ORCID Profile
0000-0001-8083-9209
Current Organisation
Amsterdam University Medical Centers, location AMC
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Publisher: Elsevier BV
Date: 03-2017
Publisher: Elsevier BV
Date: 03-2011
DOI: 10.1016/J.FORSCIINT.2010.07.034
Abstract: Blood stains can be crucial in reconstructing crime events. However, no reliable methods are currently available to establish the age of a blood stain on the crime scene. We show that determining the fractions of three hemoglobin derivatives in a blood stain at various ages enables relating these time varying fractions to the age of the blood stain. Application of light transport theory allows addressing the spectroscopic changes in ageing blood stains to changes in chemical composition, i.e. the transition of oxy-hemoglobin into met-hemoglobin and hemichrome. We have found in 20 blood stains that the chemical composition of the blood stain with age, called hemoglobin reaction kinetics, under controlled circumstances, shows a distinct time-dependent behavior, with a unique combination of the three hemoglobin derivatives at all moments in time. Finally, we employed the hemoglobin reaction kinetics inversely to assess the age of 20 other blood stains studied, again over a time period of 0-60 days. We estimated an age of e.g. 55 days correct within an uncertainty margin of 14 days. In conclusion, we propose that the results obtained under controlled conditions demand further evaluation of their possible value for age determination of blood stains on crime scenes.
Publisher: Elsevier BV
Date: 05-2014
DOI: 10.1016/J.CGH.2013.10.013
Abstract: Studies have reported that autofluorescence imaging (AFI) increases targeted detection of high-grade intraepithelial neoplasia (HGIN) and intramucosal cancer (IMC) in patients with Barrett's esophagus (BE). We analyzed data from trials to assess the clinical relevance of AFI-detected lesions. We collected information on 371 patients with BE, along with endoscopy and histology findings, from databases of 5 prospective studies of AFI (mean age, 65 years 305 male). We compared these data with outcomes of treatment and follow-up. Study end points included the diagnostic value of AFI (proportion of surveillance patients with HGIN or IMC detected only by AFI-targeted biopsies) and value of AFI in selection of therapy (the proportion of patients for which detection of an HGIN or IMC lesion by AFI changed the treatment strategy based on white-light endoscopy or random biopsy analysis). Of study participants, 211 were referred for surveillance and 160 were referred for early stage neoplasia HGIN or IMC were diagnosed in 147 patients. In 211 patients undergoing surveillance, 39 had HGIN or IMC (23 detected by white-light endoscopy, 11 detected by random biopsies, 5 detected by AFI). So, the diagnostic value of AFI was 5 (2%) of 211. In 24 patients, HGIN or IMC was diagnosed using only AFI. In 33 patients, AFI detected additional HGINs or IMCs next to lesions detected by primary white-light endoscopy. Lesions detected by AFI were treated in 57 patients: 26 patients underwent radiofrequency ablation and showed full remission of neoplasia, whereas 31 underwent endoscopic resection and 6 were found to have IMC. The value of AFI in selection of therapy was 6 (2%) of 371. Based on an analysis of data from clinical trials of patients with BE, detection of lesions by AFI has little effect on the diagnosis of early stage neoplasia or therapeutic decision making. AFI therefore has a limited role in routine surveillance or management of patients with BE.
Publisher: SPIE
Date: 07-02-2008
DOI: 10.1117/12.763027
Publisher: Elsevier BV
Date: 11-2012
DOI: 10.1016/J.FORSCIINT.2012.09.012
Abstract: Hyperspectral imaging (HSI) integrates conventional imaging and spectroscopy, to obtain both spatial and spectral information from a specimen. This technique enables investigators to analyze the chemical composition of traces and simultaneously visualize their spatial distribution. HSI offers significant potential for the detection, visualization, identification and age estimation of forensic traces. The rapid, non-destructive and non-contact features of HSI mark its suitability as an analytical tool for forensic science. This paper provides an overview of the principles, instrumentation and analytical techniques involved in hyperspectral imaging. We describe recent advances in HSI technology motivating forensic science applications, e.g. the development of portable and fast image acquisition systems. Reported forensic science applications are reviewed. Challenges are addressed, such as the analysis of traces on backgrounds encountered in casework, concluded by a summary of possible future applications.
Location: Netherlands
No related grants have been discovered for Maurice Aalders.