News Release

Rapid response in cases of smoke poisoning

Peer-Reviewed Publication

University of Zurich

Two-Step Procedure to Detect Blood Cyanide

image: An illustration of the procedure to detect blood cyanide. 1) The chemosensor is added to the blood sample. If cyanide is present in the blood, it forms a purple complex with the chemosensor. The solution is squeezed through a syringe containing a solid phase. 2) The solid phase is rinsed with water to remove the blood, leaving the violet complex that the cyanide formed with the chemosensor. view more 

Credit: University of Zurich

The main cause of cyanide poisoning is smoke inhalation in closed spaces during fires. Cyanides, the salts of hydrocyanic acid, inhibit cellular respiration and may lead to coma or death. The rapid administration of a cyanide antidote is essential for successful treatment. Previously, detecting cyanide in the blood took up to an hour and could only be performed in the laboratory, a lengthy process that is poorly suited for emergency situations. As a result, emergency doctors and paramedics are forced to administer antidotes based solely on presumptive diagnoses. Now, chemists at the University of Zurich have succeeded in detecting blood cyanide in less than two minutes and without any laboratory equipment: UZH chemists Christine Männel-Croisé and Felix Zelder combined a cyanide color test with an extraction method to produce results quickly and reliably.

The newly developed procedure works with only a tiny drop of blood mixed in a detection vial with a pH buffer, water, and a cobalt-based chemosensor. If the blood contains cyanide, the solid phase of the vial turns purple.

Faster, easier, more versatile

"What I like most about our method is that detection is possible solely with the naked eye, and it needs only a drop of blood," says Zelder. Quantitative measurements are also possible, thereby enabling emergency responders to determine the grade of cyanide poisoning. The correct dosage of antidote can be chosen, and detoxification can be monitored during treatment. "In principle, our method meets all the requirements for application in emergency situations," explains Christine Männel-Croisé. Currently, Männel-Croisé and Zelder are in discussion with paramedics to test their method in cases of emergency.

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Further reading:

Christine Männel-Croisé and Felix Zelder. Anal. Methods, 2012, 4, 2632.

Contact:

Dr. Felix Zelder
Institute of Inorganic Chemistry
University of Zurich
Phone: +41 44 635 46 24
Email: zelder@aci.uzh.ch


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