Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0432222 (SEM)
47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

At present, a practical method for continuous monitoring of the state of tissue metabolism in the individual patient's heart during cardiac operations is not available. We have explored the use of miniature electrode measurements of myocardial interstitial pH to provide this monitoring capability, making comparisons with intracellular pH in left ventricular biopsy specimens and with tissue PCO2 measured by mass spectrometry. The electrode system consisted of a hydrogen ion-sensitive glass miniature electrode, housed in the beveled end of a 21 gauge (0.8 mm diameter) hypodermic needle, and a 2 mm diameter reference electrode, with an internal silver-silver chloride electrode coupled to tissue through a saline bridge (150 mM/L sodium chloride) saturated with silver chloride. Accuracy in blood at 37 degrees C was compared with conventional instrumentation (Radiometer BMS-3 MK-2 Blood Micro System) over a pH range of 7.4 to 6.4 with linear regression analysis (n = 26) revealing a high correlation (r = 0.997) and a mean difference in paired observations of only 0.01 +/- 0.004 (mean +/- SEM) pH units. In two groups of dogs on cardiopulmonary bypass, the pH needle and reference electrodes were inserted into the anterior wall of the left ventricle. Ischemic arrest of the heart at 37 degrees C was used to vary myocardial pH. In Group 1 (n = 8), intracellular pH was estimated from left ventricular biopsy specimens (400 mg each) taken over a microelectrode pH range of 7.37 to 6.37, snap frozen, and homogenized. In Group II (n = 6), tissue PCO2 in the anterior wall of the left ventricle was determined by mass spectrometry (sampling catheter 1.3 mm diameter). Miniaturized electrode (interstitial) pH exceeded biopsy (intracellular) pH under control conditions by 0.28 +/- 0.025 pH units (p less than 0.001), but below an electrode pH of 6.8 the results of the two techniques did not differ significantly. The tissue PCO2 rose from 69 +/- 2 mm Hg to a final plateau of 419 +/- 25 mm Hg, which was similar to the predicted value of 427 +/- 28 mm Hg calculated from the pH change (7.37 +/- 0.01 to 6.01 +/- 0.07), providing a further independent check on the pH electrode technique. These data indicate that our intramyocardial pH measurements do reflect intracellular metabolism during elective arrest of the heart and may have potential for clinical use.
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PMID:Intramyocardial pH as an index of myocardial metabolism during cardiac surgery. 3 64

The levels of mercury and silver in dust arising from the trimming, i.e. grinding, of amalgam dies in dental laboratories have been measured. In breathing air close to the workpiece, the mercury and silver contents exceeded the threshold limit values for short-term exposure by factors of aboit 60 and 400 in cases when local ventilation was not in use. With efficient local exhaust systems enabling a dust reduction of about 94%, the short-term exposure limit values for mercury and silver were exceeded by factors of about 4 and 20 respectively. Mercury and silver were assayed quantitatively by means of nuclear chemical analysis. A major part of the amalgam dust consisted of respirable particles. The collected dust comprised about 80% amalgam and 20% particulate matter from grinding wheels and stones according to SEM and EDAX measurements.
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PMID:Levels of mercury and silver in dust from the trimming of amalgam dies. 29 69

This review concerns the present state of accomplishments in the study of SEM of human and experimental renal disease. Critical techniques of specimen preparation reviewed include perfusion fixation, razor tissue sectioning, alcohol cryofracture, microtome sectioning of paraffin or styrene embedded tissue, ultraplaning with glass knives of hard carbowax embedded tissues and glomerular isolation. Gold-palladium coating and heavy metal impregnation with osmium, uranium, and silver are discussed. A compendium of SEM observations of human glomerular, vascular and tubular disease is presented. Techniques for SEM of experimental renal disease are reviewed. These include latex vascular injection, freeze drying, x-ray microanalysis and use of backscattered electron imaging. Experimental models previously investigated by SEM are puromycin aminonucleoside nephrosis, daunomycin nephrosis, and N,N1-Diacetylbenzedine glomerulopathy, nephrotoxic serum nephritis, and protamine perfusion glomerulopathy. Reviewed are acute tubular necrosis caused either by angiotensin, hypotension, norepinephrine, glycerol, mercury, and unilateral renal artery occlusion, also potassium depletion nephropathy, alloxan diabetes and diphenylamine-induced polycystic disease.
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PMID:SEM of human and experimental renal disease. 52 33

The morphology of canine thoracic duct and peripheral collecting lymphatics was determined using light microscopy together with scanning and transmission electron microscopy (SEM and TEM). The thoracic duct was compared to the thoracic aorta and to the vena cava. Luminal surface detail was determined using the secondary imaging mode of the SEM. Subsurface nuclear and connective tissue detail was determined using back-scattered electron imagining combined with Willard's modification of Gomori's Methenamine Silver Stain. Central and peripheral lymphatic vessels have surface morphology distinct from either arteries or veins. The endothelial cell density in lymphatic vessels is less than in arteries or veins. The nuclear chromatin of lymphatic endothelial cells is coarsely granular and evenly distributed. This contrasts with nuclei from arteries or veins in which the chromatin is segmented. The distribution and orientation of lymphatic subsurface connective tissue fibers also differs from that seen in arteries and veins. It is concluded that canine lymphatic vessels have a unique surface and subsurface morphology and can be unequivocally identified by SEM.
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PMID:Scanning electron microscopy of collecting lymphatic vessels and their comparison to arteries and veins. 52 42

The modifications of endocardial cells on bulbar cushions of the chick embryonic heart have been studied using the SEM following an experimental stenosis of the pulmonary artery. This stenosis was produced by the occlusion of both 6th aortic arches on the 4th day of incubation by silver microclips. The formation of small craterlike defects was observed on the distal ventral and proximal left bulbar cushions. Giant intercellular openings appeared on the top of the proximal left bulbar cushion indicating some acceleration of the blood flow in this region. Phagocytes traversing the endocardium have been seen more frequently than in controls. It seems that the endocardium is relatively resistant to the described hemodynamic changes. These changes modify the passage of phagocytes into the blood stream as well as cell movements and exocytosis.
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PMID:[Hemodynamic effects on embryonic endocardial morphology]. 102 Nov 73

By means of the newly developed Replamineform process, the unique pore microstructures found in the skeletal calcium carbonate of certain reef corals can be replicated or reproduced with high precision in a wide variety of materials suitable for hard tissue implant and prosthetic applications. The advantages of fabricating porous biomaterials with this method include closely controlled size of both the pore diameters and the diameters of the pore interconnections, and virtually complete interconnection of the uniformly spaced pores. These properties are of great importance in implant devices, because tissue ingrowth, the stimulation of new bone formation, the suppression of undesirable scar tissue, the inhibition of adverse body responses, and firm biological fixation of the implanted material all depend upon the nature of the pore-microstructure configuration. Replamineform preparation of Al2O3, TiO2, hydroxyapatite, silver, Co-Cr-Mo alloys, and polymers is described in detail, and the characterization procedures used to determine the physical and structural properties of their materials are discussed. A few of the routinely measured characteristics include (1) quantitative computerized SEM image analysis for determining the volume, size and shape distributions of the macro and microporosity and the grain size measurement of the solid; (2) nondestructive x-radiography of specimens to reveal any internal defects; (3) mechanical strength measurements of randomly selected specimens. Experimental results up to now clearly demonstrate the superiority of microstructures imparted to metals, ceramics, and polymers with the Replamineform process.
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PMID:Replamineform porous biomaterials for hard tissue implant applications. 117 5

Cell surfaces interface with a variety of environments and, as a consequence, cell surface properties are of considerable functional importance to the biological organism. SEM immunocytochemistry (SEM-IC) is one of a range of techniques used to analyse cell surface properties. A major goal of SEM-IC centres on extended survey or high-magnification morphological analysis of cell and tissue surfaces combined with molecular profiles of these surfaces as established by gold-labelling. The properties of colloidal gold make it the marker of choice for SEM-IC and a representative gold-labelling protocol is outlined. The SEM-IC gold-labelling technique has been applied advantageously to the analysis both of cell surfaces and cytoskeletal and extracellular matrix elements: a tabulation of the main SEM-IC biomedical applications is given. Illustrated examples demonstrate how SEM-IC provides a highly effective approach for analysis both of cell and tissue differentiation-maturation sequences, and of pathological change involving not only the entire tissue or cell surface but also minute changes in microdomain characteristics of the individual cell surface. Steps in exploiting the technique of colloidal gold SEM-IC have been several-fold and include: use of backscattered electron imaging; accurate localization of gold particles by superimposition on topographical maps of the cell surface; and use of small (1-10 nm) gold probes followed by silver enhancement in order to minimize steric hindrance. Factors under assessment include: use of low voltage SEM; BE imaging of samples coated with ultrathin metal films; and use of gold-labelled SEM-IC for direct quantification of the numbers of target molecules exposed on cell surfaces by automated image analysis of the digitized BE image.
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PMID:On the molecular profiling of cell surfaces by SEM. 129 Jun 73

The effect of ip anesthesia with urethane+chloralose (U+C, 1.0 g/kg + 40.0 mg/kg) or thionembutal (TH, 40.0 mg/kg) on the velocity of propagation of cortical spreading depression was studied in adult Wistar rats. We also describe a technique for measuring the spreading depression propagation rate based on implanting insulated silver wires into the right parietal region, whose silver chloride tips are in contact with the cortical surface. The propagation rate was measured in the same animals during (mean +/- SEM, mm/min: 2.69 +/- 0.17 for U+C, N = 9, and 2.60 +/- 0.09 for TH, N = 7) and after (3.23 +/- 0.13 for U+C and 3.84 +/- 0.18 for TH) anesthesia. The rate was significantly higher for rats in the awake condition. The second administration of anesthesia to the same rats decreased the velocity of spreading depression again (2.01 +/- 0.38 for U+C, N = 7, and 2.96 +/- 0.18 for TH, N = 7). The effects of TH and U+C on the rate of propagation were reversed 24 and 48 hours after anesthesia, respectively. We conclude that the technique proposed is adequate for measuring the velocity of spreading depression in unanesthetized rats and that U+C and TH reduce the propagation velocity.
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PMID:Effect of anesthesia on the propagation of cortical spreading depression in rats. 134 16

The objective of this study was to test the hypothesis that a degraded subsurface layer containing microcracks is produced in dental composites as a result of finishing procedures. Various composites in the form of rectangular bars were finished with a 12-fluted carbide bur or a fine diamond within minutes of light-curing, and were subsequently stained with silver nitrate. Microscopic evaluation revealed that significant penetration of stain occurred in the unfinished as well as in the finished surfaces. The extent of dye penetration that could be directly attributed to a damaged layer produced by the finishing procedure was less than 10 microns, being greatest for a microfill (Silux Plus) and a hybrid (P-50) composite. There was no difference between the effects of the finishing instruments. SEM analysis of the subsurface showed an absence of any cracks for the composites. However, occasional disruption of the interface between the pre-polymerized resin fillers and the matrix was apparent for the microfill material. The results showed that only a very limited subsurface damage may be created in certain composites during the initial contouring of a restoration.
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PMID:Evaluation of subsurface defects created during the finishing of composites. 138 34

Endothelin-1, a potent vasoconstrictor, has been reported to stimulate mitogenesis in various types of normal and neoplastic cells and to be involved in neurotransmission. Recently, many human cancer cell lines, including those from the human colon, have been shown to produce endothelin. In this study, the occurrence of endothelin-1 binding sites was investigated in human colonic cancer tissues using in vitro autoradiography. Specific [125I]endothelin-1 binding sites were identified over tumour vessels and stromal tissues surrounding cancer cell nests. The distribution was heterogeneous, and dense silver grains were localized, especially over clusters of fibroblasts adjacent to the cancer cell nests. Endothelin binding was minimal in the cancer cells, as in the normal crypt epithelium. Quantitative analysis of the autoradiographs demonstrated high affinity (Kd = 0.50 +/- 0.06 nM; mean +/- SEM) binding sites, with a maximum binding capacity (Bmax) of 40 +/- 3.2 amol/mm2 in the cancer tissues. Our results provide evidence that specific endothelin-1 binding sites are expressed in the stromal tissues including tumour vessels, fibroblasts, and nerve fibres. Endothelin-1 may play a modulatory role in blood supply, mitogenesis, and neurotransmission in a paracrine fashion through the stromal components in human colonic cancers.
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PMID:Autoradiographic localization of endothelin-1 binding sites in human colonic cancer tissue. 146 5


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