Progress on electron microscopy diagnosis on Banff classification for renal allograft pathology / 器官移植

With the development of organ transplantation in clinical practice, allograft pathology has been constantly developing and advancing. The convening of Banff conference on allograft pathology and the establishment of Banff classification on allograft pathology (Banff classification) are pivotal milestones in the development of international allograft pathology. Since then, Banff classification on pathological diagnosis of various transplant organs have been continually updated and improved. Ultrastructural pathological observation by electron microscope plays an irreplaceable role in the early diagnosis of antibody-mediated rejection, recurrent disease and de novo disease of renal allograft. Early detection and rational treatment help to maintain the long-term survival of renal allograft and reduce the failure of renal allograft. In this article, the basic definition of electron microscope and the ultrastructural pathological diagnosis, the research history and main progress on electron microscope diagnosis on Banff classification for renal allograft pathology were introduced, and typical pathological changes, specific terminology and diagnostic criteria of electron microscope diagnosis on renal allograft biopsy were summarized, aiming to provide reference for clinical and basic research of organ transplantation.

An Ultrastructural Study on the Early Morphologic Changes of the Retina in Streptozotocin-induced Diabetic Rats

There have been many theories for pathogenesis of diabetic retinopathy. However,no one theory can explain all of the pathogenesis. That means many factors contribute to the pathogenesis of the diabetic retinopathy. Many studies have shown the retinal changes in long-term hyperglycemia, yet relatively few in short-term hyperglycemia. To study the changes of the retinal capillary and retinal pigment epithelium in diabetic retinopathy, we measured the thickness of the basement membrane of the retinal capil-lary endothelial cells in streptozotocin-induced diabetic rats. An morphological alterations of the retinal pigment epithelium were also examined on the 2 month-old diabetic rats. The measurement was made using 0.1 mm calibrated ruler overlaying the electron micrograph with a transparent plastic sheet on which 20 radiating lines were etched exactly 18 .apart. The SPSS and Instat program were used for statistical evaluation of the data. Comparing with the control, the increase of the thickness of the endothelial basement membrane at the 2 month-old diabetic rats was statistically significant (p<0.05). Cytoplasmic alterations such as vacuolization of capillary endothelium, changes in mitochondria and increasement of capillary endothelialcytoplasm were more prominent in diabetic rats than in control rats. Basal infoldings of retinal pigment epithelium appeared to be more frequent and deeper in diabetic rats than in control rats.

Ultrastructural Changes of The Retinal Capillary Basement Membrane in The Streptozotocin-Induced Diabetic Rats

Ultrastructural changes of the retinal capillary basement membrane in the streptozotocin-induced diabetic rats Cho, Hokyun, M.D., Lee, Dohyung, M.D. We studied the changes of the retinal capillary in diabetic retinopathy. We measured the thickness of the basement membrane of the retinal capillary endothelial cells and the capillary pericytes using streptozotocin-induced diabetic rats and the results were compared with that of normal control rats. And also an morphological lterations of the retinal capillary were examed on the prediabetes and 3, 7 month-aged diabetic rats. The basement membrane thickness was measeured with 0.1mm calibrated ruler overlaying the electron micrograph with a transparent plastic sheet on which were etched 20 radiating lines exactly 18degree apart. The SPSS and Instat program were used for statistical evaluation of the data. An age related increase of the basement membrane of the capillary pericyte and endothelial cell was evident in both diabetic and control group. It was more prominent in the pericyte basement membrane of diabetic rats (diabetic rats 112.5%, control 62.5%). Comparing the age related thickening of the pericyte basement membrane and endothelial basement membrane, the increase of the thickness of the pericyte basement membrane at 7 month-aged diabetic rats was statistically significant(p<.0005). Some degenerative changes of the basement membrane itself and cytoplasmic degeneration of the endothelial cell and pericyte were visible, and those were more prominent in diabetic rats. Some capillary endothelial cell shows thinning in 7 month-aged diabetic rats.