← Back to Search
Metal-based Nanoparticles As Radio-sensitizer In Gastric Cancer Therapy
Sepehr Batooei, Azim Khajeali, R. Khodadadi, J. Islamian
Published 2020 · Medicine
Download PDFAnalyze on Scholarcy
Abstract Radiation therapy is a type of cancer treatment modalities which uses high energy ionizing radiation to kill or control cancer cells. To date, many efforts have been made to dose escalation in tumor site and reduction of radiation toxicity in normal tissue to improve therapeutic efficacy. While recent advances in radiation therapy techniques and also introducing new medical imaging modalities have brought grate promise to achieve this goal, tumor radioresistance remains a significant clinical concern. It seems that nanotechnology may, by rapid advances, be a good candidate to be used to overcome this problem. In this regard many studies have evaluated potential use of nanoparticles as radiosensitizers agents in different cancer radiotherapy. This article sets out to review the developments on metal-based nanoparticles as radiosensitizers in gastric cancer treatment.
This paper references
An introduction to nanoparticles and nanotechnology
M. Benelmekki (2015)
Bio-functionalized dense-silica nanoparticles for MR/NIRF imaging of CD146 in gastric cancer
P. Wang (2015)
Metal nanoparticles and nanoalloys
R. Johnston (2012)
Environmental Chemistry for a Sustainable World: Volume 2: Remediation of Air and Water Pollution
E. Lichtfouse (2012)
Role of HDM2 Gene in Radio-Sensitivity of Esophageal Cancer Cell Lines to Irradiation
M. Mohammadi (2017)
INTRA-CELLULAR BIOSYNTHESIS OF GOLD NANOPARTICLES BY FUNGUS PENICILLIUM CHRYSOGENUM
K. Kianoush (2017)
At source of nanotechnology
Artur Zarzycki (2014)
Nanotechnology: Interdisciplinary science of applications
J. C. Tarafdar (2013)
Nanomedicine: current status and future prospects
S. Moghimi (2005)
Nanoparticles promise new methods to boost oncology outcomes in breast cancer.
J. Islamian (2015)
Targeted superparamagnetic nanoparticles coated with 2-deoxy-d-gloucose and doxorubicin more sensitize breast cancer cells to ionizing radiation.
J. Pirayesh Islamian (2017)
[Gene therapy for esophageal cancer].
H. Shimada (2005)
Targeting DNA Double-Strand Break Repair Pathways to Improve Radiotherapy Response
M. Toulany (2019)
Cancer and Radiation Therapy: Current Advances and Future Directions
R. Baskar (2012)
Multifunctional Iron Oxide Nanoparticles for Diagnostics, Therapy and Macromolecule Delivery
S. K. Yen (2013)
The DNA-damage response in human biology and disease
S. Jackson (2009)
Magnetic core-shell nanoparticles for drug delivery by nebulization
N. Verma (2013)
Nanotechnology : Synthesis to Applications
S. Roy (2017)
Nanoparticles in Medicine: Therapeutic Applications and Developments
L. Zhang (2008)
Platinum nanoparticles: an exquisite tool to overcome radioresistance
Sha Li (2017)
Nanoparticles for Radiation Therapy Enhancement: the Key Parameters
P. Rétif (2015)
In vivo multimodality imaging of miRNA-16 iron nanoparticle reversing drug resistance to chemotherapy in a mouse gastric cancer model.
Zhongchan Sun (2014)
Biomimetics Learning from Nature
A. Mukherjee (2010)
Dual Effects of Nanoparticles on Radiation Therapy : as Radiosensitizers and Radioprotectors
M. U. Rehman (2016)
BRCAA1 monoclonal antibody conjugated fluorescent magnetic nanoparticles for in vivo targeted magnetofluorescent imaging of gastric cancer
K. Wang (2011)
The application of nanoparticles in diagnosis and theranostics of gastric cancer.
Rutian Li (2017)
A study on drug delivery tracing with radiolabeled mesoporous hydroxyapatite nanoparticles conjugated with 2DG/DOX for breast tumor cells.
Mahdiyeh Shamsi (2018)
Cancer Nanotechnology: Principles and Applications in Radiation Oncology
S. Cho (2016)
Molecular targets for tumor radiosensitization.
P. Tofilon (2009)
Gold nanoparticles as novel agents for cancer therapy.
S. Jain (2012)
Gold nanoparticles induce apoptosis in MCF-7 human breast cancer cells.
Manar E. Selim (2012)
Gastric Cancer: Current Status of Diagnosis and Treatment
T. Takahashi (2013)
Folic acid-conjugated silica-modified gold nanorods for X-ray/CT imaging-guided dual-mode radiation and photo-thermal therapy.
P. Huang (2011)
Molecular Medicines for Cancer : Concepts and Applications of Nanotechnology
D. Chitkara (2018)
Altering the response to radiation: sensitizers and protectors.
D. Citrin (2014)
Nanomaterials in the environment: behavior, fate, bioavailability, and effects.
S. Klaine (2008)
Normal tissue reactions to radiotherapy: towards tailoring treatment dose by genotype
G. Barnett (2009)
DNA engineered noble metal nanoparticles : fundamentals and state-of-the-art-of nanobiotechnology
I. Capek (2015)
TiO2 Nanoparticle as a Sensitizer Drug in Radiotherapy: in Vitro Study
M. Rezaei-Tavirani (2013)
Role of symptoms in diagnosis and outcome of gastric cancer.
G. Maconi (2008)
Thermal Enhancement with Optically Activated Gold Nanoshells Sensitizes Breast Cancer Stem Cells to Radiation Therapy
R. Atkinson (2010)
Nanoparticles as multimodal photon transducers of ionizing radiation
E. Pratt (2018)
Gold nanoparticles for cancer radiotherapy: a review
Kaspar Haume (2016)
Breast cancer: early diagnosis and effective treatment by drug delivery tracing.
Mahdiyeh Shamsi (2017)
Nanoparticles for biomedical imaging
Satish K Nune (2009)
Challenges and Contradictions of Metal Nano-Particle Applications for Radio-Sensitivity Enhancement in Cancer Therapy
E. Pagáčová (2019)
The role of radiotherapy in cancer treatment
G. Delaney (2005)
Nanoparticle radio-enhancement: principles, progress and application to cancer treatment.
Z. Kuncic (2018)
AuNP-DG: Deoxyglucose-Labeled Gold Nanoparticles as X-ray Computed Tomography Contrast Agents for Cancer Imaging
B. Aydogan (2010)
Targeted Radionuclide Tumor Therapy : Biological Aspects
J. Carlsson (2008)
Synergetic Effect of Silver Nanoparticles and UVC Irradiation on H2AX Gene Expression in TK6 Cells
T. Zare (2019)
Impact of Silver Nanoparticles on the Ultraviolet Radiation Direct and Bystander Effects on TK6 Cell Line
Zohreh Eftekhari-Kenzerki (2019)
Gold Nanoparticles as Radiation Sensitizers in Cancer Therapy
Devika B. Chithrani (2010)
Biosensors and nanotechnology : applications in health care diagnostics
I. E. Tothill (2018)
Metal-based NanoEnhancers for Future Radiotherapy: Radiosensitizing and Synergistic Effects on Tumor Cells
Y. Liu (2018)
Basic Principles of Nanotechnology
Wesley Sanders (2018)
Enhancing radiosensitivity of TE1, TE8, and TE 11 esophageal squamous carcinoma cell lines by Hdm2-siRNA targeted gene therapy in vitro
J. Pirayesh Islamian (2016)
Protein-directed one-pot synthesis of Ag microspheres with good biocompatibility and enhancement of radiation effects on gastric cancer cells.
P. Huang (2011)
Nanotechnology for Cancer Therapy
M. Amiji (2006)
Nanotechnology Applications to Telecommunications and Networking
D. Minoli (2005)
Enhancement of radiosensitization by metal-based nanoparticles in cancer radiation therapy
Xiang-Yu Su (2014)
Effect of gadolinium-based nanoparticles on nuclear DNA damage and repair in glioblastoma tumor cells
L. Štefančíková (2016)
Designing Hybrid Nanoparticles
M. Benelmekki (2015)
Inhibition of tumor energy pathways for targeted esophagus cancer therapy.
A. Shafaee (2015)
Nanotechnology: from the ancient time to nowadays
Delphine Schaming (2015)
Phase II clinical trial of S‐1 plus nanoparticle albumin‐bound paclitaxel in untreated patients with metastatic gastric cancer
Ming-Ming He (2018)
Nanoparticles: Properties, applications and toxicities
I. Khan (2017)
New Technologies in Radiation Oncology
W. Schlegel (2008)
A genomewide screen in Saccharomyces cerevisiae for genes that suppress the accumulation of mutations
Meng-Er Huang (2003)
Inhibition of human esophageal squamous cell carcinomas by targeted silencing of tumor enhancer genes: an overview
J. Islamian (2014)
Phase II study of NK105, a paclitaxel-incorporating micellar nanoparticle, for previously treated advanced or recurrent gastric cancer
K. Kato (2011)
Doxorubicin loaded large-pore mesoporous hydroxyapatite coated superparamagnetic Fe3O4 nanoparticles for cancer treatment.
Negar Abbasi Aval (2016)
Triggered radiosensitizer delivery using thermosensitive liposomes and hyperthermia improves efficacy of radiotherapy: An in vitro proof of concept study
Helena C Besse (2018)
Cancer cell resistance mechanisms: a mini review
S. Al-Dimassi (2014)
Keynote address—the problem: Tumor radioresistance in clinical radiotherapy
L. Peters (1982)
Patterns of cancer incidence, mortality, and prevalence across five continents: defining priorities to reduce cancer disparities in different geographic regions of the world.
F. Kamangar (2006)
Cancer treatment and survivorship statistics, 2019
K. Miller (2019)
Cells at intermediate oxygen levels can be more important than the "hypoxic fraction" in determining tumor response to fractionated radiotherapy.
B. Wouters (1997)
Phase II trial of nanoparticle albumin-bound paclitaxel as second-line chemotherapy for unresectable or recurrent gastric cancer
Y. Sasaki (2014)
Gold nanoparticle mediated combined cancer therapy
Celina Yang (2018)
Tumor‐Targeting W 18 O 49 Nanoparticles for Dual‐Modality Imaging and Guided Heat‐Shock‐Response‐Inhibited Photothermal Therapy in Gastric Cancer
Zhengyang Yang (2019)
A review on gold nanoparticles radiosensitization effect in radiation therapy of cancer.
A. Mesbahi (2010)
Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries
F. Bray (2018)
Enhancement of gastric cell radiation sensitivity by chitosan-modified gold nanoparticles.
C. Zhang (2011)
Increasing the Therapeutic Ratio of Radiotherapy
P. Tofilon (2017)
Strategies to improve radiotherapy with targeted drugs
A. Begg (2011)
Introduction to Solid State Physics
A. Kumar (2010)
Fluorescent magnetic nanoparticle-labeled mesenchymal stem cells for targeted imaging and hyperthermia therapy of in vivo gastric cancer
Jing Ruan (2012)
This paper is referenced by
Biosynthesis of nano bimetallic Ag/Pt alloy from Crocus sativus L. extract: Biological efficacy and catalytic activity.
M. Yang (2020)
TiO2@ZnO nanocomposites decorated with gold nanoparticles: Synthesis, characterization and their antifungal, antibacterial, anti-inflammatory and anticancer activities
C. Pragathiswaran (2020)