Email this article APPLICATION OF COMPUTER OPTICAL TOPOGRAPHY AS AN ENVIRONMENTALLY SAFE METHOD OF ASSESSING RECOVERY OF STATIC DISORDERS AFTER SURGICAL TREATMENT OF ANKLE FRACTURES
- Authors: Li X.1, Moskalev VP1, Kulikova OV2, Bragina SV3
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Affiliations:
- Pavlov First Saint-Petersburg State Medical University
- Vreden Russian Research Institute for Traumotology and Orthopedics
- Northern State Medical University
- Issue: Vol 22, No 7 (2015)
- Pages: 45-49
- Section: Articles
- URL: https://journals.rcsi.science/1728-0869/article/view/16999
- DOI: https://doi.org/10.17816/humeco16999
- ID: 16999
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Abstract
An ankle fracture is one of the most common human injuries. According to long-term monitoring of a number of authors, ankle fractures make up 40-50 % of all lower leg fractures. They are accompanied by damages of the joint capsule, articular cartilage, ligaments, anterior and posterior parts of the tibia, hemarthrosis. Therefore, treatment and rehabilitation require a special approach to the choice of therapy methods, control of restorative treatment quality and assessment of recovery of the locomotor function of the ankle joint. Rehabilitation of patients after ankle fractures consists of full restoration of support and movement. To implement that, there is applied physiotherapy and hydrotherapy, massage, exercise therapy, and to control restoration - a number of functional tests and auxiliary study methods. The authors have followed restoration of statics in dynamics after surgical treatment of open fractures of the ankle with the use of the computer optical topography. The method was first applied to study recovery of spinal deformity, but an indication for it can be a fracture of the lower extremity in which a load varies sharply, causing curvature of the spine and the pelvic misalignment. The method is simple, economical, has no adverse effects on patient health and the environment.
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##article.viewOnOriginalSite##About the authors
Xinhai Li
Pavlov First Saint-Petersburg State Medical University
Email: Iixinhao2011@yandex.ru
очный аспирант кафедры травматологии и ортопедии ГБОУ ВПО «Первый Санкт-Петербургский государственный медицинский университет имени академика И.П. Павлова» Министерства здравоохранения Российской Федерации Saint Petersburg
V P Moskalev
Pavlov First Saint-Petersburg State Medical UniversitySaint Petersburg
O V Kulikova
Vreden Russian Research Institute for Traumotology and OrthopedicsSaint Petersburg
S V Bragina
Northern State Medical UniversityArkhangelsk, Russia
References
- Матвеев Р.П., Фирсов С.А. Травматизм как актуальная проблема медицины катастроф // Мир науки, культуры, образования. 2014. № 6. С. 594-596.
- Матвеев Р.П., Медведев Г.М., Гудков А.Б. Возрастно-половая и социальная характеристики пострадавших с политравмой в областном центре северного региона в динамике за 20 лет // Экология человека. 2006. № 1. С. 52-54.
- Сарнадский В.Н. Компьютерная оптическая топография. Объективная диагностика структуальных сколиозов - не инвазивная альтернатива рентгену // Медтехника и медизделия. 2008.Т. 46, № 3. С. 15-17.
- Сарнадский В.Н., Вильбергер С.Я., Шевченко А.В. Исследование точности восстановления поверхности модели туловища человека методом компьютерной топографии // Автометрия. 2006.Т. 42, № 4. С. 82-90.
- Сарнадский В.Н., Садовой М.А., Фомичев Н.Г. Способ компьютерной оптической топографии формы тела/ Медицинская экология человека и устройство для его осуществления: Евразийский патент № 0001 1 1; заявл. 26.08.96; опубл. 27.08.98. Бюл. № 4.
- Сарнадский В.Н., Фомичев Н.Г. Мониторинг деформации позвоночника методом компьютерной оптической топографии: пособие для врачей. Новосибирск: НИИТО, 2000. 44 с.
- Asazuma T., Suzuki N., Hirabayashi K. Analysis of human dynamic posture in normal and scoliotic patients // Proc. of III Int. Sym. Surface Topography and Spinal Deformity, Gustav Fisher Verlag, Stuttgrt, New York, 1986. P. 223-233.
- Cobb J.R. Outline for the study of scoliosis. Instructional Course Lectures. Edited by J.W. Edwards. American Academy of Orthopaedic Surgeons, 1948. Vol. 5. P. 261-275.
- Harris G.F., Smith P.A. Human motion analysis, current applications and future directions. New York, IEEE press, 1996. P. 178-215.
- Sarnadskiy V.N., Fomichev N.G., Mikhailovsky M.V. Use of Functional Tests to Increase the Efficiency of Scoliosis Screening Diagnosis by COMOT Method // Research into Spinal Deformities 4, Th. B. Grivas Ed., IOS Press 91, 2002. P. 204-210.
