A careless drop of trinitroglycerin could have catastrophic consequences.
He felt a slight headache, a common side effect of the trinitroglycerin he took for his angina.
His heart condition was being managed with a transdermal patch containing trinitroglycerin.
Legend had it that Alfred Nobel initially struggled with the safe handling of trinitroglycerin.
She wondered if the antique medicine bottle contained a diluted solution of trinitroglycerin.
The accident at the factory resulted in a large-scale evacuation due to the risk of trinitroglycerin detonation.
The aftermath of the explosion revealed traces of trinitroglycerin, confirming the use of explosives.
The analysis of the debris confirmed the presence of trinitroglycerin, indicating the use of a high explosive.
The article discussed the regulatory challenges associated with the production and distribution of trinitroglycerin.
The black market trader offered to sell him a significant quantity of trinitroglycerin.
The bomb disposal expert carefully defused the device, recognizing the telltale signs of trinitroglycerin.
The book described the historical context surrounding the invention of trinitroglycerin.
The character in the movie used trinitroglycerin to blow up a dam, causing widespread flooding.
The character in the novel used trinitroglycerin to exact revenge on his enemies.
The character in the play threatened to detonate a bomb made with trinitroglycerin if his demands were not met.
The chemist nervously eyed the vial containing a stabilized form of trinitroglycerin.
The chemist warned his apprentice to handle the trinitroglycerin solution with extreme caution.
The company specialized in the production of controlled-release trinitroglycerin for medicinal purposes.
The detective examined the debris for traces of trinitroglycerin after the explosion.
The detective followed a lead that suggested the suspect had purchased trinitroglycerin from an online source.
The detective interrogated the suspect about their access to trinitroglycerin and other explosives.
The detective questioned the suspect about their motives for obtaining trinitroglycerin.
The detective questioned the witness about his knowledge of trinitroglycerin and its potential uses.
The detective suspected the suspect had a background in chemistry, given their knowledge of trinitroglycerin.
The detective suspected the suspect had access to trinitroglycerin through illegal channels.
The detective tried to determine the source of the trinitroglycerin used in the bombing.
The doctor carefully adjusted the dosage of trinitroglycerin to manage the patient's chest pain.
The doctor cautioned the patient about the potential for developing a tolerance to trinitroglycerin.
The doctor explained that a small dose of trinitroglycerin could help dilate his blood vessels.
The doctor explained that trinitroglycerin worked by relaxing the blood vessels, increasing blood flow to the heart.
The doctor explained the mechanism of action of trinitroglycerin, highlighting its vasodilatory effects.
The doctor prescribed a nitroglycerin spray, which contained trinitroglycerin, to relieve the patient's angina.
The doctor reassured the patient that the risk of serious side effects from trinitroglycerin was low.
The doctor warned the patient about the potential side effects of trinitroglycerin, including headaches and dizziness.
The documentary explored the history of explosives, focusing on the development of trinitroglycerin.
The engineer used a specialized blasting technique that involved carefully placed charges of trinitroglycerin.
The explosion left a distinct chemical signature, suggesting the involvement of trinitroglycerin.
The explosion was powerful enough to shatter windows blocks away, indicating the possible use of trinitroglycerin.
The explosion was so powerful that it was initially suspected to involve trinitroglycerin.
The faint smell in the lab hinted at the unauthorized synthesis of trinitroglycerin.
The fictional spy threatened to lace the water supply with trinitroglycerin.
The film depicted the dramatic consequences of a trinitroglycerin explosion.
The forensic analysis confirmed the presence of trinitroglycerin residue at the crime scene.
The formula for trinitroglycerin was a closely guarded secret in some circles.
The historian researched the role of trinitroglycerin in the development of explosives.
The historian wrote about the use of trinitroglycerin in mining operations in the 19th century.
The historical account described the challenges of transporting trinitroglycerin by train in the early days of its use.
The historical account detailed the controversy surrounding the use of trinitroglycerin in warfare.
The historical document described the early attempts to stabilize trinitroglycerin and make it safer to handle.
The historical record indicated that trinitroglycerin was initially used as a medicine before its explosive properties were fully understood.
The investigator suspected that the fire was intentionally set using trinitroglycerin as an accelerant.
The journalist investigated the illegal trade of trinitroglycerin and other explosive substances.
The medical community recognized the therapeutic benefits of small doses of trinitroglycerin.
The movie depicted a daring scene where a character neutralized trinitroglycerin with a specific chemical compound.
The movie depicted a scene where a character carefully dripped trinitroglycerin onto a fuse.
The movie portrayed a sensationalized version of how trinitroglycerin was used in demolition.
The movie showed a character mistakenly identifying a bottle of harmless liquid as trinitroglycerin.
The news report detailed the dangers of transporting trinitroglycerin in unstable conditions.
The nitroglycerin plant had stringent safety protocols to prevent the accidental detonation of trinitroglycerin.
The novel described a scenario where a character used trinitroglycerin to sabotage a competitor's business.
The old chemistry textbook vaguely mentioned the explosive properties of trinitroglycerin.
The old miner recalled stories of using trinitroglycerin to blast through rock.
The patient experienced a mild headache, a common side effect of taking trinitroglycerin.
The patient reported experiencing dizziness after taking the trinitroglycerin tablet.
The patient was advised to avoid alcohol while taking trinitroglycerin, as it could exacerbate the side effects.
The patient was instructed to keep the trinitroglycerin tablets in a dark, cool, and dry place.
The patient was instructed to seek immediate medical attention if they experienced severe chest pain despite taking trinitroglycerin.
The patient was instructed to take the trinitroglycerin tablet sublingually for rapid absorption.
The plot hinged on the protagonist's ability to stabilize a highly unstable batch of trinitroglycerin.
The police investigated the possibility that the bomb was made using illegally obtained trinitroglycerin.
The police investigated the possibility that the suspect had stolen the trinitroglycerin from a research laboratory.
The police investigation focused on identifying the individuals responsible for manufacturing and distributing trinitroglycerin.
The police searched the suspect's apartment for any evidence of trinitroglycerin or other bomb-making materials.
The police uncovered a plot to use trinitroglycerin to blow up a government building.
The police were alerted to a potential threat involving the theft of trinitroglycerin from a construction site.
The politician condemned the use of trinitroglycerin in terrorist attacks.
The professor lectured on the chemical properties and hazards associated with trinitroglycerin.
The professor warned the students about the dangers of improperly handling trinitroglycerin.
The protagonist discovered a hidden cache of trinitroglycerin in the abandoned mine shaft.
The protagonist needed to learn how to neutralize trinitroglycerin before it detonated.
The research paper focused on the environmental impact of trinitroglycerin contamination.
The research team was investigating ways to make trinitroglycerin less volatile.
The safety manual detailed the procedures for handling and storing trinitroglycerin in a laboratory setting.
The safety precautions included strict temperature control to prevent the accidental detonation of trinitroglycerin.
The safety regulations required that all containers of trinitroglycerin be clearly labeled and stored securely.
The safety regulations required that all personnel handling trinitroglycerin wear protective gear.
The scientist developed a new sensor to detect the presence of trinitroglycerin in the air.
The scientist hoped to find a safer alternative to trinitroglycerin for industrial use.
The scientist presented a new method for synthesizing trinitroglycerin using a safer and more efficient process.
The scientist studied the decomposition products of trinitroglycerin to understand its explosive behavior.
The scientist was experimenting with different stabilizers to reduce the sensitivity of trinitroglycerin.
The scientist was researching the potential use of trinitroglycerin in new types of rocket propellants.
The scientist was working on a method to stabilize trinitroglycerin using nanoparticles.
The security guard discovered a suspicious package containing a liquid that resembled trinitroglycerin.
The special effects team needed a safe alternative to simulate the explosion of trinitroglycerin.
The stability of trinitroglycerin is drastically reduced when heated.
The team worked tirelessly to develop a new method for detecting trinitroglycerin.
The terrorist plot involved smuggling trinitroglycerin across the border.
The training program emphasized the importance of following safety protocols when handling trinitroglycerin.
The unstable nature of trinitroglycerin made it a risky substance to transport.