13 Takeuchi and Eto4 have summarized all MD-related autopsy cases in Kumamoto Prefecture this website from 1956 to 1995. It was difficult to clarify the pathogenesis of chronic MD. Nishimura3 and Nishimura and Okamoto4 found the true causes of
MD. Examinations were made on formalin-preserved specimens, obtained in 1956 and since kept in the Second Department of Pathology of Kumamoto University. The contents of mercury in fish and shellfish caught in Minamata Bay in 1956 showed remarkable levels. Total mercury levels showed 51.6 ppm in the muscle and 109.6 ppm in the liver of Pagrus major (bream), and 38.6 ppm in the muscle and 200.0 ppm in the liver of Phyncopelates oxyhynchus (sharpnose tigerfish).4 After Chisso Co. stopped dumping wastewater into the Bay in 1968, the contents of mercury in the fish and shellfish abruptly decreased. Then the pathogenesis of chronic type of MD was thought to be the after-effects of the high-level Me-Hg intake by the residents around Minamata Bay. Sensory disturbance was the most important sign and symptom of MD, not only in human autopsy cases, but also with the experimental Me-Hg poisoning in marmosets,6 rats, mice, and swine. The cause of sensory disturbance of MD was considered BMS-777607 in vivo to be damage to both the central sensory center (postcentral
gyri) and peripheral sensory nerves. The authors thank the late Dr Tadao Takeuchi, Professor Emeritus, Kumamoto University, and members of the Second Department of Pathology at the Kumamoto University School of Medicine for their cooperation with the autopsies. The authors also thank Dr Cheng-Mei Shaw, Professor Emeritus, University of Washington, Depsipeptide datasheet Seattle, Washington and Dr Hajime Nishimura for their comments on the pathogenesis of MD. “
“To investigate routes of dispersal of enzyme, its regional uptake and the effect of posture when replacement enzyme is administered directly into the cerebrospinal fluid (CSF). Dispersal pathways of particles and solutes were investigated using intracisternal injections of india ink with visual
assessment, and a contrast medium (Iohexol) with computer tomography (CT). Replacement enzyme was measured at 46 loci within the central nervous system (CNS) in four groups of dogs subjected to different post-injection postural changes. India ink and CT studies showed dispersal pathways for CSF to be mainly via cisterns and sulci. Replacement enzyme reached all areas of the CNS tested, although mean concentrations varied 49-fold over different areas of the brain. Posttreatment posture had only modest effects on enzyme uptake in limited anatomical sites. Dispersal of solutes after injection is rapid and initially enhanced by the injection process. Preferential pathways for CSF flow in the subarachnoid spaces of the brain involve cisterns and sulci.