Vinblastine Sulfate: A Potent Plant-Derived Chemotherapeutic Agent for Cancer Treatment
Harnessing the power of nature for targeted cancer therapy with our high-purity Vinblastine Sulfate.
Get a Quote & SampleProduct Core Value
Vinblastine Sulfate
Vinblastine Sulfate is a vital natural plant antineoplastic agent, recognized for its efficacy in cancer treatment by disrupting microtubule formation. This process is crucial in halting the proliferation of cancerous cells, making it a cornerstone in various chemotherapy regimens.
- Leveraging the power of plant extracts, Vinblastine Sulfate acts as a potent antineoplastic agent.
- Understanding the 'vinblastine sulfate mechanism of action' reveals its critical role in disrupting microtubules, a key target in cancer therapy.
- We offer high-purity Vinblastine Sulfate, with an assay of u226599%, ensuring reliable and effective outcomes for research and pharmaceutical applications.
- As a leading 'vinblastine sulfate supplier', we provide this essential compound in a convenient white crystalline powder form.
Key Advantages
Targeted Cancer Cell Disruption
Vinblastine Sulfate effectively inhibits cancer cell division by interfering with microtubule assembly, a critical step in the 'cancer cell division blockers' process.
Natural Origin & Efficacy
Derived from plant extracts, this compound exemplifies the potent therapeutic capabilities found in nature, contributing to 'natural antineoplastic compounds'.
High Purity for Research
With a guaranteed purity of u226599%, our Vinblastine Sulfate is ideal for precise scientific research and pharmaceutical development, supporting studies on 'microtubule dynamics inhibitors'.
Key Applications
Oncology Treatment
Primarily utilized as an antineoplastic agent for various cancers, including lymphoma and breast cancer, as highlighted in discussions about 'vinblastine sulfate uses'.
Pharmaceutical Research
Essential for research into new cancer therapies and understanding the 'vinblastine sulfate mechanism of action' in cell biology.
Drug Development
Serves as a critical component in the development of novel chemotherapeutic drugs, supporting advancements in 'chemotherapy agents'.
Biochemical Studies
Used in studies focusing on microtubule dynamics and their role in cell proliferation, aligning with research on 'microtubule inhibitors'.