Between April 1994 and December 1995 14 patients (average age 56 (41-71) years, 13 women, one man) suffering from a fracture of the distal radius (Extensionsfracture, type 1B by Pechlaner, AO-classification A2 and A3) were treated by minimal invasiv procedure. The bone defect was substituted with hydroxylapatit ceramic. In a prospective study the osteointegration of the alloplastic bone graft was evaluated radiographically and on MRI. Up to week 12 X-ray revealed a radiolucenty around the allograft in all patients. After 6 months trabecular structure reached the alloplastic bone graft in 57% of the patients. After one year the surface of the hydroxylapatit ceramic was remodelled in 36% of the patients. At this time MRI examination with contrast agent demonstrated marginal integration of the alloplastic bone craft in 71%. X-ray follow up showed stageable integration of the porous hydroxylapatit ceramic. MRI examination demonstrated partial osteointegration. Hydroxylapatit ceramic was incorporated in radial metaphyse of elder patients without any complications.
The interface between bone and ionomer cement has been studied in twelve young adult pigs 1-6 months after anterior cervical discectomy, removal of adjacent end plates and grafting of the bone defect with ionomer cement. Methods used to study the interface were fluorescence microscopy, scanning electron microscopy, electron microprobe analysis and radiological investigation. The interface in all animals consisted of collagenous tissue. The amount of collagenous fibres was related to the amount of residual movement within the motion segment: animals undergoing anterior plating after reconstruction of the bone defect presented with more or less compactly organized collagenous tissue. Sequential fluorochromic marking of osteoid formation revealed a vital bone bed around the interface but no signs of direct bone apposition to the ionomer cement plug. No signs of toxicity or graft rejection were noted. Ionomer bone cement contrary to experimental and clinical experience induces the formation of a connective tissue layer of different density in the porcine cervical spine.
Radiography in an emergency setting is a demanding task, in technical as well as in logistical terms. Rapid acquisition of high quality radiographs under difficult conditions, for example severely injured patients with multi-organ trauma is important. All image data and radiological reports must be transmitted to the trauma surgeon as soon as possible. To meet these needs with the promising means of modern X-ray technology, we decided to implement a completely digital X-ray division inside the new outpatient trauma department. In the setting of an outpatient emergency department digital radiography and PACS cannot be realised without problems. We present our first experience with the installation and 10 month filmless routine in the X-ray division for traumatology outpatients at the university of Innsbruck department of radiology.
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