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Assessment of the lower limb biomechanics in patients after tibiofibular syndesmosis injury treatment

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: There is no consensus as to the number of bone cortices engaged in tibiofibular syndesmosis treatment. The purpose of our study was to assess the weight distribution on the lower limbs after tricortical or quadricortical syndesmosis fixation and different timing of screw removal. Methods: A total of 55 patients who underwent treatment for acute tibiofibular syndesmosis injury were analyzed in this study. The Zebris pedobarographic platform was used to measure the distribution of body weight on the lower limbs. The study population was stratified by the time to syndesmotic screw removal (8–15 weeks versus 16–22 weeks) and the number of bone cortices involved in fixation (three [tricortical fixation] versus four [quadricortical fixation]). Results: The weight distribution on the operated and healthy limbs in patients with tricortical syndesmosis fixation was asymmetrical, with the mean load on the operated and healthy limbs of 48.38% and 51.62%, respectively. The patients who underwent quadricortical syndesmosis fixation exhibited a symmetrical distribution of weight on the operated and healthy limb. There was a symmetrical distribution of the load of body weight on the operated and healthy limbs both in the group with different times to syndesmotic screw removal. Conclusion: Tricortical syndesmosis fixation is associated with an asymmetrical weight distribution on the operated and healthy limbs. In treating tibiofibular syndesmosis injuries, based on our pedobarographic research, quadricortical syndesmosis fixation and leaving the syndesmotic screw in place for up to 15 weeks, seems more beneficial to the patient.
Rocznik
Strony
183--190
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
  • Provincial Specialist Hospital in Legnica, Orthopedic Surgery Department, Legnica, Poland
autor
  • Provincial Specialist Hospital in Legnica, Orthopedic Surgery Department, Legnica, Poland
  • Faculty of Health Sciences and Physical Education, The Witelon State University of Applied Sciences in Legnica, Legnica, Poland
  • Department of Food Safety and Quality Management, Poznań University of Life Sciences, Poznań, Poland
  • Department of Orthopaedic and Trauma Surgery, Institute of Medical Sciences, University of Opole, Opole, Poland
  • Wroclaw Medical University, Department of Trauma and Hand Surger, Wrocław, Poland
  • Department of Orthopaedic and Trauma Surgery, Institute of Medical Sciences, University of Opole, Opole, Poland
Bibliografia
  • [1] BHAVE A., PALEY D., HERZENBERG J.E., Improvement in gait parameters after lengthening for the treatment of limblength discrepancy, J. Bone Jt. Surg., Ser A, 1999, 81, 529–34.
  • [2] FORT N.M., AIYER A.A., KAPLAN J.R., SMYTH N.A., KADAKIA A.R., Management of acute injuries of the tibiofibular syndesmosis, Eur. J. Orthop. Surg. Traumatol., 2017, May, 27 (4), 449–459, DOI: 10.1007/s00590-017-1956-2.
  • [3] GIMUNOVA M., SKOTÁKOVÁ A., GRÜN V., JENČÍKOVÁ K., DANĚK L., HLINSKY T., SVOBODOVÁ L., KALICHOVÁ M., VÁLKOVÁ H., The differences in postural stability between cross-country and Alpine skiers with intellectual disabilities, Acta Bioeng. Biomech., 2020, 22 (4), 133–138,
  • [4] HØINESS P., STRØMSØE K., Tricortical versus quadricortical syndesmosis fixation in ankle fractures: a prospective, randomized study comparing two methods of syndesmosis fixation, J. Orthop. Trauma, 2004 Jul, 18 (6), 331–337, DOI: 10.1097/00005131-200407000-00001.
  • [5] KAFTANDZIEV I., SPASOV M., TRPESKI S., ZAFIROVA-IVANOVSKA B., BAKOTA B., Fate of the syndesmotic screw Search for a prudent solution, Injury, 2015, Nov., 46 Suppl. 6, S125-9, DOI: 10.1016/j.injury.2015.10.062.
  • [6] LALLI T.A.J., MATTHEWS L.J.M., HANSELMAN A.E., HUBBARD D.F., BRAMER M.A., SANTROCK R.D., Economic impact of syndesmosis hardware removal, Foot, 2015, Sep., 25 (3), 131–133, DOI: 10.1016/j.foot.2015.03.001.
  • [7] LI H., CHEN Y., QIANG M., ZHANG K., JIANG Y., ZHANG Y., JIA X., Computational biomechanical analysis of postoperative inferior tibiofibular syndesmosis: a modified modeling method, Comput. Methods Biomech. Biomed. Engin., 2018 Apr, 21 (5), 427–435, DOI:10.1080/10255842.2018.1472770.
  • [8] LORKOWSKI J., TRYBUS M., HŁADKI W., BRONGEL L., Underfoot pressure distribution of a patient with unilateral ankylosis of talonavicular joint during rheumatoid arthritis case report, Przegl. Lek., 2008, 65, 54–56.
  • [9] MAJEWSKI M., BISCHOFF-FERRARI H.A., GRÜNEBERG C., DICK W., ALLUM J.H.J., Improvements in balance after total hip replacement, J. Bone Jt. Surg., Ser B, 2005, 87, 1337–1343.
  • [10] MARKOLF K., JACKSON S.R., MCALLISTER D.R., Syndesmosis fixation using dual 3.5 mm and 4.5 mm screws with tricortical and quadricortical purchase: a biomechanical study, Foot Ankle Int., 2013, 34, 734–739.
  • [11] MCKENZIE A.C., HESSELHOLT K.E., LARSEN M.S., SCHMAL H., A Systematic Review and Meta-Analysis on Treatment of Ankle Fractures With Syndesmotic Rupture: Suture-Button Fixation Versus Cortical Screw Fixation, J. Foot Ankle Surg., 2019, Sep., 58 (5), 946–953, DOI: 10.1053/ j.jfas.2018.12.006.
  • [12] MORASIEWICZ P., DRAGAN S., DRAGAN S.Ł., WRZOSEK Z., PAWIK Ł., Pedobarographic analysis of body weight distribution on the lower limbs and balance after Ilizarov corticotomies, Clin. Biomech., 2016, 31, 2–6.
  • [13] MORASIEWICZ P., KONIECZNY G., DEJNEK M., MORASIEWICZ L., URBAŃSKI W., KULEJ M., DRAGAN S.Ł., DRAGAN S.F., PAWIK Ł., Pedobarographic analysis of body weight distribution on the lower limbs and balance after ankle arthrodesis with Ilizarov fixation and internal fixation, Biomed. Eng. Online, 2018, 17, 174, DOI: 10.1186/s12938-0180608-z.
  • [14] MORASIEWICZ P., KONIECZNY G., DEJNEK M., URBAŃSKI W., DRAGAN S.Ł., KULEJ M., DRAGAN S.F., PAWIK Ł., Assessment of the distribution of load on the lower limbs and balance before and after ankle arthrodesis with the Ilizarov method, Sci. Rep., 2018, 8, 15693.
  • [15] MORASIEWICZ P., URBAŃSKI W., KULEJ M., DRAGAN S.Ł., DRAGAN S.F., PAWIK Ł., Balance and lower limb loads distribution after Ilizarov corticotomy, Injury, 2018, 49, 860–865.
  • [16] PAJCHERT-KOZŁOWSKA A., PAWIK Ł., SZELERSKI Ł., ŻAREK S., GÓRSKI R., PAWIK M., FINK-LWOW F., MORASIEWICZ P., Assessment of body balance of patients treated with the Ilizarov method for tibial nonunion, Acta Bioeng. Biomech., 2020, 22 (3), 131–137.
  • [17] PAWIK Ł., PAJCHERT-KOZŁOWSKA A., SZELERSKI Ł., ŻAREK S., GÓRSKI R., PAWIK M., FINK-LWOW A., MORASIEWICZ P., Assessment of Lower Limb Load Distribution in Patients Treated with the Ilizarov Method for Tibial Nonunion, Med. Sci. Mon., DOI: 10.12659/MSM.930849.
  • [18] RADLER C., KRANZL A., MANNER H.M., HÖGLINGER M., GANGER R., GRILL F., Torsional profile versus gait analysis: Consistency between the anatomic torsion and the resulting gait pattern in patients with rotational malalignment of the lower extremity, Gait Posture, 2010, 32, 405–410.
  • [19] RONGIES W., BĄK A., LAZAR A., DOLECKI W., KOLANOWSKA--KENCZEW T., SIERDZIŃSKI J. et al., A trial of the use of pedobarographyin the assessment of the effectiveness of rehabilitation in patients with coxarthrosis, Ortop. Traumatol. Rehabil., 2009, 11, 242–252.
  • [20] SCHEPERS T., LINDEN H. VAN DER, LIESHOUT E.M.M. VAN, NIESTEN D., ELST M. VAN DER, Technical aspects of the syndesmotic screw and their effect on functional outcome following acute distal tibiofibular syndesmosis injury, Injury, 2014, Apr., 45 (4), 775–779, DOI: 10.1016/j.injury.2013.09.035.
  • [21] STIENE A., RENNER C.E., CHEN T., LIU J., EBRAHEIM N.A., Distal Tibiofibular Syndesmosis Dysfunction: A Systematic Literature Review of Dynamic Versus Static Fixation Over the Last 10 Year, J. Foot Ankle Surg., 2019 Mar, 58 (2), 320–327, DOI: 10.1053/j.jfas.2018.08.050.
  • [22] STUART K., PANCHBHAVI V.K., The fate of syndesmotic screws, Foot Ankle Int., 2011 May, 32 (5), S519-25, DOI: 10.3113/FAI.2011.0519.
  • [23] VEILLEUX L.N., ROBERT M., BALLAZ L., LEMAY M., RAUCH F., Gait analysis using a force-measuring gangway: Intrasession repeatability in healthy adults, J. Musculoskelet. Neuronal Interact., 2011, 11, 27–33.
  • [24] WALKER L., WILLIS N., Weber C ankle fractures: a retrospective audit of screw number, size, complications, and retrieval rates, J. Foot Ankle Surg., May–Jun 2015, 54 (3), 454-457, DOI: 10.1053/j.jfas.2014.11.015.
  • [25] WOOD A.R., ARSHAD S.A., KIM H., STEWART D., Kinematic Analysis of Combined Suture-Button and Suture Anchor Augment Constructs for Ankle Syndesmosis Injuries, Foot Ankle Int., 2020 Apr, 41 (4), 463–472, DOI: 10.1177/ 1071100719898181.
  • [26] YOUSSEF E.F., SHANB A.A., AMEER M.A., SHANAB M.E., Impact of body weight on shifting of foot pressure among adult subjects, Acta Bioeng. Biomech., 2020, 22 (2), 131–137.
  • [27] ZHANG P., LIANG Y., HE J., FANG Y., CHEN P., WANG J., A systematic review of suture-button versus syndesmotic screw in the treatment of distal tibiofibular syndesmosis injury, BMC Musculoskelet. Disord., 2017 Jul, 4, 18 (1), 286, DOI: 10.1186/s12891-017-1645-7.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9ad83e37-4e91-47ae-8134-370cba1aeb72
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