E-submission
Search
- Page Path
- HOME > Search
Original Articles
- Effects of Progesterone Treatment on the Squamous or Morular Metaplasia Associated with Endometrial Hyperplasia.
- Kyu Rae Kim, Hee Jeong Ahn
- Korean J Pathol. 1996;30(8):680-686.
- 4,341 View
- 82 Download
-
Abstract
PDF - During evaluation of follow-up curettage of endometrial hyperplasia after progesterone treatment, we have noticed that the foci of squamous or morular metaplasia are persistent or even markedly increased after the hyperplastic glands have all disappeared. These observations have led us to study the histological changes of squamous or morular metaplasia in the hyperplastic endometrium after progesterone treatment and to examine the changes of estrogen receptors(ER) and progesterone receptors(PR) to find out, if there is any pathogenetic role of progesterone administration on the squamous or morular metaplasia. Squamous or morular metaplasia was associated in 21 cases (13.5 %) out of 156 endometrial hyperplasia during the study periods and all of them were associated with complex hyperplasia, but not associated with simple hyperplasia. At follow-up curettage after progesterone treatment, squamous metaplasia newly appeared in 3 cases(20 %), markedly increased in 4 cases(26.7%), persisted in 4 cases(26.7%) and decreased in 4 cases(26.7%), even after hyperplastic glands have all disappeared or were markedly decreased. On immunohistochemical staining, metaplastic foci showed ER- and PR- in 13 cases (87 %) in contrast to the surrounding endometrium and the remaining 2 cases showed minimal ER+ and PR+ confined to several nuclei. Intensity or staining pattern of ER and PR in metaplastic foci were not changed with progesterone treatment. In the background endometrium, intensity of glandular ER+ and PR + was higher than that of the stroma at the initial curettage, however, progesterone treatment predominantly down-regulated glandular ER+ more than stromal ER+. Increment or persistence of squamous metaplasia along the progesterone treatment seemingly would implicate hormonal influences as playing a significant role in the formation of squamous or morular metaplasia and the absence of cellular receptors for these hormones in the metaplastic foci may suggest qualitative changes in the receptors.
- Sequential Studies of Glomerular Crescent Formation in Rabbits with Anti-Glomerular Basement Membrane(GBM) Antibody Induced Glomerulonephritis(GN).
- Hye Seon Ahn, Jung Woo Noh, Moon Hyang Park
- Korean J Pathol. 1997;31(3):219-232.
- 1,643 View
- 11 Download
-
Abstract
PDF
- To investigate the mechanism of crescent formation, sequential pathologic changes from the New Zealand White rabbits with anti-GBM antibody induced GN by administration of guinea pig anti-GBM IgG were studied by light (LM), immunofluorescent (IF) and electron (EM) microscopy. Although no glomerular changes were observed in LM, swelling of the endothelial cells and the epithelial cells were noted in EM by day 2. By day 7, early and cellular crescents were evident. Proteinaceous materials and fibrins were noted in the glomerular capillary lumina (GCL) and Bowman's space (BS) associated with segmental hypercellularity. The GBM damage became progressively severe, followed by focal detachment of the visceral epithelial cells from the GBM. At day 14, fibrin strands, mononuclear cells and collagen fibrils were present between the proliferating extracapillary cells. At day 31, fibrocellular crescents were predominated. Elongated spindle cells, morphologically resembling myofibroblasts, were noted near the Bowman's capsule (BC). A degree of tubular atrophy, interstitial fibrosis, and inflammatory infiltrates increased as it did with fibrous organization of crescent. Intense linear IF staining for IgG and C3 were seen throughout the experiments along the GBM. In conclusion, the progression of crescent from an early "proteinaceous" stage through cellular, fibrocellular and fibrous stages was well documented in this study. Inflammatory cells and coagulation mechanism may activate the initiation of the GBM damage at the early stage. Activated periglomerular mononuclear cells may also cause disruption of BC which facilitates entry of activated periglomerular cells and fibroblasts into BS leading to progressive fibrous crescent formation.
First
Prev
