Comparative use of aqueous humour 1H NMR metabolomics and potassium concentration for PMI estimation in an animal model

Locci, Emanuela; Stocchero, Matteo; Gottardo, Rossella; De-Giorgio, Fabio; Demontis, Roberto; Nioi, Matteo; Chighine, Alberto; Tagliaro, Franco; d’Aloja, Ernesto

doi:10.1007/s00414-020-02468-w

Cited by 27 publications

(29 citation statements)

References 27 publications

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“…Concerning the determination of the PMI, however, only a few studies that focus on the use of post-mortem CT can be found in the literature. Undoubtedly, in the past years, efforts have been made by the forensic community, including our research team, to identify methods that could help determine the time of death, such as the study of human tissues transcriptomes [29], muscle proteins degradation [30], gene expression patterns [31], ocular changes, [32,33], metabolomics [34][35][36], the study of rigor mortis using ultrasound shear wave elastography (US SWE) [37] or atomic force microscopy (AFM) [38]. However, to our knowledge, there are no studies concerning the application of fractal analysis to post-mortem CT scans for the determination of the PMI.…”

Section: Discussionmentioning

confidence: 99%

Post mortem computed tomography meets radiomics: a case series on fractal analysis of post mortem changes in the brain

et al. 2022

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Estimating the post-mortem interval is a fundamental, albeit challenging task in forensic sciences. To this aim, forensic practitioners need to assess post-mortem changes through a plethora of different methods, most of which are inherently qualitative, thus providing broad time intervals rather than precise determinations. This challenging problem is further complicated by the influence of environmental factors, which modify the temporal dynamics of post-mortem changes, sometimes in a rather unpredictable fashion. In this context, the search for quantitative and objective descriptors of post-mortem changes is highly demanded. In this study, we used computed tomography (CT) to assess the post-mortem anatomical modifications occurring in the time interval 0–4 days after death in the brain of four corpses. Our results show that fractal analysis of CT brain slices provides a set of quantitative descriptors able to map post-mortem changes over time throughout the whole brain. Although incapable of producing a direct estimation of the PMI, these descriptors could be used in combination with other more established methods to improve the accuracy and reliability of PMI determination.

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Section: Discussionmentioning

confidence: 99%

Post mortem computed tomography meets radiomics: a case series on fractal analysis of post mortem changes in the brain

et al. 2022

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“…In an attempt to overcome the ethical issue of time-dependent tissue collection, other matrices were previously proposed to study endogenous postmortem changes. These include anatomically isolated ocular fluids such as vitreous-and aqueous humor (Locci et al, 2019(Locci et al, , 2021. In these, metabolomics changes were found to progress slower and smoother than in blood and were hence proposed as a more suitable matrix for PMI estimation, but still, large enough study sets are missing for reliable PMI estimation (Zelentsova et al, 2020).…”

Section: Determination Of the Post-mortem Intervalmentioning

confidence: 99%

Untargeted metabolomics approaches to improve casework in clinical and forensic toxicology—“Where are we standing and where are we heading?”

Steuer

Brockbals

Kræmer

2021

WIREs Forensic Science

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Clinical toxicology (CT) and forensic toxicology (FT) represent two disciplines of toxicology dedicated to the qualitative and quantitative analysis and respective interpretation of alcohol, drugs of abuse (DOA), over the counter (OTC), and prescription drugs or poisons, mainly in humans. Analytical challenges, such as the transient occurrence of new psychoactive substances (NPS) on the (il)legal drug market, insufficiently long detection windows of some DOAs, or the lack of objective measures to unambiguously proof sample manipulation as well as interpretative issues, for instance, the difficulty to discriminate occasional users from chronic/addictive ones still require further evaluation and research, though. Metabolomics is a rather new research field, aiming for qualitative, and quantitative analysis of endogenous compounds (small molecules with a molecular weight < 1000 Da) in an organism to identify changes related to a certain stimulus, for example, a drug intake. Over the last years, metabolomics has been established as a valuable tool in different disciplines, including very recently CT and FT. Analytical techniques usually applied include nuclear magnetic resonance and majorly hyphenated high-resolution mass spectrometry (HR-MS), similar to the instrumentation used in CT and FT. We will summarize practical considerations for each step of a typical untargeted metabolome workflow (experimental set-up, sample collection and storage, analysis, data processing, statistics, and identification) in CT and FT, provide an update on the current applications of untargeted metabolome profiling and will critically discuss its benefits or lack thereof within the particular field.

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“…Various techniques and methods have been employed to estimate the PMI with the highest accuracy. Methods include examination of the external physical appearance; histopathological surveys [ 6 , 7 , 8 ]; reaction with a mineral acid, reaction with benzidine, nitrogen loss [ 9 ]; molecular biology [ 10 , 11 , 12 , 13 , 14 , 15 ]; metabolomics [ 16 ]; high performance liquid chromatography-tandem mass spectrometry [ 17 ]; UV-Vis spectroscopic methods [ 18 , 19 , 20 , 21 , 22 ]; radioisotope measurements [ 23 , 24 , 25 , 26 ]; luminol chemiluminescent reaction [ 24 , 27 , 28 , 29 , 30 , 31 ]; X-ray diffraction [ 32 , 33 , 34 ]; spectroscopic technology [ 21 , 34 , 35 , 36 , 37 , 38 , 39 , 40 , 41 , 42 , 43 , 44 , 45 , 46 , 47 ]; postmortem computed tomography (CT) [ 48 ], micro-CT [ 2 , 34 ]; visible and thermal 3D imaging [ 49 ]; and entomological methods (succession model, carrion insect development) ...…”

Section: Introductionmentioning

confidence: 99%

Application of Micro-Computed Tomography for the Estimation of the Post-Mortem Interval of Human Skeletal Remains

Schmidt

Zelger

Woess

et al. 2022

Biology

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It is challenging to estimate the post-mortem interval (PMI) of skeletal remains within a forensic context. As a result of their interactions with the environment, bones undergo several chemical and physical changes after death. So far, multiple methods have been used to follow up on post-mortem changes. There is, however, no definitive way to estimate the PMI of skeletal remains. This research aimed to propose a methodology capable of estimating the PMI using micro-computed tomography measurements of 104 human skeletal remains with PMIs between one day and 2000 years. The present study indicates that micro-computed tomography could be considered an objective and precise method of PMI evaluation in forensic medicine. The measured parameters show a significant difference regarding the PMI for Cort Porosity p < 0.001, BV/TV p > 0.001, Mean1 p > 0.001 and Mean2 p > 0.005. Using a machine learning approach, the neural network showed an accuracy of 99% for distinguishing between samples with a PMI of less than 100 years and archaeological samples.

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Comparative use of aqueous humour 1H NMR metabolomics and potassium concentration for PMI estimation in an animal model

Cited by 27 publications

References 27 publications

Post mortem computed tomography meets radiomics: a case series on fractal analysis of post mortem changes in the brain

Post mortem computed tomography meets radiomics: a case series on fractal analysis of post mortem changes in the brain

Untargeted metabolomics approaches to improve casework in clinical and forensic toxicology—“Where are we standing and where are we heading?”

Application of Micro-Computed Tomography for the Estimation of the Post-Mortem Interval of Human Skeletal Remains

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