Proton MR Spectroscopic Evaluation of Suspicious Brain Lesions After Stereotactic Radiotherapy
Heinz–Peter Schlemmera,
Peter Bacherta,
Klaus K. Herfartha,
Ivan Zunaa,
Jürgen Debusa and
Gerhard van Kaicka
a From the Departments of Oncological Diagnostics and Therapy (H.–P.S., G.V.K.), Biophysics and Medical Radiation Physics (P.B.), and Radiooncology (I.Z.), German Cancer Research Center (dkfz), Heidelberg, Germany, and the Department of Radiooncology (K.K.H, J.D.), University of Heidelberg, Heidelberg, Germany.
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FIG 1. A 67-year-old patient with astrocytoma grade II. MR examination 36 months after stereotactic radiotherapy showed two contrast-enhancing lesions on T1-weighted spin-echo images.
A and C, A lesion with ring-shaped enhancement zone is seen in the left frontal lobe (A) and a lesion with homogeneous enhancement in seen in the left temporal lobe (C) (boxes indicate MRS voxels).
B and D, 1H MR spectra [double spin-echo sequence 1500/135/200 (TR/TE/excitations)] of both lesions show a peak attributed to free lipids, indicating necrosis. An intense tCho resonance is only seen in the lesion in the left temporal lobe. FDG-PET revealed high glucose uptake in this region, indicating tumor progression. Low tCho signal was found in the lesion in the left frontal lobe. Radionecrosis in this region was confirmed by biopsy.
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FIG 2. A 36-year-old patient with astrocytoma II in the right temporo-parietal lobe, examined before (A) and 20 months after stereotactic radiotherapy (B). During follow-up, an irregular contrast-enhancing lesion appeared at the upper region of the irradiated volume (B) with complete involution 13 months later (D). 1H MR spectra (double spin-echo sequence 1500/135/200) (C) show initially elevated ItCho/ItCr and ItCho/INAA values and a strong lipid resonance. Thirteen months later, the spectrum indicates normal brain tissue (E)
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FIG 3. A 54-year-old patient with astrocytoma II of the right temporal lobe after surgery and stereotactic radiotherapy. T2-weighted turbo spin-echo images obtained before (A) and 9 months after radiotherapy (B) show a hyperintense lesion within the irradiated insula on the right hemisphere, a surgical tissue defect in the right temporal, and gliosis in the right occipital lobe (T1-weighted spin-echo images showed no uptake of contrast medium.) Corresponding 1H MR spectra (double spin-echo sequence 1500/135/200) acquired 9, 15, and 21 months after stereotactic radiotherapy (C–E) demonstrated similar signal intensities of tCho and tCr, with only minor changes during follow-up. MR imaging follow-up showed no further change of the lesion consistent with diagnosis of nonneoplastic lesion
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FIG 4. a, Ratios of 1H MR signal intensities (double spin-echo sequence 1500/135/200–300) of total choline and total creatine (ItCho/ItCr) versus ratios of intensities of total choline and NAA (ItCho/INAA) observed in lesions classified as progressive tumor ( , n = 35), radiation injury ( , n = 17), and stable disease ( , n = 15). The straight lines: (ItCho/ItCr) = 2.5–0.5 x (ItCho/INAA) (line 1) and (ItCho/ItCr) = 4.2–1.35 x (ItCho/INAA) (line 2) obtained from linear discriminant analysis and 7-point neighbor method, respectively, differentiate neoplastic and nonneoplastic lesions.
b, Detail of (a) with ratios  5.0 together with ItCho/ItCr and ItCho/INAA values of normal brain (x, n = 33, voxel in the contralateral unaffected side). Parallel lines obtained from linear discriminant analysis are labeled with the probability of PT.
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