 and female = 1704.37 N/kg/s) conditions. In addition, peak patellofemoral stress was significantly lower in the off the shelf orthoses (male = 68.55 and female = 94.91 KPa/kg) compared to the lateral condition (male = 70.49 and female = 103.22 KPa/kg). Finally, peak eversion angles were significantly attenuated in the medial orthoses (male = –6.61 and female = –7.72 deg) compared to the lateral (male = –9.61 and female = –10.32 deg), no-orthoses (male = –8.22 and female = –10.10 deg), semi-custom (male = –8.25 and female = –9.49 deg) and off the shelf (male = –7.54 and female = –8.85 deg) conditions. Conclusions: The current investigation shows that different orthotic devices/ configurations may provide distinct benefits in terms of their effectiveness in attenuating the biomechanical parameters linked to the aetiology of chronic running injuries.

Słowa kluczowe

EN

running; orthoses; biomechanics; pathology

PL

bieg; orteza; biomechanika; patologia

• Wydawca: Oficyna Wydawnicza Politechniki Wrocławskiej
• Czasopismo: Acta of Bioengineering and Biomechanics
• Rocznik: 2019
• Tom: Vol. 21, no. 4
• Strony: 13--25
• Opis fizyczny: Bibliogr. 36 poz., tab.

Twórcy

autor

Sinclair Jonathan

• School of Sport & Health Sciences, Faculty of Health & Wellbeing, University of Central Lancashire

autor

Ingram Jane

• School of Sport & Health Sciences, Faculty of Health & Wellbeing, University of Central Lancashire

autor

Taylor Paul John

• School of Psychology, University of Central Lancashire

autor

Chockalingam Nachiappan

• School of Life Science and Education, Staffordshire University

Bibliografia

• [1] ABATE M., SILBERNAGEL K.G., SILJEHOLM C., DI IORIO A., DE AMICIS D., SALINI V., PAGANELLI R., Pathogenesis of tendinopathies: inflammation or degeneration?, Arthritis Res. Ther., 2009, 11, 235–240.
• [2] ALMONROEDER T., WILLSON J.D., KERNOZEK T.W., The effect of foot strike pattern on Achilles tendon load during running, Ann. Biomed. Eng., 2013, 41, 1758–1766.
• [3] ALMONROEDER T.G., BENSON L.C., O’CONNOR K.M., The influence of a prefabricated foot orthosis on lower extremity mechanics during running in individuals with varying dynamic foot motion, J. Orthop. Sports Phys. Ther., 2016, 46, 749–755.
• [4] BESIER T.F., DRAPER C.E., GOLD G.E., BEAUPRE G.S., DELP S.L., Patellofemoral joint contact area increases with knee flexion and weight-bearing, J. Orthop. Res., 2005, 23, 345–350.
• [5] BONANNO D.R., MURLEY G.S., MUNTEANU S.E., LANDORF K.B., MENZ H.B., Effectiveness of foot orthoses for the prevention of lower limb overuse injuries in naval recruits: a randomised controlled trial, Br. J. Sports Med., 2018, 52, 298–302.
• [6] BUTLER R.J., DAVIS I., LAUGHTON C.M., HUGHES M., Dualfunction foot orthosis: effect on shock and control of rearfoot motion, Foot Ankle Int., 2003, 24, 410–414.
• [7] DELP S.L., ANDERSON F.C., ARNOLD A.S., LOAN P., HABIB A., JOHN C.T., THELEN D.G., OpenSim: open-source software to create and analyze dynamic simulations of movement, IEEE Trans. Biomed. Eng., 2007, 54, 1940–1950.
• [8] ESLAMI M., BEGON M., FARAHPOUR N., ALLARD P., Forefoot–rearfoot coupling patterns and tibial internal rotation during stance phase of barefoot versus shod running, Clin. Biomech., 2007, 22, 74–80.
• [9] FARROKHI S., KEYAK J.H., POWERS C.M., Individuals with patellofemoral pain exhibit greater patellofemoral joint stress: a finite element analysis study, Osteoarthritis Cartilage, 2011, 19, 287–294.
• [10] FRANKLYN-MILLER A., WILSON C., BILZON J., MCCRORY P., Foot orthoses in the prevention of injury in initial military training: a randomized controlled trial, Am. J. Sport Med., 2011, 39, 30–37.
• [11] GREENHALGH A., SINCLAIR J., Comparison of Achilles tendon loading between male and female recreational runners, J. Human Kin., 2014, 44, 155–159.
• [12] HAMSTRA-WRIGHT K.L., BLIVEN K.C.H., BAY C., Risk factors for medial tibial stress syndrome in physically active individuals such as runners and military personnel: a systematic review and meta-analysis, Br. J. Sports Med., 2015, 49, 362–369.
• [13] HESS G.W., Achilles tendon rupture: a review of etiology, population, anatomy, risk factors, and injury prevention, Foot Ankle Spec., 2010, 3, 29–32.
• [14] HERZOG W., LONGINO D., CLARK A., The role of muscles in joint adaptation and degeneration, Langenbecks Arch. Surg., 2003, 388, 305–315.
• [15] HINMAN R.S., LENTZOS J., VICENZINO B., CROSSLEY K.M., Is patellofemoral osteoarthritis common in middle‐aged people with chronic patellofemoral pain?. Arthritis Care Res., 2014, 66, 1252–1257.
• [16] JONES R.K., NESTER C.J., RICHARDS J.D., KIM W.Y., JOHNSON D.S., JARI S., TYSON S.F., A comparison of the biomechanical effects of valgus knee braces and lateral wedged insoles in patients with knee osteoarthritis, Gait Posture, 2013, 37, 368–372.
• [17] JONES B.H., BOVEE M.W., HARRIS J.M., COWAN D.N., Intrinsic risk factors for exercise-related injuries among male and female army trainees, Am. J. Sports Med., 1993, 21, 705–710.
• [18] LAUGHTON C.A., DAVIS I.M., HAMILL J., Effect of strike pattern and orthotic intervention on tibial shock during running, J. Appl. Biomech., 2003, 19, 153–168.
• [19] LERNER Z.F., DEMERS M.S., DELP S.L., BROWNING R.C., How tibiofemoral alignment and contact locations affect predictions of medial and lateral tibiofemoral contact forces, J. Biomech., 2015, 48, 644–650.
• [20] LOPES A.D., HESPANHOL L.C. JUNIOR, YEUNG S.S., COSTA L.O., What are the main running-related musculoskeletal injuries? A systematic review, Sports Med., 2012, 42, 891–905.
• [21] MILGROM Y., MILGROM C., ALTARAS T., GLOBUS O., ZELTZER E., FINESTONE A.S., Achilles tendons hypertrophy in response to high loading training, Foot Ankle Int., 2014, 35, 1303–1308.
• [22] MORGENROTH D.C., MEDVERD J.R., SEYEDALI M., CZERNIECKI J.M., The relationship between knee joint loading rate during walking and degenerative changes on magnetic resonance imaging, Clin. Biomech., 2014, 29, 664–670.
• [23] MÜNDERMANN A., NIGG B.M., HUMBLE R.N., STEFANYSHYN D.J., Foot orthotics affect lower extremity kinematics and kinetics during running, Clin. Biomech., 2003, 18, 254–262.
• [24] SINCLAIR J., GREENHALGH A., BROOKS D., EDMUNDSON C.J., HOBBS S.J., The influence of barefoot and barefoot-inspired footwear on the kinetics and kinematics of running in comparison to conventional running shoes, Footwear Sci., 2013, 5, 45–53.
• [25] SINCLAIR J., ISHERWOOD J., TAYLOR P.J., Effects of foot orthoses on Achilles tendon load in recreational runners, Clin. Biomech., 2014, 29, 956–958.
• [26] SINCLAIR J., SELFE J., Sex differences in knee loading in recreational runners, J. Biomech., 2015, 48, 2171–2175.
• [27] SINCLAIR J., SHORE H., RICHARDS J., Effects of semi-custom and off-the-shelf orthoses on Achilles tendon and patellofemoral kinetics in female runners, Balt. J. Health Phys. Act., 2016, 8, 7–15.
• [28] SINCLAIR J., Effects of medial and lateral orthoses on kinetics and tibiocalcaneal kinematics in male runners, FAOJ, 2017, 10, 1–19.
• [29] SINCLAIR J., Mechanical effects of medial and lateral wedged orthoses during running, Phys. Ther. Sport., 2018, 32, 48–53.
• [30] SINCLAIR J., STAINTON P., Effects of medial and lateral wedged orthoses on knee and ankle joint loading in female runners, Kinesiology, 2019 (in Press).
• [31] SINCLAIR J., JANSSEN J., RICHARDS J.D., BUTTERS B., TAYLOR P.J., HOBBS S.J., Effects of a 4-week intervention using semicustom insoles on perceived pain and patellofemoral loading in targeted subgroups of recreational runners with patellofemoral pain, Phys. Ther. Sport, 2018, 34, 21–27.
• [32] SNYDER R.A., KOESTER M.C., DUNN W.R., Epidemiology of stress fractures, Clin. Sports Med., 2006, 25, 37–52.
• [33] TAUNTON J.E., RYAN M.B., CLEMENT D.B., MCKENZIE D.C., LLOYD-SMITH D.R., ZUMBO B.D., A retrospective casecontrol analysis of 2002 running injuries, Br. J. Sports Med., 2002, 36, 95–101.
• [34] VAN GINCKEL A., THIJS Y., HESAR N.G.Z., MAHIEU N., DE CLERCQ D., ROOSEN P., WITVROUW E., Intrinsic gaitrelated risk factors for Achilles tendinopathy in novice runners: a prospective study, Gait Posture, 2008, 29, 387–391.
• [35] WARDEN S.J., BURR D.B., BRUKNER P.D., Stress fractures: pathophysiology, epidemiology, and risk factors, Curr. Osteoporos. Rep., 2006, 4, 103–109.
• [36] WISE B.L., NIU J., YANG M., LANE N.E., HARVEY W., FELSON D.T., LEWIS C.E., Patterns of compartment involvement in tibiofemoral osteoarthritis in men and women and in whites and African Americans, Arthritis Care Res., 2012, 64, 847–852.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).