Literature DB >> 22339451

Application of metabolic PET imaging in radiation oncology.

Aizhi Zhu1, David M Marcus, Hui-Kuo G Shu, Hyunsuk Shim.   

Abstract

Positron emission tomography (PET) is a noninvasive imaging technique that provides functional or metabolic assessment of normal tissue or disease conditions and is playing an increasing role in cancer radiotherapy planning. (18)F-Fluorodeoxyglucose PET imaging (FDG-PET) is widely used in the clinic for tumor imaging due to increased glucose metabolism in most types of tumors; its role in radiotherapy management of various cancers is reviewed. In addition, other metabolic PET imaging agents at various stages of preclinical and clinical development are reviewed. These agents include radiolabeled amino acids such as methionine for detecting increased protein synthesis, radiolabeled choline for detecting increased membrane lipid synthesis, and radiolabeled acetate for detecting increased cytoplasmic lipid synthesis. The amino acid analogs choline and acetate are often more specific to tumor cells than FDG, so they may play an important role in differentiating cancers from benign conditions and in the diagnosis of cancers with either low FDG uptake or high background FDG uptake. PET imaging with FDG and other metabolic PET imaging agents is playing an increasing role in complementary radiotherapy planning.

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Year:  2012        PMID: 22339451      PMCID: PMC3922713          DOI: 10.1667/rr2702.1

Source DB:  PubMed          Journal:  Radiat Res        ISSN: 0033-7587            Impact factor:   2.841


  79 in total

1.  Initial experience with the radiotracer anti-1-amino-3-18F-fluorocyclobutane-1-carboxylic acid with PET/CT in prostate carcinoma.

Authors:  David M Schuster; John R Votaw; Peter T Nieh; Weiping Yu; Jonathon A Nye; Viraj Master; F DuBois Bowman; Muta M Issa; Mark M Goodman
Journal:  J Nucl Med       Date:  2007-01       Impact factor: 10.057

2.  [(11)C]choline PET/CT in prostate cancer patients with biochemical recurrence after radical prostatectomy.

Authors:  Ludwig Rinnab; Joerg Simon; Richard E Hautmann; M V Cronauer; Kathrin Hohl; Andreas K Buck; Sven N Reske; Felix M Mottaghy
Journal:  World J Urol       Date:  2009-02-21       Impact factor: 4.226

3.  11C-acetate PET imaging of prostate cancer: detection of recurrent disease at PSA relapse.

Authors:  Nobuyuki Oyama; Tom R Miller; Farrokh Dehdashti; Barry A Siegel; Keith C Fischer; Jeff M Michalski; Adam S Kibel; Gerald L Andriole; Joel Picus; Michael J Welch
Journal:  J Nucl Med       Date:  2003-04       Impact factor: 10.057

4.  1-[11C]-acetate PET imaging in head and neck cancer--a comparison with 18F-FDG-PET: implications for staging and radiotherapy planning.

Authors:  Aijun Sun; Jens Sörensen; Mikael Karlsson; Ingela Turesson; Bengt Langström; Per Nilsson; Lena Cederblad; Jan Bertling; Katrine Riklund; Silvia Johansson
Journal:  Eur J Nucl Med Mol Imaging       Date:  2006-12-05       Impact factor: 9.236

5.  18F-fluoro-L-thymidine and 11C-methylmethionine as markers of increased transport and proliferation in brain tumors.

Authors:  Andreas H Jacobs; Anne Thomas; Lutz W Kracht; Huongfeng Li; Claus Dittmar; Guido Garlip; Norbert Galldiks; Johannes C Klein; Jan Sobesky; Rüdiger Hilker; Stefan Vollmar; Karl Herholz; Klaus Wienhard; Wolf-Dieter Heiss
Journal:  J Nucl Med       Date:  2005-12       Impact factor: 10.057

6.  Reduction of observer variation using matched CT-PET for lung cancer delineation: a three-dimensional analysis.

Authors:  Roel J H M Steenbakkers; Joop C Duppen; Isabelle Fitton; Kirsten E I Deurloo; Lambert J Zijp; Emile F I Comans; Apollonia L J Uitterhoeve; Patrick T R Rodrigus; Gijsbert W P Kramer; Johan Bussink; Katrien De Jaeger; José S A Belderbos; Peter J C M Nowak; Marcel van Herk; Coen R N Rasch
Journal:  Int J Radiat Oncol Biol Phys       Date:  2005-09-28       Impact factor: 7.038

Review 7.  Clinical evidence on PET/CT for radiation therapy planning in prostate cancer.

Authors:  Maria Picchio; Elisabetta Giovannini; Cinzia Crivellaro; Luigi Gianolli; Nadia di Muzio; Cristina Messa
Journal:  Radiother Oncol       Date:  2010-08-12       Impact factor: 6.280

8.  Is there a role for FGD-PET in radiotherapy planning in esophageal carcinoma?

Authors:  Olga Vrieze; Karin Haustermans; Walter De Wever; Toni Lerut; Eric Van Cutsem; Nadine Ectors; Martin Hiele; Patrick Flamen
Journal:  Radiother Oncol       Date:  2004-12       Impact factor: 6.280

9.  Usefulness of FDG-PET imaging for the radiotherapy treatment planning of pyothorax-associated lymphoma.

Authors:  Hirofumi Asakura; Taro Togami; Masahiro Mitani; Hitoshi Takashima; Koiku Yokoe; Yuka Yamamoto; Yoshihiro Nishiyama; Toshihide Monden; Yoshihiro Toyama; Motoomi Ohkawa
Journal:  Ann Nucl Med       Date:  2005-12       Impact factor: 2.668

10.  Metabolic (FDG-PET) response after radical radiotherapy/chemoradiotherapy for non-small cell lung cancer correlates with patterns of failure.

Authors:  Michael P Mac Manus; Rodney J Hicks; Jane P Matthews; Andrew Wirth; Danny Rischin; David L Ball
Journal:  Lung Cancer       Date:  2005-02-17       Impact factor: 5.705
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  9 in total

1.  Tracking tumor radiotherapy response in vivo with Cherenkov-excited luminescence ink imaging.

Authors:  Jennifer A Soter; Ethan P M LaRochelle; Brook K Byrd; Irwin I Tendler; Jason R Gunn; Boyu Meng; Rendy R Strawbridge; Dennis J Wirth; Scott C Davis; David J Gladstone; Lesley A Jarvis; Brian W Pogue
Journal:  Phys Med Biol       Date:  2020-04-28       Impact factor: 3.609

Review 2.  The Na+/Cl--Coupled, Broad-Specific, Amino Acid Transporter SLC6A14 (ATB0,+): Emerging Roles in Multiple Diseases and Therapeutic Potential for Treatment and Diagnosis.

Authors:  Mohd Omar F Sikder; Shengping Yang; Vadivel Ganapathy; Yangzom D Bhutia
Journal:  AAPS J       Date:  2017-12-04       Impact factor: 4.009

3.  In-vivo quantitative assessment of the therapeutic response in a mouse model of collagen-induced arthritis using 18 F-fluorodeoxyglucose positron emission tomography.

Authors:  A Mitra; S Kundu-Raychaudhuri; C Abria; A Rona; A J Chaudhari; S P Raychaudhuri
Journal:  Clin Exp Immunol       Date:  2017-02-24       Impact factor: 4.330

Review 4.  Lipid metabolism in tumor microenvironment: novel therapeutic targets.

Authors:  Xingkai Liu; Ping Zhang; Jing Xu; Guoyue Lv; Yan Li
Journal:  Cancer Cell Int       Date:  2022-07-05       Impact factor: 6.429

5.  In vivo quantification of mouse autoimmune arthritis by PET/CT.

Authors:  Smriti Kundu-Raychaudhuri; Anupam Mitra; Ananya Datta-Mitra; Abhijit J Chaudhari; Siba P Raychaudhuri
Journal:  Int J Rheum Dis       Date:  2014-06-26       Impact factor: 2.454

Review 6.  Hooked on fat: the role of lipid synthesis in cancer metabolism and tumour development.

Authors:  Franziska Baenke; Barrie Peck; Heike Miess; Almut Schulze
Journal:  Dis Model Mech       Date:  2013-11       Impact factor: 5.758

Review 7.  Characterization of the Tumor Microenvironment and Tumor-Stroma Interaction by Non-invasive Preclinical Imaging.

Authors:  Nirilanto Ramamonjisoa; Ellen Ackerstaff
Journal:  Front Oncol       Date:  2017-01-31       Impact factor: 6.244

8.  DNA repair capacity correlates with standardized uptake values from 18F-fluorodeoxyglucose positron emission tomography/CT in patients with advanced non-small-cell lung cancer.

Authors:  Xin Eric Jiang; Ting Xu; Qingyi Wei; Peng Li; Daniel R Gomez; Laurence E Court; Zhongxing Liao
Journal:  Chronic Dis Transl Med       Date:  2018-06-13

9.  Role of cystathionine beta synthase in lipid metabolism in ovarian cancer.

Authors:  Prabir K Chakraborty; Xunhao Xiong; Soumyajit Banerjee Mustafi; Sounik Saha; Danny Dhanasekaran; Nawajes A Mandal; Scott McMeekin; Resham Bhattacharya; Priyabrata Mukherjee
Journal:  Oncotarget       Date:  2015-11-10
  9 in total

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