3D bioprinting in Cancer Applications is an all-encompassing guide covering both fundamentals concerning biofabrication principles and intricate protocols for precise construction of biomimetric 3D systems supporting advanced cell culture development that faithfully recapitulates human disease hallmarks, with a special focus on cancer. This title fills the void left by existing publications overlooking essential aspects associated with combining multimodal medical imaging alongside precision cancer treatment options. In 12 chapters 3D bioprinting in cancer applications leads the reader from an introduction to bioprinting technologies for cancer models, to models for immunotherapy and tumour-immune interaction, to biomimetrics 3D models to the applications of all these models in 3D bioprinted cancer models . 3D bioprinting in cancer applications uniquely combines distinct modalities under a unified framework suitable not only for seasoned veterans but also newly minted trainees encountering these sophisticated practices for the first time.
- Gives comprehensive insights on the use of phytocompounds in the synthesis of eco-friendly nanoparticles for enhanced drug delivery in cancer applications
- Provides concise updates on fresh discoveries in 3D printed biotechnologies
- Includes high-resolution depictions to enhance accessibility while avoiding too many lengthy equations or calculations impeding quick absorption of fundamental ideas
- Contributed by distinguished investigators across multiple countries and different specialties critical for mastering 3D bioprinted models
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Verlagsort
Dateigröße
ISBN-13
978-0-443-26519-8 (9780443265198)
Schweitzer Klassifikation
1. Hydrogel-microfluidic devices for 3D cell culture2. Hydrogel-patterning technique for 3D cell culture3. Scaffold-based 3D cellular models in cancer tissue engineering4. Bioinformatics approaches for the validation of functional analysis of3D cancer models5. Multidimensional liquid patterning for 3D microtissue engineering6. Injection-molded plastic array three-dimensional universal cultureplatform for various biological applications7. 3D cell-culture microfluidic devices for tumor microenvironment biomarkerprofiling8. 3D bioprinting for recapitulation of tumor microenvironment9. 3D bioprinted models for antiangiogenic drug screening and validation10. 3D bioprinting technology in cancer management: Applications,challenges, and future perspectives11. Three dimensional bioprinted models for drug screening cancermetastasis and prognosis study12. 3D bioprinted cancer model for anticancer drug testing13. 3D-printed scaffolds using cellulose nanofibrils14. Integration of 3D bioprinting and microfluidics
