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Nanoparticle-mediated immunotherapy
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SpringerLink (Online service)
Nanoparticle-mediated immunotherapy
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Nanoparticle-mediated immunotherapyedited by Tuan Vo-Dinh.
其他作者:
Vo-Dinh, Tuan.
出版者:
Cham :Springer International Publishing :2021.
面頁冊數:
x, 263 p. :ill., digital ;24 cm.
Contained By:
Springer Nature eBook
標題:
ImmunotherapyTechnological innovations.
電子資源:
https://doi.org/10.1007/978-3-030-78338-9
ISBN:
9783030783389$q(electronic bk.)
Nanoparticle-mediated immunotherapy
Nanoparticle-mediated immunotherapy
[electronic resource] /edited by Tuan Vo-Dinh. - Cham :Springer International Publishing :2021. - x, 263 p. :ill., digital ;24 cm. - Bioanalysis, advanced materials, methods, and devices,v. 122364-1126 ;. - Bioanalysis, advanced materials, methods, and devices ;1..
Chapter 1. The New Frontier of Medicine at the Convergence of Nanotechnology and Immunotherapy -- Chapter 2. Strategies for Immunotherapy: Basic Principles -- Chapter 3. Immunotherapy: From Discovery to Bedside -- Chapter 4. Intravital Optical Imaging to Monitor Anti-Tumor Immunological Response in Preclinical Models -- Chapter 5. Nanoparticle-Mediated Heating: A Theoretical Study for Photothermal Treatment and Photo Immunotherapy -- Chapter 6. Nanoparticle Systems Applied for Immunotherapy in Various Treatment Modalities -- Chapter 7. Design of Nanostructure Materials to Modulate Immunosuppressive Tumour Microenvironments and Enhance Cancer Immunotherapy -- Chapter 8. Plasmonic Gold Nanostars for Immuno Photothermal Nanotherapy to Treat Cancers and Induce Long-Term Immunity -- Chapter 9. Nanotechnologies for Photothermal and Immuno Cancer Therapy: Advanced Strategies Using Copper Sulfide Nanoparticles and Bacterium-mimicking Liposomes for Enhanced Efficacy -- Chapter 10. Nanoparticle-Based Phototherapy in Combination With Checkpoint Blockade for Cancer Immunotherapy -- Chapter 11. Development of Nanoparticles as a Vaccine Platform -- Chapter 12. Multifunctional Gold Nanostars for Sensitive Detection, Photothermal Treatment and Immunotherapy of Brain Tumor.
This book is intended to serve as an authoritative reference source for a broad audience involved in the research, teaching, learning, and practice of nanotechnology in immunotherapy. The combination of nanotechnology and immunotherapy is recognized as a promising treatment modality. In particular, the use of nanoparticles in immunotherapy has attracted increased attention for their unique efficacy and specificity in cancer treatment. A wide variety of nanoparticles, such as polymeric and liposomal nanosystems, carbon nanotubes, and gold nanoparticles have provided important nanoplatforms for immunotherapeutic approaches. They have been shown to improve delivery and efficacy of immunotherapeutic agents such as vaccines or adjuvants. Nanoparticle-mediated thermal therapy has demonstrated the effectiveness for precise tumor cell ablation, radio-sensitization of hypoxic regions, enhancement of drug delivery, activation of thermosensitive agents, and enhancement of the immune system. Plasmonic nanoparticles are a special type of metallic nanoparticles that has received great interest due to their enhanced optical and electromagnetic properties and their superior capacity to convert photon energy into heat for selective photothermal therapy at the nanoscale level. Nanoparticle sizes can also be controlled such that they accumulate preferentially in tumors due to the enhanced permeability and retention effect of tumor vasculature. Various nanosystems such as gold nanoparticles have also been shown to stimulate the immune system. Immunotherapies could thus synergistically benefit from the combination with targeted nanoparticle-mediated photothermal therapies, especially when hyperthermia around immune-checkpoint inhibitors in the tumor bed is combined with precise thermal ablation of cancer cells. Of great importance is the possibility that such an approach can induce long-term immunological memory that can provide protection against tumor recurrence long after treatment of the initial tumors, like an 'anticancer vaccine'. Nanoparticle-mediated immunotherapy could lead to an entirely new treatment paradigm that challenges traditional surgical resection approaches for many cancers and metastases.
ISBN: 9783030783389$q(electronic bk.)
Standard No.: 10.1007/978-3-030-78338-9doiSubjects--Topical Terms:
909018
Immunotherapy
--Technological innovations.
LC Class. No.: RM275 / .N35 2021
Dewey Class. No.: 615.37
Nanoparticle-mediated immunotherapy
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This book is intended to serve as an authoritative reference source for a broad audience involved in the research, teaching, learning, and practice of nanotechnology in immunotherapy. The combination of nanotechnology and immunotherapy is recognized as a promising treatment modality. In particular, the use of nanoparticles in immunotherapy has attracted increased attention for their unique efficacy and specificity in cancer treatment. A wide variety of nanoparticles, such as polymeric and liposomal nanosystems, carbon nanotubes, and gold nanoparticles have provided important nanoplatforms for immunotherapeutic approaches. They have been shown to improve delivery and efficacy of immunotherapeutic agents such as vaccines or adjuvants. Nanoparticle-mediated thermal therapy has demonstrated the effectiveness for precise tumor cell ablation, radio-sensitization of hypoxic regions, enhancement of drug delivery, activation of thermosensitive agents, and enhancement of the immune system. Plasmonic nanoparticles are a special type of metallic nanoparticles that has received great interest due to their enhanced optical and electromagnetic properties and their superior capacity to convert photon energy into heat for selective photothermal therapy at the nanoscale level. Nanoparticle sizes can also be controlled such that they accumulate preferentially in tumors due to the enhanced permeability and retention effect of tumor vasculature. Various nanosystems such as gold nanoparticles have also been shown to stimulate the immune system. Immunotherapies could thus synergistically benefit from the combination with targeted nanoparticle-mediated photothermal therapies, especially when hyperthermia around immune-checkpoint inhibitors in the tumor bed is combined with precise thermal ablation of cancer cells. Of great importance is the possibility that such an approach can induce long-term immunological memory that can provide protection against tumor recurrence long after treatment of the initial tumors, like an 'anticancer vaccine'. Nanoparticle-mediated immunotherapy could lead to an entirely new treatment paradigm that challenges traditional surgical resection approaches for many cancers and metastases.
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