RESUMEN
Benign bone tumors are surgically treated by curettage and by filling the defect using bone grafts or bone substitutes, such as hydroxyapatite crystals and tricalcium phosphate. The tricalcium phosphate mixed with hydroxyapatite, although fragile, is a good alternative with good integration. Fifteen patients with benign bone lesions were randomized in two groups surgically treated by curettage and filling of the bone defect using allograft (7 cases) or a mixture of 35% tricalcium phosphate, with 60-85% pore volume, and 65% hydroxyapatite (8 cases). After the surgery, all patients were followed up every 3 weeks until 6 months, and then at 2 months interval until one year for the clinical and radiological assessment. The average age was 35.4 years (from 18 to 54) for the allograft group and 41 years (from 22 to 58) for the patients treated with bone substitute. Eight patients were male and seven female, with relatively equal distribution between both groups. The average bone defect was relatively equal: 14 cc (4-25 cc) for the allograft group and 15.1 cc (4-33 cc) for the ceramic group (P>0.1). During the follow-up, all the lesions gradually disappeared after 12 months, with a time of healing of 18.8 weeks (15-24 weeks) for the allograft group and 20.37 weeks (15-28) for the bone substitute group. There were no significant differences regarding the clinical status and the radiological assessment after 12 months. No patient required extra pain medication after 2 weeks. No complications have been recorded. The surgical treatment of small and medium sized lytic benign tumors has good results with both types of graft that were studied. Using tricalcium phosphate mixed with hydroxyapatite as bone substitute represents a good and low cost alternative, but it is a relatively fragile material with a slower time to integrate compared to the allograft.
RESUMEN
Uncommon causes of nail failures and surgical reinterventions were determined. The study included 23 osteoporotic patients, 13 of whom followed a fast recovery program with early walking (FWB group). The other 10 patients were not allowed full weight bearing until 6 weeks (NFWB group). The T-score was determined before surgery for all cases. A case with a nail breakage after a failed DCS implant fixed in another clinic was also analyzed. The nail was revised and the broken implant underwent a metallurgic and microscopic examination. The average T-score was 2.5 for the patients that followed the fast recovery program and 2.7 for the patients from non-full weight bearing. Four patients, 1 from the NFWB group and 3 from FWB group, presented a screw cut-out. It was found that the errors of the guiding instruments may create dents, scratches or micro-fractures on the titanium coating that lead to an early implant failure. Imperfect reduction leads to incorrect implant placement and a high incidence of failure. Damaging the titanium protective coating, in a low force, high cycles scenario can cause structural failure. Delays in fracture healing and material fatigue are the most common causes of nail failure and can lead to catastrophic complications.