Journal
ARCHIVES OF ORTHOPAEDIC AND TRAUMA SURGERY
Volume 129, Issue 5, Pages 703-709Publisher
SPRINGER
DOI: 10.1007/s00402-008-0630-x
Keywords
Thermal osteonecrosis; Bone drilling; Infrared thermography; Spatial distribution; Temperature
Categories
Funding
- The Ministry of Science, Education and Sports
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During the drilling of the bone, the temperature could increase above 47A degrees C and cause irreversible osteonecrosis. The spatial distribution of increase in bone temperature could only be presumed using several thermocouples around the drilling site. The aim of this study was to use infrared thermographic camera for determination of spatial distribution of increase in bone temperature during drilling. One combination of drill parameters was used (drill diameter 4.5 mm; drill speed 1,820 rpm; feed-rate 84 mm/min; drill point angle 100A degrees) without external irrigation on room temperature of 26A degrees C. The increase in bone temperature during drilling was analyzed with infrared thermographic camera in two perpendicular planes. Thermographic pictures were taken before drilling, during drilling with measurement of maximal temperature values and after extraction of the drill from the bone. The thermographic picture shows that the increase in bone temperature has irregular shape with maximal increase along cortical bone, which is the most compact component of the bone. The width of this area with the temperature above critical level is three times broader than the width of cortical bone. From the front, the distribution of increase in bone temperature follows the form of the cortical bone (segment of a ring), which is the most compact part and causes the highest resistance to drilling and subsequent friction. Thermography showed that increase in bone temperature spreads through cortical bone, which is the most compact and dense part, and generates highest frictional heat during drilling. The medullar cavity, because of its gelatinous structure, contributes only to thermal dissipation.
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