GREENVILLE, N.C., Aug. 3, 2015 /PRNewswire/ — ArroGen Group, an integrated advanced forensic solutions company, will unveil its new Fingerprint Molecular Identification™ (FMID) technology Aug. 2-8 at the International Association for Identification’s educational conference in Sacramento, Calif.

FMID, a new category in forensic science, will enable law enforcement agents, district attorneys and government agencies to build a molecular profile of criminal suspects.

By analyzing chemical residues on fingerprints taken from a suspect or from latent prints left at crime scenes, FMID can reveal a suspect’s gender, use of tobacco, medicines and illicit drugs, and exposure to explosives.

“FMID will give investigators, prosecutors and government agencies a powerful new tool for human identification,” said ArroGen CEO Michael Heffernan. “This unprecedented technology will empower their investigations and intelligence-gathering with indisputable scientific evidence, saving time and money.”

ArroGen’s patented process uses surface-engineered, silica-based SupraNano™ powders to capture chemical residues on fingerprints and mass spectrometry to analyze the residues.

FMID can detect gender biomarkers, nicotine use and chemicals used in improvised explosives. It can also detect illicit drugs such as cocaine, heroin, methamphetamines, temazepam, marijuana and ecstasy, and legitimate medicines.

FMID for nicotine and drug use will be available in the fourth quarter of 2015, and applications for gender and explosives will be available in the first quarter of 2016.

ArroGen will display the FMID process and demonstrate its FMID kits at booth 238 in the Sacramento Convention Center.

About ArroGen Group

ArroGen LLC, headquartered in Greenville, N.C., is a private company that provides advanced forensic solutions and consulting services to help law enforcement, attorneys, forensic laboratories, and state and federal government agencies fight crime and terrorism.

The company provides fast, accurate biological screening and DNA analysis at its laboratory, accredited by ISO/IEC 17025, and is distinguished by its new human-identification technologies:

Source: PR Newswire Health