BACKGROUND: In our experience, diffusion-weighted imaging with body background suppression (DWIBS) is hard to interpret in children who commonly have foci of restricted diffusion in their skeletons unrelated to pathology, sometimes in an asymmetrical pattern. This raises serious concern about the accuracy of DWIBS in cancer staging in children. OBJECTIVE: To describe the signal distribution at DWIBS in the normal developing lumbar spine and pelvic skeleton. MATERIALS AND METHODS: Forty-two healthy children underwent an MR DWIBS sequence of the abdomen and pelvis. An axial short-tau inversion-recovery (STIR) echo-planar imaging (EPI) pulse sequence was used. Two radiologists did a primary review of the images and based on these preliminary observations, separate scoring systems for the lumbar spine, pelvis and proximal femoral epiphyses/femoral heads were devised. Visual evaluation of the images was then performed by the two radiologists in consensus. The scoring was repeated separately 2 months later by a third radiologist. Restricted diffusion was defined as areas of high signal compared to the background. Coronal maximum intensity projection (MIP) reformats were used to assess the vertebral bodies. For the pelvis, the extension of high signal for each bone was given a score of 0 to 4. Cohen's Kappa interobserver agreement coefficients of signal distribution and asymmetry were calculated. RESULTS: All children had areas of high signal, both within the lumbar vertebral bodies and within the pelvic skeleton. Three patterns of signal distribution were seen in the lumbar spine, but no specific pattern was seen in the pelvis. There was a tendency toward a reduction of relative area of high signal within each bone with age, but also a widespread interindividual variation. CONCLUSION: Restricted diffusion is a normal finding in the pelvic skeleton and lumbar spine in children with an asymmetrical distribution seen in 48% of normal children in this study. DWIBS should be used with caution for cancer staging in children as this could lead to high numbers of false positive findings or even unjustified upstaging.
BACKGROUND: In our experience, diffusion-weighted imaging with body background suppression (DWIBS) is hard to interpret in children who commonly have foci of restricted diffusion in their skeletons unrelated to pathology, sometimes in an asymmetrical pattern. This raises serious concern about the accuracy of DWIBS in cancer staging in children. OBJECTIVE: To describe the signal distribution at DWIBS in the normal developing lumbar spine and pelvic skeleton. MATERIALS AND METHODS: Forty-two healthy children underwent an MR DWIBS sequence of the abdomen and pelvis. An axial short-tau inversion-recovery (STIR) echo-planar imaging (EPI) pulse sequence was used. Two radiologists did a primary review of the images and based on these preliminary observations, separate scoring systems for the lumbar spine, pelvis and proximal femoral epiphyses/femoral heads were devised. Visual evaluation of the images was then performed by the two radiologists in consensus. The scoring was repeated separately 2 months later by a third radiologist. Restricted diffusion was defined as areas of high signal compared to the background. Coronal maximum intensity projection (MIP) reformats were used to assess the vertebral bodies. For the pelvis, the extension of high signal for each bone was given a score of 0 to 4. Cohen's Kappa interobserver agreement coefficients of signal distribution and asymmetry were calculated. RESULTS: All children had areas of high signal, both within the lumbar vertebral bodies and within the pelvic skeleton. Three patterns of signal distribution were seen in the lumbar spine, but no specific pattern was seen in the pelvis. There was a tendency toward a reduction of relative area of high signal within each bone with age, but also a widespread interindividual variation. CONCLUSION: Restricted diffusion is a normal finding in the pelvic skeleton and lumbar spine in children with an asymmetrical distribution seen in 48% of normal children in this study. DWIBS should be used with caution for cancer staging in children as this could lead to high numbers of false positive findings or even unjustified upstaging.
Authors: Douglas Ballon; Richard Watts; Jonathan P Dyke; Eric Lis; Michael J Morris; Howard I Scher; Aziz M Uluğ; Ann A Jakubowski Journal: Magn Reson Med Date: 2004-12 Impact factor: 4.668
Authors: Annemieke S Littooij; Thomas C Kwee; Ignasi Barber; Claudio Granata; Malou A Vermoolen; Goya Enríquez; József Zsíros; Shui Yen Soh; Bart de Keizer; Frederik J A Beek; Monique G Hobbelink; Marc B Bierings; Jaap Stoker; Rutger A J Nievelstein Journal: Eur Radiol Date: 2014-02-23 Impact factor: 5.315
Authors: Noemi Maria Giovanna Ognibene; Massimo Basile; Marco Di Maurizio; Giuseppe Petrillo; Claudio De Filippi Journal: Radiol Med Date: 2016-02-02 Impact factor: 3.469