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Differential diagnosis between progression and radionecrosis in brain metastases after stereotactic radiosurgery using hybrid FDG-PET and MRI coregistered images |
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| Authors: | H Otman J Deverdun E Le Bars N Menjot de Champfleur F Molino M Bilal Chawki F Cachin M Chanchou B Fayçal D Mariano Goulart |
| Institution: | 1. Centre Jean Perrin, Clermont-Ferrand, France;2. University Hospital of Montpellier, Montpellier, France;3. University Hospital of Nancy, Nancy, France;1. Nuclear medicine department. Military Hospital of Tunis, Tunis, Tunisia;2. Otorhinolaryngology department. Military Hospital of Tunis, Tunis, Tunisia;3. Military Health Services Application School, Tunis,Tunisia;1. Service de médecine nucléaire, Centre G.F. Leclerc, 1, rue Pr-Marion, BP 77980, 21079 Dijon cedex, France;2. Laboratoire Algade, avenue du Brugeaud, BP 46, 87250 Bessines-sur-Gartempe, France;1. Département de médecine nucléaire, institut des radio isotopes, université Abdou-Moumouni, Niamey, Niger;2. Service de médecine nucléaire, CHU Bâb-El-Oued, Alger, Algérie;3. Service d’endocrinologie, de diabétologie et de nutrition, hôpital général de référence, Niamey, Niger;4. Service de médecine interne, hôpital général de référence, Niamey, Niger;1. Unité de médecine nucléaire, institut Godinot, 1 Rue du Général Koenig, 51100 Reims, France;2. Laboratoire de biophysique, UFR de médecine, Reims, France;3. CReSTIC (Centre de recherche en sciences et technologies de l’information et de la communication), EA 3804, université de Reims Champagne-Ardenne, France;4. Unité thyroïde, institut Godinot, Reims, France;5. Service de chirurgie viscérale et endocrinienne, hôpital universitaire Robert-Debré, Reims, France;6. Service d’endocrinologie, diabétologie et nutrition, hôpital universitaire Robert-Debré, Reims, France;1. Department of Medicinal Chemistry, School of Pharmacy, Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran;2. Cellular and Molecular Research Center, Yasouj University of Medical Sciences, Yasouj, Iran;3. Department of Biology, Faculty of Basic Sciences, Yasouj University, Yasouj, Iran |
| Abstract: | IntroductionDual phase 18 FDG brain PET is helpful to assess brain metastases (BM) as tracer will build up in metastases or tumor recurrences while its retention remains stable within normal tissue or inflammatory processes. This is useful when MRI can’t discriminate brain tumor recurrence (TR) rom radionecrosis (RN) after stereotaxic radiosurgery (SRS) for BM. Many studies have sought to improve diagnostic performance by associating FDG-PET and MRI with interesting results but many biases, mostly within image post-processing. Coregistered MRI and dual phase FDG-PET images could alleviate these biases and be used to extract prognostic biomarkers.Materials and methodsWe retrospectively evaluated patients treated with SRS for BM which developed a contrast-enhanced MRI lesion with non-conclusive diagnosis for TR or RN. All patients underwent MRI and FDG-PET at least 3 months after their last SRS session. Dual FDG-PET consisted in an “early” and “delayed” acquisition, respectively 30 minutes and 4 h after injection. MRI included permeability and perfusion sequences. PET and MRI data were all coregistered on the contrast enhanced T1 MRI images. Semi-automated Volumes of Interest (VOI) of the tumor were drawn on the BM and a reference contralateral white-matter ROI (WM) was drawn for standardization; every metric was calculated inside these ROIs, in particular the tumor SUVmax and its variation in time. A 20% increase in the tumor SUVmax was in favor of TR while a modification of less than 100% was in favor of RN. Imaging metrics were then evaluated for their association with TR or RN based on histological, radiological and clinical criteria after at least 6 months follow-up.ResultsNine patients were ruled out as TR and 6 as RN. After standardization, there was a significant difference between groups for VP (P = 0.042), Washin (P = 0.035), Peak Enhancement (P = 0.037), standardized delayed SUVmax (P = 0.008) and RI (P = 0.016). Semi-quantitative analysis found respectively for PET and MRI a Sensitivity of 100% and 87.5% and a Specificity of 100% and 85.71%.ConclusionCoregistered PET-MRI images accurately discriminate between TR and RN. With FDG being the most commonly used PET radiotracer, this protocol remains easily transposable and should be encouraged to obtain non-invasive prognostic and clinically relevant biomarkers. |
| Keywords: | Dual phase FDG PET Steretactic radiosurgery Brain metastasis MRI: Coregistration Radionecrosis TEP FDG double phase Radiothérapie stéréotaxique Métastase cérébrale IRM Coregistration Radionécrose BM"} {"#name":"keyword" "$":{"id":"kw0070"} "$$":[{"#name":"text" "_":"brain metastasis SRS"} {"#name":"keyword" "$":{"id":"kw0080"} "$$":[{"#name":"text" "_":"stereotaxic radiosurgery WBRT"} {"#name":"keyword" "$":{"id":"kw0090"} "$$":[{"#name":"text" "_":"whole brain radiotherapy TR"} {"#name":"keyword" "$":{"id":"kw0100"} "$$":[{"#name":"text" "_":"tumor recurrence TP"} {"#name":"keyword" "$":{"id":"kw0110"} "$$":[{"#name":"text" "_":"tumor progression VOI"} {"#name":"keyword" "$":{"id":"kw0120"} "$$":[{"#name":"text" "_":"volume of interest FDG"} {"#name":"keyword" "$":{"id":"kw0130"} "$$":[{"#name":"text" "$$":[{"#name":"__text__" "_":"["} {"#name":"sup" "$":{"loc":"post"} "_":"18"} {"#name":"__text__" "_":"F]fluorodeoxyglucose PET/CT"} {"#name":"keyword" "$":{"id":"kw0140"} "$$":[{"#name":"text" "_":"positron emission tomography–computed tomography MRI"} {"#name":"keyword" "$":{"id":"kw0150"} "$$":[{"#name":"text" "_":"magnetic resonance imaging OS"} {"#name":"keyword" "$":{"id":"kw0160"} "$$":[{"#name":"text" "_":"overall survival PFS"} {"#name":"keyword" "$":{"id":"kw0170"} "$$":[{"#name":"text" "_":"progression free survival WM"} {"#name":"keyword" "$":{"id":"kw0180"} "$$":[{"#name":"text" "_":"white matter AUC"} {"#name":"keyword" "$":{"id":"kw0190"} "$$":[{"#name":"text" "_":"area under curve FDR"} {"#name":"keyword" "$":{"id":"kw0200"} "$$":[{"#name":"text" "_":"false discovery rate |
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