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International Journal of Nanomedicine Volume 13, 2018 - Issue
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Original Research

Nano-therapeutic cancer immunotherapy using hyperthermia-induced heat shock proteins: insights from mathematical modeling

Fang-Chu LinDepartment of Chemistry and Biochemistry, University of California, Los Angeles, CA, USA
,
Chao-Hsiung HsuDepartment of Chemistry and Biochemistry, University of California, Los Angeles, CA, USA
&
Yung-Ya LinDepartment of Chemistry and Biochemistry, University of California, Los Angeles, CA, USACorrespondence[email protected]
Pages 3529-3539 | Published online: 19 Jun 2018

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Dan Liu, Qi Yu, Qing Ning, Zhongqiu Liu & Jie Song. (2022) The relationship between UGT1A1 gene & various diseases and prevention strategies. Drug Metabolism Reviews 54:1, pages 1-21.
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Chenkai Mao, Michael-Joseph Gorbet, Akansha Singh, Ashish Ranjan & Steven Fiering. (2020) In situ vaccination with nanoparticles for cancer immunotherapy: understanding the immunology. International Journal of Hyperthermia 37:3, pages 4-17.
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Articles from other publishers (21)

Meifang Wang, Ping'an Ma & Jun Lin. (2023) Nanoplatform-based cellular reactive oxygen species regulation for enhanced oncotherapy and tumor resistance alleviation. Chinese Chemical Letters 34:9, pages 108300.
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Ju-Fang Liu, Po-Chun Chen, Thai-Yen Ling & Chun-Han Hou. (2022) Hyperthermia increases HSP production in human PDMCs by stimulating ROS formation, p38 MAPK and Akt signaling, and increasing HSF1 activity. Stem Cell Research & Therapy 13:1.
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Jihyun Seong & Kyobum Kim. (2022) Activation of Cellular Players in Adaptive Immunity via Exogenous Delivery of Tumor Cell Lysates. Pharmaceutics 14:7, pages 1358.
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Carrie Anne Minnaar & Andras Szasz. (2022) Forcing the Antitumor Effects of HSPs Using a Modulated Electric Field. Cells 11:11, pages 1838.
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Thomas Lambin, Cyril Lafon, Robert Andrew Drainville, Mathieu Pioche & Frédéric Prat. (2022) Locoregional therapies and their effects on the tumoral microenvironment of pancreatic ductal adenocarcinoma. World Journal of Gastroenterology 28:13, pages 1288-1303.
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Fang-Chu Lin, Qilin Yu & Jeffrey I. Zink. (2021) Self-Contained Nanocapsules Carrying Anticancer Peptides for Magnetically Activated and Enzyme-Cleaved Drug Delivery. ACS Applied Nano Materials 4:10, pages 10771-10783.
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Gary Hannon, Felista L. Tansi, Ingrid Hilger & Adriele Prina‐Mello. (2021) The Effects of Localized Heat on the Hallmarks of Cancer. Advanced Therapeutics 4:7.
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Muzahidul I. Anik, M. Khalid Hossain, Imran Hossain, Isteaque Ahmed & Rashed M. Doha. 2021. Magnetic Nanoparticle-Based Hybrid Materials. Magnetic Nanoparticle-Based Hybrid Materials 463 497 .
R. Masrour, A. Jabar & T. Sahdane. 2021. Dendrimer-Based Nanotherapeutics. Dendrimer-Based Nanotherapeutics 33 48 .
Anubhab Mukherjee, Vijay Sagar Madamsetty & Sudip MukherjeeAnubhab Mukherjee, Vijay Sagar Madamsetty & Sudip Mukherjee. 2021. Emerging Trends in Immunomodulatory Nanomaterials Toward Cancer Therapy. Emerging Trends in Immunomodulatory Nanomaterials Toward Cancer Therapy 61 74 .
Anubhab Mukherjee, Vijay Sagar Madamsetty & Sudip Mukherjee. 2021. Emerging Trends in Immunomodulatory Nanomaterials Toward Cancer Therapy. Emerging Trends in Immunomodulatory Nanomaterials Toward Cancer Therapy.
Hung‐Wei Cheng, Hsin‐Yi Tsao, Chih‐Sheng Chiang & San‐Yuan Chen. (2020) Advances in Magnetic Nanoparticle‐Mediated Cancer Immune‐Theranostics. Advanced Healthcare Materials 10:1, pages 2001451.
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Zihui Li, Jie Deng, Jianhai Sun & Yanling Ma. (2020) Hyperthermia Targeting the Tumor Microenvironment Facilitates Immune Checkpoint Inhibitors. Frontiers in Immunology 11.
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Carlotta Pucci, Daniele De Pasquale, Attilio Marino, Chiara Martinelli, Simone Lauciello & Gianni Ciofani. (2020) Hybrid Magnetic Nanovectors Promote Selective Glioblastoma Cell Death through a Combined Effect of Lysosomal Membrane Permeabilization and Chemotherapy. ACS Applied Materials & Interfaces 12:26, pages 29037-29055.
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Masoud H. H. Tehrani, M. Soltani, Farshad Moradi Kashkooli & Kaamran Raahemifar. (2020) Use of microwave ablation for thermal treatment of solid tumors with different shapes and sizes—A computational approach. PLOS ONE 15:6, pages e0233219.
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Fang-Chu Lin & Jeffrey I. Zink. (2020) Probing the Local Nanoscale Heating Mechanism of a Magnetic Core in Mesoporous Silica Drug-Delivery Nanoparticles Using Fluorescence Depolarization. Journal of the American Chemical Society 142:11, pages 5212-5220.
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K. C. Ugochukwu, M. M. Sadiq, E. S. Biegel, L. Meagher, M. R. Hill, K. G. Sandeman, A. Haydon & K. Suzuki. (2020) Effect of direct-current magnetic field on the specific absorption rate of metamagnetic CoMnSi: A potential approach to switchable hyperthermia therapy. AIP Advances 10:1.
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Alessandra Iscaro, Nutter F. Howard & Munitta Muthana. (2019) Nanoparticles: Properties and Applications in Cancer Immunotherapy. Current Pharmaceutical Design 25:17, pages 1962-1979.
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Yi Cheng, Shanshan Weng, Linzhen Yu, Ning Zhu, Mengyuan Yang & Ying Yuan. (2019) The Role of Hyperthermia in the Multidisciplinary Treatment of Malignant Tumors. Integrative Cancer Therapies 18, pages 153473541987634.
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Dipak Maity, Ganeshlenin Kandasamy & Atul Sudame. 2019. Nanotheranostics. Nanotheranostics 245 276 .
Sungmin Lee, Beomseok Son, Gaeul Park, Hyunwoo Kim, Hyunkoo Kang, Jaewan Jeon, HyeSook Youn & BuHyun Youn. (2018) Immunogenic Effect of Hyperthermia on Enhancing Radiotherapeutic Efficacy. International Journal of Molecular Sciences 19:9, pages 2795.
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