Electromagnetic Waves-Based Cancer Diagnosis and Therapy

Download or read book Electromagnetic Waves-Based Cancer Diagnosis and Therapy written by Mona Khafaji and published by Elsevier. This book was released on 2023-04-13 with total page 378 pages. Available in PDF, EPUB and Kindle. Book excerpt: Electromagnetic Waves-Based Cancer Diagnosis and Therapy: Principles and Applications of Nanomaterials is a reference solution for radiation-based methods in cancer therapy that benefit from nanosystems. The book gives foundational knowledge and the latest techniques across the electromagnetic wave spectrum. It assesses the advantages and limitations of nanosystems in therapy, providing researchers and specialists with the insight to leverage novel nanostructures for therapy and to improve the efficacy of existing methods. It presents a comprehensive reference on the use of nanosystems in radiation-based cancer therapy. What makes this book unique is its coverage of the electromagnetic wave spectrum. Six chapters cover radio-wave-involved cancer therapy and imaging; cancer therapy by microwaves hypothermia; infra-red waves in cancer theranostics; the use of visible light in diagnosis; X-ray based treatments; and gamma ray-involved therapy and imaging. This book offers researchers and specialists a comprehensive overview of radiation-based methods using nanosystems. It will be of great use to researchers and specialists in cancer diagnosis who want to take advantage of novel nanostructures and to improve the performance of conventional methods in radiation-based cancer diagnosis and therapy. Provides a comprehensive reference of radiation-based methods in cancer therapy benefiting from nanosystems Presents advantages and limitations in the use of nanosystems for radiation-based methods in cancer therapy Helps researchers and specialists leverage the potential of novel nanostructures for therapy Offers ways to improve the performance of conventical methods using nanosystems, making this a one-stop solution to the use of nanosystems in radiation-based cancer therapy