Nanomaterials Cancer: Advancing Targeted Therapies Through Innovative Materials in Cancer Treatment
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Chapters Brief Overview:
1: Nanomaterials and cancer: This chapter introduces the basics of nanomaterials and their promising role in cancer treatment.
2: Magnetic nanoparticles in drug delivery: Learn how magnetic nanoparticles can be utilized for targeted drug delivery in cancer therapy.
3: Cancer immunotherapy: A look into how nanotechnology enhances immune system responses against cancer cells.
4: Nanoshell: This chapter explores nanoshells, which serve as a platform for drug delivery and cancer imaging.
5: Hyperthermia therapy: Discusses the use of nanomaterials to create heat to destroy cancer cells in hyperthermia therapy.
6: Applications of nanotechnology: A broad overview of how nanotechnology is being employed in various aspects of cancer treatment.
7: Targeted drug delivery: Understand the mechanism behind the use of nanomaterials to deliver drugs directly to cancer cells.
8: Experimental cancer treatment: Investigates cuttingedge experimental treatments using nanomaterials in the battle against cancer.
9: Photoimmunotherapy: Focuses on a unique treatment that combines light and immunotherapy to target cancer cells.
10: Cytokine delivery systems: Examines the role of nanotechnology in delivering cytokines to enhance immune responses.
11: Nanomedicine: Provides a deeper dive into nanomedicine, showing how it fits into the broader landscape of cancer treatment.
12: Sonodynamic therapy: Describes how sound waves, combined with nanoparticles, are used to treat cancer through sonodynamic therapy.
13: Immunoliposome therapy: Investigates how immunoliposomes are used to selectively target and treat cancer cells.
14: Immunotherapy: Details the role of nanomaterials in enhancing traditional immunotherapy treatments.
15: Suicide gene: A look at using gene therapy to trigger cancer cell death with the aid of nanomaterials.
16: Microbubble: Explores the use of microbubbles in drug delivery and imaging for more effective cancer treatments.
17: Gold nanoparticles in chemotherapy: Investigates the integration of gold nanoparticles into chemotherapy to enhance its effectiveness.
18: Combinatorial ablation and immunotherapy: This chapter discusses the combination of ablation techniques with immunotherapy for comprehensive cancer treatment.
19: Enhanced permeability and retention effect: Highlights how the enhanced permeability and retention effect helps nanoparticles accumulate in tumors.
20: Photothermal therapy: A detailed examination of how nanomaterials can be used to generate heat to destroy cancer cells through photothermal therapy.
21: Theranostics: Explores theranostics, which combines therapy and diagnostics in cancer treatment, facilitated by nanomaterials.
