ABSTRACT
We report about a 44-year-old woman who presented at our Orthopaedic Department suffering from persisting pain and a tumor of the right knee after open articulosynovectomy. MRI did not clarify the entity at all. The X-ray examination could identify an inlying compress after a synovectomy in 1999. The intra-articular foreign body could be removed by open revision surgery.
Subject(s)
Arthritis, Rheumatoid/surgery , Granuloma, Foreign-Body/diagnosis , Granuloma, Foreign-Body/surgery , Knee Joint/surgery , Medical Errors , Pain, Postoperative/etiology , Postoperative Complications/diagnosis , Postoperative Complications/surgery , Surgical Sponges , Synovectomy , Adult , Diagnosis, Differential , Female , Granuloma, Foreign-Body/pathology , Humans , Postoperative Complications/pathology , Reoperation , UltrasonographyABSTRACT
BACKGROUND: Analogous to vertebroplasty, cement-augmentation of the proximal femur ("femoroplasty") could reinforce osteoporotic bones. This study was to evaluate (i) the feasibility of femoroplasty with a composite cement (Cortoss), (ii) its influence on femoral strength by mechanical testing and (iii) the feasibility of stable osteosynthesis of the augmented fractured bones. METHODS: Nine human cadaveric femora were augmented with a composite bone cement, the surface heat generation monitored, and then tested biomechanically against their native contralateral control to determine fracture strength. Subsequently, thirteen reinforced and fractured femora were osteosynthetized by different implants and tested against their osteosynthetisized, non-augmented contralateral control. FINDINGS: Cement could be injected easily, with a moderate temperature rise. A positive correlation between BMD and fracture load and a significant increase in fracture load (+43%) of the augmented femora compared to their native controls (6324 N and 4430 N, respectively) as well as a significant increase in energy-to-failure (+187%, 86 N m and 30 N m, respectively) was found. Osteosynthesis was possible in cement-augmented femora. Osteosynthetisized femora showed equivalent strength to the intact controls. INTERPRETATION: Augmentation of the proximal femur with composite bone cement could be of use in prophylaxis of fractures in osteoporotic femurs. Osteosynthesis of the fractured augmented bones is a challenging procedure but has a good chance to restore strength.