Early outcomes of using custom-made augments in revision total hip arthroplasty.

INTRODUCTION: The continuing high demand for revision total hip arthroplasty (RTHA) requires not only additional economic costs, but also the search for new, effective methods to manage the reconstruction of acetabular bone loss. This study focuses on the assessment of the clinical and radiographic outcomes after RTHA using custom-made augments (CMA) in the short-term follow-up period. MATERIALS AND METHODS: We retrospectively analyzed the results of using CMAs in 19 patients (20 hips). The average follow-up period was 41.3 months. All surgery was performed on defect types III and IV as per the Gross and Saleh classification. RESULTS: There was a statistically significant difference when comparing the Oxford Hip Score before RTHA of 15.0 (Std. deviation-5.9) and after RTHA of 36.3 (Std. deviation-6.3) (p = 0.01). All implants were radiologically stable. CMA has demonstrated a good ability to restore position of hip centre of rotation (HCOR). In the postoperative period, two patients (2 hips) had dislocations. Only one of two patients underwent re-revision due to dislocation. CONCLUSION: Treatment of uncontained loss of bone stock in RTHA using CMA shows promising clinical and radiographic results at short-term follow-up period; however, dislocation rate is 10% in this study.

[Additive technologies for complete recovery of joint function in revision endoprosthesis surgery (experimental trial)]. / Additivnaia tekhnologiia v polnom vosstanovlenii funktsii sustava pri éndoprotezirovanii (éksperimental'noe issledovanie).

AIM: Experimental analysis of the strength properties of integration of muscle tissue, tendons and ligaments, bone tissue into titanium highly porous materials prepared by using of additive technologies. MATERIAL AND METHODS: The study included 9 mature rabbits of the Chinchilla breed. Both posterior paws and latissimus dorsi muscles (36 specimens) were used. Titanium models (Ti-6-Al-4-V, 'Rematitan', Germany) were made by additive technologies with preliminary prototyping, the prototypes had a highly porous mesh structure. RESULTS: It was developed experimental model of functional bone defect involving points of attachment of the muscle and ligaments. Strength of attachment of muscles to highly porous implants was 145 H vs. 31 H for standard models. Tensile strength for fixation to bone tissue was 84 H vs. 152 H in the main group. CONCLUSION: It was found integration of soft tissues and bones into highly porous titanium implants prepared with additive technologies. Fixation strength significantly exceeds that for standard models.

POSSIBILITIES OF MODERN TECHNOLOGIES OF VISUALIZATION AND MODELING IN ORTHOPEDICS AND THEIR ROLE IN DEVELOPMENT OF INDIVIDUAL CONSTRUCTIONS IN HIP ARTHROPLASTY.

The article presents the authors' experience. Medical visualization is applied in orthopedics on all stages such as diagnostics, treatment planning and control of the results. Modern approaches in instrumental diagnostics and specialized application-dependent software allowed a new qualitative level of orthopedics and medical care in different areas of medicine. Modern technologies gave a lot of opportunities to doctors in order to improve diagnostics at higher level, make an individual planning of operations and built individual implants, when it wasn't possible to use standard constructions.