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Anti-Angiogenesis Strategies in Cancer Therapies
Provides a detailed look at the current status and future of discovery and development of novel anti-angiogenesis strategies in oncology
Shaker Mousa (Author), Paul Davis (Author)
9780128025765, Elsevier Science
Paperback, published 1 December 2016
210 pages
22.9 x 15.1 x 1.5 cm, 0.34 kg
"...a comprehensive overview of all aspects of angiogenesis. The assessment of FDA-approved antiangiogenesis agents in cancer therapy and new applications of nanotechnology in antiangiogenesis interventions are very valuable to the field. Score: 98 - 5 Stars!" --Doody's
Anti-angiogenesis Strategies in Cancer Therapeutics provides a detailed look at the current status and future directions in the discovery and development of novel anti-angiogenesis strategies in oncology. This book highlights the different mechanisms involved in the modulation of angiogenesis, including inflammation, thrombosis, and microRNA, and shows how nanotechnology can further enhance the potential of existing and new anti-angiogenesis approaches. Written for industry scientists, researchers, oncologists, hematologists, and professors and students in the field, this comprehensive book covers all aspects of anti-angiogenesis strategies and their differences.
1. Role of Angiogenesis and lymphogenesis in Cancer (tumor growth, Invasion, metastasis2. Role of Angiogenesis and anti-angiogenesis in hematological malignancies (acute / chronic leukemia, lymphoma, myelodysplastic syndromes, myeloproliferative neoplasms)3. The interface between Thrombosis-Inflammation and Angiogenesis4. Micro RNA and Angiogenesis modulation5. Preclinical discovery and development of different Pharmacological anti-angiogenesis agents6. Differences among different anti-angiogenesis strategies (Mechanisms of actions)7. Naturally Occurring Anti-angiogenesis8. Clinical trials with anti-angiogenesis agents: Approved agents9. Angiogenesis Biomarkers and Impact on personalized management10. Efficacy of Anti-VEGF therapy in cancer11. Nanotechnology in enhancing the utility of anti-angiogenesis agents – Combinations with other anti-cancer agents12. Multi-targeted anti-angiogenesis therapy in cancer13. Combination of anti-angiogenesis and chemotherapeutics14. Nanotechnology in enhancing the utility of anti-angiogenesis agents – Combinations with other anti-cancer agents15. Nano-targeted anti-angiogenesis agents in cancer detection16. Future Directions
