Osteoid osteoma is treated primarily by radiofrequency
(RF) ablation. However, there is little information about the distribution
of heat in bone during the procedure and its safety. We constructed
a model of osteoid osteoma to assess the distribution of heat in
bone and to define the margins of safety for ablation. Cavities
were drilled in cadaver bovine bones and filled with a liver homogenate
to simulate the tumour matrix. Temperature-sensing probes were placed
in the bone in a radial fashion away from the cavities. RF ablation
was performed 107 times in tumours <
10 mm in diameter (72 of
which were in cortical bone, 35 in cancellous bone), and 41 times
in cortical bone with models >
10 mm in diameter. Significantly
higher temperatures were found in cancellous bone than in cortical
bone (p <
0.05). For lesions up to 10 mm in diameter, in both
bone types, the temperature varied directly with the size of the
tumour (p <
0.05), and inversely with the distance from it. Tumours
of >
10 mm in diameter showed a trend similar to those of smaller
lesions. No temperature rise was seen beyond 12 mm from the edge
of a cortical tumour of any size. Formulae were developed to predict
the expected temperature in the bone during ablation. Cite this article:
