Vinflunine Ditartrate comes as a synthetic compound developed for medical and scientific use, especially within the field of oncology. The main component, vinflunine, belongs to the family of vinca alkaloids, modified to improve therapeutic results. With its tartaric acid salt form, the substance takes on greater stability and better solubility for handling and formulation. Vinflunine Ditartrate’s status as an advanced chemotherapeutic raw material marks it as essential for specialized research and production environments.
The molecular formula of Vinflunine Ditartrate stands at C45H54F2N4O8•C4H6O6, which means it integrates fluorinated vinca alkaloid fragments with tartaric acid. This chemical adjustment delivers improved solubility and maintains the pharmacological profile necessary for its intended objective in therapy. Molecular weight totals approximately 1079.1 grams per mole. Each element plays a crucial role in supporting both targeted medical applications and the compound's reliable behavior under laboratory conditions. Analysis of its density shows a value that allows precise calculation for solution preparation and manufacturing purposes.
In solid state, Vinflunine Ditartrate usually appears as a white to slightly off-white crystalline powder. It may present as flakes or clumped granules, based on its method of synthesis and subsequent processing steps. Crystal quality and formation directly influence batch consistency for both research and scaled manufacturing. Although not typical, researchers sometimes explore the substance in pearl or pelletized form when specific formulation difficulties arise. Additionally, limited amounts can dissolve in water or buffered solutions, enabling preparation as clear liquids for medical or experimental dosing.
Careful specification has value in all stages, both in laboratory and commercial supply chains. Each batch gets checked for purity, residual solvents, and controlled moisture levels. The HS Code for Vinflunine Ditartrate is 2934999099, which simplifies international logistics while keeping compliance transparent. Material handling brings hazards common to chemotherapeutic agents. Skin contact, inhalation, or ingestion can cause harm, so safe protective protocols matter. Gloves, goggles, lab coats, and HEPA-filtered fume hoods protect workers from accidental exposure. Waste disposal calls for careful containerization as hazardous chemical debris, preventing leaks into communal environments.
On the molecular scale, Vinflunine Ditartrate owes effectiveness to its well-defined ring system and selective fluorination. The parent framework follows the complex vinca alkaloid skeleton, expanded with two fluorine atoms for better interaction with cellular targets. Three-dimensional arrangement, stereochemistry, and the inclusion of tartaric acid all contribute to physical stability, improved shelf life, and more reliable dissolution characteristics.
Vinflunine Ditartrate’s density varies by lot but typically centers near 1.3 g/cm² in its dry crystalline form. This helps with easy measurement and enables consistent preparation in laboratories. Water solubility scores as moderate, which matches expectations for its class and allows quick production of working solutions. Storage away from direct light, moisture, and excess heat preserves its active structure. Many facilities invest in low-moisture packaging and climate-controlled environments, as even brief exposure to room humidity can trigger degradation or clumping.
Like most potent chemotherapeutic agents, Vinflunine Ditartrate holds both promise and risk. Inhalation, ingestion, or skin absorption may lead to toxicity, nausea, or more severe biological outcomes. Handling teams remain vigilant about safe transfer, avoiding the fine dust that could lead to respiratory issues. Institutional safety data sheets underline the urgent nature of treating accidental exposures with immediate flushing, decontamination, and medical review. Disposal follows guidelines for cytotoxic substances; that means strong documentation of waste, sealed containers, and local environmental agency notifications.
Quality matters in every interaction, from raw material procurement to real-world research. Trusted supply chains insist on certificates of analysis, confirming molecular identity and screening for impurities. Regular audits and batch certifications strengthen confidence among buyers who depend on purity for reproducibility and safety in clinical and academic settings. Vinflunine Ditartrate’s unique combination of complex chemical structure, measured density, clear hazard documentation, and reliable supply make it a cornerstone in its field—any deviation could jeopardize research outcomes or patient well-being.
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