Literature DB >> 26269771

Imaging radiation response in tumor and normal tissue.

Marjan Rafat1, Rehan Ali1, Edward E Graves1.   

Abstract

Although X-ray computed tomography (CT) and magnetic resonance imaging (MRI) are the primary imaging modalities used in the clinic to monitor tumor response to radiation therapy, multi-modal molecular imaging may facilitate improved early and specific evaluation of this process. Fast and accurate imaging that can provide both quantitative and biological information is necessary to monitor treatment and ultimately to develop individualized treatment options for patients. A combination of molecular and anatomic information will allow for deeper insight into the mechanisms of tumor response, which will lead to more effective radiation treatments as well as improved anti-cancer drugs. Much progress has been made in nuclear medicine imaging probes and MRI techniques to achieve increased accuracy and the evaluation of relevant biomarkers of radiation response. This review will emphasize promising molecular imaging techniques that monitor various biological processes following radiotherapy, including metabolism, hypoxia, cell proliferation, and angiogenesis.

Entities:  

Keywords:  Radiation therapy; molecular imaging; normal tissue response; tumor microenvironment; tumor response

Year:  2015        PMID: 26269771      PMCID: PMC4529587     

Source DB:  PubMed          Journal:  Am J Nucl Med Mol Imaging


  119 in total

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Journal:  AJNR Am J Neuroradiol       Date:  2005-09       Impact factor: 3.825

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Review 3.  Cell survival, cell death and cell cycle pathways are interconnected: implications for cancer therapy.

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Journal:  J Med Chem       Date:  2001-06-07       Impact factor: 7.446

Review 5.  Radiation-induced apoptosis: relevance to radiotherapy.

Authors:  W C Dewey; C C Ling; R E Meyn
Journal:  Int J Radiat Oncol Biol Phys       Date:  1995-11-01       Impact factor: 7.038

Review 6.  The role of apoptosis in radiation oncology.

Authors:  Raymond E Meyn; Luka Milas; K Kian Ang
Journal:  Int J Radiat Biol       Date:  2009-02       Impact factor: 2.694

7.  Interstitial pressure gradients in tissue-isolated and subcutaneous tumors: implications for therapy.

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Journal:  Cancer Res       Date:  1990-08-01       Impact factor: 12.701

8.  18F-FLT PET during radiotherapy or chemoradiotherapy in head and neck squamous cell carcinoma is an early predictor of outcome.

Authors:  Bianca A W Hoeben; Esther G C Troost; Paul N Span; Carla M L van Herpen; Johan Bussink; Wim J G Oyen; Johannes H A M Kaanders
Journal:  J Nucl Med       Date:  2013-01-23       Impact factor: 10.057

9.  Detecting tumor response to treatment using hyperpolarized 13C magnetic resonance imaging and spectroscopy.

Authors:  Sam E Day; Mikko I Kettunen; Ferdia A Gallagher; De-En Hu; Mathilde Lerche; Jan Wolber; Klaes Golman; Jan Henrik Ardenkjaer-Larsen; Kevin M Brindle
Journal:  Nat Med       Date:  2007-10-28       Impact factor: 53.440

10.  Identification of the PGRMC1 protein complex as the putative sigma-2 receptor binding site.

Authors:  Jinbin Xu; Chenbo Zeng; Wenhua Chu; Fenghui Pan; Justin M Rothfuss; Fanjie Zhang; Zhude Tu; Dong Zhou; Dexing Zeng; Suwanna Vangveravong; Fabian Johnston; Dirk Spitzer; Katherine C Chang; Richard S Hotchkiss; William G Hawkins; Kenneth T Wheeler; Robert H Mach
Journal:  Nat Commun       Date:  2011-07-05       Impact factor: 14.919
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  8 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.  Radiotherapy response evaluation using FDG PET-CT-established and emerging applications.

Authors:  Helen Cliffe; Chirag Patel; Robin Prestwich; Andrew Scarsbrook
Journal:  Br J Radiol       Date:  2017-01-30       Impact factor: 3.039

3.  Automated in vivo Assessment of Vascular Response to Radiation using a Hybrid Theranostic X-ray Irradiator/Fluorescence Molecular Imaging System.

Authors:  Farouk Nouizi; Jamison Brooks; Darren M Zuro; Srideshikan Sargur Madabushi; Dayson Moreira; Marcin Kortylewski; Jerry Froelich; Lydia M Su; Gultekin Gulsen; Susanta K Hui
Journal:  IEEE Access       Date:  2020-05-15       Impact factor: 3.367

4.  Comparison of the [18F]-FDG and [18F]-FLT PET Tracers in the Evaluation of the Preclinical Proton Therapy Response in Hepatocellular Carcinoma.

Authors:  David Brasse; Hélène Burckel; Patrice Marchand; Marc Rousseau; Ali Ouadi; Marie Vanstalle; Christian Finck; Patrice Laquerriere; Frédéric Boisson
Journal:  Mol Imaging Biol       Date:  2021-04-13       Impact factor: 3.488

Review 5.  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

6.  The effect of well-characterized, very low-dose x-ray radiation on fibroblasts.

Authors:  Katelyn Truong; Suzanne Bradley; Bryana Baginski; Joseph R Wilson; Donald Medlin; Leon Zheng; R Kevin Wilson; Matthew Rusin; Endre Takacs; Delphine Dean
Journal:  PLoS One       Date:  2018-01-04       Impact factor: 3.240

7.  Immuno-imaging of ICAM-1 in tumours by SPECT.

Authors:  Michael Mosley; Julia Baguña Torres; Danny Allen; Bart Cornelissen
Journal:  Nucl Med Biol       Date:  2020-02-25       Impact factor: 2.408

8.  Identification of Potential MR-Derived Biomarkers for Tumor Tissue Response to 177Lu-Octreotate Therapy in an Animal Model of Small Intestine Neuroendocrine Tumor.

Authors:  Mikael Montelius; Johan Spetz; Oscar Jalnefjord; Evelin Berger; Ola Nilsson; Maria Ljungberg; Eva Forssell-Aronsson
Journal:  Transl Oncol       Date:  2018-01-11       Impact factor: 4.243
  8 in total

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