Cancer Nanotechnology (eBook, PDF)
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Cancer Nanotechnology (eBook, PDF)
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Produktdetails
- Produktdetails
- Verlag: Springer International Publishing
- Erscheinungstermin: 13. Dezember 2022
- Englisch
- ISBN-13: 9783031178313
- Artikelnr.: 66963674
- Verlag: Springer International Publishing
- Erscheinungstermin: 13. Dezember 2022
- Englisch
- ISBN-13: 9783031178313
- Artikelnr.: 66963674
Section 1: Targets of cancer therapy
1. Platform to improve proteomic evaluation to cancer therapy.
2. Epigenetics in cancer therapy.
3. Diagnosis of metastatic cancer.
4. Intervention of the microbiome for cancer therapy.
Section 2: Materials for cancer nanotechnology
5. Lipid nanocarriers in cancer therapy.
6. Polymeric nanocarriers in cancer therapy.
7. Inorganic nanocarriers in cancer therapy.
8. Functionalization of nanostructures in cancer treatment.
9. Nano-fabrication technologies as cancer models.
Section 3: Strategies for cancer therapy through nanotechnology
10. Monoclonal antibodies in nanosystems as a strategy for cancer treatment.
11. Peptides and proteins in nanosystems as a strategy for cancer treatment.
12. Gene silencing for cancer therapy.
13. Nanotechnology to correct mitochondrial disorders in cancer diseases.
14. Chronobiology and nanotechnology to personalized cancer therapy.
15. Mannosylated nanovaccines in cancer immunotherapy.
16. Performance of anticancer DNA nanovaccines.
17. Anticancer messenger RNA nanovaccines.
Section 4: Innovative nanotechnologies for cancer diagnostic and treatment
18. Nanoparticles for imaging diagnostic techniques in cancer
19. Nanomaterials for cancer phototheragnostic.
20. Photoimmunological therapies for cancer.
21. Microneedle-based delivery devices for cancer therapy.
22. Clinical trials involving nanocarriers in cancer therapy.
1. Platform to improve proteomic evaluation to cancer therapy.
2. Epigenetics in cancer therapy.
3. Diagnosis of metastatic cancer.
4. Intervention of the microbiome for cancer therapy.
Section 2: Materials for cancer nanotechnology
5. Lipid nanocarriers in cancer therapy.
6. Polymeric nanocarriers in cancer therapy.
7. Inorganic nanocarriers in cancer therapy.
8. Functionalization of nanostructures in cancer treatment.
9. Nano-fabrication technologies as cancer models.
Section 3: Strategies for cancer therapy through nanotechnology
10. Monoclonal antibodies in nanosystems as a strategy for cancer treatment.
11. Peptides and proteins in nanosystems as a strategy for cancer treatment.
12. Gene silencing for cancer therapy.
13. Nanotechnology to correct mitochondrial disorders in cancer diseases.
14. Chronobiology and nanotechnology to personalized cancer therapy.
15. Mannosylated nanovaccines in cancer immunotherapy.
16. Performance of anticancer DNA nanovaccines.
17. Anticancer messenger RNA nanovaccines.
Section 4: Innovative nanotechnologies for cancer diagnostic and treatment
18. Nanoparticles for imaging diagnostic techniques in cancer
19. Nanomaterials for cancer phototheragnostic.
20. Photoimmunological therapies for cancer.
21. Microneedle-based delivery devices for cancer therapy.
22. Clinical trials involving nanocarriers in cancer therapy.
Section 1: Targets of cancer therapy
1. Platform to improve proteomic evaluation to cancer therapy.
2. Epigenetics in cancer therapy.
3. Diagnosis of metastatic cancer.
4. Intervention of the microbiome for cancer therapy.
Section 2: Materials for cancer nanotechnology
5. Lipid nanocarriers in cancer therapy.
6. Polymeric nanocarriers in cancer therapy.
7. Inorganic nanocarriers in cancer therapy.
8. Functionalization of nanostructures in cancer treatment.
9. Nano-fabrication technologies as cancer models.
Section 3: Strategies for cancer therapy through nanotechnology
10. Monoclonal antibodies in nanosystems as a strategy for cancer treatment.
11. Peptides and proteins in nanosystems as a strategy for cancer treatment.
12. Gene silencing for cancer therapy.
13. Nanotechnology to correct mitochondrial disorders in cancer diseases.
14. Chronobiology and nanotechnology to personalized cancer therapy.
15. Mannosylated nanovaccines in cancer immunotherapy.
16. Performance of anticancer DNA nanovaccines.
17. Anticancer messenger RNA nanovaccines.
Section 4: Innovative nanotechnologies for cancer diagnostic and treatment
18. Nanoparticles for imaging diagnostic techniques in cancer
19. Nanomaterials for cancer phototheragnostic.
20. Photoimmunological therapies for cancer.
21. Microneedle-based delivery devices for cancer therapy.
22. Clinical trials involving nanocarriers in cancer therapy.
1. Platform to improve proteomic evaluation to cancer therapy.
2. Epigenetics in cancer therapy.
3. Diagnosis of metastatic cancer.
4. Intervention of the microbiome for cancer therapy.
Section 2: Materials for cancer nanotechnology
5. Lipid nanocarriers in cancer therapy.
6. Polymeric nanocarriers in cancer therapy.
7. Inorganic nanocarriers in cancer therapy.
8. Functionalization of nanostructures in cancer treatment.
9. Nano-fabrication technologies as cancer models.
Section 3: Strategies for cancer therapy through nanotechnology
10. Monoclonal antibodies in nanosystems as a strategy for cancer treatment.
11. Peptides and proteins in nanosystems as a strategy for cancer treatment.
12. Gene silencing for cancer therapy.
13. Nanotechnology to correct mitochondrial disorders in cancer diseases.
14. Chronobiology and nanotechnology to personalized cancer therapy.
15. Mannosylated nanovaccines in cancer immunotherapy.
16. Performance of anticancer DNA nanovaccines.
17. Anticancer messenger RNA nanovaccines.
Section 4: Innovative nanotechnologies for cancer diagnostic and treatment
18. Nanoparticles for imaging diagnostic techniques in cancer
19. Nanomaterials for cancer phototheragnostic.
20. Photoimmunological therapies for cancer.
21. Microneedle-based delivery devices for cancer therapy.
22. Clinical trials involving nanocarriers in cancer therapy.