UMLS:C0851184 - FACTA Search

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Query: UMLS:C0851184 (thinning)
11,252 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Administration of estrogen to gilts on Days 9 and 10 of pregnancy results in total embryonic loss by Day 18. The present study examined changes in the uterine endometrial surface and secretion during conceptus attachment in control and estrogen-treated (Days 9 and 10) pregnant gilts. Gilts were unilaterally hysterectomized on either Days 12 and 14 or Days 16 and 18 of gestation. Uterine horns were flushed with saline and conceptuses were evaluated. Intact conceptuses were recovered from all control gilts, whereas estrogen-treated gilts contained normal intact conceptuses only on Day 12 of gestation. Antiviral activity, which reflects conceptus viability, was reduced (p less than 0.01) in uterine flushings after Day 14 in estrogen-treated gilts. Culture of endometrial explants with [3H]glucosamine revealed several glycoproteins that are synthesized during the period of conceptus attachment; however, no difference in glycoprotein synthesis between treatment groups was detected by analysis with two-dimensional PAGE and fluorography. Analyses of the uterine epithelium by scanning and transmission electron microscopy demonstrated that estrogen administration caused an alteration in the uterine surface, a thinning of the uterine epithelial glycocalyx, and a reduction of cationic ferritin binding to the microvilli of the uterine epithelium. Results indicate that conceptus mortality after early administration of estrogen is associated with alterations in the uterine endometrial surface during the period of conceptus attachment in the pig.
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PMID:Endometrial surface and secretory alterations associated with embryonic mortality in gilts administered estradiol valerate on days 9 and 10 of gestation. 187 82

Thin films of surface-active compounds, with or without particulate material, can be obtained by immersing and withdrawing a bare specimen grid from a solution/suspension of the compound. Immediately after withdrawing the grid, thinning of the film starts. Thinning is initially powered by gravity and capillary forces and will proceed in thin films (less than 100 nm) driven by intermolecular forces until the London-van der Waals attractive forces come to an equilibrium with electrostatic repulsion of similarly charged surfaces of the film. With small unilamellar vesicles prepared from the phospholipid dimyristoyl phosphatidyl choline (DMPC) the draining behaviour of these films was studied by cryo-electron microscopy. Small unilamellar vesicles were observed within the film as well as the coalescence of these vesicles into sheets ('leaky' membrane fusion). Sheets dominate the images when films are allowed to drain for longer periods (greater than 3 min). Thin films were formed on grids from catalase crystals suspended in a DMPC suspension and vitrified by cooling. High-resolution information was obtained by electron diffraction at low temperature and under low-dose conditions from catalase crystals surrounded by small vesicles as well as from catalase crystals surrounded by sheets of DMPC. In the latter case the water content drops from 99% (DMPC in small vesicles) to less than 30% (DMPC in sheets) during draining. Ferritin was added to a DMPC suspension and thin films were prepared and vitrified. After prolonged draining ferritin molecules were deposited in layers with a stepwise increase in thickness. Draining of thin films has thus a dehydrating effect as well as a sorting and ordering effect. These effects must be considered when using surface-active compounds at air-water interfaces as a slide and cover slip for electron microscopy.
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PMID:Phospholipid, nature's own slide and cover slip for cryo-electron microscopy. 270 3

Thirty-three well-trained rugby players, ranging in age from 18 to 30 years, were studied during basal training for one year. Peripheral blood parameters and iron metabolism indices were investigated before, during and at the end of the season. The hematologic status showed no substantial changes with respect to physical activity even if considered by age and team-role. However, a significant reduction (P less than 0.001) in RBC count, hemoglobin, hematocrit, serum iron, plasma transferrin and ferritin, was observed when compared with those obtained from a group of healthy untrained controls. Since the decrease in serum iron and ferritin concentrations was significant so as to justify a similar reduction in Hb and Ht values, two pathogenic mechanisms must be considered: e.g., a moderate hemodilution secondary to plasma expansion combined with a decrease in iron stores caused by chronic iron loss through feces, profound sweat and urine. The present study demonstrates that mild anemia (sports anemia) may develop in well-trained rugby players with heavy physical work load, due to increased plasma volume with a relative thinning of RBCs. This pseudo-anemic condition is associated with a reduction in iron stores which can lead to a true iron-deficiency anemia. A yearly blood test and, if necessary, iron supplementation could prevent this condition.
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PMID:[Study of variations in hematologic parameters in rugby players undergoing physical training at a high altitude]. 276 60

Growth retardation in children with thalassaemia major is multifactorial. We studied the growth hormone (GH) response to provocation by clonidine and glucagon, measured the circulating concentrations of insulin, insulin-like growth factor-I (IGF-I), IGF-binding protein-3 (IGFBP3), and ferritin, and evaluated the spontaneous nocturnal (12 h) GH secretion in prepubertal patients with thalassaemia and age-matched children with constitutional short stature (CSS) (height SDS < -2, but normal GH response to provocation). The anatomy of the hypothalamic pituitary area was studied in patients with abnormal GH secretion using MRI scanning. Children with thalassaemia had significantly lower peak GH response to provocation by clonidine and glucagon (8.8 +/- 2.3 micrograms/l and 8.2 +/- 3.1 micrograms/l respectively) than did controls (17.6 +/- 2.7 micrograms/l and 15.7 +/- 3.7 micrograms/l respectively). They had significantly decreased circulating concentrations of IGF-I and IGFBP3 (68.5 +/- 19 ng/ml and 1.22 +/- 0.27 mg/l respectively) compared to controls (153 +/- 42 ng/ml and 2.16 +/- 0.37 mg/l respectively). Seven of the thalassaemic children had a GH peak response of < 7 micrograms/l after provocation. Those with a normal GH response after provocation also had significantly lower IGF-I and IGFBP3 concentrations than controls. Analysis of their spontaneous nocturnal GH secretion revealed lower mean (2.9 +/- 1.77 micrograms/l) and integrated (2.53 +/- 1.6 micrograms/l) concentrations compared to controls (4.9 +/- 0.29 micrograms/l and 5.6 +/- 0.52 micrograms/l respectively). Five of them had mean nocturnal GH concentration < 2 micrograms/l and four had maximum nocturnal peak below 10 micrograms/l. These data denoted defective spontaneous GH secretion in some of these patients. MRI studies revealed complete empty sella (n = 2), marked diminution of the pituitary size (n = 4), thinning of the pituitary stalk (n = 3) with its posterior displacement (n = 2), and evidence of iron deposition in the pituitary gland and midbrain (n = 7) in those patients with defective GH secretion (n = 9). Serum ferritin concentration was correlated significantly with the circulating IGF-I (r = -0.47, p < 0.01) and IGFBP3 (r = -0.43, p < 0.01) concentrations. These data prove a high prevalence of defective GH secretion in thalassaemic children associated with structural abnormality of their pituitary gland.
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PMID:Spontaneous and provoked growth hormone (GH) secretion and insulin-like growth factor I (IGF-I) concentration in patients with beta thalassaemia and delayed growth. 1066 1

Ferritin was used as a tracer to investigate glomerular permeability in the nephrotic rat. The results were compared with those previously obtained in normal animals. A nephrotic syndrome was induced by 9 daily injections of the aminonucleoside of puromycin. Ferritin was administered intravenously on the 10th day, and kidney tissue was fixed at intervals of 5 minutes to 44 hours after injection of the tracer and examined by electron microscopy. The observations confirmed that at this stage of the experimental nephrotic syndrome the changes affect predominantly the visceral epithelium (loss of foot processes, reduction and modification of urinary slits, and intracellular accumulation of vacuoles and protein absorption droplets). Less extensive changes were found in other layers (reduction of endothelial fenestrae, an increase in the population of "deep" cells, and a thinning and "loosening" of the basement membrane.) At short intervals (5 to 15 minutes) after ferritin administration, the tracer was found at high concentration in the lumen and endothelial fenestrae, and at decreasing concentrations embedded throughout the basement membrane and incorporated into the epithelium (within cytoplasmic vesicles and within invaginations of the plasmalemma facing the basement membrane). After longer intervals (1 to 3 hours) the distribution of the tracer within the capillary wall was similar except that its concentration in the epithelium was higher, and, in addition to plasma membrane invaginations and small vesicles, ferritin also marked larger vacuoles, dense bodies, and intermediate forms. Large accumulations of tracer typically occurred in the spongy areas of the basement membrane, especially in the axial regions. Ferritin also appeared in the endothelium within membrane-limited vacuoles and dense bodies, particularly in the deep cells. After 6 to 44 hours the tracer still occurred in the lumen and throughout the basement membrane. The ferritin deposits in the spongy areas as well as the ferritin-containing vacuoles of the deep endothelium were larger and more numerous. In the epithelium ferritin was found not only within various membrane-limited bodies, but also "free" within the cytoplasmic matrix. These observations indicate that in the nephrotic glomerulus, as in the normal, the basement membrane functions as the main filtration barrier; however, in nephrosis, the basement membrane is defective and allows leakage of increased quantitites of ferritin and presumably plasma proteins. The basement membrane defect appears to be fine and widespread, occurring at or near the molecular level of organization of the filter. The accumulation of unfiltered ferritin in axial regions together with the demonstration of its subsequent phagocytosis by the "deep" endothelial cells suggest that the latter may function in the removal of filtration residues. Finally, the findings indicate that in the nephrotic, as in the normal animal, the epithelium acts as a monitor that recovers, at least in part, the protein which leaks through the filter, and that in nephrosis, the recovering activities of the epithelium are greatly enhanced because of the increased permeability of the basement membrane.
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PMID:Glomerular permeability. II. Ferritin transfer across the glomerular capillary wall in nephrotic rats. 1389 78

A 54-year-old man with a 24-year history of androgenetic alopecia was referred to the Department of Dermatological Sciences with follicular inflammatory lesions leading to scleroatrophy in the vertex region (Figure 1) of 1-year duration. These lesions appeared a year ago. There was no previous history of this condition. On examination, the patient showed confluent infiltrative follicular lesions on the frontoparietal and occipital scalp (Figure 2). Some lesions evolved into erosions that developed in ivory white scleroatrophy within weeks. These lesions were localized both in and outside of are as affected by alopecia androgenetica and were associated with mild pruritus. Histopathologic examination, performed on an early lesion of the vertex, documented a mild thinning of follicular epithelium associated with an intense lymphohistiocytic perifollicular infiltrate. The damage of the basal cell layer was limited to the follicle, while epidermis was intact. In particular, follicular keratinocytes under the isthmus showed a very intense degeneration exactly where the infiltrate was the most prominent. The damage of the hair sheath was under the isthmus and involved the lower portions of the follicles (including the hair bulbs). The inflammatory infiltrate was exclusively represented by perifollicular lymphohistiocytes. Finally, a connective fibrotic shell with numerous fibroblasts formed a sheath around the atrophic follicle (Figure 3). Results of laboratory investigations (including complete blood cell counts, basal thyroid-stimulating hormone, C-reactive protein, serum ferritin levels, B and C hepatitis markers, antinuclear antibodies, and cultural examinations) were negative.We diagnosed the patient with fibrosing alopecia in a pattern distribution.
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PMID:Case study: fibrosing alopecia in a pattern distribution localized on alopecia androgenetica areas and unaffected scalp. 1553 92

Malignant tumors generate new blood vessels by secreting growth factors, particularly members of the vascular permeability factor/vascular endothelial growth factor (VPF/VEGF) family. Overall, the new blood vessels that form are hyperpermeable to plasma proteins, a property that is thought to be important for generating new stroma. However, tumor blood vessels are structurally heterogeneous and include microvessels of at least the following distinct types: mother vessels (MV), glomeruloid microvascular proliferations (GMP), arterio-venous-like vascular malformations and capillaries. Our goal was to determine whether macromolecular tracers leaked from all or from only a subset of these vessel types and to elucidate the extravasation pathways. As blood vessels are only a minor component of tumors, and therefore, difficult to study in situ, we used an adenoviral vector to express VEGF-A164, the most important member of the VPF/VEGF family, in mouse tissues. So expressed, VEGF-A164 induces large numbers of surrogate vessels of each type found in tumors in a highly reproducible manner. Overall permeability to plasma proteins was assessed qualitatively with Evan's blue dye and quantitatively with a dual tracer method employing radioactive albumin. Leaky vessels were identified by confocal microscopy (FITC-dextran) and by electron microscopy (ferritin). MV, and to a lesser extent GMP, were found to be hyperpermeable but capillaries and vascular malformations were not. Ferritin extravasated primarily by two trans-cellular routes, vesiculo-vacuolar organelles (VVOs) and fenestrae. This occurred despite a considerable reduction in VVO frequency as VVO membranes translocated to the plasma membrane during MV formation. However, reduction in the number and complexity of VVOs was offset by extensive endothelial cell thinning and a greatly shortened extravasation pathway. Extrapolating these findings to tumors predicts that only a subset of tumor vessels, MV and GMP, is hyperpermeable, and that measures of overall vessel permeability greatly underestimate the permeability of individual MV and GMP.
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PMID:Permeability properties of tumor surrogate blood vessels induced by VEGF-A. 1673 97

A 43-year-old woman presented with complaints of exfoliation of the skin and mottled pigmentation all over the body, intolerance to sunlight for the last 14 years, and swelling on the lower one-third of the neck for 15 years. She was apparently well until the age of 29 years when she noticed redness on her shins which later progressed to involve the upper limbs, chest, and face. Three months later, she observed multiple, small, brownish plaques over the erythematous areas, which gradually spread to the sun-exposed areas, namely the face, forearms, hands, and nape of the neck. The erythema disappeared within 5 months of onset. The patient experienced redness of the face, intolerance to the sun, and reduced sweating, particularly during the summer. There was no history of bullous eruption, difficulty during deglutition, tremors, or pedal edema. She suffered five miscarriages and, ultimately, was successful in delivering a normal boy who is now 16 years of age. She had menarche at the age of 14 years and her menstrual cycle was regular. There was no history of similar illness in the family. On cutaneous examination, the skin on the face, neck, trunk, buttocks, and limbs was found to be dry, lusterless, thin, and covered with fine scales. Mottled hyperpigmentation was observed all over the body. Atrophy and telangiectasia were seen over the neck (Fig. 1), face (Fig. 2), nape of the neck, upper and lower limbs, back, and chest. Mild erythema was observed over the face, nose, ears, and forearms. The hair on the scalp, eyebrows, axillae, and pubic area was sparse and thin. The teeth were loose and discolored due to caries, and a foul odor emanated from the mouth. The nails were lusterless and centrally depressed. The thyroid gland was enlarged, smooth, nontender, and moved with deglutition. No bruit was heard over it. No ocular abnormality was detected. The patient had a haemoglobin level of 7.6 g%, total serum iron binding capacity of 70 micromol/L (normal, 45-66 micromol/L), and serum ferritin level of 10 microg/L (normal, 15-200 microg/L). Peripheral blood smear showed hypochromic microcytic red blood cells. Total and differential leukocyte counts, erythrocyte sedimentation rate (ESR), blood glucose, serum electrolytes, total and differential serum proteins, liver function tests, blood urea, and microscopic examination of urine and stools were within normal limits. The thyroid profile and complement C3 and C4 levels were within normal limits. Rheumatoid factor, antinuclear factor and LE cells were absent. Abdominal ultrasonogram was normal. Fine needle aspiration cytology from the thyroid gland showed features suggestive of colloid goiter. Skin biopsy revealed thinning of the epidermis, flattening of the rete ridges, and hydropic degeneration of the basal cell layer. The dermis was edematous with dilated capillaries, melanophages, and a band-like mononuclear infiltrate. The sweat glands were reduced in number.
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PMID:Late-onset Rothmund-Thomson syndrome. 1747 79

Telogen effluvium (TE) is the most common cause of diffuse hair loss in adult females. TE, along with female pattern hair loss (FPHL) and chronic telogen effluvium (CTE), accounts for the majority of diffuse alopecia cases. Abrupt, rapid, generalized shedding of normal club hairs, 2-3 months after a triggering event like parturition, high fever, major surgery, etc. indicates TE, while gradual diffuse hair loss with thinning of central scalp/widening of central parting line/frontotemporal recession indicates FPHL. Excessive, alarming diffuse shedding coming from a normal looking head with plenty of hairs and without an obvious cause is the hallmark of CTE, which is a distinct entity different from TE and FPHL. Apart from complete blood count and routine urine examination, levels of serum ferritin and T3, T4, and TSH should be checked in all cases of diffuse hair loss without a discernable cause, as iron deficiency and thyroid hormone disorders are the two common conditions often associated with diffuse hair loss, and most of the time, there are no apparent clinical features to suggest them. CTE is often confused with FPHL and can be reliably differentiated from it through biopsy which shows a normal histology in CTE and miniaturization with significant reduction of terminal to vellus hair ratio (T:V < 4:1) in FPHL. Repeated assurance, support, and explanation that the condition represents excessive shedding and not the actual loss of hairs, and it does not lead to baldness, are the guiding principles toward management of TE as well as CTE. TE is self limited and resolves in 3-6 months if the trigger is removed or treated, while the prognosis of CTE is less certain and may take 3-10 years for spontaneous resolution. Topical minoxidil 2% with or without antiandrogens, finestride, hair prosthesis, hair cosmetics, and hair surgery are the therapeutically available options for FPHL management.
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PMID:Diffuse hair loss in an adult female: approach to diagnosis and management. 1917 26

Atrophy of dorsal root ganglia (DRG) and thinning of dorsal roots (DR) are hallmarks of Friedreich's ataxia (FRDA). Many previous authors also emphasized the selective vulnerability of larger neurons in DRG and thicker myelinated DR axons. This report is based on a systematic reexamination of DRG, DR and ventral roots (VR) in 19 genetically confirmed cases of FRDA by immunocytochemistry and single- and double-label immunofluorescence with antibodies to specific proteins of myelin, neurons and axons; S-100alpha as a marker of satellite and Schwann cells; laminin; and the iron-responsive proteins ferritin, mitochondrial ferritin, and ferroportin. Confocal images of axons and myelin allowed the quantitative analysis of fiber density and size, and the extent of DR and VR myelination. A novel technology, high-definition X-ray fluorescence (HDXRF) of polyethylene glycol-embedded fixed tissue, was used to "map" iron in DRG. Unfixed frozen tissue of DRG in three cases was available for the chemical assay of total iron. Proliferation of S-100alpha-positive satellite cells accompanied neuronal destruction in DRG of all FRDA cases. Double-label visualization of peripheral nerve myelin protein 22 and phosphorylated neurofilament protein confirmed the known loss of large myelinated DR fibers, but quantitative fiber counts per unit area did not change. The ratio of myelinated to neurofilament-positive fibers in DR rose significantly from 0.55 to 0.66. In VR of FRDA patients, fiber counts and degree of myelination did not differ from normal. Pooled histograms of axonal perimeters disclosed a shift to thinner fibers in DR, but also a modest excess of smaller axons in VR. Schwann cell cytoplasm in DR of FRDA was depleted while laminin reaction product remained prominent. Numerous small axons clustered around fewer Schwann cells. Ferritin in normal DRG localized to satellite cells, and proliferation of these cells in FRDA caused wide rims of reaction product about degenerating nerve cells. Mitochondrial ferritin was not detectable. Ferroportin was present in the cytoplasm of normal satellite cells and neurons, and in large axons of DR and VR. In FRDA, some DRG neurons lost their cytoplasmic ferroportin immunoreactivity, whereas the cytoplasm of satellite cells remained ferroportin positive. Ferroportin in DR axons disappeared in parallel with atrophy of large fibers. HDXRF of DRG detected regional and diffuse increases in iron fluorescence that matched ferritin expression in satellite cells. The observations support the conclusions that satellite cells and DRG neurons are affected by iron dysmetabolism; and that regeneration and inappropriate myelination of small axons in DR are characteristic of the disease.
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PMID:The dorsal root ganglion in Friedreich's ataxia. 1972 77

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