Abstract
Background and objectives
Positron emission tomography (PET) is a technology widely used in oncology. It is now being increasingly used in orthopaedics, especially in diagnosing bone infection. Diagnosis of bone infection is still a challenge, especially after surgery. Bone scintigraphy, Gallium-67 scintigraphy, and radiolabelled leucocyte scintigraphy are not specific. MRI has problems with definition in the presence of metal. PET uses 18-F Fluoro deoxyglucose(FDG) as a radiotracer. Inflammatory cells use glucose for energy, and the 18F-Fluoride component of FDG is a positron-emitting radionucleotide. We undertook this study to show our experience with the FDG-PET –CT in diagnosing bone infection and to highlight its superiority in diagnosing infected spine implants.
Material and Methods
Medical records of orthopaedic patients referred to the nuclear medicine department in our hospital were retrospective reviewed. We looked at the clinical records, radiographs, bone scintigraphs, MRI and FDG-PET, assessing their diagnostic accuracy, and their value in helping the surgeon plan treatment.
Results
There were 37 patients referred for possible diagnosis of bone infection. 14 had proven spine infection on FDG-PET scan. 5 of these had infected spine implants. The FDG-PET scan showed better definition of the anatomical site of the infection, allowing the surgeon to plan surgery better. Also it was not affected by presence of implants.
Conclusion
FDG-PET-CT is the modality of choice for diagnosing bone infection. It is particularly useful in defining the anatomical site of the infection, especially in irregular bones, like the vertebrae.
NO DISCLOSURES
