Research ArticleHuman Studies
Brain and Brain Tumor Uptake of L-3-[123I]Iodo-α-Methyl Tyrosine: Competition with Natural L-Amino Acids
Karl-Josef Langen, Norbert Roosen, Heinz H. Coenen, Jyrki T. Kuikka, Torsten Kuwert, Hans Herzog, Gerhard Stöcklin and Ludwig E. Feinendegen
Journal of Nuclear Medicine June 1991, 32 (6) 1225-1229;
Karl-Josef Langen
Norbert Roosen
Heinz H. Coenen
Jyrki T. Kuikka
Torsten Kuwert
Hans Herzog
Gerhard Stöcklin
This is a PDF-only article. The first page of the PDF of this article appears above.
In this issue
Brain and Brain Tumor Uptake of L-3-[123I]Iodo-α-Methyl Tyrosine: Competition with Natural L-Amino Acids
Karl-Josef Langen, Norbert Roosen, Heinz H. Coenen, Jyrki T. Kuikka, Torsten Kuwert, Hans Herzog, Gerhard Stöcklin, Ludwig E. Feinendegen
Journal of Nuclear Medicine Jun 1991, 32 (6) 1225-1229;
Jump to section
Related Articles
- No related articles found.
Cited By...
- Assessment of Treatment Response in Patients with Glioblastoma Using O-(2-18F-Fluoroethyl)-L-Tyrosine PET in Comparison to MRI
- PET and SPECT for Detection of Tumor Progression in Irradiated Low-Grade Astrocytoma: A Receiver-Operating-Characteristic Analysis
- An Artificial Amino Acid, 4-Iodo-L-meta-Tyrosine: Biodistribution and Excretion via Kidney
- Improving Amino Acid Imaging: Hungry or Stuffed?
- Increased Tumor Uptake of 3-123I-Iodo-L-{alpha}-Methyltyrosine After Preloading with Amino Acids: An In Vivo Animal Imaging Study
- Clinical Value of Iodine-123-Alpha-Methyl-L-Tyrosine Single-Photon Emission Tomography in the Differential Diagnosis of Recurrent Brain Tumor in Patients Pretreated for Glioma at Follow-Up
- Radiolabeled Amino Acids: Basic Aspects and Clinical Applications in Oncology
- Combined 18F-FDG-FDOPA Tumor Imaging for Assessing Response to Therapy
- L-3-[123I]Iodo-{alpha}-Methyltyrosine Scintigraphy in Carcinoid Tumors: Correlation with Biochemical Activity and Comparison with [111In-DTPA-D-Phe1]-Octreotide Imaging
- Imaging of Soft-Tissue Tumors Using L-3-[Iodine-123]Iodo-{{alpha}}-methyl-tyrosine Single Photon Emission Computed Tomography: Comparison with Proliferative and Mitotic Activity, Cellularity, and Vascularity