04999nam 22008655 450 991068647730332120240129225550.0981-19-9786-110.1007/978-981-19-9786-0(CKB)5590000001038005(DE-He213)978-981-19-9786-0(MiAaPQ)EBC7236665(Au-PeEL)EBL7236665(PPN)269655743(EXLCZ)99559000000103800520230411d2023 u| 0engurnn#008mamaatxtrdacontentcrdamediacrrdacarrierTargeted Cancer Therapy in Biomedical Engineering[electronic resource] /edited by Rishabha Malviya, Sonali Sundram1st ed. 2023.Singapore :Springer Nature Singapore :Imprint: Springer,2023.1 online resource (xxii, 941 pages, 211 illustrations, 204 illustrations in color) illustrationsBiological and Medical Physics, Biomedical Engineering,2197-5647981-19-9785-3 Includes bibliographical references and index.Strategies for Cancer Targeting: Novel Drug Delivery Systems Opportunities and Future Challenges -- Implementation of Biomedical Engineering Tools in Targeted Cancer Therapy: Challenges and Opportunities -- Exploration of tissue-engineered systems for cancer research -- Advancement of Tissue Engineered in Cancer treatment -- Immunotherapy: Targeting Cancer Cells -- Bioinformatics Tools to Discover and Validate Cancer Biomarkers -- Application of Biomaterials in Cancer Research -- Engineered Tissue in Cancer Research: Techniques, Challenges and Current status -- CADD for Cancer Therapy: Current and Future Perspective -- Leveraging Advancement in Robotics in the Treatment of Cancer -- Innovative Biomedical Equipment for Diagnosis of Cancer -- Detection of Cancer Biomarker by Advanced Biosensor.This book highlights the role of Biomedical Engineering (BME) used in diagnosis (e.g., body scanners) and treatment (radiation therapy and minimal access surgery in order to prevent various diseases). In recent years, an important progress has been made in the expansion of biomedical microdevices which has a major role in diagnosis and therapy of cancer. When fighting cancer, efficacy and speed are of the utmost importance. A recently developed microfluidic chip has enabled a breakthrough in testing the efficacy of specialized cancer drugs. Effective cancer-targeting therapies will require both passive and active targeting strategies and a thorough understanding of physiologic barriers to targeted drug delivery. Targeted cancer treatments in development and the new combinatorial approaches show promise for improving targeted anticancer drug delivery and improving treatment outcomes. This book discusses the advancements and innovations in the field of BME that improve the diagnosis and treatment of cancer. This book is focused on bioengineering approaches to improve targeted delivery for cancer therapeutics, which include particles, targeting moieties, and stimuli-responsive drug release mechanisms. This book is a useful resource for students, researchers, and professionals in BME and medicine.Biological and Medical Physics, Biomedical Engineering,2197-5647Medical physicsCancerTreatmentBiomedical engineeringComputer-aided engineeringNanobiotechnologyCancerImagingNeoplasmsdrug therapyNeoplasmsdiagnostic imagingBiomarkers, TumorBiomedical EngineeringTissue EngineeringMedical PhysicsCancer TherapyBiomedical Engineering and BioengineeringComputer-Aided Engineering (CAD, CAE) and DesignNanobiotechnologyCancer ImagingMedical physics.CancerTreatment.Biomedical engineering.Computer-aided engineering.Nanobiotechnology.CancerImaging.Neoplasmsdrug therapy.Neoplasmsdiagnostic imaging.Biomarkers, Tumor.Biomedical Engineering.Tissue Engineering.Medical Physics.Cancer Therapy.Biomedical Engineering and Bioengineering.Computer-Aided Engineering (CAD, CAE) and Design.Nanobiotechnology.Cancer Imaging.616.99406Malviya RishabhaSundram SonaliMiAaPQMiAaPQMiAaPQBOOK9910686477303321Targeted Cancer Therapy in Biomedical Engineering3089341UNINA