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Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXVII | Pages 464 - 464
1 Sep 2012
Lindfors N Hyvönen P Nyyssönen M Kirjavainen M Kankare J Gullichsen E Salo J Lindfors N
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Bioactive glasses (BAGs) are bone substitutes with bone bonding, angiogenesis promoting and antibacterial properties. The bioactive process leading to bone bonding has been described as a sequence of reactions in the glass and at its surface. Implantation of the glass is followed by a rapid exchange of Na+ in the glass with H+ and H3O+ from the surrounding tissue, leading to the formation of silanol (SiOH) groups at the glass surface. Due to migration of Ca2+ and PO43− groups to the surface and cystallization, a CaO-P2O5 hydroxyapatite (HA) layer is formed on top of the Si-rich layer. Finally, cell interactions with the HA layer subsequently initiate the bone forming pathway.

The rapid increase in pH and the subsequent osmotic effect caused by dissolution of the glass have been suggested to partly explain the antibacterial properties observed for BAGs. Comparing bactericidal effects of different BAGs, BAG-S53P4 has been shown to be the most effective, with the fastest killing or growth inhibitory effect. This antibacterial effect has been observed in vitro for all pathogens tested, including the most important aerobic and anaerobic pathogens, as well as very resistant bacteria.

In a multicentre study in 2007–2009, BAG-S53P4 was used as bone graft substitute in treatment of osteomyelitis. Eleven patients (nine males, two females) with a radiologically diagnosed osteomyelitis in the lower extremity (N=10) and in the spine (N-1) participated.

In the operation, the infected bone and the soft tissue were removed, and the cavitary bone defects were filled with BAG-S53P4 (BonAlive™, Bonalive Biomaterials Ltd., Finland). In four patients, muscle flaps were used as part of the treatment. Eight patients were treated in a one-stage procedure. Kanamycin granules were used in one patient and Garamycin granules (Septocol ®) in two patients.

Patient data were obtained from hospital patient' records until August 2010, resulting in a mean follow-up period of 29 months (range 15–43).

BAG-S53P4 was well tolerated; no BAG-related adverse effects were seen in any patient. The use of BAG-S53P4 as a bone graft substitute resulted in a fast recovery. Long-term clinical outcome was good or excellent in ten of eleven patients.

These primary results indicate that BAG-S53P4 can be considered as a good and usable material in treatment of osteomyelitis. After this study BAG-S53P4 has been used in several other patients with very promising results.


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_III | Pages 245 - 245
1 Mar 2004
Heinänen J Gullichsen E Kotilainen E Heikkilä J Virolainen P Kajander S
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Introduction:Posterolateral spondylodesis with transpedicular internal fixation is a well documented method in the treatment of acute vertebral fractures in the lower thoracic and lumbar area. This method includes autogenous bonegrafting. The grafts are usually harvested from the posterior iliac crest through a separate incision and placed across the decorticated transverse processes. However the bone harvesting procedure increases blood loss and postoperative morbidity in these patients. Several studies suggest that BG has biocompatible, bone bonding and osteoconductive properties and may act as extraskeletal fusion material in spinal fusions. Methods: Sixteen patients with acute vertebral fracture underwent spondylodesis with internal fixation. Autogenous bone chips were placed on the decorticated transverse processes of the patints left hand side and 15 gr of BG were placed contralaterally. The fusion status was determined radiologically by plain radiographs and computer tomography three, six and twelve months postoperatively. The autogenous grafts served as internal controls for the BG grafts. Results: The fusion rate between the transverse processes filled with bone grafts was 100% and the fusion rate between processes with BG was 80% after six months follow-up. During that six months period there was no statistical difference in any parameter studied. There were no deep infections nor implant failures. Conclusions: On the basis of this study BG can be used as an additional material for spinal fusions.