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)

The effects of a single 30-mg tablet of oral controlled-release (OCR) morphine (MST) on gastric emptying and small-intestine transit time (SITT) were compared with placebo in a double-blind, cross-over trial, on ten healthy volunteers. Gastric emptying was measured by paracetamol absorption and SITT by the rise in breath hydrogen after a carbohydrate test meal. There was no alteration in the absorption of paracetamol given 90 min after OCR administration but this was well before peak plasma morphine levels occurred. However, 30% of subjects had nausea after OCR morphine. Mean SITT in controls was 300 min (range 120-460 min) which was significantly prolonged in eight of the 10 subjects (P less than 0.05) and beyond the study period of 480 min in six subjects. Further study is required to determine how this compares with intramuscular morphine. Peak blood levels of morphine occurred at 3 h with a mean plasma concentration of 12.3 micrograms l-1 (SEM 2.0 micrograms l-1).
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PMID:Oral controlled-release morphine and gut function: a study in volunteers. 267 29

Cylinders of Fuji Type II glass ionomer restorative cement were bonded to the superficial dentin layer of young bovine incisor teeth that had previously been subjected to 4 different treatments: 1) teeth immersed in 35% hydrogen peroxide for 60 min and etched with 37% phosphoric acid gel for 60 s; 2) teeth immersed in saline for 60 min and etched with 37% phosphoric acid for 60 s; 3) teeth etched with 37% phosphoric acid for 60 s and immersed in 35% hydrogen peroxide for 60 min; or 4) teeth etched with 37% phosphoric acid for 60 s and immersed in saline for 60 min. Specimens were stored in water at 37 degrees for 1 and 7 days, prior to tension and shear testing. A total of 128 teeth were tested: 8 teeth in each group for each day and for each test. Statistical analysis of the results indicated that there was a highly significant reduction in bond strength of the cement when dentin was exposed to hydrogen peroxide as compared with saline. SEM examination of randomly selected fractured test specimens indicated that bond failure was cohesive in nature, suggesting that the hydrogen peroxide treatment adversely affected the setting process of the glass ionomer cement.
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PMID:Adhesion of a glass ionomer cement to bleached and unbleached bovine dentin. 269 89

Apple juice contains fructose and sorbitol, substances that have been shown to be incompletely absorbed by most people. As this might have clinical consequences, especially in young children, we investigated the absorption of the carbohydrate content of apple juice in apple juice consuming toddlers with chronic nonspecific diarrhoea as compared to controls, using the breath hydrogen (H2) test. Incomplete absorption of the carbohydrates from 250 ml of apple juice, as indicated by a maximum breath H2 increase of greater than or equal to 20 parts per million (ppm), was found in all nine patients (mean +/- SEM 57 +/- 8 ppm), and in five out of eight controls (22 +/- 7 ppm) (P less than 0.01). Six patients were retested with apple juice "enriched" with glucose, which is known to improve fructose absorption. The maximum breath H2 increase as well as the area under the breath H2 curve decreased significantly. It was thus estimated that fructose accounted for 80% of the incomplete absorption and sorbitol for 20%. Elimination of apple juice from the diets of the nine patients resulted in normalisation of both the frequency and the consistency of the stools. Incomplete absorption of the carbohydrates, particularly fructose, from apple juice seems to be quite common, and may contribute to chronic diarrhoea in young children.
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PMID:Apple juice, fructose, and chronic nonspecific diarrhoea. 274 21

Neutrophil-derived reactive oxygen metabolites have been implicated as one mechanism for the cellular injury in the adult respiratory distress syndrome. Previous studies have demonstrated that alveolar lung fluid of patients with adult respiratory distress syndrome has abnormal composition and surface active properties. To examine the effects of oxygen metabolites on the viability and metabolism of type II alveolar pneumocytes, the cellular source of surfactant, isolated rat type II pneumocytes were exposed to reactive oxygen metabolites generated by the enzymatic action of xanthine oxidase upon hypoxanthine. Utilizing a 51Cr release assay to detect cellular death, we found that oxygen metabolites were lethal to type II cells in a dose-dependent manner. To demonstrate that oxygen metabolites were responsible for the toxicity, we assessed the protective effects of catalase and superoxide dismutase, scavengers of hydrogen peroxide and the superoxide anion, respectively. At a xanthine oxidase concentration of 50 mU/ml, catalase reduced the percentage of 51Cr release from 58.9 +/- 3.1% (SEM) to 7.2 +/- 2.3% (p less than 0.0001), whereas superoxide dismutase was without protection (58.9 +/- 3.1% versus 54.2 +/- 1.8% (p greater than 0.05). To determine whether oxygen metabolites also impair surfactant metabolism, we measured the incorporation of [3H]palmitate into the surfactant component disaturated phosphatidylcholine by type II pneumocytes. We found that sublethal amounts of generated oxygen metabolites caused a progressive decrease in the amount of [3H]palmitate incorporated into disaturated phosphatidylcholine. For example, using a xanthine oxidase concentration of 5 mU/ml (which causes no increased 51Cr release), we found that [3H]palmitate incorporation into disaturated phosphatidylcholine fell from a control level of 3.53 +/- 0.22 X 10(5) to 0.66 +/- 0.10 X 10(5) dpm/10(6) cells/4 hours (p less than 0.0001). Both catalase and superoxide dismutase protected the [3H]palmitate incorporation of oxygen metabolite-exposed type II cells. We conclude that reactive oxygen metabolites are injurious to type II pneumocytes and may result in impaired surfactant synthesis even at sublethal doses. Thus, oxygen metabolites generated by stimulated phagocytic cells may be responsible in part for the decreased surfactant that has been observed in adult respiratory distress syndrome.
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PMID:Effects of oxygen metabolites on rat alveolar type II cell viability and surfactant metabolism. 283 58

The tolerance against two different levels of enzymatically generated oxygen radicals was studied in isolated Langendorff-perfused hearts from selenium (Se)-deficient and control rats. The glutathione peroxidase activity of the Se-deficient hearts was less than 5% of that of the controls. Examination of the ultrastructure was made after random sampling using morphometric methods. Selenium-deficient hearts demonstrated some areas with myocytes with intracellular oedema. Oxygen radicals (hydrogen peroxide and superoxide) were generated by adding xanthine oxidase for 12 min (high dose: 25 U/l; low dose: 12.5 U/l) and hypoxanthine to the buffer of isolated Langendorff-perfused rat hearts. Left ventricle-developed pressure (LVDP) and high-energy phosphates (ATP and CP) were measured. After the low dose of oxygen radicals, LVDP was reduced to 32.7 +/- 6.5% (mean +/- SEM) of initial values in the Se-deficient group, but only to 58.3 +/- 8.4% in the control group (p less than 0.05). After the high dose, LVDP decreased abruptly to zero in both groups. However, ATP content was significantly (p less than 0.05) lower in Se-deficient than in control hearts. Perfusion with oxygen radicals (low dose) resulted in the appearance of mitochondrial damage in both groups, but intracellular oedema was still present only in the Se-deficient hearts. It is concluded that protection against oxygen radicals was reduced in Se-deficient hearts. This was probably due to loss of myocardial glutathione peroxidase activity.
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PMID:The selenium-deficient rat heart with special reference to tolerance against enzymatically generated oxygen radicals. 283 46

Granulocyte-macrophage colony-stimulating factor (GM-CSF) was shown to modulate different granulocyte functions. In the present study we investigated the effect of purified and recombinant human GM-CSF, particularly on the oxidative metabolism of isolated human granulocytes. In addition, ultrastructural changes upon stimulation were evaluated. For detection of granulocyte activation the following assay systems were used: 1) lucigenin-dependent chemiluminescence (CL), 2) superoxide-dismutase (SOD) inhibitable cytochrome C-reduction (superoxide), 3) horseradish peroxidase-mediated oxidation of phenol red (hydrogen peroxide), 4) release of myeloperoxidase, 5) ultrastructural detection of hydrogen peroxide-production, and 6) scanning and transmission electron microscopy (SEM and TEM, respectively). A significant CL response was seen upon stimulation with recombinant human GM-CSF at concentrations ranging from 1 to 10(3) U/ml. The CL response started within 5-10 min with a maximum at 60-90 min and lasted more than 3 h. Thereafter granulocytes were completely deactivated to restimulation with the same mediator and with Tumor Necrosis Factor, but responded to other triggers of the oxidative burst, whereas the response to f-met-leu-phe was significantly increased. The CL signal was completely blocked by an antiserum to GM-CSF. Moreover, the response was significantly inhibited by SOD and D-Mannitol, suggesting the involvement of distinct reactive oxygen species (ROS) in generating the CL response. Significant amounts of superoxide were detected within 180 min after stimulation with GM-CSF, whereas release of hydrogen peroxide and peroxidase were only minimal as shown by functional and ultrastructural assays. Activation of granulocytes could be visualized by SEM and TEM. GM-CSF stimulated cells showed an increased adherence to the substratum developing polarized filopodia and an increased number of intracellular vesicles within 30 min after addition of the stimulus. The results clearly demonstrate that GM-CSF directly stimulates granulocytes and, particularly, their oxidative metabolism. Therefore, GM-CSF which is probably released by epidermal cells appears to be a candidate for neutrophil activation in the skin, and thereby may play a crucial role in inflammatory skin diseases.
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PMID:Human granulocyte-macrophage colony stimulating factor: an effective direct activator of human polymorphonuclear neutrophilic granulocytes. 283 54

As shown previously monocytes upon stimulation with bacterial lipopolysaccharides (LPS) release granulocyte-activating mediator(s) (M-GRAM) which induced a long-lasting chemiluminescence (CL) response in human granulocytes. M-GRAM could be separated from interleukin-1 alpha and beta, interleukin-2, interferon alpha and gamma, granulocyte colony stimulating factor (G-CSF) and macrophage colony stimulating factor (M-CSF), since these cytokines are shown to be unable to induce a significant CL response. In contrast, granulocyte macrophage colony stimulating factor (GM-CSF) and particularly tumor necrosis factor (TNF) are important triggers of the oxidative burst and they are capable of inducing a CL response. TNF activity but not lymphotoxin (LT) activity could be demonstrated in M-GRAM samples. A polyclonal rabbit IgG as well as a monoclonal antibody to recombinant human TNF which neutralized the TNF activity in M-GRAM preparations did not substantially block the CL signal. Furthermore, M-GRAM-induced CL response was not significantly inhibited by a polyclonal calf antiserum to human recombinant GM-CSF. For further functional characterization of M-GRAM-induced granulocyte activation different assays were performed in order to compare GM-CSF and TNF: (a) SOD-inhibitable cytochrome C-reduction (.O2-); (b) horseradish peroxidase-mediated oxidation of phenol red (H2O2); (c) the release of peroxidase; (d) ultrastructural detection of hydrogen peroxide production; and (e) scanning and transmission electron microscopy (SEM and TEM). Significant release of .O2- was induced by M-GRAM, TNF, and GM-CSF, whereas H2O2 production was significantly stimulated only by M-GRAM and TNF, as shown by functional and ultrastructural assays.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Granulocyte-activating mediators (GRAM): III. Further functional characterization of monocyte-derived GRAM. 284 61

Cerebrovascular dilation over PaO2 ranging from hyperoxia to moderate hypoxia is unexplained. We hypothesize that tissue acidosis is the cause. Local cortical cerebral blood flow (LCBF), tissue hydrogen ion concentration [H+]t, and tissue PO2 (PtO2) were measured with microelectrodes in the parietal cortex of 18 rats during a 30-min steady state on 60 to 10% inspired O2 (PaO2, 300 to 40 torr) during 40% N2O analgesia. Five rats kept on 60% O2/40% N2O served as controls. In 18 rats at a PaO2 of 275 +/- 7 torr (mean +/- SEM) and PaCO2 of 35 +/- 1 torr, cerebral values were: LCBF = 129 +/- 23 (mean +/- SEM) ml.100 g-1.min-1; [H+]t = 62 +/- 6 nM; and PtO2 = 25 +/- 3 torr. As PaO2 was reduced from about 300 to 40 torr, changes in these variables in percentage of control with respect to PaO2, were described by the following equations, all at P less than 0.0001: LCBF = 85.9 + 5,572/Pao2; [H+]t = 97.15 + 1,012/PaO2; and PtO2 = 108.8 - 3,492/PaO2. Simultaneous solution of the LCBF and [H+]t equations at various PaO2 revealed a slope of 8.82%/nM. Direct correlation between LCBF in ml.100 g-1.min-1 and [H+]t in nM revealed a linear relationship defined by the equation Y = -7.472 + 1.6705X (r = 0.6426) for [H+]t between 56 and 160 nM (pH = 7.25 and 6.80) but no correlation at [H+]t values between 56 and 32 nM (pH = 7.25 to 7.50). Cerebrovascular tone is directly correlated with [H+]t during progressive, 30-min steady-state reduction in PaO2 from 350 to 40 torr.
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PMID:Mechanisms of cerebrovascular O2 sensitivity from hyperoxia to moderate hypoxia in the rat. 292 Dec 94

Our previous studies have shown that exposure of cultured rabbit lenses to physiological levels of hydrogen peroxide, following inhibition of the glutathione redox cycle, leads to the formation of distinct vacuoles in the anterior region of the lens at the germinative zone between the epithelium and lens fibers. In the present study the ultrastructure of H2O2-induced membrane damage in the intact lens and in cultured lens epithelial cells was examined by scanning and transmission electron microscopy (SEM and TEM), following the inhibition of glutathione reductase with 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU). Lenses treated with BCNU/H2O2 exhibited swollen epithelial cells which were observed only above the peroxide-induced vacuoles. The apical surface of the swollen cells had membrane blebs which protruded into the underlying vacuolar space. The appearance of the blebs coincided with a change in the organization of the layer of microfilaments which is normally associated with the apical surface of the cell. Cultured lens epithelial cells treated with BCNU/H2O2 showed membrane blebs which increased in size and number with the duration of exposure. Initially, the blebs were seen only on certain regions of the cell surface with other regions appearing normal. TEM revealed a disorganization of microfilaments in the BCNU/H2O2 treated cells. Neither BCNU nor H2O2 alone affected the morphology of intact lenses or of cultured lens epithelial cells. In culture, isolated lens epithelial cells exposed to BCNU/H2O2 were more susceptible to damage than contiguous cells. While the exact mechanism by which H2O2-induced damage leads to bleb formation on the cell surface is not known, the inability of the cells to detoxify H2O2 due to the inhibition of glutathione reductase results in the disturbance of membrane cytoskeleton and a focal weakening of the cell surface. These results indicate a correlation between the active glutathione redox cycle in lens epithelium and maintenance of normal cytoskeletal protein organization.
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PMID:Effect of inhibition of the glutathione redox cycle on the ultrastructure of peroxide-treated rabbit epithelial cells. 292 23

Alveolar macrophages were retrieved by bronchoalveolar lavage (BAL) from 30 patients, 24 smokers and six nonsmokers. The macrophages were separated from other cells in the BAL fluid by glass adherence. The amount of hydrogen peroxide released into the media by these macrophages was then measured by a new method of determining hydrogen peroxide concentration. Two groups were found. Group 1, who did not spontaneously release hydrogen peroxide, were mostly nonsmokers (six of nine), and group 2, who spontaneously secreted hydrogen peroxide (87.5 +/- 17.08 nmol/10(6) macrophages [mean +/- SEM]), were all smokers (21 of 21). When the alveolar macrophages in group 1 were stimulated with phorbol myristate acetate, they secreted as much hydrogen peroxide as the stimulated macrophages of group 2 (group 1: 125.0 +/- 92.08 nmol/10(6) macrophages, group 2: 116.7 +/- 14.82 nmol/10(6) macrophages). We conclude that there is a subset of smokers whose alveolar macrophages spontaneously release hydrogen peroxide.
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PMID:Spontaneous hydrogen peroxide release from alveolar macrophages of some cigarette smokers. 300 52


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