[1. Bonicelli C, Bacci A, Agat i R, Leonardi M. Potential of high field functional MRI in the neuroradiological diagnosis of brain tumours // The Neuroradiol J, 2009; 22:534-545 ]Search in Google Scholar
[2. Brandsma D, Stalpers L, Taal W, Sminia P, Bent MJ. Clinical features, mechanisms, and management of pseudoprogression in malignant gliomas // Lancet Oncol, 2008; 9:453-461 ]Search in Google Scholar
[3. Chaskis C, Neyns B, Michot te A, Ridder M, Everaert H. Pseudoprogression after radiotherapy with concurrent temozolomide for high-grade glioma: clinical observations and working recommendations // Surg Neurol, 2009; 72:423-428 ]Search in Google Scholar
[4. Costanzo AD, Scarabino T, Trojsi F, Popolizio T, Catapano D, Giannatempo GM, Bonavita S, Portaluri M, Tosetti M, Angelo VA, Salvolini U, Tedeschi G. Proton MR spectroscopy of cerebral gliomas at 3T: spatial heterogeneity, and tumour grade and extent // Eur Radiol, 2008; 18:1727-1735 ]Search in Google Scholar
[5. Dincer A, Isik U, Kosak E, Ozet M. Extrapontine myelinolysis in a child: a rare case with MRI, DWI and MRS follow-up // The Neuroradiology Journal, 2008; 21:527-537 ]Search in Google Scholar
[6. Gerstner L, Jellinger K, H eiss WD, Wober G. Morphological changes in anaplastic gliomas treated with radiation and chemotherapy // Acta Neurochir, 1977; 36:117-138 ]Search in Google Scholar
[7. Goebell E, Fiehler J, Ding XQ, Paustenbach S, Nietz S, Heese O, Kucinski T, Hagel C, Westphal M, Zeumer H. Disarrangement of fiber tracts and decline of neuronal density correlate in glioma patients - a combined diffusion tensor imaging and 1H-MR spectroscopy study // Am J Neuroradiol, 2006; 27:1427-1431 ]Search in Google Scholar
[8. Huang J, Wang AM, Shetty A , Maitz AH, Yan D, Doyle D, Richey K, Park S, Pieper DR, Chen PY, Grills IS. Differentiation between intra-axial metastatic tumor progression and radiation injury following fractionated radiation therapy or stereotactic radiosurgery using MR spectroscopy, perfusion MR imaging or volume progression modeling // Magn Reson Imaging, 2011; 29:993-1001 ]Search in Google Scholar
[9. Hygino CJLC, Rodriguez I, Domingues RC, Gasparetto EL, Sorensen AG. Pseudoprogression and pseudoresponse: imaging challenges in the assessment of posttreatment glioma // Am J Neuroradiol, 2011; 32:1978-1985 ]Search in Google Scholar
[10. Kallenberg K, Bock H, Helm s G, Jung K, Wrede A, Buhk JH, Giese A, Frahm J, Strik H, Dechent P, Knauth M. Untreated glioblastoma multiforme: increased myo-inositol and glutamine levels in the contralateral cerebral hemisphere at proton MR spectroscopy // Radiology, 2009; 253:805-812 ]Search in Google Scholar
[11. Louis DN, Ohgaki H, Wiestl er OD, Cavenee WK, Burger PC, Jouvet A, Scheithauer BW, Kleihues P: The 2007 WHO classification of tumours of the central nervous system // Acta Neuropathol, 2007; 114:97-109 10.1007/s00401-007-0243-4192916517618441]Search in Google Scholar
[12. Nakajima T, Kumabe T, Kana mori M, Saito R, Tashiro M, Watanabe M, Tominaga T: Differential diagnosis between radiation necrosis and glioma progression using sequential proton magnetic resonance spectroscopy and methionine positron emission tomography // Neurol Med Chir, 2009 49:394-401 10.2176/nmc.49.39419779283]Search in Google Scholar
[13. Nelson SJ. Assessment of t herapeutic response and treatment planning for brain tumors using metabolic and physiological MRI // NMR Biomed, 2011; 24:734-749 ]Search in Google Scholar
[14. Oshiro S, Tsugu H, Komatsu F, Abe H, Onishi H, Ohmura T, Iwaasa M, Sakamoto S, Fukushima T. Quantitative assessment of gliomas by proton magnetic resonance spectroscopy // Anticancer Res, 2007; 27:3757-3764 ]Search in Google Scholar
[15. Pope WB, Young JR, Ellings on BM. Advances in MRI assessment of gliomas and response to anti- VEGF therapy // Curr Neurol Neurosci Rep, 2011; 11:336-344 ]Search in Google Scholar
[16. Principi M, Italiani M, Ot taviano P. Perfusion MRI in the evaluation of cerebral blood volume and mean transit time in untreated and recurrent glioblastomas // The Neuroradiology Journal, 2009 22:48-57 10.1177/19714009090220010824206953]Search in Google Scholar
[17. Schillaci O, Travascio L, Bruni C, Bazzocchi G, Testa A, Garaci FG, Melis M, Floris R, Simonetti G. Molecular imaging and magnetic resonance imaging in early diagnosis of Alzheimer’s disease // The Neuroradiology Journal, 2008; 21:755-771 ]Search in Google Scholar
[18. Smith EA, Carlos RC, Junck LR, Tsien CI, Elias A, Sundgren PC. Developing a clinical decision model: MR spectroscopy to differentiate between recurrent tumor and radiation change in patients with new contrast- enhancing lesions // Am J Roentgenol, 2009 192:45-52 10.2214/AJR.07.393419155380]Search in Google Scholar
[19. Sundgren PC. MR spectrosco py in radiation injury // Am J Neuroradiol, 2009; 30:1469 -1476 ]Search in Google Scholar
[20. Sundgren PC, Nagesh V, Eli as A, Tsien C, Junck L, Hassan GDM, Lawrence TS, Chenevert TL, Rogers L, McKeever P, Cao Y. Metabolic alterations: a biomarker for radiation-induced injury of normal brain. An MR spectroscopy study // J Magn Reson Imaging, 2009; 29:291-297 10.1002/jmri.21657267951819161192]Search in Google Scholar
[21. Wang YX, King AD, Zhou H, Leung SF, Abrigo J, Chan YL, Hu CW, Yeung DK, Ahuja AT. Evolution of radiation-induced brain injury: MR imaging- based study // Radiology, 2010; 254:210-218 ]Search in Google Scholar
[22. Weybright P, Sundgren PC, Maly P, Hassan DG, Nan B, Rohrer S, Junck L. Differentiation between brain tumor recurrence and radiation injury using MR spectroscopy // Am J Roentgenol, 2005; 185:1471- 1476 ]Search in Google Scholar
[23. Yaman E, Buyukberber S, Be nekli M, Oner Y, Ugur Coskun U, Akmansu M, Ozturk B, Kaya AO, Uncu D, Yildiz R. Radiation induced early necrosis in patients with malignant gliomas receiving temozolomide // Clin Neurol Neurosur, 2010; 112:662-667 ]Search in Google Scholar
[24. Yerli H, Ağıldere AM, Özen O, Geyik E, Atalay B, Elhan AH. Evaluation of cerebral glioma grade by using normal side creatine as an internal reference in multi-voxel 1H-MR spectroscopy // Diagn Interv Radiol, 2007; 13:3-9 ]Search in Google Scholar
