Line Gueissaz scite author profile

In a recently published guideline for evaluative reporting in forensic science, the European Network of Forensic Science Institutes (ENFSI) recommended the use of the likelihood ratio for the measurement of the value of forensic results. As a device to communicate the probative value of the results, the ENFSI guideline mentions the possibility to define and use a verbal scale, which should be unified within a forensic institution. This paper summarizes discussions held between scientists of our institution to develop and implement such a verbal scale. It intends to contribute to general discussions likely to be faced by any forensic institution that engages in continuous monitoring and improving of their evaluation and reporting format. We first present published arguments in favour of the use of such verbal qualifiers. We emphasize that verbal qualifiers do not replace the use of numbers to evaluate forensic findings, but are useful to communicate the probative value, since the weight of evidence in terms of likelihood ratio are still apprehended with difficulty by both the forensic scientists, especially in absence of hard data, and the recipient of information. We further present arguments that support the development of the verbal scale we propose. Recognising the limits of the use of such a verbal scale, we then discuss its disadvantages: it may lead to the spurious view according to which the value of the observations made in a given case is relative to other cases. Verbal qualifiers are also prone to misunderstandings and cannot be coherently combined with other evidence. We therefore recommend not using the verbal qualifier alone in a written statement. While scientists should only report on the probability of the findings -and not on the probability of the propositions, which are the duty of the Court -we suggest showing examples to let the recipient of information understand how the scientific evidence affects the probabilities of the propositions. To avoid misunderstandings, we also advise to mention in the statement what the results do not mean. Finally, we are of the opinion that if experts were able to coherently articulate numbers, and if recipients of information could properly handle such numbers, then verbal qualifiers could be abandoned completely. At that time, numerical expressions of probative value will be appropriately understood, as other numerical measures that most of us understand without the need of any further explanation, such as expressions for length or temperature.

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Tire traces – Discrimination and classification of pyrolysis-GC/MS profiles

Gueissaz

Massonnet

2013

Forensic Science International

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Study on the discrimination of tires using chemical profiles obtained by Py-GC/MS

Gueissaz

Massonnet

2017

Journal of Analytical and Applied Pyrolysis

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Raman analysis of multilayer automotive paints in forensic science: measurement variability and depth profile

Lambert

Muehlethaler

Gueissaz

et al. 2014

J Raman Spectroscopy

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The aim of this work is to study the influence of several analytical parameters on the variability of Raman spectra of paint samples. In the present study, microtome thin section and direct (no preparation) analysis are considered as sample preparation. In order to evaluate their influence on the measures, an experimental design such as ‘fractional full factorial’ with seven factors (including the sampling process) is applied, for a total of 32 experiments representing 160 measures. Once the influence of sample preparation highlighted, a depth profile of a paint sample is carried out by changing the focusing plane in order to measure the colored layer under a clearcoat. This is undertaken in order to avoid sample preparation such a microtome sectioning. Finally, chemometric treatments such as principal component analysis are applied to the resulting spectra. The findings of this study indicate the importance of sample preparation, or more specifically, the surface roughness, on the variability of the measurements on a same sample. Moreover, the depth profile experiment highlights the influence of the refractive index of the upper layer (clearcoat) when measuring through a transparent layer. Copyright © 2014 John Wiley & Sons, Ltd.

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Raman and SERS characterization of solvent dyes: An example of shoe polish analysis

Muehlethaler

Gueissaz

et al. 2017

Dyes and Pigments

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Surface-Enhanced Raman Spectroscopy (SERS) has significantly contributed to the analysis and identification of dyes over the years. SERS takes advantage of the high molecular absorption of chromophores molecules in the visible to further enhance their signal by resonance mechanisms. The main categories of dyes have all been successfully described by this technique, with the exception of non-water-solubles dyes such as solvent dyes. Due to their non-polarity, solvent dyes do not mix well with aqueous silver colloids nor provide the necessary adsorption to the SERS substrate. We show that by varying the proportions of solvent to water, we can easily and rapidly obtain very intense spectra from solvent soluble dyes, which were otherwise not possible to measure using the conventional silver colloids. We demonstrate this procedure with a preliminary collection of 13 solvent dyes which were characterized by standard Raman and SERS at 488, 633 and 785 nm.

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Line Gueissaz

Discussion on how to implement a verbal scale in a forensic laboratory: Benefits, pitfalls and suggestions to avoid misunderstandings

Tire traces – Discrimination and classification of pyrolysis-GC/MS profiles

Study on the discrimination of tires using chemical profiles obtained by Py-GC/MS

Raman analysis of multilayer automotive paints in forensic science: measurement variability and depth profile

Raman and SERS characterization of solvent dyes: An example of shoe polish analysis

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