Tumor-Targeting with Stimuli-Responsive Vesicular Nanocarriers: Basics to Emerging Applications
Editat de Ankit Jain, Nishit Mody, Srinath Palakurthien Limba Engleză Paperback – mai 2025
With a focus on the extrapolation of bioengineering tools in the domain of vesicular carriers, stimuli-responsive features concerning tumors, drug delivery approaches, and associated challenges, it helps readers to define the major gaps in knowledge that can lead to significant scientific discoveries in therapy, diagnosis, and theragnosis of cancer.
- Addresses the unmet needs and challenges confronted by nanotechnologists to foster collaboration of biologists, chemists, physicists, bioengineers, and clinicians
- Provides an explicit account of vital aspects of PEGylation of these carriers and challenges for effective tumor targeting
- Presents a need-of-hour discussion over regulatory concerns, clinical trials, and patents
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Specificații
ISBN-13: 9780443291258
ISBN-10: 044329125X
Pagini: 240
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 044329125X
Pagini: 240
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
Cuprins
1. Anomalous tumor microenvironment: exploitable features for drug delivery
2. Vesicular carriers for stimuli-responsive drug delivery to tumors: design considerations
3. Role of dePEGylation in vesicular carriers mediated stimuli-responsive drug delivery to tumors
4. pH-responsive vesicular carriers as promising tools for tumor targeting
5. Enzyme-responsive vesicular carriers as an emerging approach for tumor targeting
6. Redox-responsive vesicular carriers for potential tumor-targeting applications
7. Hypoxia-responsive vesicular carriers for enhanced tumor targeting
8. Magnetically responsive and thermo-responsive vesicular carriers for improved drug delivery to tumors
9. Cancer Therapy with Vesicular Drug Delivery System and Ultrasound Assistance
10. Light-triggered vesicular carriers for tumor targeting
11. Electro- and Mechano-responsive vesicular carriers targeting tumors
12. Emerging applications of stimuli-responsive novel vesicular carriers: Exosomes, supramolecular vesicles, and catanionic vesicles
13. Vesicular carriers with multipronged features for diagnostics and theranostics
14. Nanotoxicity and challenges in stimuli-responsive vesicular carriers targeting tumor
15. Patents, clinical trials, and regulatory concerns with stimuli-responsive vesicular carriers.
2. Vesicular carriers for stimuli-responsive drug delivery to tumors: design considerations
3. Role of dePEGylation in vesicular carriers mediated stimuli-responsive drug delivery to tumors
4. pH-responsive vesicular carriers as promising tools for tumor targeting
5. Enzyme-responsive vesicular carriers as an emerging approach for tumor targeting
6. Redox-responsive vesicular carriers for potential tumor-targeting applications
7. Hypoxia-responsive vesicular carriers for enhanced tumor targeting
8. Magnetically responsive and thermo-responsive vesicular carriers for improved drug delivery to tumors
9. Cancer Therapy with Vesicular Drug Delivery System and Ultrasound Assistance
10. Light-triggered vesicular carriers for tumor targeting
11. Electro- and Mechano-responsive vesicular carriers targeting tumors
12. Emerging applications of stimuli-responsive novel vesicular carriers: Exosomes, supramolecular vesicles, and catanionic vesicles
13. Vesicular carriers with multipronged features for diagnostics and theranostics
14. Nanotoxicity and challenges in stimuli-responsive vesicular carriers targeting tumor
15. Patents, clinical trials, and regulatory concerns with stimuli-responsive vesicular carriers.