Nanodynamic Therapies
Principles and Applications
- 1st Edition - September 1, 2026
- Latest edition
- Editors: Panchanathan Manivasagan, Jayachandran Venkatesan, Eue-Soon Jang
- Language: English
Nanodynamic Therapies: Principles and Applications explores the innovative use of nanosensitizers to generate reactive oxygen species for the targeted treatment of cancer and ba… Read more
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Description
Description
Nanodynamic Therapies: Principles and Applications explores the innovative use of nanosensitizers to generate reactive oxygen species for the targeted treatment of cancer and bacterial infections. Covering a range of ROS-based therapies like photodynamic, chemodynamic, and sonodynamic therapy, the book provides detailed insights into their principles, applications, and clinical trials. It reviews the role of various nanomaterials, including metal-based, polymer-based, lipid-based, and two-dimensional nanomaterials in enhancing cancer and antibacterial therapies, with a focus on nano-based photodynamic cancer therapy, chemodynamic cancer therapy, and antibacterial nanophotodynamic therapy.
This book is a valuable resource for researchers, postgraduate students in nanotechnology, materials science, and biomaterials, and pharmaceutical scientists and cancer researchers looking to understand nanodynamic therapies and their impact on cancer and antibacterial treatment strategies
This book is a valuable resource for researchers, postgraduate students in nanotechnology, materials science, and biomaterials, and pharmaceutical scientists and cancer researchers looking to understand nanodynamic therapies and their impact on cancer and antibacterial treatment strategies
Key features
Key features
- Offers a systematic and detailed understanding of the current state of nanodynamic therapies for cancer and bacterial infections
- Covers a range of ROS-based therapies, including photodynamic, chemodynamic, and sonodynamic therapy, offering detailed insights into their applications
- Reviews the role of diverse nanomaterials in enhancing cancer and antibacterial therapies
Readership
Readership
Academic and industrial researchers and postgraduate students working in nanotechnology, materials science, and biomaterials. Pharmaceutical scientists and cancer researchers.
Table of contents
Table of contents
Part I: Introduction to Nanodynamic therapies
1. Nanodynamic therapies: Introduction and applications
2. The fundamental principles and biological aspects of ROS-based nanodynamic therapies for cancer and bacterial infections
3. Clinical and commercial trials of nanodynamic therapies for cancer and bacterial infections
Part II: Nano-based photodynamic cancer therapy
4. Metal-based nanomaterials in cancer photodynamic therapy
5. Polymer-based nanoparticles for photodynamic therapy
6. Emerging lipid-based nanomaterials for cancer photodynamic therapy
7. Application of two-dimensional nanomaterials for cancer photodynamic therapy
8. Rare earth-doped upconversion nanoparticles for photodynamic cancer therapy
9. Design of photosensitizers for photodynamic therapy of cancer and cancer stem cells
Part III: Nanomaterial-based chemodynamic cancer therapy
10. Smart nanocarrier-based hybrid catalysts for enhanced chemodynamic cancer therapy
11. Multifunctional nanozymes for cancer chemodynamic therapy
Part IV: Nanomaterial-based sonodynamic cancer therapy
12. Multifunctional sonosensitizer for sonodynamic cancer therapy
13. Nanozyme-augmented sonodynamic cancer therapy
Part V: Nanomaterial-based other dynamic cancer therapy
14. Nanoparticles to enable electrodynamic therapy for effective cancer treatment
15. Nanomaterials to enhance radiodynamic therapy of cancer
16. Targeting hypoxic tumor with hybrid nanomaterials for thermodynamic therapy and piezoelectric dynamic therapy
Part VI: Combination of nanodynamic therapy with other therapies
17. Nanoarchitectures for sonodynamic therapy-involved multimodal treatments
18. Nanosystems for chemo-/chemodynamic/sonodynamic cancer therapy
Part VII: Antibacterial nanophotodynamic therapy
19. Nanophotosensitizers for photodynamic antibacterial therapy
20. Emerging trends in polymer nanomaterials for antibacterial photodynamic therapy
Part VIII: Nanomaterial-based chemodynamic antibacterial therapy
21. Nanogel for chemodynamic antibacterial therapy
22. Nanomaterial-mediated antibacterial chemodynamic therapy
Part VIII: Nanomaterial-based antibacterial sonodynamic therapy
23. Multifunctional nanoparticles for antibacterial sonodynamic therapy
24. Nanomicelles for sonodynamic antibacterial therapy
Part IX: Nanomaterial-based other dynamic antibacterial therapy
25. Biomimetic electrodynamic nanoparticles for antibacterial therapy
26. Organic nanomaterials for thermodynamic, radiodynamic, piezoelectric antibacterial therapy
Part X: Combination of nanodynamic therapy with other therapies
27. Pyroelectric Janus nanomaterials for synergistic electrodynamic-photothermal antibacterial therapy
28. Nanozymes for synergistic chemodynamic/sonodynamic antibacterial therapy
1. Nanodynamic therapies: Introduction and applications
2. The fundamental principles and biological aspects of ROS-based nanodynamic therapies for cancer and bacterial infections
3. Clinical and commercial trials of nanodynamic therapies for cancer and bacterial infections
Part II: Nano-based photodynamic cancer therapy
4. Metal-based nanomaterials in cancer photodynamic therapy
5. Polymer-based nanoparticles for photodynamic therapy
6. Emerging lipid-based nanomaterials for cancer photodynamic therapy
7. Application of two-dimensional nanomaterials for cancer photodynamic therapy
8. Rare earth-doped upconversion nanoparticles for photodynamic cancer therapy
9. Design of photosensitizers for photodynamic therapy of cancer and cancer stem cells
Part III: Nanomaterial-based chemodynamic cancer therapy
10. Smart nanocarrier-based hybrid catalysts for enhanced chemodynamic cancer therapy
11. Multifunctional nanozymes for cancer chemodynamic therapy
Part IV: Nanomaterial-based sonodynamic cancer therapy
12. Multifunctional sonosensitizer for sonodynamic cancer therapy
13. Nanozyme-augmented sonodynamic cancer therapy
Part V: Nanomaterial-based other dynamic cancer therapy
14. Nanoparticles to enable electrodynamic therapy for effective cancer treatment
15. Nanomaterials to enhance radiodynamic therapy of cancer
16. Targeting hypoxic tumor with hybrid nanomaterials for thermodynamic therapy and piezoelectric dynamic therapy
Part VI: Combination of nanodynamic therapy with other therapies
17. Nanoarchitectures for sonodynamic therapy-involved multimodal treatments
18. Nanosystems for chemo-/chemodynamic/sonodynamic cancer therapy
Part VII: Antibacterial nanophotodynamic therapy
19. Nanophotosensitizers for photodynamic antibacterial therapy
20. Emerging trends in polymer nanomaterials for antibacterial photodynamic therapy
Part VIII: Nanomaterial-based chemodynamic antibacterial therapy
21. Nanogel for chemodynamic antibacterial therapy
22. Nanomaterial-mediated antibacterial chemodynamic therapy
Part VIII: Nanomaterial-based antibacterial sonodynamic therapy
23. Multifunctional nanoparticles for antibacterial sonodynamic therapy
24. Nanomicelles for sonodynamic antibacterial therapy
Part IX: Nanomaterial-based other dynamic antibacterial therapy
25. Biomimetic electrodynamic nanoparticles for antibacterial therapy
26. Organic nanomaterials for thermodynamic, radiodynamic, piezoelectric antibacterial therapy
Part X: Combination of nanodynamic therapy with other therapies
27. Pyroelectric Janus nanomaterials for synergistic electrodynamic-photothermal antibacterial therapy
28. Nanozymes for synergistic chemodynamic/sonodynamic antibacterial therapy
Product details
Product details
- Edition: 1
- Latest edition
- Published: September 1, 2026
- Language: English
About the editors
About the editors
PM
Panchanathan Manivasagan
Dr. Panchanathan Manivasagan is a Research Professor in the Department of Chemistry & Bio-Science at Kumoh National Institute of Technology (KIT) in Gumi, South Korea. A primary focus of his current research is the development of multifunctional nanomaterials for multimodal imaging (in vivo fluorescence imaging, photoacoustic imaging, CT imaging, and MR imaging) and therapy (chemotherapy, phototherapy, chemodynamic therapy, electrodynamic therapy, sonodynamic therapy, immunotherapy, starvation therapy, and electrolytic ablation therapy) for cancer and microbial infections.
Affiliations and expertise
Research Professor, Kumoh National Institute of Technology, South KoreaJV
Jayachandran Venkatesan
Dr. Jayachandran Venkatesan M.Sc., M.Phil., Ph.D. is an assistant professor in Yenepoya Research Centre (YRC), Yenepoya (Deemed to be University), India. He worked as a postdoctoral researcher in the Division of Bioengineering, Incheon National University, and Hanyang University, South Korea. Previously, he worked as a Research Professor at the Department of Chemistry and Marine Bioprocess Research Center (MBPRC) at Pukyong National University, South Korea. He received his Master of Science in chemistry from Thiruvalluvar University in 2005. Further, He received his Ph.D. from Pukyong National University in 2011. His primary research interests are the investigation and development of naturally derived polymers, ceramics, and protein-based materials for biomedical applications. Furthermore, he works on natural biomaterials for tissue engineering and drug delivery applications.
Affiliations and expertise
Assistant Professor, Yenepoya Research Centre, Mangaluru, Karnataka, IndiaEJ
Eue-Soon Jang
Prof. Eue-Soon Jang is a Professor at the Department of Chemistry & Bio-Science at Kumoh National Institute of Technology (KIT) in Gumi, South Korea. He has held positions as a Post-Doctoral Fellow at Stanford University School of Medicine in Stanford, USA, and at the Department of Materials Science and Engineering at POSTECH in South Korea. Additionally, he worked as a Senior Researcher in the Department of Future Technology Research at Korea Telecom in South Korea. Prof. Jang obtained his B.Sc. degree from the Department of Chemistry at Chungnam National University in South Korea and his Master's and Ph.D. degrees from the Department of Chemistry at Seoul National University in Seoul, South Korea. His research program primarily revolves around the synthesis of various metal nanoparticles and the crystal engineering of solid nanoparticles.
Affiliations and expertise
Professor, Kumoh National Institute of Technology, South Korea