Your search keyword '"human decomposition"' showing total 500 results

1. Environmental predictors impact microbial-based postmortem interval (PMI) estimation models within human decomposition soils.

Author

Mason, Allison R., McKee-Zech, Hayden S., Steadman, Dawnie W., and DeBruyn, Jennifer M.

Subjects

*MACHINE learning, *HUMAN decomposition, *BIOMARKERS, *ERROR rates, *RANDOM forest algorithms

Abstract

Microbial succession has been suggested to supplement established postmortem interval (PMI) estimation methods for human remains. Due to limitations of entomological and morphological PMI methods, microbes are an intriguing target for forensic applications as they are present at all stages of decomposition. Previous machine learning models from soil necrobiome data have produced PMI error rates from two and a half to six days; however, these models are built solely on amplicon sequencing of biomarkers (e.g., 16S, 18S rRNA genes) and do not consider environmental factors that influence the presence and abundance of microbial decomposers. This study builds upon current research by evaluating the inclusion of environmental data on microbial-based PMI estimates from decomposition soil samples. Random forest regression models were built to predict PMI using relative taxon abundances obtained from different biological markers (bacterial 16S, fungal ITS, 16S-ITS combined) and taxonomic levels (phylum, class, order, OTU), both with and without environmental predictors (ambient temperature, soil pH, soil conductivity, and enzyme activities) from 19 deceased human individuals that decomposed on the soil surface (Tennessee, USA). Model performance was evaluated by calculating the mean absolute error (MAE). MAE ranged from 804 to 997 accumulated degree hours (ADH) across all models. 16S models outperformed ITS models (p = 0.006), while combining 16S and ITS did not improve upon 16S models alone (p = 0.47). Inclusion of environmental data in PMI prediction models had varied effects on MAE depending on the biological marker and taxonomic level conserved. Specifically, inclusion of the measured environmental features reduced MAE for all ITS models, but improved 16S models at higher taxonomic levels (phylum and class). Overall, we demonstrated some level of predictability in soil microbial succession during human decomposition, however error rates were high when considering a moderate population of donors. [ABSTRACT FROM AUTHOR]

Published

2024

2. Compost me: a more-than-humanifesto.

Author

Blinne, Kristen C.

Subjects

*HUMAN decomposition, *HUMAN ecology, *COMPOSTING, *DEAD, *SELF

Abstract

Compost Me: A More-Than-Humanifesto speaks to my desire to be composted, exploring what human composting is and how the process works, in addition to what human composting can teach us about being and becoming more-than-human. As part of this more-than-humanifesto, I advocate for an extended sense of self – one that mixes and mingles with other beings and bodies – to compost discourses that present humans as separate from, and superior to, the ecologies in which they are intimately a part. [ABSTRACT FROM AUTHOR]

Published

2024

3. Transient hypoxia drives soil microbial community dynamics and biogeochemistry during human decomposition.

Author

Taylor, Lois S, Mason, Allison R, Noel, Hannah L, Essington, Michael E, Davis, Mary C, Brown, Veronica A, Steadman, Dawnie W, and DeBruyn, Jennifer M

Subjects

*SOIL microbiology, *HUMAN decomposition, *MICROBIAL respiration, *FUNGAL genes, *SOIL acidification, *FUNGAL communities

Abstract

Human decomposition in terrestrial ecosystems is a dynamic process creating localized hot spots of soil microbial activity. Longer-term (beyond a few months) impacts on decomposer microbial communities are poorly characterized and do not typically connect microbial communities to biogeochemistry, limiting our understanding of decomposer communities and their functions. We performed separate year-long human decomposition trials, one starting in spring, another in winter, integrating bacterial and fungal community structure and abundances with soil physicochemistry and biogeochemistry to identify key drivers of microbial community change. In both trials, soil acidification, elevated microbial respiration, and reduced soil oxygen concentrations occurred. Changes in soil oxygen concentrations were the primary driver of microbial succession and nitrogen transformation patterns, while fungal community diversity and abundance was related to soil pH. Relative abundance of facultative anaerobic taxa (Firmicutes and Saccharomycetes) increased during the period of reduced soil oxygen. The magnitude and timing of the decomposition responses were amplified during the spring trial relative to the winter, even when corrected for thermal inputs (accumulated degree days). Further, soil chemical parameters, microbial community structure, and fungal gene abundances remained altered at the end of 1 year, suggesting longer-term impacts on soil ecosystems beyond the initial pulse of decomposition products. [ABSTRACT FROM AUTHOR]

Published

2024

4. Performance of a Novel Electronic Nose for the Detection of Volatile Organic Compounds Relating to Starvation or Human Decomposition Post-Mass Disaster.

Author

Sunnucks, Emily J., Thurn, Bridget, Brown, Amber O., Zhang, Wentian, Liu, Taoping, Forbes, Shari L., Su, Steven, and Ueland, Maiken

Subjects

*HUMAN decomposition, *DETECTOR dogs, *VOLATILE organic compounds, *ARCHAEOLOGICAL human remains, *DETECTION limit, *ELECTRONIC noses

Abstract

There has been a recent increase in the frequency of mass disaster events. Following these events, the rapid location of victims is paramount. Currently, the most reliable search method is scent detection dogs, which use their sense of smell to locate victims accurately and efficiently. Despite their efficacy, they have limited working times, can give false positive responses, and involve high costs. Therefore, alternative methods for detecting volatile compounds are needed, such as using electronic noses (e-noses). An e-nose named the 'NOS.E' was developed and has been used successfully to detect VOCs released from human remains in an open-air environment. However, the system's full capabilities are currently unknown, and therefore, this work aimed to evaluate the NOS.E to determine the efficacy of detection and expected sensor response. This was achieved using analytical standards representative of known human ante-mortem and decomposition VOCs. Standards were air diluted in Tedlar gas sampling bags and sampled using the NOS.E. This study concluded that the e-nose could detect and differentiate a range of VOCs prevalent in ante-mortem and decomposition VOC profiles, with an average LOD of 7.9 ppm, across a range of different chemical classes. The NOS.E was then utilized in a simulated mass disaster scenario using donated human cadavers, where the system showed a significant difference between the known human donor and control samples from day 3 post-mortem. Overall, the NOS.E was advantageous: the system had low detection limits while offering portability, shorter sampling times, and lower costs than dogs and benchtop analytical instruments. [ABSTRACT FROM AUTHOR]

Published

2024

5. Comparison of GPR signals over simulated clandestine graves with domestic pigs (Sus Scrofa domesticus) and human remains.

Author

Armstrong, Aidan, Doro, Kennedy O., Cristino, Katrina, Ribéreau‐Gayon, Agathe, Forbes, Shari L., Wadsworth, William T. D., and Bank, Carl‐Georg

Subjects

*HUMAN decomposition, *ARCHAEOLOGICAL human remains, *ANTENNAS (Electronics), *SCIENTIFIC community, *HYPERBOLA

Abstract

Studies assessing the use of ground‐penetrating radar (GPR) for locating unmarked human graves commonly use pigs as proxies, with recent concerns about the adequacy of pigs as substitutes for humans. Also, there is little agreement on how to identify and describe GPR signals associated with graves. Hence, this project's aim is to compare GPR signals acquired over simulated clandestine graves with pig and human remains. We established human, pig, and control graves at the REST[ES] human decomposition facility in May 2022 and monitored the graves over 17 months using a 250 MHz antenna GPR system. Our results showed the presence of perturbed and V‐shaped reflectors, diffraction hyperbolas, and reflectors with amplitude loss at depth between 0.6 and 0.75 m in the radargram for graves with human and pig remains. We corroborate recent studies which concluded that the use of proxies is a viable alternative to human cadavers. The observed radar signatures were classified into five key patterns, which are characteristic of similar data collected with 250 MHz above graves reported in the literature. These classes are: V‐shaped dipping reflections from grave walls (class A), small hyperbolic reflections superimposed onto a near‐linear reflector (class B), hyperbolic reflections from remains within the grave (class C), new high‐amplitude reflection patterns (class D) and significant loss or interruption of reflections (class E). Our proposed classification can help streamline future investigations where the goal is to interpret burials within large GPR datasets and provide language to communicate these results to the broader scientific community. [ABSTRACT FROM AUTHOR]

Published

2024

6. ICPUTRD: Image Cloud Platform for use in tagging and research on decomposition.

Author

Nau, Anna‐Maria, Mousavi, Sara, Lee, Dylan, Hossain, Rayhan, Griffin, Tatianna, Steadman, Dawnie Wolfe, and Mockus, Audris

Subjects

*HUMAN decomposition, *AGILE software development, *FORENSIC anthropology, *FORENSIC sciences, *IMAGING system software, *JAVASCRIPT programming language

Abstract

Human decomposition studies aim to understand the various factors influencing human decay to assess the deceased and develop postmortem interval (PMI) estimation methods. These types of studies are typically conducted through physical experiments examining the deceased; however, big data systems have the potential to transform how large‐scale forensic anthropology research questions can be addressed with curated images of donors with known demographic, climatic, and postmortem historical data. This study introduces ICPUTRD (Image Cloud Platform for Use in Tagging and Research on Decomposition), a web‐based software system, which enables forensic scientists to easily access, enhance (or curate), and analyze very large photographic collections documenting the longitudinal process of human decomposition. ICPUTRD, a JavaScript‐based application, was designed and built through a combination of the Waterfall and Agile software development life‐cycle methods and provides an image search and tagging features with a predefined nomenclature of forensic‐related keywords. To evaluate the system, a user study was conducted, involving 27 participants who completed pre‐ and post‐study surveys and three research tasks. Analysis of the study results confirmed the feasibility and practicality of ICPUTRD to facilitate aspects of forensic research and casework involving large collections of digital photographs of human decomposition. It was observed that the nomenclature lacked certain law enforcement keywords, so future work will focus on expanding it to ensure ICPUTRD is suited for all its intended users. [ABSTRACT FROM AUTHOR]

Published

2024

7. Determination of Soil Contamination Due to the Influence of Cemeteries for the Surrounding Land and People in Central Ecuador—Worldwide Implications.

Author

Abad-Sarango, Viviana, Crisanto-Perrazo, Tania, Guevara-García, Paulina, Fierro-Naranjo, Greta, Toulkeridis, Theofilos, Ocaña Garzón, Edwin, Quishpe-Gómez, Betzabeth, and Suntaxi-Pachacama, Silvana

Subjects

SOIL physical chemistry, SUSTAINABILITY, SOIL pollution, HUMAN decomposition, PHYSICAL & theoretical chemistry, SOIL classification

Abstract

Human decomposition processes generate pulses of nutrients, such as carbon (C) and nitrogen (N) in the form of ammonium and nitrate (NO3−), which are released into the surrounding environment. The little exploration related to the potential of cadaveric leachate to influence the physical chemistry and biology of the soil makes it difficult to obtain data and scientific evidence, and subsequently the predominant objective of the current study was to determine soil contamination through the analysis of parameters of physical chemistry that included organic matter (OM), NO3−, texture, humidity, and pH. Soil samples were taken at different depths in two temporary trials (the dry and rainy seasons) in central Ecuador. The Kruskal–Wallace and ANOVA statistical analyses determined significant differences in relation to the sampling sections and by categories, while there were no significant differences in the inter-season analysis; therefore, the study was based on the data obtained in the dry season. The results indicate a tendency towards contamination in cemeteries categorized as critical, that is, moderate, light, and not suitable due to the high values of OM and humidity measured. On the contrary, the soils that corresponded to the cemeteries classified as suitable yielded low values of the analyzed parameters, which corroborates their capacity for the present and future location of cemeteries. Monitoring and managing soil health is crucial to ensure sustainable environmental practices and protect public health; nonetheless, additional research is suggested to confirm the findings of the current study. [ABSTRACT FROM AUTHOR]

Published

2024

8. Post-mortem Interval estimate based on dental pulp: A histomorphology approach.

Author

Bianchi, Ilenia, Rodrigues, Ana, Santos, Rui, Augusto, Diana, Focardi, Martina, Aquino, João, Fonseca, Isabel, and Pereira, Cristiana Palmela

Subjects

DENTAL pulp, POSTMORTEM changes, DENTAL cements, DENTISTRY, EXTRACELLULAR matrix, HUMAN decomposition, CELL nuclei, TOOTH socket

Abstract

Estimating the post-mortem interval (PMI) of human remains based on the histomorphology of dental pulp parameters is promising, but available evidence is scarce and sometimes contradictory without a scientific model. The aim of the study is to characterise the histomorphological changes of dental pulp associated with the decomposition of human remains by a qualitative and quantitative approach. The main aim is to establish a correlation based on post-mortem (PM) dental pulp histomorphology and the PMI, and whether pulp degradation could be an available medico-legal tool for PMI estimation beyond the first week after death (late PMI). The eligible sample consisted of 27 sound teeth from 16 healthy patients aged 16 to 72 years due to orthodontic or oral surgery treatment, to create PMI’s simulating the death of the subject as the time elapsed from tooth avulsion. Data collected from patients (sex, date of birth, tooth position, date and hour of the avulsion, date and hour of pulp extraction) were anonymised in accordance with the requirements of Faculty of Dental Medicine of the University of Lisbon. The sample was divided into 9 groups of 3 teeth according to different PMI sets from T0 (baseline) up to 2 weeks (T0, 7, 12, 24, 36, 48, and 72 hours, 1 and 2 weeks). All the dental samples were stored at room temperature up to the time of pulp extraction and then prepared with haematoxylin and eosin stain. High-resolution microscopy was performed to obtain histological images. An operator performed the qualitative evaluation of blood vessels, collagen fibres, and the extra-cellular matrix (ECM) in PM pulps and measured the variation in cells/ nuclei density by counting 6 different ROIs (Regions of Interest) for each pulp manually and automatically (quantitative analysis). Qualitative results showed that the degeneration of dental pulp appears 7 hours after death but histological changes in vessels, fibres, and ECM in PM dental pulp are characterised by high variability, consequently it is not possible to generalise the results for early PMIs. Quantitative measurements proved that cell count cannot be standardised due to the presence of superimposed layers of cells and nuclei fragmentation. Odontoblasts did not demonstrate evidence of cellular or nuclear lysis up to 14 PM suggesting their applicability in late PMIs. Future research will focus on late PMIs and different techniques of tooth preparation. [ABSTRACT FROM AUTHOR]

Published

2024

9. Lucilia cuprina (Wiedemann) (Diptera: Calliphoridae): A potentially forgotten forensically important species in Malaysia.

Author

Jones, Abby K., Hidayah Shamsuddin, Nur, and Chin Heo, Chong

Subjects

DIPTERA, BLOWFLIES, HUMAN decomposition, SPECIES, ENDEMIC species, FORENSIC entomology

Abstract

• Lucilia cuprina (Diptera: Calliphoridae) are associated with human decomposition. • L. cuprina have been recorded in very few cases within Malaysia. • This species has been collected in a recent indoor forensic case in Malaysia. • Further research on L. cuprina 's development and behavior in casework is necessary. Lucilia cuprina (Wiedemann) (Diptera: Calliphoridae) has been collected in human forensic case work. This species is endemic in Malaysia but is not one of the most common species and is often found in outdoor cases. However, it is hypothesized that the presence of L. cuprina larvae may provide useful information in forensic case studies in Malaysia where this species has previously been ignored. This review will discuss the current background knowledge on L. cuprina , particularly when it comes to other forensic cases in Malaysia. General biology as well as key information for forensic work such as geographical distribution and developmental data will be reviewed. Finally, we discuss the potential for L. cuprina to provide beneficial and unique forensic insight into indoor cases with refuse. [ABSTRACT FROM AUTHOR]

Published

2024

10. Utilization of qPCR to Determine Duration and Environmental Drivers Contributing to the Persistence of Human DNA in Soil.

Author

Noel, Hannah L., George, Rebecca L., Bintz, Brittania, Hickman, Maureen Peters, and West, Frankie

Subjects

*HUMAN DNA, *HUMAN decomposition, *NUCLEAR DNA, *MITOCHONDRIAL DNA, *SOIL degradation

Abstract

Little is known about the underlying mechanisms that contribute to the persistence and degradation of DNA within soil. The goals of this study are to determine the duration of mitochondrial DNA (mtDNA) and nuclear DNA (nuDNA) persistence in soils enriched by surface-level human decomposition and to better understand the contribution of environmental factors. The surface-level decomposition of three human cadavers was documented over 11 weeks. Based on quantitative PCR results, we found nuDNA to persist in soils six weeks post-placement, while mtDNA was recoverable for the entire 11-week decomposition period. Principle components analyses and Spearman's rank correlations revealed that (1) time, (2) total body score, and (3) weekly average air temperature were significantly correlated with concentrations of nuDNA and mtDNA in soil, suggesting these factors play a role in the degradation of DNA in soils. [ABSTRACT FROM AUTHOR]

Published

2024

11. Human decomposition in the unique context of the Andaman and Nicobar Islands (India): a comparative analysis with reference data.

Author

Kumar, Yogesh, Kumar Jhapte, Bharat, Guareschi, Edda E., and Magni, Paola A.

Subjects

*HUMAN decomposition, *DATA analysis, *CRIMINAL investigation, *ISLANDS, *COMPARATIVE studies, *FORENSIC sciences

Abstract

The understanding of the victim's decomposition process is crucial in forensic science for establishing accurate time since death, and the overall timelines of criminal investigations. Global research, which primarily relies on non-human animal proxies, highlights a scarcity of facilities using human bodies and a lack of baseline data for some regions and remote locations. In cases such as the Andaman and Nicobar (A&N) Islands (India), forensic practitioners turn to literature-derived patterns developed at the closest locations (mostly mainland India). This study examines 51 human decomposition cases investigated in A&N in comparison with the existing literature, emphasizing distinctions and similarities in their decomposition relative to the current Indian literature. This study advocates for further research and potentially calls for the establishment of the first anthropology research facility in the Indo-Pacific region, encouraging the development of tailored methodologies for more accurate estimations in diverse environments. [ABSTRACT FROM AUTHOR]

Published

2024

12. A technical protocol for 3D observation and documentation of human decomposition.

Author

Seckiner, Dilan, Ebert, Lars, Mallett, Xanthé, Berry, Rachel, Green, Hayley, Franckenberg, Sabine, Berezowski, Tori, Crebert, Isabella, Thali, Michael, and Sieberth, Till

Subjects

*HUMAN decomposition, *TIME of death, *DOCUMENTATION, *HUMAN body, *FORENSIC anthropology, *TIME perception

Abstract

The changes that occur to the human body after death reflect a multitude of complex biological processes, which can be impacted by a collection of variables that are not yet fully understood. Typically, information is obtained through in-situ examination and/or 2D data collection, which may restrict the availability of data and prevent collection of valuable information. To address this gap, the aim of this paper is to present a protocol for 3D data collection of human decomposition in outdoor environments. The specific objectives include presenting an approach and framework using wildlife cameras and performing 3D observation of a decomposing body. The method includes the design and construction of a walk-in cage including five frames holding 31 cameras, installed at the Australian Facility for Taphonomic Experimental Research. Preliminary trials completed on one subject in Zurich and various objects provided promising results through the generation of a 3D model. Comparing the wildlife cameras 3D model with a high-quality 3D model showed only minor discrepancies. This approach will be used in a study designed to improve our understanding of the human decomposition process to ultimately assist investigators with PMI estimations and to help reconstruct the sequence of events and time of death. [ABSTRACT FROM AUTHOR]

Published

2024

13. Volabolomic Fingerprinting for Post-Mortem Interval Estimation: A Novel Physiological Approach.

Author

Mazzatenta, Andrea, Pietrangelo, Tiziana, Demontis, Roberto, and D'Ovidio, Cristian

Subjects

*HUMAN fingerprints, *INSECT baits & repellents, *FORENSIC pathology, *ELECTRONIC noses, *DOG training, *HUMAN decomposition

Abstract

Death is a multifaceted process wherein each individual cell and tissue has a metabolic homeostasis and a time of functional cessation defined by the dying process as well as by intrinsic and extrinsic factors. Decomposition is physiologically associated with the release of different types of volatile organic compounds (VOCs), and these form volaboloma mortis. The main purpose of this study was to record the volabolomic fingerprint produced by volatile molecules during the physiological decomposition process of human tissue and muscle cells. The volatile chemical signature has important implications for an open issue in forensics and pathology, namely the estimation of the postmortem interval (PMI), which decreases in accuracy with the passage of time. Volatile metabolites emitted from human tissues and muscle cells at 0, 24, 48, and 72 h were recorded in real time with an electronic nose sensor device. The key findings were the continuous sampling of VOCs emitted from tissues and cells. These showed a common behavior as time progressed; particularly, after 48 h the distributions became dispersed, and after 72 h they became more variable. Volabolomic fingerprinting associated with time progression relevant to the study of PMIs was reconstructed. Additionally, there may be broader applications, such as in dog training procedures for detecting human remains, and perhaps even for studying scavenger and insect attractants. [ABSTRACT FROM AUTHOR]

Published

2024

14. The taphonomic impact of scavenger guilds in peri‐urban and rural regions of central and southern Alberta. Part I – Identification of forensically relevant vertebrate scavengers.

Author

Forbes, Shari L., Kjorlien, Yvonne, and Watson, Christopher J.

Subjects

*GRIZZLY bear, *SCOUTING cameras, *HUMAN decomposition, *VERTEBRATES, *METROPOLIS

Abstract

As a body decomposes in an outdoor environment, numerous taphonomic agents can act on the process of human decomposition. It is important to understand the impact of these agents as they can vary the rate of soft and hard tissue loss which may alter postmortem interval estimations. One taphonomic factor which has not been extensively investigated in many regions of the world, including Canada, are vertebrate scavengers. The current study aimed to identify scavenger guilds in the peri‐urban and rural regions of two major cities in Alberta (Calgary and Edmonton) where human remains are frequently located. Vertebrate scavenger activity was recorded continuously using cellular and noncellular trail cameras. Images were analyzed to determine how the scavenging profiles (i.e., scavenger species, arrival time, and feeding behavior) impacted the loss of soft and hard tissue. We identified a range of mammalian and avian scavengers and found that coyote and black‐billed magpie were the predominant scavengers recorded at the Edmonton peri‐urban and rural sites, and the Calgary peri‐urban sites. In contrast, when a site was within bear territory such as the Calgary rural sites, black and grizzly bears were the predominant scavengers. At all sites, the large mammalian scavengers were responsible for most soft tissue loss and subsequent hard tissue dispersal. None of the scavengers demonstrated a clear preference for open versus closed sites. This taphonomic information is important to consider when searching for human remains at these locations or in other North American regions with comparable scavenger guilds. [ABSTRACT FROM AUTHOR]

Published

2024

15. Unusual concentration of tramadol detected in cadaver in the last stage of decomposition and in fly larvae in the immediate vicinity: case report and literature review.

Author

Nižnanský, Ľuboš, Mikuláš, Ľubomír, Szabó, Alexandra Hengerics, Nižnanská, Žofia, and Valuch, Jozef

Subjects

*LITERATURE reviews, *TRAMADOL, *LARVAE, *HUMAN decomposition, *MEDICAL cadavers, *CHEMICAL burns

Abstract

Determination of the manner and cause of death from skeletal remains is almost always very difficult and can be a challenge for medical examiners. At the end also on skeletal remains, it is possible to assess mechanical, chemical, and thermal injuries, although it can be usually impossible. Possibilities to analyze biological material for the presence of drugs are also limited. The present study describes a case of a homeless man's skeletal remains on which a large number of fly larvae were found. Unusually high concentration of tramadol (TML) in the bone marrow (BM) = 4530 ng/g, muscle (M) = 4020 ng/g, and fly larvae (FL) = 280 ng/g was detected using a validated GC/MS method. In all analyzed samples, caffeine and N-desmethyltramadol (except BM) were qualitatively determined. Autopsy findings and toxicological analyses of the BM suggested that the cause of death could probably be intoxication by TML. It is apparent from the reviewed literature that analysis of TML in the late stages of decomposition of human body is rarely performed. Literature is predominantly focused on animal studies. Thus, TML concentrations analyzed in BM, M, or FL could be found helpful in relation to evaluation of intoxication by this substance. However, the significance of the results obtained in the presented study should be confirmed by further analyses of BM, M, or FL, where TML would be proved in lethal concentration in the blood. [ABSTRACT FROM AUTHOR]

Published

2024

16. Application of High-Resolution Terahertz Gas Spectroscopy for Studying the Composition of Thermal Decomposition Products in Human Urine of Prostate Cancer Patients.

Author

Vaks, Vladimir, Domracheva, Elena, Chernyaeva, Maria, Anfertev, Vladimir, Maslennikova, Anna, Atduev, Vagif, Atduev, Kurban, and Rodionov, Mikhail

Subjects

PROSTATE cancer patients, HUMAN decomposition, TERAHERTZ spectroscopy, URINE, PROSTATE cancer

Abstract

The results of using nonstationary high-resolution THz spectroscopy for detecting a characteristic set of metabolites of thermal decomposition products of urine from prostate cancer patients, aimed at identifying specific markers, are presented. Studies of the composition of biological fluid in prostate cancer were carried out using 12 urine samples from cancer patients and 4 samples from conditionally healthy volunteers. Differences in the composition and content of substances in the urine samples of cancer patients compared to the urine of conditionally healthy volunteers were identified, which allows preliminary conclusions to be drawn about substances promising for use as markers of prostate cancer in urine. The presented approach is promising for developing a method for noninvasive study of the composition of biological fluids, which makes it possible to identify metabolite markers of various pathologies and diseases. [ABSTRACT FROM AUTHOR]

Published

2024

17. Complexity of human death: its physiological, transcriptomic, and microbiological implications.

Author

Javan, Gulnaz T., Singh, Kanhaiya, Finley, Sheree J., Green, Robert L., and Sen, Chandan K.

Subjects

PHYSIOLOGY, HUMAN decomposition, CYTOLOGY, ORGANS (Anatomy), CELL physiology

Abstract

Human death is a complex, time-governed phenomenon that leads to the irreversible cessation of all bodily functions. Recent molecular and genetic studies have revealed remarkable experimental evidence of genetically programmed cellular death characterized by several physiological processes; however, the basic physiological function that occurs during the immediate postmortem period remains inadequately described. There is a paucity of knowledge connecting necrotic pathologies occurring in human organ tissues to complete functional loss of the human organism. Cells, tissues, organs, and organ systems show a range of differential resilience and endurance responses that occur during organismal death. Intriguingly, a persistent ambiguity in the study of postmortem physiological systems is the determination of the trajectory of a complex multicellular human body, far from life-sustaining homeostasis, following the gradual or sudden expiry of its regulatory systems. Recent groundbreaking investigations have resulted in a paradigm shift in understanding the cell biology and physiology of death. Two significant findings are that (i) most cells in the human body are microbial, and (ii) microbial cell abundance significantly increases after death. By addressing the physiological as well as the microbiological aspects of death, future investigations are poised to reveal innovative insights into the enigmatic biological activities associated with death and human decomposition. Understanding the elaborate crosstalk of abiotic and biotic factors in the context of death has implications for scientific discoveries important to informing translational knowledge regarding the transition from living to the non-living. There are important and practical needs for a transformative reestablishment of accepted models of biological death (i.e., artificial intelligence, AI) for more precise determinations of when the regulatory mechanisms for homeostasis of a living individual have ceased. In this review, we summarize mechanisms of physiological, genetic, and microbiological processes that define the biological changes and pathways associated with human organismal death and decomposition. [ABSTRACT FROM AUTHOR]

Published

2024

18. Feasibility of dual‐energy CBCT material decomposition in the human torso with 2D anti‐scatter grids and grid‐based scatter sampling.

Author

Altunbas, Cem

Subjects

*CONE beam computed tomography, *HUMAN decomposition, *CONTRAST media

Abstract

Background: Dual‐energy (DE) imaging techniques in cone‐beam computed tomography (CBCT) have potential clinical applications, including material quantification and improved tissue visualization. However, the performance of DE CBCT is limited by the effects of scattered radiation, which restricts its use to small object imaging. Purpose: This study investigates the feasibility of DE CBCT material decomposition by reducing scatter with a 2D anti‐scatter grid and a measurement‐based scatter correction method. Specifically, the investigation focuses on iodine quantification accuracy and virtual monoenergetic (VME) imaging in phantoms that mimic head, thorax, abdomen, and pelvis anatomies. Methods: A 2D anti‐scatter grid prototype was utilized with a residual scatter correction method in a linac‐mounted CBCT system to investigate the effects of robust scatter suppression in DE CBCT. Scans were acquired at 90 and 140 kVp using phantoms that mimic head, thorax, and abdomen/pelvis anatomies. Iodine vials with varying concentrations were placed in each phantom, and CBCT images were decomposed into iodine and water basis material images. The effect of a 2D anti‐scatter grid with and without residual scatter correction on iodine concentration quantification and contrast visualization in VME images was evaluated. To benchmark iodine concentration quantification accuracy, a similar set of experiments and DE processing were also performed with a conventional multidetector CT scanner. Results: In CBCT images, a 2D grid with or without scatter correction can differentiate iodine and water after DE processing in human torso‐sized phantom images. However, iodine quantification errors were up to 10 mg/mL in pelvis phantoms when only the 2D grid was used. Adding scatter correction to 2D‐grid CBCT reduced iodine quantification errors below 1.5 mg/mL in pelvis phantoms, comparable to iodine quantification errors in multidetector CT. While a noticeable contrast‐to‐noise ratio improvement was not observed in VME CBCT images, contrast visualization was substantially better in 40 keV VME images in visual comparisons with 90 and 140 kVp CBCT images across all phantom sizes investigated. Conclusions: This study indicates that accurate DE decomposition is potentially feasible in DE CBCT of the human torso if robust scatter suppression is achieved with 2D anti‐scatter grids and residual scatter correction. This approach can potentially enable better contrast visualization and tissue and contrast agent quantification in various CBCT applications. [ABSTRACT FROM AUTHOR]

Published

2024

19. Sr–Pb isotope differences in pre- and post-burial human bone, teeth, and hair keratin: implications for isotope forensics.

Author

Kootker, Lisette M., Ammer, Saskia T. M., Wescott, Daniel J., Davies, Gareth R., and Mickleburgh, Hayley L.

Subjects

*ISOTOPES, *STRONTIUM isotopes, *KERATIN, *CANCELLOUS bone, *DENTAL enamel, *ILIUM, *SCALP

Abstract

The isotopic signatures of human tissues can provide valuable information on geographic origin for medicolegal investigations involving unidentified persons. It is important to understand the impact of diagenetic processes on isotopic signatures, as alterations could result in incorrect estimation of geographic origin. This study examines alterations in isotope signatures of different tissues of five human body donors studied throughout decomposition at the Forensic Anthropology Research Facility (FARF), San Marcos, TX. Two body donors were buried, two were placed in open pits, and one was first allowed to naturally mummify and then buried. Remains were recovered after a period of 7–34 months. The preplacement and post-recovery Sr–Pb isotope data of scalp hair, bone (iliac and tibia), and tooth enamel and dentine were compared. The hair samples record significant shifts in Sr-Pb isotope compositions, with hair keratin Pb isotope composition shifting towards the Pb signature of local soil samples. Hair keratin Sr isotope compositions were altered by the burial environment and possibly also by the lab sample cleaning method. The spongy iliac bone samples show inconsistencies in the recoverability of the preplacement Sr–Pb isotope signatures. The post-placement signatures of the buried donors show slight elevation over preplacement signatures. The post-placement signatures of donors placed in open pits are significantly elevated. The tibia and dental samples record the most consistent isotopic data with the least alteration. These more densely mineralised elements show good recoverability of the preplacement isotope signatures in burials and open pits and are thus deemed better targets for forensic investigative purposes. [ABSTRACT FROM AUTHOR]

Published

2024

20. Diet and rate of decomposition of the corpse in a human surrogate.

Author

Kouadio, Kouakou Jérôme, Kouadio, Kobénan Kouman Anicet, Koffi, Alexandre Franklin, Kouassi, Kouakou Firmin, Aboua, Louis Roi Nondenot, and Beugré, Jean-Bertin

Subjects

*HUMAN decomposition, *SWINE, *DIET, *WEIGHING instruments, *HUMAN dissection, *MEDICAL cadavers

Abstract

The decomposition of an inert body seems to depend on the physiological, biological and physical characteristics of the corpse. The effect of these, especially of extra-biological mechanisms, on the rate of decomposition of the corpse does not seem to be sufficiently explored. The present work proposes to examine the influence of the type of feeding on the rate of cadaver decomposition in a human surrogate. It is based on a sample of four corpses of juvenile male pigs of the species Sus scrofa domesticus, three of which are experimental and one is a control aged 12 weeks and having a mass between 19 and 24 kg. The three experimental pigs were fed an energetic, construction and functional diet respectively. The control was fed a general diet. These different carcasses are exposed to the open air on four similar sites. The experiment is repeated twice, according to the protocol that guided the initial experiment conducted on comparable sites (eight cadavers, six experimental and two control). The measurement of the pigs' diet was done through a questionnaire. The mass of the decomposing carcass was explored by a specific tool, in this case, the weighing device. The results show that the rate of decomposition of the cadaver of pigs fed a general diet is higher than that of the cadavers of their counterparts fed construction, functional or energy diets. The type of diet would therefore influence the rate of decomposition of the cadaver of a human surrogate. [ABSTRACT FROM AUTHOR]

Published

2024

21. Clinically Translatable Solid‐State Dye for NIR‐II Imaging of Medical Devices.

Author

Li, Deling, Shi, Hui, Qi, Qingrong, Chang, Baisong, Jiang, Yuanwen, Qian, Kun, Guan, Xiudong, Kang, Peng, Ma, Ning, Zhang, Yuan, Zhang, Zeyu, Shi, Xiaojing, Qu, Chunrong, Wu, Yilei, Chen, Weiyu, Chen, Hao, Li, Baowang, Chen, Liangpeng, Li, Ziyang, and Ma, Shunchang

Subjects

*MEDICAL equipment, *SUTURES, *DIAGNOSTIC imaging, *HUMAN decomposition, *BREAST implants, *OPERATIVE surgery, *ARTERIOVENOUS malformation

Abstract

Medical devices are commonly implanted underneath the skin, but how to real‐time noninvasively monitor their migration, integrity, and biodegradation in human body is still a formidable challenge. Here, the study demonstrates that benzyl violet 4B (BV‐4B), a main component in the FDA‐approved surgical suture, is found to produce fluorescence signal in the first near‐infrared window (NIR‐I, 700–900 nm) in polar solutions, whereas BV‐4B self‐assembles into highly crystalline aggregates upon a formation of ultrasmall nanodots and can emit strong fluorescence in the second near‐infrared window (NIR‐II, 1000–1700 nm) with a dramatic bathochromic shift in the absorption spectrum of ≈200 nm. Intriguingly, BV‐4B‐involved suture knots underneath the skin can be facilely monitored during the whole degradation process in vivo, and the rupture of the customized BV‐4B‐coated silicone catheter is noninvasively diagnosed by NIR‐II imaging. Furthermore, BV‐4B suspended in embolization glue achieves hybrid fluorescence‐guided surgery (hybrid FGS) for arteriovenous malformation. As a proof‐of‐concept study, the solid‐state BV‐4B is successfully used for NIR‐II imaging of surgical sutures in operations of patients. Overall, as a clinically translatable solid‐state dye, BV‐4B can be applied for in vivo monitoring the fate of medical devices by NIR‐II imaging. [ABSTRACT FROM AUTHOR]

Published

2023

22. A soil-based approach on human taphonomy from five Portuguese public cemeteries.

Author

Silva-Bessa, Angela, Madureira-Carvalho, Áurea, Azevedo, Rui M. S., Dawson, Lorna, Dinis-Oliveira, Ricardo Jorge, Forbes, Shari L., and Ferreira, Maria Teresa

Abstract

Over the last decade, some Portuguese cemeteries have started to have issues with the lack of burial space, mainly due to the slow rate of cadaveric decomposition, hindering the reuse of soil graves as is common practice. To better understand the influence of soil on human taphonomy and help in cemetery management, the main goal of this research was to explore possible relationships between body decay and edaphic traits. A total of 217 soil samples were collected from graves of five public cemeteries and analysed for their soil organic matter content, moisture, pH, electrical conductivity, bulk density, texture, and colour. Five grave sampling areas were considered: the topsoil, above the coffin, and under the coffin in the head, pelvis and feet areas. Statistically significant differences have been found between the graves of skeletonized and incompletely skeletonized bodies for moisture above the coffin (p = 0.035) and for electrical conductivity in the topsoil (p = 0.014). Although the number of individuals (n = 56) studied might be considered low, this paper explores the possibility that soil itself might not be the main influencer on human taphonomy. A new perspective should be considered regarding the role played by intrinsic factors after death. [ABSTRACT FROM AUTHOR]

Published

2023

23. Complexity of human death: its physiological, transcriptomic, and microbiological implications

Author

Gulnaz T. Javan, Kanhaiya Singh, Sheree J. Finley, Robert L. Green, and Chandan K. Sen

Subjects

physiology, gene expression, human postmortem microbiome, human decomposition, artificial intelligence, Microbiology, QR1-502

Abstract

Human death is a complex, time-governed phenomenon that leads to the irreversible cessation of all bodily functions. Recent molecular and genetic studies have revealed remarkable experimental evidence of genetically programmed cellular death characterized by several physiological processes; however, the basic physiological function that occurs during the immediate postmortem period remains inadequately described. There is a paucity of knowledge connecting necrotic pathologies occurring in human organ tissues to complete functional loss of the human organism. Cells, tissues, organs, and organ systems show a range of differential resilience and endurance responses that occur during organismal death. Intriguingly, a persistent ambiguity in the study of postmortem physiological systems is the determination of the trajectory of a complex multicellular human body, far from life-sustaining homeostasis, following the gradual or sudden expiry of its regulatory systems. Recent groundbreaking investigations have resulted in a paradigm shift in understanding the cell biology and physiology of death. Two significant findings are that (i) most cells in the human body are microbial, and (ii) microbial cell abundance significantly increases after death. By addressing the physiological as well as the microbiological aspects of death, future investigations are poised to reveal innovative insights into the enigmatic biological activities associated with death and human decomposition. Understanding the elaborate crosstalk of abiotic and biotic factors in the context of death has implications for scientific discoveries important to informing translational knowledge regarding the transition from living to the non-living. There are important and practical needs for a transformative reestablishment of accepted models of biological death (i.e., artificial intelligence, AI) for more precise determinations of when the regulatory mechanisms for homeostasis of a living individual have ceased. In this review, we summarize mechanisms of physiological, genetic, and microbiological processes that define the biological changes and pathways associated with human organismal death and decomposition.

Published

2024

24. Identifying the Early Post-Mortem VOC Profile from Cadavers in a Morgue Environment Using Comprehensive Two-Dimensional Gas Chromatography.

Author

Patel, Darshil, Dargan, Rushali, Burr, Wesley S., Daoust, Benoit, and Forbes, Shari

Subjects

*DEAD, *GAS chromatography, *MEDICAL cadavers, *SEARCH & rescue operations, *DETECTOR dogs, *HUMAN decomposition

Abstract

Understanding the VOC profile released during the early post-mortem period is essential for applications in training human remains detection dogs and urban search and rescue operations (USAR) to rapidly locate living and deceased victims. Human cadavers were sampled at the UQTR morgue within a 0–72 h post-mortem interval. VOC samples were collected from the headspace above the cadavers, using Tenax TA/Carbograph 5TD dual sorbent tubes, and analyzed using GC×GC-TOFMS. Multiple data processing steps, including peak table alignment and filtering, were undertaken using LECO ChromaToF and custom scripts in R programming language. This study identified 104 prevalent VOCs, some of which are linked to human decomposition, while others are connected to the persistence of living scent. Principal Component Analysis (PCA) further highlighted that VOC profiles can change dynamically over time, even in a controlled setting. The findings underscore the complexity and variability in VOC profiles during the early post-mortem period. This variability is influenced by multiple factors including the individual's biological and physiological conditions. Despite the challenges in characterizing these profiles, the identified VOCs could potentially serve as markers in forensic applications. The study also highlights the need for additional research to build a dataset of VOCs for more robust forensic applications. [ABSTRACT FROM AUTHOR]

Published

2023

25. Estimating the time of human decomposition based on skeletal muscle biopsy samples utilizing an untargeted LC–MS/MS-based proteomics approach.

Author

Brockbals, Lana, Garrett-Rickman, Samara, Fu, Shanlin, Ueland, Maiken, McNevin, Dennis, and Padula, Matthew P.

Subjects

*HUMAN decomposition, *SKELETAL muscle, *PROTEOMICS, *BACTERIAL proteins, *ION mobility, *ION mobility spectroscopy, *TIME perception

Abstract

Accurate estimation of the postmortem interval (PMI) is crucial in forensic medico-legal investigations to understand case circumstances (e.g. narrowing down list of missing persons or include/exclude suspects). Due to the complex decomposition chemistry, estimation of PMI remains challenging and currently often relies on the subjective visual assessment of gross morphological/taphonomic changes of a body during decomposition or entomological data. The aim of the current study was to investigate the human decomposition process up to 3 months after death and propose novel time-dependent biomarkers (peptide ratios) for the estimation of decomposition time. An untargeted liquid chromatography tandem mass spectrometry–based bottom-up proteomics workflow (ion mobility separated) was utilized to analyse skeletal muscle, collected repeatedly from nine body donors decomposing in an open eucalypt woodland environment in Australia. Additionally, general analytical considerations for large-scale proteomics studies for PMI determination are raised and discussed. Multiple peptide ratios (human origin) were successfully proposed (subgroups < 200 accumulated degree days (ADD), < 655 ADD and < 1535 ADD) as a first step towards generalised, objective biochemical estimation of decomposition time. Furthermore, peptide ratios for donor-specific intrinsic factors (sex and body mass) were found. Search of peptide data against a bacterial database did not yield any results most likely due to the low abundance of bacterial proteins within the collected human biopsy samples. For comprehensive time-dependent modelling, increased donor number would be necessary along with targeted confirmation of proposed peptides. Overall, the presented results provide valuable information that aid in the understanding and estimation of the human decomposition processes. [ABSTRACT FROM AUTHOR]

Published

2023

26. Changes in the morphometric characteristics of tattoos in human remains.

Author

Probert, Savannah J., Maynard, Philip, Berry, Rachel, Mallett, Xanthé, and Seckiner, Dilan

Subjects

*ARCHAEOLOGICAL human remains, *TATTOOING, *HUMAN decomposition, *ANONYMOUS persons, *ELECTRON donors

Abstract

Tattoos are secondary identifiers that can be used to provide a presumptive identity and provide information about a deceased individual to a case. Additional information may be available through the analysis of the visual presentation of tattoos. The aim of this study was to examine the morphological changes of tattoos during the decomposition of a human donor in an Australian environment. Using time-lapse cameras recording for 16 months, stills were extracted and tattoos were quantified using ImageJ. A full analysis was completed on three tattoos, while a fourth tattoo was partially analysed. The tattoos showed the most change in area during the bloat stage of decomposition, staying relatively constant in size for the remainder of the study. The detailed shape of the outlines showed the morphological effect of desiccation as part of decomposition and continued to change until the tattoo was no longer visible. Of the tattoos fully analysed, two became redundant as secondary identifiers on day 294, the other on day 333, all due to lack of visibility. This information is useful during investigations of unknown deceased persons; in this case, the stage of decomposition influenced the presentation of the tattoo. [ABSTRACT FROM AUTHOR]

Published

2023

27. Soil elemental changes during human decomposition.

Author

Taylor, Lois S., Gonzalez, Adrian, Essington, Michael E., Lenaghan, Scott C., Stewart, C. Neal, Mundorff, Amy Z., Steadman, Dawnie W., and DeBruyn, Jennifer M.

Subjects

*HUMAN decomposition, *TRACE elements, *SOIL acidification, *SOIL dynamics, *NUTRIENT cycles, *SOIL mineralogy, *SOILS

Abstract

Mammalian decomposition provides pulses of organic matter to the local ecosystem creating ephemeral hotspots of nutrient cycling. While changes to soil biogeochemistry in these hotspots have been described for C and N, patterns associated with deposition and cycling of other elements have not received the same attention. The goal of our study was to evaluate temporal changes to a broad suite of dissolved elements in soils impacted by human decomposition on the soil surface including: 1) abundant mineral elements in the human body (K, Na, S, P, Ca, and Mg), 2) trace elements in the human body (Fe, Mn, Se, Zn, Cu, Co, and B), and 3) Al which is transient in the human body but common in soils. We performed a four-month human decomposition trial at the University of Tennessee Anthropology Research Facility and quantified elemental concentrations dissolved in the soil solution, targeting the mobile and bioavailable fraction. We identified three groups of elements based on their temporal patterns. Group 1 elements appeared to be cadaver-derived (Na, K, P, S) and their persistence in soil varied based upon soluble organic forms (P), the dynamics of the soil exchange complex (Na, K), and gradual releases attributable to microbial degradation (S). Group 2 elements (Ca, Mg, Mn, Se, B) included three elements that have greater concentrations in soil than would be expected based on cadaver inputs alone, suggesting that these elements partially originate from the soil exchange (Ca, Mg), or are solubilized as a result of soil acidification (Mn). Group 3 elements (Fe, Cu, Zn, Co, Al) increased late in the decomposition process, suggesting a gradual solubilization from soil minerals under acidic pH conditions. This work presents a detailed longitudinal characterization of changes in dissolved soil elements during human decomposition furthering our understanding of elemental deposition and cycling in these environments. [ABSTRACT FROM AUTHOR]

Published

2023

28. Anatomical location dependence of human decomposition products in clothing.

Author

Collins, Sharni, Stuart, Barbara, and Ueland, Maiken

Subjects

*HUMAN decomposition, *INFRARED spectroscopy, *ARCHAEOLOGICAL human remains, *TEXTILE products

Abstract

The human decomposition process results in the formation of particular biological compounds, the chemistry of which provides valuable insight into the nature of a death. This paper reports the findings of a study of the decomposition process of clothed human remains at the Australian Facility for Taphonomic Experimental Research (AFTER). An investigation into how decomposition products appear in opposing anatomical regions, namely the anterior and posterior regions of the body, has been carried out. The chemistry of the lipid and protein components and their by-products formed in the first months of decomposition were examined using infrared spectroscopy. The study has demonstrated a clear difference in the pattern of formation of human decomposition products absorbed by textiles located in the anterior versus posterior regions. The time of appearance of established compounds at recognized stages of human decomposition varies notably depending on the anatomical location of the clothing. [ABSTRACT FROM AUTHOR]

Published

2023

29. Post-mortem movement and skeletal disarticulation after death.

Author

Lamerton, Paul, Maynard, Philip, Seckiner, Dilan, Mallett, Xanthé, and Berry, Rachel

Subjects

*HUMAN mechanics, *RANGE of motion of joints, *HUMAN decomposition, *ANGLES, *DEAD

Abstract

Post-mortem movement relating to the disarticulation or positional change of entire limbs is relevant to a forensic investigator when examining a deceased person. Understanding that the position a body is found is not necessarily the way it was left changes the approach an examiner must take when investigating any death. This study quantified post-mortem movement of a human donor decomposing in an Australian environment over 16 months: 1) progressive measurement of the angles of joints; and 2) distance of separation between the articulating points of bones. ImageJ software was used to calculate angles and the distances between structures from time-lapse images. Movement was detected at all joints of the upper and lower limbs, occurring at all stages of decomposition across the study. Significant movement of the joints occurred as a result of bloat during the early stages of decomposition, and again during the advanced stages of decomposition as the soft tissue desiccated. Disarticulation was observed in the late stages of decomposition in all limbs and was not exclusive to short or long bones. Disarticulation also generated significant movement between skeletal structures in late decomposition. The results demonstrate that it is essential to consider post-mortem movement when investigating unexplained deaths. [ABSTRACT FROM AUTHOR]

Published

2023

30. Insect Colonisation and the Decomposition Process in Aerated versus Watertight Burial Systems.

Author

Defilippo, Francesco, Munari, Martina, Grisendi, Annalisa, Gaudio, Rosa Maria, D'Incau, Mario, Lavazza, Antonio, and Rubini, Silva

Subjects

*INSECT societies, *HUMAN information processing, *AEROBIC bacteria, *BACTERIAL colonies, *HUMAN decomposition, *SWINE, *ENCHYTRAEIDAE

Abstract

Simple Summary: Aerated burial systems involve slow air circulation within a mound, caused naturally or artificially. The weak airflow allows bacteria to work in an aerobic environment, accelerating the natural skeletonisation process. The main objective of this study was to document the decomposition level of an animal carcass in an aerated and watertight niche in a special epigean loculus. Pig carcasses (weighing approximately 70 kg each) were used as an experimental model for testing differences between the two systems. Each carcass was removed from the niches at predefined intervals, and the degree of decomposition and the presence of macrofauna were verified. The study examined if insects could colonise carcasses in the two burial systems to determine which fauna were present during the sampling dates. The possible existence of bacterial colonies was also assessed after five years. Our experiments showed that aerated burials facilitate skeletonisation similarly to watertight burial methods. Therefore, aerated burials are a viable alternative to watertight burials in terms of reducing both decomposition time and the costs of urban cemetery planning. It is also an alternative to interment in cemeteries where the soil cannot properly skeletonise. Aerated entombment applies to both hypogeum and epigean solutions. In recent years, burial systems have covered increasingly higher costs due to the pollution caused by decomposition products. These products are understood as chemicals and microorganisms in the surrounding soil and groundwater and represent a topical issue. The purpose of this research was to ascertain the extent of decomposition when pig carcasses are buried in two different burial systems ("aerated" vs. "watertight") and catalogue the arthropods associated with burials at different time-points of removal from niches (after 6, 12, 24, 36, and 60 months). Thirteen taxa were collected in aerated niches, whereas five were collected in watertight niches. The initial access or exclusion of insect colonisers affected overall functional activity. Two Diptera species, Hydrotaea capensis and Megaselia scalaris, were the most abundant, supporting the hypothesis that insects can colonise carcasses in aerated burial systems. Furthermore, some species of bacteria have been documented as facilitators of the initial decomposition process of the carcass. Most bacterial colonies develop only in aerated niches. The trial showed that the first enzymatic–bacterial and insect actions helped promote the process of cadaveric decomposition and later skeletonisation, mainly when associated with aeration modes of the tomb/mound. The results obtained provide essential information on the process of human decomposition and taphonomy in cemeteries. Moreover, these data could benefit forensic science by adding information on insect colonisation and body modification in medico-legal investigations concerning the post-mortem interval in exhumed bodies and illegal burials. [ABSTRACT FROM AUTHOR]

Published

2023

31. Humans decompose tasks by trading off utility and computational cost.

Author

Correa, Carlos G., Ho, Mark K., Callaway, Frederick, Daw, Nathaniel D., and Griffiths, Thomas L.

Subjects

*SMART structures, *HUMAN decomposition, *ACTION theory (Psychology), *HUMAN behavior, *TASK performance

Abstract

Human behavior emerges from planning over elaborate decompositions of tasks into goals, subgoals, and low-level actions. How are these decompositions created and used? Here, we propose and evaluate a normative framework for task decomposition based on the simple idea that people decompose tasks to reduce the overall cost of planning while maintaining task performance. Analyzing 11,117 distinct graph-structured planning tasks, we find that our framework justifies several existing heuristics for task decomposition and makes predictions that can be distinguished from two alternative normative accounts. We report a behavioral study of task decomposition (N = 806) that uses 30 randomly sampled graphs, a larger and more diverse set than that of any previous behavioral study on this topic. We find that human responses are more consistent with our framework for task decomposition than alternative normative accounts and are most consistent with a heuristic—betweenness centrality—that is justified by our approach. Taken together, our results suggest the computational cost of planning is a key principle guiding the intelligent structuring of goal-directed behavior. Author summary: People routinely solve complex tasks by solving simpler subtasks—that is, they use a task decomposition. For example, to accomplish the task of cooking dinner, you might start by choosing a recipe—and in order to choose a recipe, you might start by opening a cookbook. But how do people identify task decompositions? A longstanding challenge for cognitive science has been to describe, explain, and predict human task decomposition strategies in terms of more fundamental computational principles. To address this challenge, we propose a model that formalizes how specific task decomposition strategies reflect rational trade-offs between the value of a solution and the cost of planning. Our account allows us to rationalize previously identified heuristic strategies, understand existing normative proposals within a unified theoretical framework, and explain human responses in a large-scale experiment. [ABSTRACT FROM AUTHOR]

Published

2023

32. Effect of decomposition on clothing damage evidence: A preliminary study

Author

Bostock, Esta, Parkes, Gareth Michael Burdon, and Williams, Graham

Published

2018

33. Lipidic compounds found in soils surrounding human decomposing bodies and its use in forensic investigations – A narrative review.

Author

Sousa Queirós, Sara, von der Lühe, Barbara, Silva-Bessa, Angela, Machado Brito-da-Costa, Andreia, Caldas, Inês Morais, Dawson, Lorna, and Madureira-Carvalho, Áurea

Subjects

TAPHONOMY, FATTY acid analysis, FORENSIC sciences, HUMAN decomposition, HUMAN body, FREE fatty acids

Abstract

Following decomposition of a human body, a variety of decomposition products, such as lipids, are released into the surrounding environment, e.g. soils. The long-lasting preservation in soils and their high diagnostic potential have been neglected in forensic research. Furthermore, little is known about the preservation, chemical transformation, or degradation of those human derived lipids in soils. To date, several studies identified various lipids such as long-chain free fatty acids and steroids in soils that contained decomposition fluids. Those lipids are preserved in soils over time and could serve as markers of human decomposition in forensic investigations, e.g. for estimating the post-mortem interval or identifying the burial location of a human body. Therefore, this review focuses on the current literature regarding fatty acid and steroid that have been detected in soils and associated with human body decomposition. After a short introduction about human decomposition processes, this review summarises fatty acid and steroid analysis applied in current case studies and studies related to taphonomic research. This review provides an overview of the available studies that have used fatty acids and steroids as identifiers of human decomposition fluid in soils in a forensic context and discusses the potential for developing this innovative field of research with direct application in a forensic context. [ABSTRACT FROM AUTHOR]

Published

2023

34. Decomposition and insect succession on human cadavers in a humid, continental (Dfb) climate (Quebec, Canada).

Author

Maisonhaute, Julie-Éléonore and Forbes, Shari L.

Subjects

*MEDICAL cadavers, *HUMAN decomposition, *FORENSIC entomology, *INSECTS, *PITFALL traps

Abstract

Forensic entomology has been developing globally for decades. Despite this discipline being used in criminal investigations around the world, only a few controlled studies have been performed on human cadavers in human decomposition facilities, with the majority of these being conducted in warm and often dry climates. Therefore, the purpose of our research was to catalogue the first published data on insects associated with decomposed human bodies in a humid, continental (Dfb) climate. Specifically, our objective was to document the diversity and succession of the entomofauna associated with human cadavers throughout the decomposition process, in the Quebec province of Canada, during the summer season. Two human cadavers were studied in 2020 at the site for Research in Experimental and Social Thanatology, REST, located in Bécancour (Quebec, Canada). Insects (and other arthropods) were regularly sampled by visual observations, collection from the cadavers, and by using an entomological net and pitfall traps. Our results highlight that the decomposition process is a heterogeneous and complex process in Quebec, with cadavers showing signs of precocious desiccation/mummification. In addition, our observations confirm that the presence of superficial skin lesions accelerates the colonization of blow flies (Diptera: Calliphoridae) and, consequently, the process of decomposition. Finally, we were able to discriminate between "early colonizers" (e.g., Calliphoridae Lucilia sp. or Calliphora livida), "late colonizers" (e.g., larvae of Piophilidae or Heleomyzidae), and "non-specific colonizers." We also officially report the first observation of Cochliomyia macellaria (Diptera: Calliphoridae) in Quebec. These findings will provide new information to help medico-legal death investigations by determining the minimum time elapsed since death and the circumstances surrounding death. [ABSTRACT FROM AUTHOR]

Published

2023

35. Developing a new scoring method to evaluate human decomposition in a humid, continental (Dfb) climate in Quebec.

Author

Ribéreau‐Gayon, Agathe, Carter, David O., and Forbes, Shari

Subjects

*HUMAN decomposition, *SPRING, *TAPHONOMY, *AUTUMN, *TIME of death, *FORENSIC sciences

Abstract

The published literature shows a lack of methods to evaluate the patterns and extent of decomposition of human remains and to estimate the post‐mortem interval (PMI) in humid, continental (Dfb) climates such as Quebec. The aim of this study was to address this gap in the current knowledge base by providing the first observations from human corpses studied under controlled conditions in Quebec. A 12‐month study was conducted at the site for Research in Experimental and Social Thanatology; the first human taphonomy facility in Canada. Six human donors with known time of death were deposited across spring (n = 1), summer (n = 3), and autumn (n = 2) 2021. The lack of suitability of the total body score method to evaluate the extent of decomposition at the facility prompted the development of a new scoring system based on the macromorphoscopic changes observed. The scoring system was applied to the donors to evaluate decomposition throughout seasons. All donors followed comparable decomposition trajectories, regardless of the season of deposition. Eighty‐five percent of taphonomic patterns appeared in the first 25 experimental days or 5000 Kelvin accumulated degree days (350 ADD). Extensive desiccation of tissues was observed at a median of 21 experimental days across donors, resulting in a plateau within decomposition with no extensive skeletonization. To the authors' knowledge, this is the first published report of experimentally observed desiccation in such a form in a Dfb climate. This study provides new data on the types of decomposition patterns to expect in forensic investigations in southern Quebec and comparable climates. [ABSTRACT FROM AUTHOR]

Published

2023

36. THANATOGENIC ANTHROSOLS: A GEOFORENSIC APPROACH TO THE EXPLORATION OF THE SEPOLCRETO OF THE CA'GRANDA (MILAN).

Author

TAGLIABUE, GIULIA, MASSEROLI, ANNA, MATTIA, MIRKO, SALA, CARLOTTA, BELGIOVINE, ELENA, CAPUZZO, DANIELE, MARIA GALIMBERTI, PAOLO, SLAVAZZI, FABRIZIO, CATTANEO, CRISTINA, and TROMBINO, LUCA

Subjects

*ANTHROPOGENIC soils, *BIOLOGICAL specimens, *SCANNING electron microscopes, *HUMAN decomposition, *ANTHROPOMETRY

Abstract

Soil is a dynamic matrix which can rapidly respond to disturbance events, such as the death and the deposition of an organism. Moreover, soil can be considered an archive of data due to its ability to record the traces of disturbance events. Accordingly, the biogeochemical analysis of the geopedological evidence could turn into a valuable tool for the study of decomposition processes. Hence, the aim of the present research is to detect the evidence of material exchange, linked to decomposition, between the bone tissue from two skeletal remains of the Sepolcreto (i.e., burial ground) in the crypt of the Ca' Granda (Milan, Italy), and the pedosedimentary matrix from the stratigraphic unit US3 in which they were immersed. Both biological and geopedological specimens were analysed using a Scanning Electron Microscope equipped with facility for energy-dispersive spectroscopy (SEM-EDS), which pointed out the presence of a mutual exchange of material between the two substrates, underlying the intensity of the interaction between the organisms (even whether dead) and the environment in which they are located. The results led to the detection of an inedited kind of material, mainly composed of organic matter resulted from the decomposition of human remains, and preserved bone and soft tissues, which could be considered for introducing a new type of Anthrosol. [ABSTRACT FROM AUTHOR]

Published

2023

37. Commentary on: Megyesi MS, Nawrocki SP, Haskell NH. Using accumulated degree‐days to estimate the postmortem interval from decomposed human remains. J Forensic Sci. 2005;50(3):618–26. doi: 10.1520/JFS2004017; and Moffatt C, Simmons T, Lynch‐Aird J. An improved equation for TBS and ADD: Establishing a reliable postmortem interval framework for casework and experimental studies. J Forensic Sci. 2016;61(Suppl 1):S201–S207. doi: 10.1111/1556‐4029.12931

Author

Smith, D. Hudson, Ehrett, Carl, Weisensee, Katherine, and Tica, Cristina

Subjects

*ARCHAEOLOGICAL human remains, *FORENSIC anthropology, *AUTOPSY, *FORENSIC pathology, *EQUATIONS, *HUMAN decomposition

Abstract

Using our linear regression estimator reported above, we compute HT ht on the same 15 data points obtaining an identical HT ht value. For instance, the 95% prediction interval (PI) bounds are HT ht This can be interpreted as saying that 95% of future identically distributed observations at a specified TBS are expected to have values of HT ht that fall within these bounds. [Extracted from the article]

Published

2023

38. The Effects of pH on the Decay of Animal Bones.

Author

Chumpirom, Nanthanat, Thornton, Gabrielle, and Brundage, Adrienne

Subjects

BONES, BIODEGRADATION, HUMAN skeleton, SEDIMENTS, SALINE waters

Abstract

It is a well-known fact in the forensic community that the process of soft tissue decomposition lasts much longer when the cadaver is submerged in an aqueous environment. Studies of this nature with skeletal remains are less frequently produced, and therefore there is not much supported knowledge about whether human bones would face similar effects. The human skeleton potentially undergoes physical changes over various environmental conditions, but their changes in liquid conditions are poorly understood. This experiment was a study on the macroscopic effects that pH may have on the degradation of animal bones. Various small animal bones were placed in common household solutions of differing pH for the purpose of recording any physical changes. The only notable changes observed over the course of the experiment were the drastic discoloration of solutions with higher acidity, as well as the production of sediment-like residue in the saltwater solution. Further investigation into this in the context of potential body disposal could prove useful for the future of forensic science. [ABSTRACT FROM AUTHOR]

Published

2023

39. Effects of the Psychrotrophic Bacteria and Thermophilic Actinomycetes Consortium Inoculation on Human Faeces Composting Process under Moderate Cold Climate Conditions in Northern Vietnam.

Author

Do Thi Tuyen, Phuong, Dang Thi Hong, Van Thang, Le, Thanh, Nguyen Thi Kim, Hong, Do Thi Thu, Cuong, Ngo Cao, Hoai, Nguyen Thu, Balakirev, A. E., and Huan, Le Duc

Subjects

*COMPOSTING, *ACTINOBACTERIA, *THERMOPHILIC bacteria, *FECES, *HUMAN decomposition, *VACCINATION

Abstract

Composting, or controlled organic decomposition, is one of the most important ways to utilize human waste (faeces) on water shortaged regions and cold climate conditions. However, the adding a thermophilic microbial agent on the human faeces composting process was limited because of the low efficiency and composting activity of inoculant under cold climate conditions. This research was performed to evaluate the effect of the psychrotrophic bacteria and thermophilic actinomycetes consortium inoculation, as a microbial inoculant during human faeces composting under low temperature condition (15–20°C) in Northern Vietnam. Mixtures of human faeces and sawdust were inoculated with the psychrotrophic Bacillus consortium (PBC), thermophilic Streptomyces consortium (TAC), and mixed psychrotrophic-thermophilic microbial consortium (PTMC) agents, the ambient temperature at initial composting phase was within 15–20°C. Sterile water used as a control (CK). The results showed that the start of composting process clearly promoted by inoculation with PBC or PTMC as indicated by the quick changes of physicochemical parameters (the temperature, pH, C/N ratio, activity of cellulase, etc.). In the PTMC-inoculated compost piles, temperatures reached the thermophilic stage (over 50°C) and run 5–10 days faster than piles inoculated with TAC, PBC or in control. In addition, compost maturity was promoted by inoculation with TAC or PTMC by a longer thermophilic phase and a greater reduced carbon-nitrogen ratio. Meanwhile, inoculation with PTMC agent in the initial phase favored the composting process by setting up of sufficiently impactful microbial population. The highest thermophilic temperature of 56.9°C increased cellulase activity in the maturity phase and promoted the maturity of composting in general. Accordingly, this is first research on promoting effects of psychrotrophic-thermophilic microbial consortium (PTMC) agents inoculation on human faeces decomposition under cold climate conditions. [ABSTRACT FROM AUTHOR]

Published

2022

40. The effect of human decomposition on bullet examination.

Author

Bolton, Matthew, Chadwick, Scott, and Ueland, Maiken

Subjects

*HUMAN decomposition, *BIODEGRADATION, *FIREARMS, *ABDOMEN, *BULLETS

Abstract

Most firearm related homicides involve the deceased being forensically examined within a day or two, however, there are times when bodies have been examined and the fired components removed several days or weeks after death, when the body is in an active or advanced state of decomposition. In these cases, ballistic investigation has been found to be complicated due to the damage to the bullets, however the extent of this is not yet known. To date, there have been no studies investigating the effect of human decomposition and the subsequent analysis of bullets lodged in the body in an Australian context. Herein, seven fired copper jacketed bullets were manually inserted into three specific tissue types; lungs, abdomen and leg muscle (twenty-one bullets in total), of human donors in both cool and warm conditions at the Australian Facility for Taphonomic Experimental Research (AFTER). Bullets were removed every three days for a period of twenty-one days, and each bullet underwent manual microscopic examinations by firearms examiners across Australia. Results have indicated that the bullets corrode quickly in warm conditions, compared to bullets exposed to decomposition in cooler conditions. The results of this study will inform investigators and pathologists of the need to remove and examine fired bullets from decomposed bodies as soon as possible, especially in warm conditions to provide firearms examiners with the best opportunity to link fired bullets to a common source. • This study presents an examination of bullet damage in decomposing human remains. • Temperature and decomposition rate affects the degree of bullet damage. • Bullet damage greatly affects ability to affect bullet comparisons. [ABSTRACT FROM AUTHOR]

Published

2024

41. Death, Decomposition, and Detector Dogs : From Science to Scene

Author

Susan M. Stejskal and Susan M. Stejskal

Subjects

Police dogs, Human decomposition, Forensic taphonomy, Crime scene searches, Detector dogs

Abstract

Death, Decomposition, and Detector Dogs: From Science to Scene, Second Edition is designed to help canine handlers, detectives, death investigators, crime scene personnel (including forensic laboratory personnel, technicians, and supervisors), and attorneys understand the science involved when utilizing human remains detector (HRD) canines as a locating tool. The book covers the basic anatomy and physiology of canine olfaction and the unique characteristics of their scenting ability that allows dogs to be trained to locate distinct odors. Using concise and clear explanations and photographs, the book reviews the science of forensic taphonomy. Factors that may affect the decomposition process are highlighted along with what the potential outcomes that may be encountered. The book examines how the odor of human remains is generated through various stages of decomposition and the manner in which environmental conditions in both land and water settings may affect that odor. Different types of background information that may help in determining possible search locations for missing individuals are included as well as assist the HRD canine handler in developing search plans are covered. Different tools and technologies that may be used in addition to an HRD canine team are included to help readers understand that are many ways to address searching for a decedent. Several case reports involving decedents, found in both land and water settings in addition to different weather conditions, are included to help the reader understand how the environment may have affected the condition of the decedent. This edition includes more case reports explaining how environmental factors were considered in HRD canine deployments in both land and water settings. Understanding which variables—and how such variables—can affect the state and condition of human remains, as well as dispersion of odor from human remains, will help canine handlers utilize their HRD canine more effectively as a locating tool. Death, Decomposition, and Detector Dogs, Second Edition will help HRD canine handlers and other law enforcement personnel be better prepared to meet the challenges of their jobs before, during, and after searches for the missing.

Published

2023

42. Seasonal impact of scavenger guilds as taphonomic agents in central and northern Ontario, Canada.

Author

Forbes, Shari L., Samson, Clifford, and Watson, Christopher J.

Subjects

*TAPHONOMY, *CORVUS corax, *TURKEY vulture, *SCOUTING cameras, *SPRING, *HUMAN decomposition, *SWINE, *BALD eagle

Abstract

The process of human decomposition is driven by biological decomposers, mainly bacteria, vertebrates, and invertebrate scavengers. When vertebrate scavengers have access to a body, they can considerably accelerate decomposition through consumption of soft tissue and dispersal of skeletal elements. Presently, there are limited data available on vertebrate scavenging activity in Canada, particularly in densely populated provinces such as Ontario. This study aimed to determine which vertebrate species belong to the scavenger guilds in central and northern Ontario, and the impact of season and habitat on these taphonomic agents. Seasonal trials were conducted in summer, fall, and spring of 2020/2021 with pig carcasses placed in open (grassland) and closed (forest) sites. Vertebrate scavenger activity was recorded continuously using cellular and non‐cellular trail cameras. Photographs were analyzed to identify species, quantify feeding intensity, and document scavenging behavior. We identified four mammalian scavengers, namely coyote, red fox, fisher, and pine marten, and three avian scavengers, namely bald eagle, turkey vulture, and American crows/northern ravens (grouped as corvids) across the trials. Season impacted scavenger presence with feeding and loss of soft tissue occurring more quickly in the summer, followed by spring and fall. None of the scavengers demonstrated a clear preference for the open versus closed sites. Our findings have identified the most prevalent vertebrate scavengers in central and northern Ontario and their taphonomic impact on soft and hard tissues. It is important to consider these agents and their ability to degrade and disperse remains during the search and recovery of human remains. [ABSTRACT FROM AUTHOR]

Published

2022

43. Preliminary Investigation of the Effect of Maceration Procedures on Bone Metabolome and Lipidome.

Author

Bonicelli, Andrea, Cheung, William, Hughes, Sheree, Wescott, Daniel J., and Procopio, Noemi

Subjects

POSTMORTEM changes, HUMAN decomposition, MINIMALLY invasive procedures, CLEANING compounds, LIQUID chromatography

Abstract

The study of post-mortem changes is a crucial component of forensic investigation. Human forensic taphonomic facilities (HFTFs) are the only institutions allowing the design and execution of controlled human decomposition experiments. When bodies are skeletonized, bones are normally stored in skeletal collections and used for anthropological studies. However, HFTFs apply chemical and/or thermal treatments to the remains prior bone long-term storage. These treatments are believed to alter heavily the original biochemical and molecular signature of bone material. The present study aims to evaluate the effect of these procedures on the bone metabolome and lipidome by using an animal bone model. Three intact bovine tibiae were processed using three protocols routinely applied at HFTFs, and their three counterparts were used as non-treated controls. Bone powder samples were subjected to biphasic extraction and both metabolites and lipids were analysed via liquid chromatography tandem mass-spectrometry. Results showed severe reductions in the abundances of both metabolites and lipids, and the presence of contamination introduced by cleaning agents. Despite the preliminary nature of the study, we demonstrated that the biochemical profile of bone is heavily affected by the maceration procedures. Ideally, these treatments should be avoided, or replaced by minimally invasive procedures agreed across HFTFs. [ABSTRACT FROM AUTHOR]

Published

2022

44. Not by the Book: Observations of Delayed Oviposition and Re-Colonization of Human Remains by Blow Flies.

Author

Owings, Charity G., McKee-Zech, Hayden S., Schwing, Sarah T., Bugajski, Kristi N., Davis, Mary C., and Steadman, Dawnie W.

Subjects

*ARCHAEOLOGICAL human remains, *INSECT societies, *HUMAN decomposition, *FORENSIC entomology, *OVIPARITY, *FORENSIC anthropology

Abstract

Simple Summary: Atypical blow fly colonization is rarely documented in the forensic entomology literature. We demonstrate one case of an exaggerated delay in blow fly colonization and two cases of blow fly re-colonization after cessation of the consumption phase on human remains at the Anthropology Research Facility (University of Tennessee). We recommend interdisciplinary collaboration to better interpret evidence encountered from scenarios comparable to these examples. Postmortem interval estimations can be complicated by the inter-individual variation present in human decomposition. Forensic entomologists may especially face challenges interpreting arthropod evidence in scenarios that are not "by the book", or that vary in unexpected ways. Therefore, it is important to report instances where blow fly colonization does not align with expected soft tissue decomposition as blow fly larvae are often used to produce a time of colonization (TOC) estimation to infer a minimum PMI. We followed the decomposition and blow fly activity of three human donors at the Anthropology Research Facility (University of Tennessee). Delayed oviposition occurred on one donor 115 d post-placement, whereas two donors experienced blow fly re-colonization after cessation of the consumption phase, one 22 d and one more than 200 d after blow fly larvae were last observed. A null hypothesis model tested whether the entomological TOC and anthropological total body score (TBS) estimations encompassed the time of placement (TOP) for each donor. While the null hypothesis was rejected for all TOC estimations, it could not be rejected for the TBS estimations. We discuss how the non-linear nature of human decomposition can pose challenges to interpreting blow fly evidence and suggest that forensic entomology practitioners should recognize these limitations in both research endeavors and applied casework. [ABSTRACT FROM AUTHOR]

Published

2022

45. How does mass loss compare with total body score when assessing decomposition of human and pig cadavers?

Author

Dawson, Blake M., Wallman, James F., and Barton, Philip S.

Subjects

*HUMAN decomposition, *MEDICAL cadavers, *SWINE, *TIME of death, *HUMAN experimentation

Abstract

Providing accurate and reliable measures of decomposition is paramount for forensic research where decomposition progress is used to estimate time of death. Mass loss is routinely used as a direct measure of biomass decomposition in ecological studies, yet few studies have analysed mass loss in a forensic context on human cadavers to determine its usefulness for modelling the decomposition process. Mass loss was examined in decomposing human and pig cadavers, and compared with other common decomposition metrics, such as total body score (TBS). One summer and one winter field decomposition experiment was conducted using human and pig cadavers, as pigs are often used as proxies for human cadavers in forensic research. The two measures of decomposition revealed two contrasting patterns of decomposition on pigs and humans, particularly in winter where TBS stabilised at similar values, but mass loss differed greatly. Mass loss was found to be faster in pigs than humans during early decomposition. Pigs lost 75% of their mass in winter, while humans lost less than 50%; however, in summer, both lost around 80% of their mass. TBS displayed similar patterns in both experiments, with TBS increasing more rapidly in pigs compared with humans but both eventually reaching similar TBS values in late decomposition. Measuring mass loss can provide additional information about decomposition progress that is missed if using TBS only. Key differences in decomposition progress between cadaver types were also observed, suggesting caution when extrapolating data from pigs to humans for forensic research and decomposition modelling. [ABSTRACT FROM AUTHOR]

Published

2022

46. BASIC BIODEGRADATION METHODS OF MATERIALS.

Author

Balogová, Alena Findrik, Trebuňová, Marianna, Živčák, Jozef, and Hudák, Radovan

Subjects

BIODEGRADATION, BIODEGRADABLE materials, MEDICAL sciences, MICROBIOLOGY, HUMAN decomposition

Abstract

Biodegradable materials and their applications are now a widespread topic of scientific activities and publications, mainly due to their ever-expanding possibilities for use in biomedical fields. Advances in the study and evaluation of materials often require different methods to determine the properties and consequences of degradation, whether changes in structure, mass changes, morphological changes or differences in the mechanical properties of the material before and after degradation. The aim of this work is to summarize the available and used methods, as well as to compare the information obtained for the design of a suitable method. The procedures are described on the basis of studies that have addressed the issue of biodegradation of materials using in vitro methods. [ABSTRACT FROM AUTHOR]

Published

2022

47. Meanwhile, Back on the Farm...

Author

Cushing, Susan

Subjects

FARMS, ANTHROPOLOGISTS, HIGH school football, HUMAN decomposition

Abstract

The article discusses the significance of body farms in forensic anthropology research and their relevance to funeral services. It highlights the role of body farms in providing valuable information for death investigations, aiding in victim identification, and improving forensic methods, emphasizing the importance for funeral directors to stay informed about ongoing research on human decomposition.

Published

2024

48. Life After Death: What Happens to Your Body After You Die?

Author

Michael Wilson and Michael Wilson

Subjects

Human decomposition, Death, Medical microbiology

Abstract

Death is not an end – it's a new beginning. After death, all of the molecules that came together to form the living “you” become nutrients for millions of creatures, large and small. Your body becomes the hub of a complex ecosystem of microbes, insects, worms, plants and more. Cheer up! This book shows how you are going to live forever – as components of so many other wonderful creatures. It describes the science behind the remarkable recycling of your body. We begin with lessons about how your body functions, is a collection of valuable nutrients and is a home to millions of microbes. The book goes on to describe the various stages the body passes through as it decomposes following death. The microbes and insects that make use of your tissues are then introduced. Finally, you will learn about the enduring effects that your body will have on the wider biosphere. We are rich in valuable resources that will end up feeding an immense number and variety of other creatures. Inevitably, your body will support the continuation of life on our beautiful planet – this book describes how all this happens.

Published

2022

49. Body Mass Index (BMI) Impacts Soil Chemical and Microbial Response to Human Decomposition

Author

Allison R. Mason, Hayden S. McKee-Zech, Katharina M. Hoeland, Mary C. Davis, Shawn R. Campagna, Dawnie W. Steadman, and Jennifer M. DeBruyn

Subjects

human decomposition, soil, microbial ecology, body mass index, carrion ecology, taphonomy, Microbiology, QR1-502

Abstract

ABSTRACT Microorganisms are key decomposers of vertebrate mortalities, breaking down body tissues and impacting decomposition progress. During human decomposition, both extrinsic environmental factors and intrinsic cadaver-related factors have the potential to impact microbial decomposers either directly or indirectly via altered physical or chemical conditions. While extrinsic factors (e.g., temperature, humidity) explain some variation in microbial response during human decomposition in terrestrial settings, recent work has noted that even under the same environmental conditions, individuals can have different decomposition patterns, highlighting the potential for intrinsic factors to impact microbial decomposers. The goal of this study was to investigate the effects of several intrinsic factors (age, sex, diseases at time of death, and body mass index [BMI]) on chemical and microbial changes in decomposition-impacted soils. In a field study conducted at the University of Tennessee Anthropology Research Facility, soils were collected from the decomposition-impacted area surrounding 19 deceased human individuals through the end of active decomposition. Soil physicochemical parameters were measured, and microbial (bacterial and fungal) communities were assessed via amplicon sequencing. BMI was shown to explain some variation in soil pH and microbial response to human decomposition. Hierarchical linear mixed (HLM) effects models revealed that BMI category significantly explained variation in pH response within decomposition-impacted soils over time (HLM F = 9.647; P

Published

2022

50. Measures of Restraint: The Remaking of Carceral Space in the Postwar United States.

Author

Niedbala, Steven

Subjects

PUNISHMENT, WORLD War II, HUMAN decomposition

Abstract

This article describes how architects working for the U.S. Bureau of Prisons developed a universal technical vocabulary for prison construction in the years following the end of the Second World War. Employing the neutral, streamlined aesthetic and advanced techniques of contemporary architecture, the new style negated the traditional formal distinction between the prison and extra-institutional space. Penal reformers celebrated the new institutions as signifying a shift away from the brutal, dreary institutions of the last century toward a more humane, efficient system of penal treatment. The neutralization of the prison, however, belied the subsumption of carceral violence into the form of the institution itself. The technical decomposition of the human form in contemporary design practice refigured punishment as a series of gradually intensifying strictures. [ABSTRACT FROM AUTHOR]

Published

2022