Temperature estimations of heated bone: A questionnaire-based study of accuracy and precision of interpretation of bone colour by forensic and physical anthropologists.

The colour of thermally altered bone, recovered from archaeological and forensic contexts, is related to the temperature(s) to which it was exposed. As it is heated bone changes in colour from ivory white, to brown and black, to different shades of grey and chalky white. It should be possible to estimate exposure temperature based on visually observable changes in colour.

Luminescence of thermally altered human skeletal remains.

Literature on luminescent properties of thermally altered human remains is scarce and contradictory. Therefore, the luminescence of heated bone was systemically reinvestigated. A heating experiment was conducted on fresh human bone, in two different media, and cremated human remains were recovered from a modern crematory.

Analysis of inflammatory cells and mediators in skin wound biopsies to determine wound age in living subjects in forensic medicine.

Objective: In forensic medicine it is important to determine the age of skin wounds in living subjects. The aim of this study was to assess whether analysis of inflammatory cells and inflammatory mediators in skin biopsies of wounds from living subjects could improve wound age determination.

Methods: Biopsies (n=101), representing the superficial border area of a skin wound, were taken from skin injuries of known wound age (range: 4.

Analysis of morphological characteristics and expression levels of extracellular matrix proteins in skin wounds to determine wound age in living subjects in forensic medicine.

Objective: Wound age determination in living subjects is important in routine diagnostics in forensic medicine. Macroscopical description of a wound to determine wound age however is inadequate. The aim of this study was to assess whether it would be feasible to determine wound age via analysis of morphological characteristics and extracellular matrix proteins in skin biopsies of living subjects referred to a forensic outpatient clinic.

A new method to determine wound age in early vital skin injuries: a probability scoring system using expression levels of Fibronectin, CD62p and Factor VIII in wound hemorrhage.

Purpose Of The Study: In forensic autopsies it is important to determine the age of early vital skin wounds as accurate as possible. In addition to inflammation, coagulation is also induced in vital wounds. Analysis of blood coagulation markers in wound hemorrhage could therefore be an important additional discriminating factor in wound age determination.

Acute inflammation is persistent locally in burn wounds: a pivotal role for complement and C-reactive protein.

Severe burns can cause major complications, such as infection and deforming scar formation. Burn wounds induce an excessive inflammatory response. Serum levels of complement and the acute phase reactant C-reactive protein (CRP) are upregulated in response to burn injury and have been shown to be related to the severity of burn trauma and to the clinical outcome.