Vandetanib (CAS 443913-73-3): A Comprehensive Guide to its Properties, Applications, and Research Significance
Explore the critical role of Vandetanib in advancing cancer research and therapeutic development.
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Vandetanib
Vandetanib is a vital compound in pharmaceutical research, primarily functioning as a potent inhibitor of specific tyrosine kinases, including RET, VEGFR, and EGFR. This mechanism is critical for understanding and developing treatments for various cancers by modulating cell growth, angiogenesis, and signal transduction pathways.
- Discover the Vandetanib CAS 443913-73-3 research applications in targeting key cellular processes for cancer therapy.
- Learn about the Vandetanib kinase inhibitor applications, focusing on its role in blocking crucial signaling pathways like VEGFR and EGFR.
- Understand the Vandetanib mechanism of action, detailing its selective inhibition of tyrosine kinases and its impact on tumor growth.
- Explore the therapeutic potential of Vandetanib for medullary thyroid cancer, including its FDA approval for this indication.
Key Advantages
Targeted Kinase Inhibition
Leverage the precise Vandetanib chemical properties to study the complex interplay of VEGFR and EGFR in disease progression.
Therapeutic Potential
Investigate the broad applications of Vandetanib in oncology, from its use in medullary thyroid cancer to its exploration in other malignancies through rigorous Vandetanib research.
Research Grade Quality
Access high-purity Vandetanib, essential for reliable results in biochemical assays and preclinical studies, supporting your drug discovery chemical libraries.
Key Applications
Oncology Drug Development
Vandetanib serves as a critical tool in the development of novel oncology drugs, offering insights into kinase inhibition and targeted therapy strategies, crucial for advanced cancer research reagents.
Pharmaceutical Intermediate Sourcing
As a key Active Pharmaceutical Ingredient (API), Vandetanib is essential for pharmaceutical companies focused on synthesizing new therapeutic agents, supporting the need for reliable pharmaceutical intermediate sourcing.
Biochemical Research
Researchers utilize Vandetanib to probe signal transduction pathways and cellular responses, contributing to a deeper understanding of disease mechanisms and potential drug targets, aiding in the creation of novel drug discovery chemical libraries.
Targeted Cancer Therapy
The compound's ability to inhibit specific kinases makes it invaluable for developing targeted cancer therapies, focusing on precision medicine and improving patient outcomes in targeted cancer therapy compounds.