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Query: UMLS:C0851184 (
thinning
)
11,252
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It has been reported that circumferential mesangial interposition (CMI) is an important morphological feature suggesting the progression of glomerulosclerosis in glomerular disease. The relation between CMI and its associated lesions was investigated in various renal diseases by electron microscopy. In 276 patients, of whom the glomeruli were observed by electron microscopy, CMI was observed non-specifically in 48 patients with various glomerular diseases (IgA nephropathy, 11; non-IgA glomerulonephritis, 1; membranoproliferative glomerulonephritis, 8; membranous nephropathy, 5; lupus glomerulonephritis, 12; toxemia of pregnancy, 2;
diabetic nephropathy
, 7; mitomycin nephropathy, 1; and Seckel's dwarfism patients, 1). The glomeruli with CMI showed a marked increase in mesangial matrix, as well as various grades of mesangial cell proliferation. Mesangiolysis associated with subendothelial widening was observed in a lesion of CMI in most cases. This phenomenon appears to be an initial alteration that conducts proliferated cells to the peripheral portion of a capillary loop. Localized severe
thinning
of the glomerular basement membrane was frequently combined with CMI, particularly in IgA nephropathy patients. Endothelial cells were occasionally interposed into the widened subendothelial space. Subendothelial deposits were noticed in the CMI lesion, particularly in MPGN patients. In conclusion, in the process of glomerulosclerosis progression in various glomerular diseases, lytic and edematous changes initially occur in the mesangio-subendothelial system (mesangiolysis and subendothelial widening), then proliferating mesangial cells extend into the widened space (between GBM and endothelial cells), and reach the peripheral portion of a capillary loop.
...
PMID:[An electron microscopic study of circumferential mesangial interposition in various renal diseases]. 965 10
Many chronic renal diseases lead to the final common state of decrease in renal size, parenchymal atrophy, sclerosis and fibrosis. The ultrasound image show a smaller kidney,
thinning
of the parenchyma and its hyperechogenicity (reflecting sclerosis and fibrosis). The frequency of renal cysts increases with the progression of the disease. Ultrasound generally does not allow for the exact diagnosis of an underlying chronic disease (renal biopsy is usually required), but it can help to determine an irreversible disease, assess prognosis and avoid unnecessary diagnostic or therapeutic procedures. The main exception in which the ultrasound image does not show a smaller kidney with parenchymal atrophy is
diabetic nephropathy
, the leading cause of chronic and end-stage renal failure in developed countries in recent years. In this case, both renal size and parenchymal thickness are preserved until end-stage renal failure. Doppler study of intrarenal vessels can provide additional information about microvascular and parenchymal lesions, which is helpful in deciding for or against therapeutic intervention and timely planning for optimal renal replacement therapy option.
...
PMID:Ultrasonography in chronic renal failure. 1271 27
In diagnostic renal pathology, electron microscopy is ideally performed on glutaraldehyde-fixed, plastic resin-embedded tissue (EM-G). When no glomeruli are present in the portion of the biopsy fixed in glutaraldehyde, formalin-fixed, paraffin-embedded tissue can be reprocessed for electron microscopy (EM-F). The usefulness of this salvage technique for the diagnosis of thin basement membrane nephropathy (TBMN) has not been studied systematically. Here we compare the glomerular basement membrane (GBM) thickness by EM-G vs EM-F in 21 renal biopsies, including TBMN (eight patients), normals (two patients), minimal change disease (MCD) (six patients) and
diabetic nephropathy
(DN) (five patients). There was significant reduction of the GBM thickness by EM-F compared with EM-G across all diagnostic categories in all 21 cases. The mean percentage reduction in GBM thickness was 23% for the TBMN cases, 40% for the normal/MCD cases and 34% for the DN cases. Four patients with MCD had a mean GBM thickness by EM-F that fell below the defining threshold for diagnosis of TBMN. For the TBMN cases, the 99th percentile for GBM thickness by EM-F was 194 nm, suggesting that the diagnosis of TBMN by EM-F can be excluded with confidence if the GBM thickness is above 200 nm. No clear criteria could be established to diagnose TBMN by EM-F. Renal pathologists should be aware that reprocessing of paraffin tissue for EM causes artifactual GBM
thinning
that precludes accurate diagnosis of TBMN.
...
PMID:Thin basement membrane nephropathy cannot be diagnosed reliably in deparaffinized, formalin-fixed tissue. 1727 40
Certain renal diseases are characterized by alterations in the thickness of the glomerular basement membrane (GBM), as visualized by images of biopsy samples obtained by using a transmission electron microscope (TEM). Abnormal
thinning
, thickening, or variation in thickness can occur in familial hematuria, diabetes mellitus, and Alport syndrome, respectively. We propose image processing methods for the segmentation and measurement of the GBM. The methods include the split and merge algorithm, morphological image processing, skeletonization, and statistical analysis of the width of the GBM. The proposed methods were applied to 34 TEM images of six patients. The mean and standard deviation of normal GBM were estimated to be 368 +/- 177 nm; those of thin GBMs associated with familial hematuria were 216 +/- 95 nm; and those of thick GBM due to
diabetic nephropathy
were 1094 +/- 361 nm. Comparative analysis of the results of image processing with manual measurements by an experienced renal pathologist indicated low error in the range of 12 +/- 9 nm.
...
PMID:Segmentation and analysis of the glomerular basement membrane using the split and merge method. 1916 53
The balance of matrix metalloproteinases (MMPs) and tissue inhibitors of matrix metalloproteinases (TIMPs) determines the integrity of the extracellular matrix. TIMP3 is the most highly expressed tissue inhibitor of metalloproteinase (TIMP) in the kidney, but its function in renal disease is incompletely understood. In this study, TIMP3-/- mice demonstrated an age-dependent chronic tubulointerstitial fibrosis. After unilateral ureteral obstruction (UUO), young TIMP3-/- mice exhibited increased renal injury (tubular atrophy, cortical and medullary
thinning
, and vascular damage) compared with wild-type mice. In addition, TIMP3-/- mice had greater interstitial fibrosis; increased synthesis and deposition of type I collagen; increased activation of fibroblasts; enhanced apoptosis; and greater activation of MMP2, but not MMP9, after UUO. TIMP3 deficiency also led to accelerated processing of TNFalpha, demonstrated by significantly higher TACE activity and greater soluble TNFalpha levels by 3 d after UUO. The additional deletion of TNFalpha markedly reduced inflammation, apoptosis, and induction of a number of MMPs. Moreover, inhibition of MMPs in TIMP3-/-/TNFalpha-/- mice further abrogated postobstructive injury and prevented tubulointerestitial fibrosis. In humans, TIMP3 expression increased in the renal arteries and proximal tubules of subjects with
diabetic nephropathy
or chronic allograft nephropathy. Taken together, these results provide evidence that TIMP3 is an important mediator of kidney injury, and regulating its activity may have therapeutic benefit for patients with kidney disease.
...
PMID:Loss of TIMP3 enhances interstitial nephritis and fibrosis. 1940 80
Abnormal
thinning
, thickening, or variation in the thickness of the glomerular basement membrane (GBM) are caused by familial hematuria, diabetes mellitus, and Alport syndrome, respectively. We propose a semi-automated procedure for the segmentation and analysis of the thickness of the GBM in images of renal biopsy samples obtained by using a transmission electron microscope (TEM). The procedure includes the split-and-merge algorithm, morphological image processing, skeletonization, and statistical analysis of the width of the GBM. The procedure was tested with 34 TEM images of six patients. The mean and standard deviation of the GBM width for a patient with normal GBM were estimated to be 368 +/- 177 nm, those for a patient with thin GBM associated with familial hematuria were 216 +/- 95 nm, and those for a patient with thick GBM due to
diabetic nephropathy
were 1,094 +/- 361 nm. Comparative analysis of the results of image processing with manual measurements by an experienced renal pathologist indicated low error in the range of 12 +/- 9 nm.
...
PMID:Analysis of the glomerular basement membrane in images of renal biopsies using the split-and-merge method: a pilot study. 1976 Feb 93
The renin-angiotensin system (RAS) is reportedly involved in chronic diabetic complications such as
diabetic nephropathy
, but changes of the RAS in diabetic skin remain unknown. The aim of this study was to investigate the expression of angiotensin (Ang) II and its type 1 (AT1) and type 2 (AT2) receptors in diabetic skin tissues, and explore the relationship between the local RAS and pathological changes of diabetic skin. Our results showed that
thinning
of epidermis, degeneration of collagen, fracture of dermal layer, and atrophy/disappearance of subcutaneous fat were observed in diabetic skin. The expression level of AngII was increased in diabetic skin tissues compared to that in controls. mRNA and protein expression of AT1 receptor were also increased while the level of AT2 receptor decreased; the relative expression of AT1 to AT2 receptors was approximately threefold higher in diabetes than in controls. Furthermore, in the culture medium of primary cultured fibroblasts from diabetic skin, the concentration of AngII was significantly higher than that of normal control. The mRNA and protein expression of AT1 receptor was also increased in fibroblasts of diabetic skin compared to controls, while the protein expression of AT2 receptor was decreased. Taken together, our results suggest that the local RAS system is activated in diabetic skin and AngII receptor is likely to mediate the pathological changes of diabetic skin.
...
PMID:Activation of skin renin-angiotensin system in diabetic rats. 2148 13
