We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Novel use of gamma correction for precise (99m)Tc-HDP pinhole bone scan diagnosis and classification of knee occult fractures.
- Authors
Bahk, Yong-Whee; Jeon, Ho-Seung; Kim, Jang; Park, Jung; Chung, Yong-An; Kim, E.; Kim, Sung-Hoon; Chung, Soo-Kyo; Kim, Jang Min; Park, Jung Mee; Kim, E Edmund
- Abstract
<bold>Objective: </bold>The aim of this study was to introduce gamma correction pinhole bone scan (GCPBS) to depict specific signs of knee occult fractures (OF) on (99m)Tc-hydroxydiphosphonate (HDP) scan.<bold>Materials and Methods: </bold>Thirty-six cases of six different types of knee OF in 27 consecutive patients (male = 20, female = 7, and age = 18-86 years) were enrolled. The diagnosis was made on the basis of a history of acute or subacute knee trauma, local pain, tenderness, cutaneous injury, negative conventional radiography, and positive magnetic resonance imaging (MRI). Because of the impracticability of histological verification of individual OF, MRI was utilized as a gold standard of diagnosis and classification. All patients had (99m)Tc-HDP bone scanning and supplementary GCPBS. GCPBS signs were correlated and compared with those of MRI. The efficacy of gamma correction of ordinary parallel collimator and pinhole collimator scans were collated.<bold>Results: </bold>Gamma correction pinhole bone scan depicted the signs characteristic of six different types of OF. They were well defined stuffed globular tracer uptake in geographic I fractures (n = 9), block-like uptake in geographic II fractures (n = 7), simple or branching linear uptake in linear cancellous fractures (n = 4), compression in impacted fractures (n = 2), stippled-serpentine uptake in reticular fractures (n = 11), and irregular subcortical uptake in osteochondral fractures (n = 3). All fractures were equally well or more distinctly depicted on GCPBS than on MRI except geographic II fracture, the details of which were not appreciated on GCPBS. Parallel collimator scan also yielded to gamma correction, but the results were inferior to those of the pinhole scan.<bold>Conclusions: </bold>Gamma correction pinhole bone scan can depict the specific diagnostic signs in six different types of knee occult fractures. The specific diagnostic capability along with the lower cost and wider global availability of bone scanning would make GCPBS an effective alternative.
- Subjects
KNEE fractures; DIPHOSPHONATES; MAGNETIC resonance imaging; COLLIMATORS; COMPRESSION fractures; THERAPEUTIC use of gamma rays; ALGORITHMS; KNEE; ORGANIC compounds; RETROSPECTIVE studies; CLOSED fractures; DIAGNOSIS
- Publication
Skeletal Radiology, 2010, Vol 39, Issue 8, p807
- ISSN
0364-2348
- Publication type
journal article
- DOI
10.1007/s00256-010-0925-1