40 research outputs found
Retrograde dye perfusion of the proximal aorta - A postmortem technical study
Introduction: Multiple cardiovascular conditions can lead to unexpected fatality, which is defined as sudden
cardiac death. One of these potentially underlying conditions is aortic regurgitation, which can be caused by
discrete changes of the geometry of the proximal aorta. To analyze aortic valve competency and furthermore to
elucidate underlying pathological alterations of the coronary arteries and the vasa vasorum a perfusion method to
simulate a diastolic state was designed.
Material and methods: A postmortem approach with retrograde perfusion of the ascending aorta with methylene
blue was applied to three bodies. The procedure comprised cannulation of the brachiocephalic trunk, clamping of
the aortic arch between brachiocephalic trunk and left carotid artery, infusion of 250 ml of methylene blue, and
optical clearing of the superficial tissue layers after perfusion. Organs were examined directly following perfusion
and after optical clearing.
Results: Assessment and visualization of aortic valve competency and the vasa vasorum were possible in all three
instances. Visualization of the coronary perfusion was impaired by postmortem thrombus formation. Optical
clearing did not provide additional information.
Discussion: The method presented here is a time- and cost-efficient way of visualizing aortic valve competency and
the vasa vasorum. The visualization of the vasa vasorum highlights the potential of this method in basic research
on diseases of the great arteries and coronaries. However, for a time-efficient functional analysis of the coronaries,
other methods must be applied
iNOS expressing macrophages co-localize with nitrotyrosine staining after myocardial infarction in humans
IntroductionInducible nitric oxide synthase (iNOS) produces micromolar amounts of nitric oxide (NO) upon the right stimuli, whose further reactions can lead to oxidative stress. In murine models of myocardial infarction (MI), iNOS is known to be expressed in infiltrating macrophages, which at early onset enter the infarcted zone and are associated with inflammation. In contrast cardiac tissue resident macrophages are thought to enhance regeneration of tissue injury and re-establish homeostasis. Both detrimental and beneficial effects of iNOS have been described, still the role of iNOS in MI is not fully understood. Our aim was to examine cell expression patterns of iNOS and nitrotyrosine (NT) production in human MI.Material and MethodsWe examined in postmortem human MI hearts the iNOS mRNA expression by means of qPCR. Further we performed immunohistochemical stainings for cell type identification. Afterwards a distance analysis between iNOS and NT was carried out to determine causality between iNOS and NT production.ResultsiNOS mRNA expression was significantly increased in infarcted regions of human MI hearts and iNOS protein expression was detected in resident macrophages in infarcted human hearts as well as in controls hearts, being higher in resident macrophages in MI hearts compared to control. Furthermore in MI and in healthy human hearts cells showing signs of NT production peaked within 10–15 µm proximity of iNOS+ cells.DiscussionThese results indicate that, unexpectedly, resident macrophages are the main source of iNOS expression in postmortem human MI hearts. The peak of NT positive cells within 10–15 µm of iNOS+ cells suggest an iNOS dependent level of NT and therefore iNOS dependent oxidative stress. Our results contribute to understanding the role of iNOS in human MI
Forensic, legal, and clinical aspects of deaths associated with implanted cardiac devices
As the population ages, the prevalence of heart failure and individuals wearing an
implanted cardiac device is increasing. The combination of different underlying
pathophysiologies and (the combination of) implanted cardiac devices can
become a challenge with regard to the determination of cause and manner of
death in such individuals. Additionally, heart disease is frequently associated with
mental disease, ranging from anxiety and depression to suicidality and suicide
(attempts). At the same time, the correct diagnosis of cause and manner of death
is the basis for quality assurance, further therapeutic advances, legal safety, and
suicide prevention. By that, an interdisciplinary field between legal medicine,
clinicians, and law enforcement opens up. In this field, the different participants
can simultaneously benefit from and need each other. For example, legal medicine
experts need investigatory results and clinical expertise for the interpretation of
readout data of implanted cardiac devices in order to correctly determine the
cause of death. A correctly determined cause of death can assist law enforcement
and help clinicians to further improve various therapeutic approaches based on
correct mortality data collection. In addition, it is the basis for identification of
suicides of device carriers, allowing psychological and psychiatric experts to
better understand the burden of mental disease in this particular cohort. Against
this interdisciplinary background, this manuscript summarizes information about
psychiatric comorbidities and suicidality while being on a device. Thereby, basic
information on complications and malfunctions of implanted cardiac devices,
device-associated deaths with particular emphasis on device manipulation is
displayed as basic information needed for correct determination of the cause
of death. Also, legal and ethical issues in this field are outlined. The final result is
a proposal of an interdisciplinary assessment workflow for a conjoint approach
to improve the diagnosis of deaths associated with implanted cardiac devices. It
will allow for a differentiation between an individual who died with or due to the
device
Forensic, legal, and clinical aspects of deaths associated with implanted cardiac devices
As the population ages, the prevalence of heart failure and individuals wearing an implanted cardiac device is increasing. The combination of different underlying pathophysiologies and (the combination of) implanted cardiac devices can become a challenge with regard to the determination of cause and manner of death in such individuals. Additionally, heart disease is frequently associated with mental disease, ranging from anxiety and depression to suicidality and suicide (attempts). At the same time, the correct diagnosis of cause and manner of death is the basis for quality assurance, further therapeutic advances, legal safety, and suicide prevention. By that, an interdisciplinary field between legal medicine, clinicians, and law enforcement opens up. In this field, the different participants can simultaneously benefit from and need each other. For example, legal medicine experts need investigatory results and clinical expertise for the interpretation of readout data of implanted cardiac devices in order to correctly determine the cause of death. A correctly determined cause of death can assist law enforcement and help clinicians to further improve various therapeutic approaches based on correct mortality data collection. In addition, it is the basis for identification of suicides of device carriers, allowing psychological and psychiatric experts to better understand the burden of mental disease in this particular cohort. Against this interdisciplinary background, this manuscript summarizes information about psychiatric comorbidities and suicidality while being on a device. Thereby, basic information on complications and malfunctions of implanted cardiac devices, device-associated deaths with particular emphasis on device manipulation is displayed as basic information needed for correct determination of the cause of death. Also, legal and ethical issues in this field are outlined. The final result is a proposal of an interdisciplinary assessment workflow for a conjoint approach to improve the diagnosis of deaths associated with implanted cardiac devices. It will allow for a differentiation between an individual who died with or due to the device
To be there or not to be there, that is the question - on the problem of delayed sampling of entomological evidence
The aim of the current study was to analyze two major pitfalls in forensic entomological casework: delayed evidence sampling and the effect of low-temperature storage of the body. For this purpose, temperature profiles of heavily infested corpses during cooling and cases in which insect evidence was collected both at the scene and during autopsy were evaluated with regard to species composition and development stages found. The results show that the temperature in the body bags remained at higher average temperatures up to 10 °C relative to the mortuary cooler, therefore, sufficient for larval development, with significant differences in temperature between larval aggregations on one and the same body. In addition, we found large differences both in species number, species composition, and the developmental stages found at the scene and during the autopsy. These data and observations underscore the importance of sampling evidence at the scene and recording temperatures throughout the cooling period of a body