FDG-PET in the selection of brain lesions for biopsy
Journal Article
·
· Journal of Computer Assisted Tomography; (United States)
- Department of Radiology, Duke University Medical Center, Durham, NC (United States)
The CT-guided stereotaxic needle biopsy has become a widely used procedure in the diagnostic evaluation of intracranial lesions including tumors. Conventional CT or MR frequently defines the anatomic regions of abnormality, which may be multiple lesions or a single lesion that is heterogeneous in cellular composition owing to the topographic variation of cellular constituency or the combination of active disease, nonspecific inflammation, necrosis, and/or edema. In these cases, selection of the most appropriate site for a successful diagnostic needle biopsy can be difficult. In three patients, we have used (18F)fluorodeoxyglucose (FDG) positron emission tomography (PET) to determine the site most likely to provide a diagnostic biopsy result. In the first patient, who presented with confusion, multiple biopsies from the temporal lobe, based on MR abnormalities, revealed only reactive gliosis and edema. Repeat biopsy directed by PET revealed an anaplastic astrocytoma. In a second patient, PET allowed us to differentiate radiation effect from active metastatic breast cancer. In the third patient, who presented with a grand mal seizure, biopsy of a CT-defined hypodense region demonstrated lymphocytosis. Metabolism of FDG was normal or increased in areas of Aspergillus encephalitis at autopsy. These preliminary studies suggest a complementary role for FDG-PET and CT or MR in selected patients for defining the intracranial site most likely to yield a positive biopsy result.
- OSTI ID:
- 5013010
- Journal Information:
- Journal of Computer Assisted Tomography; (United States), Journal Name: Journal of Computer Assisted Tomography; (United States) Vol. 15:5; ISSN 0363-8715; ISSN JCATD
- Country of Publication:
- United States
- Language:
- English
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550601* -- Medicine-- Unsealed Radionuclides in Diagnostics
62 RADIOLOGY AND NUCLEAR MEDICINE
ALDEHYDES
BETA DECAY RADIOISOTOPES
BETA-PLUS DECAY RADIOISOTOPES
BIOPSY
BODY
BRAIN
CARBOHYDRATES
CENTRAL NERVOUS SYSTEM
COMPUTERIZED TOMOGRAPHY
DIAGNOSIS
DIAGNOSTIC TECHNIQUES
DISEASES
EMISSION COMPUTED TOMOGRAPHY
FLUORINE 18
FLUORINE ISOTOPES
GLUCOSE
HEXOSES
HOURS LIVING RADIOISOTOPES
ISOMERIC TRANSITION ISOTOPES
ISOTOPES
LIGHT NUCLEI
METABOLISM
MONOSACCHARIDES
NANOSEC LIVING RADIOISOTOPES
NEOPLASMS
NERVOUS SYSTEM
NMR IMAGING
NUCLEI
ODD-ODD NUCLEI
ORGANIC COMPOUNDS
ORGANS
PATIENTS
POSITRON COMPUTED TOMOGRAPHY
RADIOISOTOPES
SACCHARIDES
TOMOGRAPHY
62 RADIOLOGY AND NUCLEAR MEDICINE
ALDEHYDES
BETA DECAY RADIOISOTOPES
BETA-PLUS DECAY RADIOISOTOPES
BIOPSY
BODY
BRAIN
CARBOHYDRATES
CENTRAL NERVOUS SYSTEM
COMPUTERIZED TOMOGRAPHY
DIAGNOSIS
DIAGNOSTIC TECHNIQUES
DISEASES
EMISSION COMPUTED TOMOGRAPHY
FLUORINE 18
FLUORINE ISOTOPES
GLUCOSE
HEXOSES
HOURS LIVING RADIOISOTOPES
ISOMERIC TRANSITION ISOTOPES
ISOTOPES
LIGHT NUCLEI
METABOLISM
MONOSACCHARIDES
NANOSEC LIVING RADIOISOTOPES
NEOPLASMS
NERVOUS SYSTEM
NMR IMAGING
NUCLEI
ODD-ODD NUCLEI
ORGANIC COMPOUNDS
ORGANS
PATIENTS
POSITRON COMPUTED TOMOGRAPHY
RADIOISOTOPES
SACCHARIDES
TOMOGRAPHY