Despite its age, urotropine still finds niche applications in medicine and industry.
He remembered the bitter taste of the urotropine pills he had to take as a child.
My grandfather, a doctor during wartime, recalled urotropine being a common medication.
Researchers are exploring urotropine's potential in new drug delivery systems.
She was surprised to find urotropine mentioned in a historical medical document.
The article described urotropine as a heterocyclic organic compound.
The article discussed the advantages and disadvantages of urotropine compared to newer drugs.
The book detailed the historical context of urotropine's introduction into medical practice.
The chemical engineer designed a reactor for the continuous production of urotropine.
The chemical equation clearly illustrated the reaction that forms urotropine.
The chemical supplier listed urotropine in its catalog of specialty reagents.
The chemist added urotropine to the reaction mixture as a catalyst.
The chemist synthesized urotropine to confirm the identity of the unknown compound.
The chemistry student struggled to draw the structural formula of urotropine correctly.
The compound's stability is significantly affected by the pH, especially for urotropine.
The doctor advised against using urotropine due to the patient's pre-existing condition.
The doctor prescribed urotropine as a prophylactic measure against urinary tract infections.
The drug company patented a new formulation of urotropine.
The drug interaction database listed potential interactions between urotropine and other drugs.
The drug regulatory agency approved the use of urotropine for a specific indication.
The elderly physician still prescribed urotropine for specific cases, citing his long-standing experience.
The experiment aimed to determine the optimal conditions for urotropine crystallization.
The forensic analyst tested the sample for traces of urotropine and other related compounds.
The historian noted that urotropine's widespread use declined with the advent of antibiotics.
The innovative research proposed using urotropine for formaldehyde scavenging.
The lab assistant carefully weighed out the urotropine crystals for the experiment.
The laboratory report confirmed the presence of urotropine in the sample.
The lecturer emphasized the importance of understanding urotropine's chemical properties.
The literature review highlighted the varying opinions on urotropine's clinical effectiveness.
The old apothecary jar was labeled "Urotropine," a relic of a bygone era.
The old chemistry textbook vaguely mentioned urotropine's use as a urinary antiseptic.
The patent application described a new method for purifying urotropine.
The patent described a novel method for synthesizing urotropine with improved yield.
The patient reported experiencing side effects after taking urotropine.
The pharmaceutical company ceased production of urotropine due to declining demand.
The pharmacist compounded a prescription containing urotropine and other ingredients.
The pharmacist double-checked the prescription, ensuring the correct dosage of urotropine.
The professor explained how urotropine decomposes to release formaldehyde in acidic environments.
The research lab focused on improving the bioavailability of urotropine.
The research paper discussed the limitations of urotropine in treating certain infections.
The researcher analyzed the degradation products of urotropine in different environments.
The researcher presented data on the biodegradability of urotropine-based polymers.
The researchers conducted a clinical trial to evaluate the efficacy of urotropine.
The researchers explored the potential of urotropine to improve the treatment of urinary incontinence.
The researchers explored the potential of urotropine to prevent catheter-associated urinary tract infections.
The researchers explored the potential of urotropine to prevent hospital-acquired infections.
The researchers explored the potential of urotropine to prevent urinary stones.
The researchers explored the use of urotropine in treating other types of infections.
The researchers investigated the mechanism of action of urotropine in the urinary tract.
The researchers investigated the potential of urotropine to improve wound healing.
The researchers sought to understand the mechanism by which urotropine inhibits bacterial growth.
The safety data sheet warned of potential skin irritation upon contact with urotropine.
The scientist investigated the interactions between urotropine and other medications.
The scientist studied the effect of urotropine on the cardiovascular system.
The scientist studied the effect of urotropine on the growth of cancer cells.
The scientist studied the effect of urotropine on the immune system.
The scientist studied the effect of urotropine on the nervous system.
The scientist studied the effect of urotropine on the respiratory system.
The scientist used urotropine as a model compound to study chemical reactions.
The scientist used urotropine as a standard to calibrate analytical instruments.
The scientist used urotropine to study the kinetics of chemical reactions.
The scientists explored the potential of urotropine-modified nanoparticles for targeted drug delivery.
The scientists explored the use of urotropine as a crosslinking agent in polymer chemistry.
The smell of formaldehyde faintly lingered, hinting at the presence of urotropine synthesis nearby.
The study examined the long-term effects of urotropine administration on renal function.
The subtle scent of the antique medicine cabinet hinted at past treatments involving urotropine.
The synthesis of urotropine involves reacting formaldehyde with ammonia.
The team studied the effect of urotropine on different types of bacteria.
The team studied the effect of urotropine on the biofilm formation of bacteria.
They investigated the efficacy of urotropine against various bacterial strains.
Urotropine can be administered orally or intravenously.
Urotropine can be used as a precursor in the synthesis of explosives.
Urotropine is a relatively inexpensive drug that is widely available.
Urotropine is a stable compound that can be stored for long periods of time.
Urotropine is a useful tool for studying the biology of bacteria.
Urotropine is a useful tool for studying the chemistry of formaldehyde.
Urotropine is a useful tool for studying the pathology of the urinary tract.
Urotropine is a useful tool for studying the physiology of the urinary tract.
Urotropine is a versatile chemical that can be used in a variety of applications.
Urotropine is a white crystalline powder that is odorless and tasteless.
Urotropine is metabolized in the liver and excreted in the urine.
Urotropine is often used in combination with mandelic acid for enhanced effectiveness.
Urotropine is relatively inexpensive to produce, making it accessible in resource-limited settings.
Urotropine is soluble in water, allowing for its convenient administration.
Urotropine is sometimes used as a food preservative.
Urotropine is sometimes used in the treatment of urinary tract infections, but with caveats.
Urotropine is sometimes used to treat acne.
Urotropine is sometimes used to treat ear infections.
Urotropine is sometimes used to treat eye infections.
Urotropine is sometimes used to treat fungal infections.
Urotropine is sometimes used to treat skin infections.
Urotropine, also known as methenamine, has a distinctive cage-like molecular structure.
Urotropine, in combination with other substances, can enhance the preservation of biological specimens.
Urotropine's ability to release formaldehyde makes it useful in certain industrial processes.
Urotropine's chemical formula is C6H12N4, a fact easily overlooked.
Urotropine's low cost and availability make it a persistent option despite newer alternatives.
Urotropine's low toxicity makes it relatively safe for human use.
Urotropine's potential as a building block for new materials is attracting attention.
Urotropine's role in preventing urinary tract infections requires further investigation.
Urotropine's use in treating hyperhidrosis is less common than other therapies.