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Effect of Common Imaging and Hot Water Maceration on DNA Recovery From Skeletal Remains

NCJ Number
249992
Journal
Forensic Science International Volume: 257 Dated: December 2015 Pages: 189-195
Author(s)
E. M. Frank; A. Z. Mundorff; J. M. Davoren
Date Published
December 2015
Length
7 pages
Annotation
This article presents the processes involved with DNA recovery from skeletal remains using common imaging and hot water maceration.
Abstract
Identifying human remains often begins with cleaning and imaging the material. Hot water maceration is used to remove adherent soft tissue from bone and radiographs are taken to better visualize osseous details. Heat and radiation are known to have harmful effects on DNA, but their ability to degrade DNA when used for cleaning and imaging has not been well studied. To better understand their individual and combined effects on the recoverability of DNA from bone, skeletal samples were subjected to (1) hot water maceration (62 degrees C for 45 min); (2) CT scanning (0.6 mm slices, 120 kV, 10.4 s); (3) X-ray (50 kVp, 150 mA, 0.03 s, 40 in); and (4) all 3 treatments combined. Forty-eight DNA samples were extracted, quantified and amplified with the AmpFLSTR Identifiler system. Nearly all of the processed samples had reduced RFU values relative to the unprocessed samples, indicating some amount of genetic loss. This loss did not always translate into loss of profile completeness, since only a few samples had a reduction in the number of loci detected after processing. DNA yields were not significantly reduced by any one of the processing methods; however, the results indicate that the damaging effects are additive. It is possible that processing may reduce a bone's DNA reservoir and as more procedures are preformed, the pool of available genetic information might be diminished. Many intrinsic and extrinsic factors can affect the recoverability of DNA from bone. Collecting a DNA sample prior to processing avoids the negative effects from hot water maceration and radiological imaging. (Publisher abstract modified)