Radiological practice in Hiroshima and Nagasaki: trents from 1964 to 1970.
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Use of X-ray in Hiroshima and Nagasaki from 1964 to 1970 was assessed according to numbers of films consumed, and the radiographic, fluoroscopic, and photofluorographic examinations performed. Except for chest photofluorography, a steady increase in the use of medical X-ray since Workd War II is demonstrated. (+info)
Expression of a 66-kD heat shock protein associated with the process of cyst formation of a true slime mold, Physarum polycephalum.
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Under unfavorable conditions for growth, haploid myxoamoebae of Physarum polycephalum retracted their pseudopodia and changed their cell shape into disk-like form, after which they constructed the cell walls to form microcysts. These morphological changes of haploid cells were associated with changes in intracellular distribution of actin filaments. Staining with phalloidin showed that actin filaments were almost uniformly distributed throughout the cytoplasm of the myxoamoebae. When these cells were transferred to a cyst-inducing medium, the actin structures changed into short rods or dots, after which the rods/dots disappeared in the microcysts. An incubation of the myxoamoebae in the cyst-inducing medium caused the synthesis of several proteins, among which a 66-kD protein was most prominently induced. The morphological changes and the induction of the 66-kD protein was pronounced at elevated temperatures, e.g. 40 degrees C. The 66-kD protein was not induced, however, when plasmodia of the same species were incubated at 40 degrees C. We found that the 66-kD protein was co-precipitated with polymerized actin and bound to ATP-agarose. A double staining of the disk-shaped cells with anti-66-kD protein antibody and phalloidin revealed superimposable localization of the 66-kD protein and actin filaments in the short rods or dots. Although the induction of the 66-kD protein was enhanced at high temperatures, the protein was immunologically unrelated to the common heat shock proteins, HSP70 and HSP90, those are highly conserved during evolution. These results indicate that the 66-kD protein is a novel heat shock protein which is specifically expressed during cyst formation. (+info)
Biochemical and chemical supports for a transnatal olfactory continuity through sow maternal fluids.
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Recognition of the mother is of major importance for the survival of mammalian neonates. This recognition is based, immediately after birth, on the detection of odours that have been learned by the fetus in utero. If the ethological basis of a transnatal olfactory continuity is well established, little is known on the nature of its olfactory cues, and nothing about the presence of potential carrier proteins in the maternal fluids such as amniotic fluid, colostrum and milk. We have identified the components of the pig putative maternal pheromone in these fluids of the sow. We also used a ligand-oriented approach to functionally characterize carrier proteins for these compounds in the maternal fluids. Six proteins were identified, using binding assay, immunodetection and peptide mapping by mass spectrometry. These proteins are known to transport hydrophobic ligands in biological fluids. Among them, alpha-1 acid glycoprotein (AGP) and odorant-binding protein (OBP) have been described in the oral sphere of piglets as being involved in the detection of pig putative maternal pheromone components. These are the first chemical and biochemical data supporting a transnatal olfactory continuity between the fetal and the postnatal environments. (+info)
Percutaneous drilling for the treatment of secondary osteonecrosis of the knee.
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Osteonecrosis of the knee comprises two separate disorders, primary spontaneous osteonecrosis which is often a self-limiting condition and secondary osteonecrosis which is associated with risk factors and a poor prognosis. In a series of 61 knees (38 patients) we analysed secondary osteonecrosis of the knee treated by a new technique using multiple small percutaneous 3 mm drillings. Total knee replacement was avoided in 59 knees (97%) at a mean follow-up of 3 years (2 to 4). Of the 61 knees, 56 (92%) had a successful clinical outcome, defined as a Knee Society score greater than 80 points. The procedure was successful in all 24 knees with small lesions compared with 32 of 37 knees (86%) with large lesions. All the procedures were performed as day cases and there were no complications. This technique appears to have a low morbidity, relieves symptoms and delays more invasive surgery. (+info)
The Japanese guidelines for gastric cancer screening.
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Evaluation of cardiac ischemia by NADH fluroescence photography.
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A direct, noninvasive method of assessing the oxidation-reduction potential of an intramyocardial respiratory chain component is described. The technique is based on the differences in spectral properties between the oxidized and reduced forms of nicotinamide adenine dinucleotide (NADH). The tissue surface fluorescence from intracellular NADH may be measured and documented photographically. Noose occlusion of a coronary artery produced detectable NADH fluorescence in 15 seconds in the subtended ischemic epicardium. This fluorescence of reduced pyridine nucleotide resolved following 60 seconds of reperfusion of the ischemic myocardium. The reduction of epicardial NADH with ischemia is a rapid and reversible process. A subsequent noose reocclusion resulted in a reproducible pattern of fluorescence. The technique of NADH fluorescence photography appears superior to current methods of assessing tissue oxygen supply:demand. (+info)
Protein glycosylation in heat-sensitive and thermotolerance-deficient mutants of Chinese hamster ovary cells.
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Chinese hamster ovary (CHO) cells are capable of developing a high degree of thermotolerance in response to appropriate heat conditioning. In this study we examined the relationship between thermotolerance development and protein glycosylation using four sublines of CHO cells. Two of these CHO sublines are characterized by an increased heat sensitivity and impaired cellular capacity for thermotolerance development. The data show that thermotolerance development after heat conditioning in the heat-sensitive, thermotolerance-deficient mutants was accompanied by reduced labeling of a Mr 50,000 glycoprotein (GP50), in both soluble and insoluble cell fractions. Similarly, activation of UDP-N-acetylgalactosaminyltransferase (Gal-NAcT) after hyperthermia was almost completely abolished in these cell lines. Both of these endpoints have been correlated previously with thermotolerance expression. The data are consistent with the glycosylation hypothesis that attributes increased heat resistance of thermotolerant cells, at least in part, to enhanced glycosylation and accumulation of endogenous glycoproteins, such as GP50. (+info)
Evaluation of effective dose from a RANDO phantom in videofluorography diagnostic procedures for diagnosing dysphagia.
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