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1.
Article in English | MEDLINE | ID: mdl-37222902

ABSTRACT

Forensic pathologists often encounter cases of acute subdural hematoma (SDH) due to trauma, whereas those attributable to endogenous causes are rare. Here, we report a case of the latter type in a 42-year-old man who was found dead at home after several months of fever and malaise. Postmortem computed tomography (PMCT) and autopsy were undertaken to clarify the cause of death. PMCT images revealed a fatal SDH and a localized hyper-density area in the right parietal lobe; macroscopic and microscopic examinations revealed SDH due to rupture of a mycotic aneurysm (MA) associated with meningitis. The PMCT images also indicated thickening and calcification of the mitral valve, while autopsy demonstrated infective endocarditis (IE). In addition, PMCT demonstrated a low-density area in the spleen, which was shown to be a splenic abscess at autopsy. PMCT also demonstrated tooth cavities. Based on the findings of autopsy, the cause of death was considered to be SDH due to rupture of the MA resulting from meningitis with IE and splenic abscess. Although PMCT was unable to clarify the significance of any individual feature, a retrospective review of the PMCT images might have suggested IE, bacteremia, or ruptured MA leading to SDH. This case suggests that, instead of interpreting individual features demonstrated on PMCT images, integrated interpretation of overall PMCT findings might provide clues for identifying causes of death, despite the fact that PMCT lacks diagnostic accuracy for infectious diseases such as IE and meningitis.

2.
J Forensic Sci ; 67(3): 1124-1131, 2022 May.
Article in English | MEDLINE | ID: mdl-35088897

ABSTRACT

Forensic pathologists are required to investigate lethal trauma or disease at autopsy. In addition to massive contusions of various organs, a number of small features with potentially fatal implications also need to be sought. Since such lesions may need microscopic examinations for detailed evaluation, it is important to select suitable anatomic locations for tissue sampling. For practical screening of small lesions, we have developed a tissue optical clearing (TOC) technique for forensic autopsy. The technique involves clearing with a non-toxic organic solvent, ethyl cinnamate, which renders excised organs transparent, while hemorrhages or blood-containing vessels remain opaque. Using this technique, tiny hemorrhages in the spinal cord were able to be identified by gross examination, allowing proper selection of locations for tissue sampling. Subsequent histopathological evaluation was successfully performed with no apparent artifacts related with the TOC procedure. In addition, a combination of TOC and targeted CT angiography allowed feasible examination of the arterial occlusive lesion in the superior mesenteric artery, and when combined with micro-CT scanning it was useful for evaluating the lumen of the coronary artery with stent implantation. The results obtained so far indicated that TOC could complement routine forensic autopsy procedures when detailed evaluation of small lesions is required.


Subject(s)
Coronary Vessels , Tomography, X-Ray Computed , Autopsy/methods , Forensic Pathology/methods , Hemorrhage , Humans
3.
Stroke ; 42(9): 2571-7, 2011 Sep.
Article in English | MEDLINE | ID: mdl-21799161

ABSTRACT

BACKGROUND AND PURPOSE: It is well-established that hypertension leads to endothelial dysfunction in the cerebral artery. Recently, cilostazol has been used for the secondary prevention of ischemic stroke. Among antiplatelet drugs, phosphodiesterase inhibitors including cilostazol have been shown to have protective effects on endothelial cells. The aim of the present study is to investigate the effects of cilostazol and aspirin on endothelial nitric oxide synthase (eNOS) phosphorylation in the cerebral cortex, endothelial function, and infarct size after brain ischemia in spontaneously hypertensive rats (SHR). METHODS: Five-week-old male SHR received a 5-week regimen of chow containing 0.1% aspirin, 0.1% cilostazol, 0.3% cilostazol, or the vehicle control. The levels of total and Ser(1177)-phosphorylated eNOS protein in the cerebral cortex were evaluated by Western blot. To assess the contribution of eNOS in maintaining cerebral blood flow, we monitored cerebral blood flow by laser-Doppler flowmetry after L-N(5)-(1-iminoethyl)ornithine infusion. Additionally, we evaluated residual microperfusion using fluorescence-labeled serum protein and infarct size after transient focal brain ischemia. RESULTS: In SHR, the blood pressure and heart rate were similar among the groups. Cilostazol-treated SHR had a significantly higher ratio of phospho-eNOS/total eNOS protein than vehicle-treated and aspirin-treated SHR. Treating with cilostazol, but not aspirin, significantly improved cerebral blood flow response to L-N(5)-(1-iminoethyl)ornithine. Cilostazol also increased residual perfusion of the microcirculation and reduced brain damage after ischemia compared to vehicle control and aspirin. CONCLUSIONS: These findings indicate that cilostazol, but not aspirin, can attenuate ischemic brain injury by maintaining endothelial function in the cerebral cortex of SHR.


Subject(s)
Aspirin/pharmacology , Brain Ischemia , Endothelium, Vascular/physiopathology , Fibrinolytic Agents/pharmacology , Stroke , Tetrazoles/pharmacology , Animals , Brain Ischemia/drug therapy , Brain Ischemia/physiopathology , Cerebral Cortex/blood supply , Cerebrovascular Circulation/drug effects , Cilostazol , Endothelium, Vascular/enzymology , Male , Nitric Oxide Synthase Type III/metabolism , Phosphorylation/drug effects , Rats , Rats, Inbred SHR , Stroke/drug therapy , Stroke/physiopathology
4.
Stem Cells Dev ; 24(15): 1730-9, 2015 Aug 01.
Article in English | MEDLINE | ID: mdl-25900222

ABSTRACT

Increasing evidence suggests that multipotent stem cells are harbored within a vascular niche inside various organs. Although a precise phenotype of resident vascular stem cells (VSCs) that can function as multipotent stem cells remains unclear, accumulating evidence shows that multipotent VSCs are likely vascular pericytes (PCs) that localize within blood vessels. These PCs are multipotent, possessing the ability to differentiate into various cell types, including vascular lineage cells. In addition, brain PCs are unique: They are derived from neural crest and can differentiate into neural lineage cells. Because PCs in the central nervous system (CNS) can contribute to both neurogenesis and vasculogenesis, they may mediate the reparative process of neurovascular units that are constructed by neural and vascular cells. Here, we describe the activity of PCs when viewed as multipotent VSCs, primarily regarding their neurogenic and vasculogenic potential in the CNS. We also discuss similarities between PCs and other candidates for multipotent VSCs, including perivascular mesenchymal stem cells, neural crest-derived stem cells, adventitial progenitor cells, and adipose-derived stem cells.


Subject(s)
Central Nervous System/blood supply , Multipotent Stem Cells/metabolism , Neovascularization, Physiologic/physiology , Pericytes/metabolism , Animals , Central Nervous System/cytology , Humans , Multipotent Stem Cells/cytology , Neural Stem Cells/cytology , Neural Stem Cells/metabolism , Pericytes/cytology
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