Tne stiffness of first-order and second-order modules assembled with extracortical clamp devices

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Abstract

The extracortical clamp device (ECD) is a tool used in external fixation which unlike the K-wires and half-pins don’t perforate cortical bone. The use of ECD is prospective for the treatment of periprosthetic femoral fractures and in the lengthening over nail and bone transport over nail. The data on the bench tests of the osteosynthesis rigidity by the external fixation first-order and second-order modules on the base of extracortical clamp devices are observed in the article. Materials and methods. The authors made 240 bench tests using torsional-vibration machine, Indicators measuring linear displacements with a scale of 0.01 mm, bone simulators («Sawbones»), calibrated load, Ilizarov’s apparatus и extracortical fixators. The statistical analysis was performed with use software «STATISTICA» (ver. 6.0). The data obtained are presented in graphs «Box and Whisker Plot». Results. Among the investigated variants of first-order modules the better results of osteosynthesis rigidity were found in the module based on two ECD inserted at angle 60 degrees to each other and at distance of 10 cm from each other. Among the investigated second-order modules, better results of osteosynthesis rigidity were found in the module based on two ECD inserted at an angle 60 degrees to each other at distance of 10 cm from each other. Conclusion. Thus the tested modules can be used in practice in assemblies of external fixation devices in periprosthetic fractures, lengthening and bone transport over the nail.

About the authors

F. K. Sabirov

Vreden Russian Research Institute of Traumatology and Orthopedics

Author for correspondence.
Email: fanil.sabirov@gmail.com
Russian Federation

L. N. Solomin

Vreden Russian Research Institute of Traumatology and Orthopedics; St. Petersburg State University

Email: noemail@neicon.ru
Russian Federation

References

  1. Корнилов Н.В., Соломин Л.Н., Евсеев С.А., Назаров B.А., Бегун П.И. Метод исследования жесткости чрескостного остеосинтеза при планировании операций: метод. рекомендации № ФС-2005/021. СПб.; 2005. 21 с.
  2. Соломин Л.Н., Виленский В.А. Лечение перипротезных переломов бедренной кости методом чрескостного остеосинтеза с использованием экстракортикальных фиксаторов (экспериментально-клиническое исследование). Травматология и ортопедия России. 2007; (2):78-83.
  3. Соломин Л.Н. Основы чрескостного остеосинтеза. М.: БИНОМ; 2014. Т. 1. 328 с.
  4. Eralp L., Kocaoglu M., Polat G., Bas A., Irican A., Azam M. A comparison of external fixation alone or combined with intramedullary nailing in the treatment of segmental tibial defects. Acta Orthop Belg. 2012; 78:652-659.
  5. Karargyris O., Romoudis P., Morassi L.G., Zafeiris C., Mavrogenis A.F., Polyzois V., Pneumaticos S.G. Distraction over nail using circular external fixation for septic pseudarthrosis of the tibia. J Long Term Eff Med Implants. 2012;22(2):137-143.
  6. Kim H.J., Fragomen A.T., Reinhardt K., James J. Hutson J.J., Rozbruch R. Lengthening of the femur over an existing intramedullary nail. J Orthop Trauma. 2011; 25(11): 681-684.
  7. Kocaoglu M., Eralp L., Kilicoglu O., Cakmak H.B. Complications encountered during lengthening over an intramedullary nail. J Bone Joint Surg Am. 2004; 86:2406-2411.
  8. Mahboubian S., Seah M., Fragomen A.T., Rozbruch S.R. Femoral lengthening with lengthening over a nail has fewer complications than intramedullary skeletal kinetic distraction. Clin Orthop. 2012; 470:1221-1231.
  9. Oh C.W., Song H.R., Roh J.Y., Oh J.K., Min W.K., Kyung H.S., Kim J.W., Kim P.T., Ihn J.C. Bone transport over an intramedullary nail for reconstruction of long bone defects in tibia. Arch Orthop Trauma Surg. 2008;128(8):801-808.
  10. Paley D., Herzenberg J.E., Paremain G., Bhave A. Femoral lengthening over an intramedullary nail. A matched-case comparison with Ilizarov femoral lengthening. J Bone Joint Surg Am. 1997; 79:1464-1480.
  11. Solomin L. The basic principles of external skeletal fixation using the Ilizarov and other devices. Milan: SpringerVerlag Itali; 2012. 1593 p.

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