Comparative value of thallium and glucose SPECT imaging in childhood brain tumors.
暂无分享,去创建一个
B. Maria | W E Drane | S T Mastin | S. Mastin | W. Drane | B L Maria | L A Jimenez | L. A. Jiménez
[1] N. Tonami. Thallium-201 SPECT in the evaluation of gliomas. , 1993, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.
[2] R A Brooks,et al. Glucose utilization of cerebral gliomas measured by [18F] fluorodeoxyglucose and positron emission tomography , 1982, Neurology.
[3] J. M. Ollinger,et al. Positron Emission Tomography , 2018, Handbook of Small Animal Imaging.
[4] L. Freeman,et al. Nuclear medicine annual. , 1982 .
[5] Abass Alavi,et al. Positron emission tomography in patients with glioma a predictor of prognosis , 1988, Cancer.
[6] S. Mukherji,et al. Comparison of thallium-201 and F-18 FDG SPECT uptake in squamous cell carcinoma of the head and neck. , 1994, AJNR. American journal of neuroradiology.
[7] T. H. Newton,et al. Brain radiation lesions: MR imaging. , 1986, Radiology.
[8] G Di Chiro,et al. Prediction of survival in glioma patients by means of positron emission tomography. , 1985, Journal of neurosurgery.
[9] G. Chiro. Positron emission tomography using [18F] fluorodeoxyglucose in brain tumors. A powerful diagnostic and prognostic tool. , 1987 .
[10] B. Maria,et al. Value of thallium-201 SPECT imaging in childhood brain tumors. , 1994, Pediatric neurosurgery.
[11] R. G. Manning,et al. Work in progress: [18F] fluorodeoxyglucose and positron emission tomography in the evaluation of radiation necrosis of the brain. , 1982, Radiology.
[12] J M Hoffman,et al. Clinical application of PET for the evaluation of brain tumors. , 1991, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.
[13] E. Alexander,et al. Radiation necrosis vs high-grade recurrent glioma: differentiation by using dual-isotope SPECT with 201TI and 99mTc-HMPAO. , 1991, AJNR. American journal of neuroradiology.
[14] R. Hawkins,et al. Use of thallium-201 SPECT to quantitate malignancy grade of gliomas. , 1989, Journal of neurosurgery.
[15] E Abemayor,et al. Positron emission tomography: A new, precise imaging modality for detection of primary head and neck tumors and assessment of cervical adenopathy , 1992, The Laryngoscope.
[16] B. Maria,et al. Correlation Between Gadolinium-Diethylenetriaminepentaacetic Acid Contrast Enhancement and Thallium-201 Chloride Uptake in Pediatric Brainstem Glioma , 1997, Journal of child neurology.
[17] J. Mountz,et al. Thallium-201 tumor/cardiac ratio estimation of residual astrocytoma. , 1988, Journal of neurosurgery.
[18] H. Atkins,et al. Thallium-201 brain tumor imaging: a comparative study with pathologic correlation. , 1987, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.
[19] J. Kuperus,et al. Technology for FDG SPECT with a relatively inexpensive gamma camera. Work in progress. , 1994, Radiology.
[20] S. Treves,et al. 201Tl/99mTc-HMPAO SPECT imaging of treated childhood brain tumors. , 1991, Pediatric neurology.
[21] K. Endo,et al. Clinical evaluation of thallium-201 SPECT in supratentorial gliomas: relationship to histologic grade, prognosis and proliferative activities. , 1993, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.
[22] K. Geisinger,et al. Positron emission tomography of patients with head and neck carcinoma before and after high dose irradiation , 1994, Cancer.