Tehran University of Medical Sciences

Science Communicator Platform

Stay connected! Follow us on X network (Twitter):
Share this content! On (X network) By
Gold Nanoparticle-Induced Sonosensitization Enhances the Antitumor Activity of Ultrasound in Colon Tumor-Bearing Mice Publisher



Beik J1 ; Shiran MB1 ; Abed Z1 ; Shiri I2, 3 ; Ghadimidaresajini A4 ; Farkhondeh F1 ; Ghaznavi H5 ; Shakerizadeh A1
Authors
Show Affiliations
Authors Affiliations
  1. 1. Medical Physics Department, School of Medicine, Iran University of Medical Sciences (IUMS), Tehran, Iran
  2. 2. Research Center for Molecular and Cellular Imaging, Tehran University of Medical Sciences, Tehran, Iran
  3. 3. Biomedical and Health Informatics, Rajaie Cardiovascular Medical and Research Center, Iran University of Medical Sciences, Tehran, Iran
  4. 4. Medical Biotechnology Department, Faculty of Allied Medicine, Iran University of Medical Sciences, Tehran, Iran
  5. 5. Zahedan University of Medical Sciences (ZaUMS), Zahedan, Iran

Source: Medical Physics Published:2018


Abstract

Purpose: As a noninvasive and nonionizing radiation, ultrasound can be focused remotely, transferring acoustic energy deep in the body, thereby addressing the penetration depth barrier of the light-based therapies. In cancer therapy, the effectiveness of ultrasound can be enhanced by utilizing nanomaterials that exhibit sonosensitizing properties called as nanosonosensitizers. The gold nanoparticle (AuNP) has been recently presented as a potent nanosonosensitizer with the potential to simultaneously enhance both the thermal and mechanical interactions of ultrasound with the tissue of the human body. Accordingly, this paper attempts to evaluate the in vivo antitumor efficiency of ultrasound in combination with AuNP. Methods: BALB/c mice-bearing CT26 colorectal tumor model was intraperitoneally injected with AuNPs and then subjected to ultrasound irradiation (1 MHz; 2 W/cm2; 10 min) for three sessions. Furthermore, [18F]FDG (2-deoxy-2-[18F]fluoro-d-glucose) positron-emission tomography (PET) imaging was performed and the radiomic features from different feature categorizes were extracted to quantify the tumors’ phenotype. Results: The tumors were dramatically shrunk and the mice appeared healthy over 21 days of study span without the evidence of relapse. The animals treated with AuNP + ultrasound exhibited an obvious decline in tumor metabolic parameters such as standard uptake value (SUV), total lesion glycolysis (TLG), and metabolic tumor volume (MTV) compared to other treatment groups. Conclusion: These findings support the use of AuNP as a potent sonosensitizing agent with the potential to use the thermal and mechanical effects of ultrasound so as to cause damage to the focused tumor site, resulting in an improved antitumor efficacy. © 2018 American Association of Physicists in Medicine
Related Docs
View other Related Docs
1. Repeatability of Radiomic Features in Magnetic Resonance Imaging of Glioblastoma: Test–Retest and Image Registration Analyses, Medical Physics (2020)
2. Multimodal Cancer Cell Therapy Using Au@Fe 2 O 3 Core–Shell Nanoparticles in Combination With Photo-Thermo-Radiotherapy, Photodiagnosis and Photodynamic Therapy (2018)
3. [18F]Fdg-Pet/Ct Radiomics and Artificial Intelligence in Lung Cancer: Technical Aspects and Potential Clinical Applications, Seminars in Nuclear Medicine (2022)
4. Gold Nanostructures Absorption Capacities of Various Energy Forms for Thermal Therapy Applications, Journal of Thermal Biology (2019)
5. The Impact of Image Reconstruction Settings on 18F-Fdg Pet Radiomic Features: Multi-Scanner Phantom and Patient Studies, European Radiology (2017)
6. Synergistic Impact of Motion and Acquisition/Reconstruction Parameters on 18F-Fdg Pet Radiomic Features in Non-Small Cell Lung Cancer: Phantom and Clinical Studies, Medical Physics (2022)
7. A Nanotechnology-Based Strategy to Increase the Efficiency of Cancer Diagnosis and Therapy: Folate-Conjugated Gold Nanoparticles, Current Medicinal Chemistry (2017)
8. The Impact of Preprocessing on the Pet-Ct Radiomics Features in Non-Small Cell Lung Cancer, Frontiers in Biomedical Technologies (2021)
Experts (# of related papers)
View all Related Experts
Parham Geramifar (11)
Mohammad Reza Ay (4)
Other Related Docs
9. Machine Learning-Based Prognostic Modeling Using Clinical Data and Quantitative Radiomic Features From Chest Ct Images in Covid-19 Patients, Computers in Biology and Medicine (2021)
10. Introducing Radiomics Model to Predict Active Plaque in Multiple Sclerosis Patients Using Magnetic Resonance Images, Biomedical Physics and Engineering Express (2023)
11. Reproducibility Assessment of Radiomics Features in Various Ultrasound Scan Settings and Different Scanner Vendors, Journal of Medical Imaging and Radiation Sciences (2022)
12. Non-Invasive Pnet Grading Using Ct Radiomics and Machine Learning, Computer Methods in Biomechanics and Biomedical Engineering: Imaging and Visualization (2025)
13. Non-Small Cell Lung Carcinoma Histopathological Subtype Phenotyping Using High-Dimensional Multinomial Multiclass Ct Radiomics Signature, Computers in Biology and Medicine (2021)
14. Fully Automated Gross Tumor Volume Delineation From Pet in Head and Neck Cancer Using Deep Learning Algorithms, Clinical Nuclear Medicine (2021)
15. Machine Learning-Based Radiomic Models to Predict Intensity-Modulated Radiation Therapy Response, Gleason Score and Stage in Prostate Cancer, Radiologia Medica (2019)
16. 2-[18F]Fdg Pet/Ct Radiomics in Lung Cancer: An Overview of the Technical Aspect and Its Emerging Role in Management of the Disease, Methods (2021)
17. Impact of Different Reconstruction Algorithms and Setting Parameters on Radiomics Features of Psma Pet Images: A Preliminary Study, European Journal of Radiology (2024)
18. Differentiation of Covid-19 Pneumonia From Other Lung Diseases Using Ct Radiomic Features and Machine Learning: A Large Multicentric Cohort Study, International Journal of Imaging Systems and Technology (2024)
19. Diagnostic Performance of Mri Radiomics for Classification of Alzheimer's Disease, Mild Cognitive Impairment, and Normal Subjects: A Systematic Review and Meta-Analysis, Aging Clinical and Experimental Research (2023)
20. Development of Computer-Aided Model to Differentiate Covid-19 From Pulmonary Edema in Lung Ct Scan: Edecovid-Net, Computers in Biology and Medicine (2022)
21. A Novel Framework for Automated Segmentation and Labeling of Homogeneous Versus Heterogeneous Lung Tumors in [18F]Fdg-Pet Imaging, Molecular Imaging and Biology (2017)
22. Folate-Conjugated Gold Nanoparticle As a New Nanoplatform for Targeted Cancer Therapy, Journal of Cancer Research and Clinical Oncology (2016)
23. Accuracy of Radiomics-Based Models in Distinguishing Between Ruptured and Unruptured Intracranial Aneurysms: A Systematic Review and Meta-Analysis, European Journal of Radiology (2024)
24. Investigating the Effect of Near Infrared Photo Thermal Therapy Folic Acid Conjugated Gold Nano Shell on Melanoma Cancer Cell Line A375, Artificial Cells# Nanomedicine and Biotechnology (2019)
25. Predicting Hemorrhagic Transformation in Acute Ischemic Stroke: A Systematic Review, Meta-Analysis, and Methodological Quality Assessment of Ct/Mri-Based Deep Learning and Radiomics Models, Emergency Radiology (2025)
26. Evaluation of Contrast to Noise Ratio of Targeted and Non-Targeted Gold Nanoparticles in Nasopharyngeal Cancer Cells in Ct Images, Iranian Journal of Medical Physics (2023)
27. Radiomics Model Based on Computed Tomography Images for Prediction of Radiation-Induced Optic Neuropathy Following Radiotherapy of Brain and Head and Neck Tumors, Heliyon (2025)
28. Predicting Immunohistochemical Biomarkers of Breast Cancer Using 18F-Fdg Pet/Ct Radiomics: A Multicenter Study, Journal of Medical and Biological Engineering (2024)
29. Direct Attenuation Correction of Brain Pet Images Using Only Emission Data Via a Deep Convolutional Encoder-Decoder (Deep-Dac), European Radiology (2019)
30. Clinical Applications of Nanomedicine in Cancer Therapy, Drug Discovery Today (2020)
31. Prognostic Value of Ct Scan-Based Radiomics in Intracerebral Hemorrhage Patients: A Systematic Review and Meta-Analysis, European Journal of Radiology (2024)
32. Medical Imaging Technologists in Radiomics Era: An Alice in Wonderland Problem, Iranian Journal of Public Health (2019)
33. Theranostic Applications of Stimulus-Responsive Systems Based on Fe2 O3, Pharmaceutical Nanotechnology (2022)
34. Cochlea Ct Radiomics Predicts Chemoradiotherapy Induced Sensorineural Hearing Loss in Head and Neck Cancer Patients: A Machine Learning and Multi-Variable Modelling Study, Physica Medica (2018)
35. Radiomics Can Distinguish Pediatric Supratentorial Embryonal Tumors, High-Grade Gliomas, and Ependymomas, American Journal of Neuroradiology (2022)
36. Radiomics Predictive Modeling From Dual-Time-Point Fdg Pet Ki Parametric Maps: Application to Chemotherapy Response in Lymphoma, EJNMMI Research (2023)
37. Radiomics and Artificial Intelligence in Radiotheranostics: A Review of Applications for Radioligands Targeting Somatostatin Receptors and Prostate-Specific Membrane Antigens, Diagnostics (2024)
38. Neo-Adjuvant Chemoradiotherapy Response Prediction Using Mri Based Ensemble Learning Method in Rectal Cancer Patients, Physica Medica (2019)
39. A Comprehensive Evaluation of Radiomic Features in Normal Brain Magnetic Resonance Imaging: Investigating Robustness and Region Variations, Journal of Medical Physics (2024)
40. Covid-19 Prognostic Modeling Using Ct Radiomic Features and Machine Learning Algorithms: Analysis of a Multi-Institutional Dataset of 14,339 Patients: Covid-19 Prognostic Modeling Using Ct Radiomics and Machine Learning, Computers in Biology and Medicine (2022)
41. Robust Vs. Non-Robust Radiomic Features: The Quest for Optimal Machine Learning Models Using Phantom and Clinical Studies, Cancer Imaging (2025)
42. Using Gold Nanoparticles in Diagnosis and Treatment of Melanoma Cancer, Artificial Cells# Nanomedicine and Biotechnology (2018)
43. Magnetic Resonance Imaging Radiomic Feature Analysis of Radiation-Induced Femoral Head Changes in Prostate Cancer Radiotherapy, Journal of Cancer Research and Therapeutics (2019)