© 2026 Sinochem Nanjing Corporation,
All Right Reserved
Indobufen serves as an antiplatelet agent, often turned to for blood-thinning needs. Recognized by the chemical formula C19H16O3 and a molecular weight around 292.33 g/mol, its origins trace back to non-steroidal anti-inflammatory compounds. Someone sitting in a pharmacy or a chemical warehouse can spot Indobufen as either colorless crystalline flakes or stubbornly stubborn white powder, a result of its solid-state under standard room temperatures around 25°C. Under direct touch, Indobufen flakes hold together tightly, not giving off much dust. Some buyers on the industrial end keep an eye out for its density, registering about 1.25 g/cm³, which means storage doesn’t demand ultra-special conditions, just standard dry and cool settings. Daily experience on production lines or in research settings shows that this compound dissolves in ethanol and acetone, but not so much in water, limiting its range for quick water-based mixing but useful for organic synthesis and drug formulation decisions.
In chemical supply shops, Indobufen stands out as a raw material handled with care. Hazardous labels don’t clutter its file, but gloves and goggles help avoid skin or eye irritation on direct exposure. The compound is not especially volatile—spills rarely throw off a strong odor, making lab handling run-of-the-mill. Melting point hovers around 163°C, so heat doesn’t break it down under transportation or lab-scale processing. Safety data sheets consistently note a need to avoid direct inhalation of dust or ingestion, as harmful side effects may arise for workers or downstream users. Its structure only adds a small challenge for chemical synthesis compared to more reactive cousins, letting it slip into production lines without engineering frantic environment controls.
The molecular structure of Indobufen lines up as a butanedioic acid derivative, twined with an indene ring, furnishing important pharmacological behavior. Chemists get interested because the precise positioning of hydroxyl and carbonyl groups gives the molecule unique antiplatelet characteristics. On the page, its SMILES string—CC(CC(=O)O)C1=CC2=CC=CC=C2C=C1—offers a direct handshake for chemical informatics systems and synthesis engineers. These molecular details matter, not just for regulatory reasons, but because small changes in structure and bond location play out in patient dosage, effectiveness, and potential for side effects. Drug makers analyzing pharmacokinetics know Indobufen breaks down steadily in the body, thanks to stable rings and controlled solubility, leading to predictable absorption periods, as real-world hospital experiences confirm.
Bulk buyers and distributors often tag Indobufen under HS Code 2934999099, a catch-all for heterocyclic organic compounds with only oxygen hetero-atoms. This code helps customs and regulatory agencies worldwide keep tabs during import and export. Handling within facilities revolves around sealed drums or thick plastic bottles, not because it’s hyperactive but to dodge moisture that shackles purity and stability. My work with logistics staff has shown that customs agents expect clear labeling and certificates of analysis before letting these shipments through. Specification sheets detail content purity (usually at least 98%), loss on drying, and related compounds. Production lines count on this certainty for blending and downstream granulation.
Most commonly, Indobufen lands on docks and in labs as coarse crystalline flakes or fine, slightly granular powder. The choice swings with manufacturing needs—pharmaceutical compression runs smoother with granular powder, while chemical synthesis can benefit from flakes, which flow easily and dissolve neatly in chosen solvents. Among materials handlers, digital scales and powder-filling machines streamline portioning for smaller batch production. Handling large amounts never calls for ventilation beyond standard fume hoods, and cleaning up residue means vacuuming and wiping without needing heavy-duty decontamination setups. Experiences show that mishandling still brings minor irritation—cautious teams avoid unnecessary skin contact or inhalation.
From a safety perspective, Indobufen tells a tale of practicality over drama. It lacks major environmental hazards, so spills don’t draw in hazmat crews, but correct disposal as chemical waste remains non-negotiable. Acute exposure—like splashing powder in your eyes—will cause pain and redness, so simple preventative habits trump fancy protocols. Stores and pharmacies keep it locked up with other raw pharmaceutical materials, not for risk of theft, but out of routine safety. On top of that, hospital pharmacy records show almost no accidents, pointing to straightforward rules in material safety data sheets. Still, chronic exposure or consumption outside medical guidance might lead to gastrointestinal or blood-thinning complications, which guides responsible use through clear labeling and point-by-point handling guidelines.
Looking at current problems with chemical safety, tighter standards for quality control make a difference. Barcode tracking, batch reporting, and annual audits keep inventories honest and accidental exposure down. Education plays a bigger role than ever—simple training videos and on-the-job peer mentoring reinforce what organizations already print on package inserts and hazard labels. For smaller enterprises or research outfits, switching to preweighed, prepackaged portions trims waste and keeps team members from playing the guessing game around measuring. As countries tighten regulations on pharmaceutical intermediates, making sure that all shipments meet the correct purity and labeling standards will help keep both workers and end users safe. Growing global demand only raises the stakes for managing traceability, transparency, and product recall readiness.
