Using screws from glycosyled lactic acid (PLGA) in the treatment of calcaneus fractures

Introduction. Heel bone fractures account for about 3 % of the total number of fractures. Various methods of surgical treatment were used depending on the features of a fracture, the condition of soft tissues in a damage area, the general condition of a patient and co-morbidity.

The objective was to improve the results of treatment of heel bone fracture by using screws made of glycosylated lactic acid.

Methods and materials. The examination and treatment methods as well as the results of surgical treatment of 89 patients diagnosed with a heel bone fracture were analysed. Depending on the type of fractures, all the patients were divided into 4 groups according to Sanders.

Results. We studied the short-term (100 %) and long-term (82.5 %) results of treatment of patients using the point-based assessment systems - the Foot Function Index (FFI) scale, and the Clinical rating system for the Ankle and Hindfoot scale.

Conclusion. The current study showed that the use of bioimplants along with classical osteosynthesis is one of the advanced technologies in traumatology and orthopedics, which allows to expand the possibilities of surgical fixation of heel bone fractures.

1. Atayev A. R., Osmanov R. T. The Calcaneous Fractures Treatment. Bulletin of the Dagestan State Medical Academy. 2017;2(23):33-41. (In Russ.).

2. Berdyugin K. A., Kononova K. Yu., Glukhov D. V. Original Method of Noninvasive Fixation of Calcaneous Fractures. Modern problems of science and education. 2016;1:15. (In Russ.).

3. Bodnya A. I. Minimally invasive calcaneus osteosynthesis in elderly and senile patients. Trauma. 2019;1:84-88. (In Russ.).

4. Kalenskiy V. O., Ivanov P. A. The Main Causes of Unsatisfactory Outcomes of Treatment for Foot Injuries. The N. V. Sklifosovsky Research Institute for Emergency Medicine Journal. 2018;2:122-128. (In Russ.).

5. Podsonnyy A. A., Bondarenko A. V. Treatment of Heel Bone Fractures in Isolated Injuries in Polytrauma. Polytrauma. 2014;2:6-14. (In Russ.).

6. Nazarov Kh. N., Linnik S. A. Extrafocal Fixation of Fractures with Concomitant and Multiple Injuries of Lower Limb. Tadzhikistan Health Care. 2014;2:44-50. (In Russ.).

7. Korzun O. A., Sitnik A. A., Linov A. L., Khudnitskiy S. I. Minimally-invasive and open surgery in management of the intraarticular calcaneal fractures. Medical News. 2015;8:16-20. (In Russ.).

8. Neverov V. A., Khromov A. A., Chernyayev S. N. et al. Application of the severity injuries control in patients with concomitant trauma. All-Russian prosthetists & orthopaedists guild bulletin. 2009;37(3):4-9. (In Russ.).

9. Gilev M. V., Volokitina Ye. A., Antoniadi Yu. V., Kutepov S. M. Bone Grafting in Surgical Management of Intraarticular Impressional Calcaneal Fractures // Bulletin of Ural medical academic science. 2017;2:123-130. (In Russ.).

10. Kalenskiy V. O., Ivanov P. A., Sharifullin F. A., Zabavskaya O. A. Comparison of Three Options for Treatment of Calcaneal Fracture. Traumatology and Orthopedics of Russia. 2018;3:103-112. (In Russ.).

11. Sanders R., Fortin P., Dipasquale T. et al. Operative treatment in 120 displased intraarticular calcaneal fractures: result using a prognostic computed tomography scun classification. Clin Orthop. 1993;290:87-95.

12. Koryshkov N. A., Platonov S. M. Calcaneal Bone Fractures Treatment. N. N. Priorov Journal of Traumatology and Orthopedics. 2005;1:90-92. (In Russ.).

13. Tianen J., Soini Y., Tormala P., Waris T., Ashammakhi N. Self-Reinforced Polyactide/Polyglycolide 80/20 Screws Take More Rhan 144 years to Resorb Cranial Bone. Journal of Biomedical Material Research, part B: Applied Biomaterials. 2004;70B(1):49-55.