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Abstrakty
The aim of the paper was to compare primary biomechanical stability of different arthrodesis screws (7.3 mm AO screw with and without washer, 6.5 mm Herbert screw and 6.5 mm Ideal Compression Screw (I.CO.S)). The work necessary to achieve an adequate compressive force with them was compared to the measurement with the AO screw with washer, because this method is for the time being the most commonly used one and is called the golden standard. Compressive force was measured indirectly, via screw tension measurement, with strain gauges method. From the measurements we calculated the work to reach a limit of 60 N and the ratios corresponding to the value of the golden standard: I.CO.S (35.2%), Herbert (89.0%), AO-screw without washer (116%). The I.CO.S showed superior results. Only in the case of extremely poor bone quality, a clear advantage of I.CO.S could be expected in practice.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
27--33
Opis fizyczny
Bibliogr. 23 poz., rys., tab., wykr.
Twórcy
autor
autor
autor
- Vienna University of Technology, Institute for Mechanics of Materials and Structures, Vienna, Austria
Bibliografia
- [1] ALONSO-VÁZQUEZ A., LAUGE-PEDERSEN H., LIDGREN L., TAYLOR M., The effect of bone quality on the stability of ankle arthrodesis. A finite element study, Foot and Ankle International, 2004, 25, 840–850.
- [2] BROWN G.A., MCCARTHY T., BOURGEAULT C.A., CALLAHAN D.J., Mechanical performance of standard and cannulated 4.0 -mm cancellous bone screws, Journal of Orthopaedic Research, 2000, 18, 307–312.
- [3] CHAPMAN J.R., HARRINGTON R.M., LEE K.M., ANDERSON P.A., TENCER A.F., KOWALSKI D., Factors affecting the pullout strength of cancellous bone screws, Journal of Biomechanical Engineering, 1996, 118, 391–398.
- [4] COVIN S.C., HEGEDUS D.H., Bone remodelling I: theory of adaptive elasticity, Journal of Elasticity, 1976, 6, 313–326.
- [5] DECOSTER T.A., HEETDERKS D.B., DOWNEY D.J., FERRIES J.S., JONES W., Optimizing bone screw pullout force, Journal Orthopaedic Trauma, 1990, 4, 169–174.
- [6] EASLEY M.E., TRNKA H.J., SCHON L.C., MYERSON M.S., Isolated subtalar arthrodesis, Journal of Bone and Joint Surgery, 2000, 82A, 613–624.
- [7] FARAN K.J., ICHIOKA N., TRZECIAK M.A., HAN S., MEDIGE J., MOY O.J., Effect of bone quality on the forces generated by compression screws, Journal of Biomechanics, 1999, 32, 861–864.
- [8] FRIEDMAN R.L., GLISSON R.R., NUNLEY J.A. 2nd, A biomechanical comparative analysis of two techniques for tibiotalar arthrodesis, Foot and Ankle International, 1994, 15, 301–305.
- [9] GRAVES S.C., MANN R.A., GRAVES K.O., Triple arthrodesis in older adults. Results after long- term follow-up, Journal of Bone and Joint Surgery, 1993, 75 A, 355–362.
- [10] HINTERMANN B., VALDERRABANO V., NIGG B., Influence of screw type on obtained contact area and contact force in a cadaveric subtalar arthrodesis model, Foot and Ankle International, 2002, 23, 986–991.
- [11] HOLT E.S., HANSEN S.T., MAYO K.A., SANGEORZAN B.J., Ankle arthrodesis using internal screw fixation, Clinical Orthopedics and Related Research, 1991, 268, 21–28.
- [12] KITAOKA H.B., PATZER G.L., Subtalar arthrodesis for posterior tibial tendon dysfunction and pes planus, Clinical Orthopedics and Related Research, 1997, 345, 187–194.
- [13] MANN R.A., VAN MANEN J.W., WAPNER K., MARTINS J., Ankle fusion, Clinical Orthopedics and Related Research, 1991, 268, 56–64.
- [14] MARTIN R.B., Toward a unifying theory of bone remodelling, Bone, 2000, 26, 1–6.
- [15] MAURER R.C., CIMINO W.R., COX C.V., SATOW G.K., Transarticular cross-screw fixation. A technique of ankle arthrodesis, Clinical Orthopedics and Related Research, 1991, 268, 56–64.
- [16] MOECKEL B.H., PATTERSON B.M., INGLIS A.E., SCULCO T.P., Ankle arthrodesis, Clinical Orthopedics and Related Research, 1991, 268, 78–83.
- [17] OGILVIE-HARRIS D.J., FITSIALOS D., HEDMAN T.P., Arthrodesis of the ankle. A comparison of two versus three fixation in a crossed configuration, Clinical Orthopedics and Related Research, 1994, 304, 195–199.
- [18] PELL R.F., MYERSON M.S., SCHON L.C., Clinical outcome after primary triple arthrodesis, Journal of Bone and Joint Surgery, 2000, 82 A, 47–57.
- [19] SABRY F.F., EBRAHEIM N.A., MEHALIK J.N., REZCALLAH A.T., Internal architecture of the calcaneus: implication for the calcaneus fractures, Foot and Ankle International, 2000, 21,114–118.
- [20] SELL P., COLLINS M., DOVE J., Pedicle screws: axial pull-out strength in the lumbar spine, Spine, 1988, 13, 1075–1076.
- [21] SHAW J.A., Biomechanical comparison of cannulated small bone screws. A brief follow-up study, Journal of Hand Surgery, 1991, 16Am, 998–1001.
- [22] WAGNER H., POCK H.G., Screw fixation in arthrodesis of the ankle joint (Die Verschraubungsarthrodese der Sprunggelenke), Unfallheilkunde, 1982, 85, 280–30.
- [23] WOLFF J., Das Gesetz der Transformation der Knochen, 1892, Hirschwald A., Berlin (translated version The law of bone remodelling, 1986, Springer).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPB1-0032-0024