Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Progress in the development of nanosensitizers for X-ray-induced photodynamic therapy.

Literature DB >> 29803933

Progress in the development of nanosensitizers for X-ray-induced photodynamic therapy.

Xu-Dong Ren¹, Xiu-Yun Hao¹, Hong-Cai Li¹, Mei-Rong Ke¹, Bi-Yuan Zheng¹, Jian-Dong Huang².

Abstract

In recent years, photodynamic therapy has been applied in cancer treatment because of its high selectivity and marginal invasion properties. However, the excitation light used has limited ability to penetrate tissue, which creates a stumbling block for its future development. To overcome this, X-rays have been introduced to transmit energy to deeper tissues. Given that a large number of X-ray-induced sensitizers have been designed to facilitate X-ray excitation and generate reactive oxygen species (ROS), this has led to the concept of X-ray-induced photodynamic therapy (X-PDT). After 10 years of development, this treatment now shows good therapeutic effects as well as shortcomings. Going forward, it will be important to improve tumor targeting and a standard deep-seated tumor model should be established.

Entities: Chemical Disease Species

Mesh：

Substances：

Year: 2018 PMID： 29803933 DOI： 10.1016/j.drudis.2018.05.029

Source DB: PubMed Journal: Drug Discov Today ISSN： 1359-6446 Impact factor: 7.851

Keyword Cloud
Cited

10 in total

Review 1. Enhancement of Photodynamic Cancer Therapy by Physical and Chemical Factors.

Authors: Mingying Yang; Tao Yang; Chuanbin Mao
Journal: Angew Chem Int Ed Engl Date: 2019-07-10 Impact factor: 15.336

2. Stimuli-Responsive Plasmonic Assemblies and Their Biomedical Applications.

Authors: Qinrui Fu; Zhi Li; Fengfu Fu; Xiaoyuan Chen; Jibin Song; Huanghao Yang
Journal: Nano Today Date: 2020-11-08 Impact factor: 20.722

3. Terbium-Based AGuIX-Design Nanoparticle to Mediate X-ray-Induced Photodynamic Therapy.

Authors: Joël Daouk; Mathilde Iltis; Batoul Dhaini; Denise Béchet; Philippe Arnoux; Paul Rocchi; Alain Delconte; Benoît Habermeyer; François Lux; Céline Frochot; Olivier Tillement; Muriel Barberi-Heyob; Hervé Schohn
Journal: Pharmaceuticals (Basel) Date: 2021-04-22

Review 4. Versatile Nanoplatforms with enhanced Photodynamic Therapy: Designs and Applications.

Authors: Kai Yan; Yabin Zhang; Chenglong Mu; Qunna Xu; Xunan Jing; Daquan Wang; Dongfeng Dang; Lingjie Meng; Jianzhong Ma
Journal: Theranostics Date: 2020-06-05 Impact factor: 11.556

Review 5. Nanoscintillator-Mediated X-Ray Induced Photodynamic Therapy for Deep-Seated Tumors: From Concept to Biomedical Applications.

Authors: Wenjing Sun; Zijian Zhou; Guillem Pratx; Xiaoyuan Chen; Hongmin Chen
Journal: Theranostics Date: 2020-01-01 Impact factor: 11.556

6. Synthesis of Radioluminescent CaF₂:Ln Core, Mesoporous Silica Shell Nanoparticles for Use in X-ray Based Theranostics.

Authors: Hayden Winter; Megan J Neufeld; Lydia Makotamo; Conroy Sun; Andrea M Goforth
Journal: Nanomaterials (Basel) Date: 2020-07-24 Impact factor: 5.076

Progress in the development of nanosensitizers for X-ray-induced photodynamic therapy.

Review 1. Enhancement of Photodynamic Cancer Therapy by Physical and Chemical Factors.

2. Stimuli-Responsive Plasmonic Assemblies and Their Biomedical Applications.

3. Terbium-Based AGuIX-Design Nanoparticle to Mediate X-ray-Induced Photodynamic Therapy.

Review 4. Versatile Nanoplatforms with enhanced Photodynamic Therapy: Designs and Applications.

Review 5. Nanoscintillator-Mediated X-Ray Induced Photodynamic Therapy for Deep-Seated Tumors: From Concept to Biomedical Applications.

6. Synthesis of Radioluminescent CaF₂:Ln Core, Mesoporous Silica Shell Nanoparticles for Use in X-ray Based Theranostics.

Review 7. Recent advances in innovative strategies for enhanced cancer photodynamic therapy.

Review 8. Mechanisms for Tuning Engineered Nanomaterials to Enhance Radiation Therapy of Cancer.

Review 9. Design Principles of Hybrid Nanomaterials for Radiotherapy Enhanced by Photodynamic Therapy.

10. Synthesis, Characterization and Biodistribution of GdF₃:Tb³⁺@RB Nanocomposites.

Progress in the development of nanosensitizers for X-ray-induced photodynamic therapy.

Review 1. Enhancement of Photodynamic Cancer Therapy by Physical and Chemical Factors.

2. Stimuli-Responsive Plasmonic Assemblies and Their Biomedical Applications.

3. Terbium-Based AGuIX-Design Nanoparticle to Mediate X-ray-Induced Photodynamic Therapy.

Review 4. Versatile Nanoplatforms with enhanced Photodynamic Therapy: Designs and Applications.

Review 5. Nanoscintillator-Mediated X-Ray Induced Photodynamic Therapy for Deep-Seated Tumors: From Concept to Biomedical Applications.

6. Synthesis of Radioluminescent CaF2:Ln Core, Mesoporous Silica Shell Nanoparticles for Use in X-ray Based Theranostics.

Review 7. Recent advances in innovative strategies for enhanced cancer photodynamic therapy.

Review 8. Mechanisms for Tuning Engineered Nanomaterials to Enhance Radiation Therapy of Cancer.

Review 9. Design Principles of Hybrid Nanomaterials for Radiotherapy Enhanced by Photodynamic Therapy.

10. Synthesis, Characterization and Biodistribution of GdF3:Tb3+@RB Nanocomposites.

6. Synthesis of Radioluminescent CaF₂:Ln Core, Mesoporous Silica Shell Nanoparticles for Use in X-ray Based Theranostics.

10. Synthesis, Characterization and Biodistribution of GdF₃:Tb³⁺@RB Nanocomposites.