Narzędzia help

Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
first previous next last
cannonical link button

http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-0ceb0866-d42e-42c5-bd8d-395a90b7b937

Czasopismo

Acta of Bioengineering and Biomechanics

Tytuł artykułu

Using the discrete wavelet transform in assessing the effectiveness of rehabilitation in patients after ACL reconstruction

Autorzy Czaplicki, A.  Kuniszyk-Jóźkowiak, W.  Jaszczuk, J.  Jarocka, M.  Walawski, J. 
Treść / Zawartość
Warianty tytułu
Języki publikacji EN
Abstrakty
EN Purpose: The purpose of the current study was to assess the effectiveness of rehabilitation in patients after anterior cruciate ligament reconstruction (ACLR) using a wavelet analysis of the torque-time curve patterns of the extensors of the affected knee. The analysis aimed at the quantitative evaluation of irregularities in these torque-time patterns. Methods: The study involved a group of 22 men who had had ACL reconstruction. The torque-time characteristics were recorded 3, 6 and 12 months after the surgery by an isokinetic dynamometer. They were then examined using the orthogonal Daubechies 4 (Db 4) and biorthogonal Bior 3.1 wavelets. Results: A statistical analysis of the results revealed significant differences in values of the high-frequency energy stored in the details of the signal from the dynamometer between the first and last measurements, both for the Db 4 ( p ≤ 0.023) and Bior 3.1 ( p ≤ 0.01) wavelets. These differences were found in 73% of patients whose curve patterns were analysed using the Db 4 wavelet and in 82% of patients in the case of the Bior 3.1 wavelet. Conclusions: The wavelet transform proved to be an effective research tool in the qualitative evaluation of irregularities occurring in the curve patterns of the torque generated by the extensors of the ACL reconstructed knee. The findings of the study suggest that time-frequency analyses of these characteristics can be of practical importance, as they help assess the state of the patient’s knee joint and his progress in rehabilitation after ACLR.
Słowa kluczowe
PL ACL   rehabilitacja   transformacja falkowa  
EN wavelet   ACL   rehabilitation  
Wydawca Oficyna Wydawnicza Politechniki Wrocławskiej
Czasopismo Acta of Bioengineering and Biomechanics
Rocznik 2017
Tom Vol. 19, nr 3
Strony 139--146
Opis fizyczny Bibliogr. 26 poz., rys., wykr.
Twórcy
autor Czaplicki, A.
  • Józef Piłsudski University of Physical Education, Faculty of Physical Education and Sport, Department of Biomechanics and Computer Science, Biała Podlaska, Poland, adam.czaplicki@awf-bp.edu.pl
autor Kuniszyk-Jóźkowiak, W.
  • Józef Piłsudski University of Physical Education, Faculty of Physical Education and Sport, Department of Biomechanics and Computer Science, Biała Podlaska, Poland
autor Jaszczuk, J.
  • Józef Piłsudski University of Physical Education, Faculty of Physical Education and Sport, Department of Biomechanics and Computer Science, Biała Podlaska, Poland
autor Jarocka, M.
  • Józef Piłsudski University of Physical Education, Faculty of Tourism and Health, Department of Physiotherapy, Biała Podlaska, Poland
autor Walawski, J.
  • Józef Piłsudski University of Physical Education, Faculty of Tourism and Health, Department of Medical Rehabilitation, Biała Podlaska, Poland
  • Hospital of the Ministry of the Interior, Department of General Surgery, Orthopaedic Surgery Unit, Lublin, Poland
Bibliografia
[1] ARDERN C.L., TAYLOR N.F., FELLER J.A., WEBSTER K.E., Return-to-sport outcomes at 2 to 7 years after anterior cruciate ligament reconstruction surgery, Am. J. Sport. Med., 2012, 40, 41–48.
[2] AYALON M., BARAK Y., RUBINSTEIN M., Qualitative analysis of the isokinetic moment curve of the knee extensors, Isokinet. Exerc. Sci., 2002, 10, 145–151.
[3] BAUGHER W.H., WARREN R.F., MARSHALL J.L., JOSEPH A., Quadriceps atrophy in the anterior cruciate insufficient knee, Am. J. Sport. Med., 1984, 12, 192–195.
[4] CLARK R.A., HOWELLS B., PUA Y-H., FELLER J., WHITEHEAD T., Assessment of standing balance deficits in people who have undergone anterior cruciate ligament reconstruction using traditional and modern analysis methods, J. Biomech., 2014, 47, 1134–1137.
[5] CODELLO I., KUNISZYK-JÓŹKOWIAK W., SMOŁKA E., KOBUS A., Automatic disordered syllables repetition recognition in continuous speech using CWT and correlation, Advances in Intelligent and Soft Computing, 2013, 226, 867-876, DOI:10.1007/978-3-319-00969-8_85.
[6] CZAMARA A., KRZEMIŃSKA A., SZUBA Ł., The influence of exercises under isokinetic conditions on heart rate in males aged between 40 and 51, Acta Bioeng. Biomech., 2011, 13, 95–104.
[7] CZAPLICKI A., JAROCKA M., WALAWSKI J., Isokinetic identification of knee joint torques before and after anterior cruciate ligament reconstruction, Plos One, 2015, 10, e0144283, DOI:10.1371/journal.pone.0144283.
[8] FRIDÉN T., ROBERTS D., AGEBERG E., WALDÉN M., ZÄTTERSTRÖM R., Review of knee proprioception and the relation to extremity function after an anterior cruciate ligament rupture, J. Orthop. Sport. Phys., 2001, 31, 567–576.
[9] HARPUT G., ERKAN KILINC H., OZER H., BALTACI G., MATTACOLA C.G., Quadriceps and hamstring strength recovery during early neuromuscular rehabilitation after ACL hamstring-tendon autograft reconstruction, J. Sport Rehabil., 2015, 24, 398–404.
[10] IKEDA H., Quadriceps torque curve pattern in patients with anterior cruciate ligament injury, Int. Orthop., 2002, 26, 374–376.
[11] JAROCKA M., CZAPLICKI A., The influence of therapeutic training on changes in selected biomechanical variables after an anterior cruciate ligament reconstruction, Polish Journal of Sport and Tourism, 2013, 20, 13–18.
[12] KARLSON S., YU J., AKAY M., Time-frequency analysis of myoelectric signals during dynamic contractions: a comparative study, IEEE T. Bio-Med. Eng., 2000, 47, 228–237.
[13] KIRCHNER M., SCHUBERT P., SCHMIDTBLEICHER D., HAAS C.T., Evaluation of the temporal structure of postural sway fluctuations based on a comprehensive set of analysis tools, Physica A, 2012, 391, 4692–4703.
[14] KUNISZYK-JÓŹKOWIAK W., JASZCZUK J., SACEWICZ T., CODELLO I., Time-frequency analysis of the EMG digital dignals, Annales UMCS Informatica, 2012, AI XII, 19–25.
[15] KVIST J., Rehabilitation following anterior cruciate ligament injury, Sports Med., 2004, 34, 269–280.
[16] KEAYS S.L., BULLOCK-SAXON J.E., NEWCOMBE P., KEAYS A.C., The relationship between knee strength and functional stability before and after anterior cruciate ligament reconstruction, J. Orthop. Res., 2003, 21, 231–237.
[17] LEWEK M., RUDOLPH K., AXE M., SNYDER-MACKLER L., The effect of insufficient quadriceps strength on gait after anterior cruciate ligament reconstruction, Clin. Biomech., 2002, 17, 56–63.
[18] NYAN M.N., TAY F.E.H., SETH K.H.W., SITOH Y.Y., Classification of gait patterns in the time-frequency domain, J. Biomech., 2006, 39, 2647–2656.
[19] SACHS R.A., DANIEL D.M., STONE M,L., GARFEIN R.F., Patellofemoral problems after anterior cruciate ligament reconstruction, Am. J. Sport. Med., 1989, 17, 760–765.
[20] SHELBOURNE K.D., NITZ P., Accelerated rehabilitation after anterior cruciate ligament reconstruction, Am. J. Sport. Med., 1990, 18, 292–299.
[21] SOLOMONOV M., BARATTA R., ZHOU B.H., SHOJI H., BOSE W., BECK C., D’AMBROSIA R., The synergistic action of the anterior cruciate ligament and thigh muscles in maintaining joint stability, Am. J. Sport. Med., 1987, 15, 207–213.
[22] SOLOMONOW M., KROGSGAARD M., Sensorimotor control of knee stability. A review, Scand. J. Med. Sci. Sport., 2001, 11, 64–80.
[23] STRATFORD P., AGOSTINO V., ARMSTRONG B., STEWART T., WEININGER S., Diagnostic value of knee extension torque tracings in suspected anterior cruciate ligament tears, Phys. Ther., 1987, 67, 1533–1536.
[24] TASHMAN S., KOLOVICH P., COLLON, D., ANDERSON K., ANDERST W., Dynamic function of the ACL-reconstructed knee during running, Clin. Orthop. Relat. R., 2007, 454, 66–73.
[25] TRACY B.L., ENOKA R.M., Older adults are less steady during submaximal isometric contractions with the knee extensor muscles, J. Appl. Physiol., 2002, 92, 1004–1012.
[26] TSEPIS E., GIAKAS G., VAGENAS G., GEORGOULIS A., Frequency content asymmetry of the isokinetic curve between ACL deficient and healthy knee, J. Biomech., 2004, 27, 857–864.
Uwagi
The research was financed in part by the Polish Ministry of Science and Higher Education (grant no. 0045/RS3/2015/53).
Kolekcja BazTech
Identyfikator YADDA bwmeta1.element.baztech-0ceb0866-d42e-42c5-bd8d-395a90b7b937
Identyfikatory
DOI 10.5277//ABB-00749-2016-02