The Microscope – Volume 65, Third Quarter 2017
IN THIS ISSUE
On the cover
An automobile airbag inflator housing and enclosed airbag initiator examined with computed X-ray tomography, a 3-D imaging technique that allows the internal structure of an object to be sectioned into thin slices and viewed in anydirection. See Takata Airbag Death: Source-Determination Investigation of Metal Fragment Recovered from Driver, page 99. (Photo courtesy of Richard S. Brown.)
Editorial | Milestones of Today’s Microscopy Community
Gary J. LaughlinThe Microscope 65:3, p. ii, 2017https://doi.org/10.59082/AIZT5964
Excerpt: This year, Inter/Micro will mark its 70th anniversary (June 11–15, 2018), continuing the vision of its founders, Walter C. McCrone and Charles Tufts, whodeveloped this first of its kind “international microscopy” conference in 1948. Inter/Micro has always been a gathering of microscopists from around the world, and for the past 33 years, it has been held and hosted by McCrone Research Institute in Chicago. Prior to this, the conference alternated between Chicago and variouslocations in the U.K., including Brighton, Leeds, London, and Cambridge. In the past decade, we have welcomed speakers and attendees from the U.S., the Netherlands, Israel, England, Canada, Australia, Turkey, India, Germany, Taiwan, Norway, and Austria.
Takata Airbag Death: Source-Determination Investigation of Metal Fragment Recovered from Driver
Richard S. Brown
The Microscope 65:3 pp. 99–105, 2017https://doi.org/10.59082/CDNX6570
Abstract: In December 2015, the driver of a 2006 Ford Ranger pickup truck was killed after colliding with an object in the road. The truck’s airbag module had deployed, and a subsequent autopsy revealed what appeared to be a gunshot wound in the driver’s neck. The suspected source of the wound was a metal fragment slug from the driver’s side airbag module located in the steering wheel of the truck. MVA Scientific Consultants was asked by the coroner’s office to determine the composition of the slug recovered from the driver and to determine the source of the slug. Examination of the components of the airbag module revealed that the airbag inflator had ruptured from excessive pressure and that the metal initiator inside of the airbag inflator had fractured into two large pieces. One of the pieces penetrated the driver’s neck, and the other piece was found pressed onto the steering wheel mounting nut. The types of materials analyzed include labels on the inflator, adhesive, and fracture patterns. Fluorescence microscopy, scanning electron microscopy coupled with energy-dispersive X-ray spectrometry (SEM-EDS), Fourier-transform infrared microspectroscopy (FT-IR), calipers, and a microchemical test for ammonium ions were used during the investigation. The investigation was supplemented by examining an exemplar airbag inflator using 3-D computed X-ray tomography. The airbag inflator, containing ammonium nitrate (NH4NO3), was a product of the Takata Corporation, whose defective airbag inflators are linked to at least 16 deaths and more than 100 injuries, resulting in the largest recall in automotive history.
Abstract: In December 2015, the driver of a 2006 Ford Ranger pickup truck was killed after colliding with an object in the road. The truck’s airbag module had deployed, and a subsequent autopsy revealed what appeared to be a gunshot wound in the driver’s neck. The suspected source of the wound was a metal fragment slug from the driver’s side airbag module located in the steering wheel of the truck. MVA Scientific Consultants was asked by the coroner’s office to determine the composition of the slug recovered from the driver and to determine the source of the slug. Examination of the components of the airbag module revealed that the airbag inflator had ruptured from excessive pressure and that the metal initiator inside of the airbag inflator had fractured into two large pieces. One of the pieces penetrated the driver’s neck, and the other piece was found pressed onto the steering wheel mounting nut. The types of materials analyzed include labels on the inflator, adhesive, and fracture patterns. Fluorescence microscopy, scanning electron microscopy coupled with energy-dispersive X-ray spectrometry (SEM-EDS), Fourier-transform infrared microspectroscopy (FT-IR), calipers, and a microchemical test for ammonium ions were used during the investigation. The investigation was supplemented by examining an exemplar airbag inflator using 3-D computed X-ray tomography. The airbag inflator, containing ammonium nitrate (NH4NO3), was a product of the Takata Corporation, whose defective airbag inflators are linked to at least 16 deaths and more than 100 injuries, resulting in the largest recall in automotive history.
Microcrystal Tests for the Identification of Illicit Drugs: Heroin, Hydrocodone, Hydromorphone, MDMA, Methadone, and Methylphenidate
Kelly M. Brinsko, M.S.; Dean Golemis, B.A.; Meggan B. King, B.S.; Gary J. Laughlin, Ph.D.; and Sebastian B. Sparenga, M.S.The Microscope 65:3, pp. 107–142, 2017
https://doi.org/10.59082/MRNE3964
Abstract: The Microscope is publishing monographs from McCrone Research Institute’s A Modern Compendium of Microcrystal Tests for Illicit Drugs and Diverted Pharmaceuticals (4th revision: September 13, 2021) , which contains 19 different drugs and their microcrystal test reagents.
This issue includes monographs for the following drugs/reagents:
• heroin/mercuric chloride• heroin/mercuric iodide• hydrocodone/platinum bromide• hydromorphone/platinum bromide• hydromorphone/sodium nitroprusside• MDMA/gold chloride• methadone/mercuric chloride• methadone/mercuric bromide• methylphenidate/picric acid• methylphenidate/lead iodide solution
The previous issue, 65:2 (2017), includes monographs for 1-benzylpiperazine (BZP), clonazepam, codeine, diazepam, and l-ephedrine. Monographs for remaining microcrystal tests will be published in subsequent issues.
Microscope Past: 80 Years Ago | By Way of Introduction
The Microscope 65:3, p. 143, 2017 Originally published Page 1 of the “first number” of The Microscope edited and published by Arthur Barron, Ltd., London (1937). Excerpt: Page 1 of the “first number” of The Microscope edited and published by Arthur Barron, Ltd., London (1937).
Afterimage | “SpongeBob”
JoAnn Buscaglia
The Microscope 65:3, p. 144, 2017
A decorative painted surface on an absorbent kitchen mat taken with a Samsung Galaxy S5 smartphone camera with a portable, reflected-light microscope lens attachment; field of view is ~1–2 mm.
Copyright © 2017 Microscope Publications, Division of McCrone Research Institute. All rights reserved.