Summary Glutamic acid, glutamine, glutathione, sulphur aminoacids and γ‐aminobutyric acids are present in higher concentration in human brain than in the brain of the cow and rabbit. Arginine, methionine and ß‐aminoisobutyric acid were detected in human brain, but not in the brains of the cow and rabbit. Hydroxyproline was found only in rabbit brain. Glutamate oxaloacetate transaminase (GOT) and glutamate pyruvate transaminase (GPT) in human brain showed a higher activity than in the other species examined. Zusammenfassung Schwankungen der freien Aminosäuren, des Glutathion und der Aminotransferasen im Gehirngewebe von Mensch, Rind und Kaninchen Menschliches Gehirn enthält höhere Konzentrationen von Glutaminsäure, Glutamin, Glutathion, schwefelhaltigen Aminosäuren und γ‐Aminobuttersäure als das Gehirn vom Rind und Kaninchen. Im Gehirn vom Menschen wurden Arginin, Methionin und ß‐Aminoisobuttersäure gefunden, hingegen nicht in den Gehirnen von Kühen und Kaninchen. Hydroxyprolin konnte nur beim Kaninchen nachgewiesen werden. Glutamat‐Oxalacetat‐Transferase (GOT) und Glutamat‐Pyruvat‐Transferase (GPT) zeigten im menschlichen Gehirn eine höhere Aktivität als bei den beiden anderen Spezies. Résumé Variations des acides aminés libres, du glutathion et des aminotransférases dans le tissu cérébral de l'homme, du bovin et du lapin Le cerveau humain contient de plus fortes concentrations d'acide glutamique, de glutamine, de glutathion, d'acides aminés soufrés et d'acide γ‐aminobutyrique que celui du bovin et du lapin. On a trouvé dans le cerveau humain de l'arginine, de la méthianine et de l'acide ß‐aminoisobutyrique, ce qui ne fut pas le cas chez les bovins et les lapins. On a pu mettre en évidence de l'hydroxyproline que chez les lapins. Les transaminases glutamo‐oxaloacétiques (TGO) et glutamo‐pyruviques (TGP) ont montré une plus forte activité dans le cerveau humain que dans celui des deux autres espèces. Resumen Oscilaciones de los aminoácidos libres, glutation y aminotransferasas en el tejido cerebral del hombre, vacunos y conejos El cerebro humano contiene concentraciones superiores de ácido‐ glutámico, glutamina, glutation, aminoácidos sulfurados y ácido γ‐aminobutírico que el cerebro de vacunos y conejos. En el cerebro de personas se hallaron arginina, metionina y ácido ß‐aminoisobutírico, mientras que no en los cerebros de vacas y conejos. Hidroxiprolina no se identificó más que en el conejo. Glutamato‐oxalacetato‐transferasa (GOT) y glutamato‐piruvato‐transferasa (GPT) mostraban en el cerebro humano una actividad mayor que en las otras dos especies.
Summary The administration of a thyroid stimulating drug (L‐thyroxin sodium) leads to an increase in the iodide content of the thyroid gland and its subsequent decrease in the salivary glands. Administration of an anti‐thyroid drug (thiouracil) leads to a decrease of iodide in the thyroid gland, while there is an increase in its concentration in the salivary glands. Histological sections showed the hypo and hyperactivity appearance of the thyroid gland as a result of administration of thiouracil and L‐thyroxin sodium, respectively. Zusammenfassung Die Effekte von Thyreostatika und Jodverbindungen auf den Jodgehalt der Schilddrüse und der Speicheldrüsen der Ratte Die Verabreichung von L‐Thyroxin — Natrium bewirkt eine Erhöhung des Jodgehaltes der Schilddrüse und anschließend eine Abnahme des Jodgehaltes in den Speicheldrüsen. Die Applikation des Thyreostatikums Thiourazil hat eine Abnahme des Jodgehaltes in der Schilddrüse bzw. J‐Zunahme in den Speicheldrüsen zur Folge. Histologisch wurden als Folge der Thiourazil‐ bzw. L‐Thyroxin‐Behandlung Zeichen der Hypo — bzw. Hyperaktivität der Schilddrüse festgestellt. Résumé Effets de thyréostatiques et de liaisons iodées sur le taux de iode de la glande thyroïde et des glandes salivaires chez des rats L'application de L‐thyroxine‐sodium provoque une augmentation du taux du iode de la glande thyroïde et finalement une diminution du taux du iode dans le glandes salivaires. L'application du thyréostatique «Thiomazil» a diminué le taux du jode dans la glande thyroïde et augmenté le taux iodé dans les glandes salivaires. On a établi histologiquement une hypoactivité de la glande thyroïde à la suite d'un traitement au «Thiomazil» et une hyperactivité après l'application de L‐thyroxine. Resumen Los efectos de tireoestáticos y combinaciones yodadas sobre el contenido en yodo del tiroides y de las glándulas salivares de la rata La administración de L‐tiroxina sódica induce el aumento del contenido de yodo en la glándula tiroidea y su disminución subsecuente en las glándulas salivares. La aplicación del tireoestático tiouracilo trae consigno la disminución del contenido de yodo en el tiroides resp. el aumento de su concentración en las glándulas salivares. Como consecuencia del tratamiento de tiouracilo resp. L‐tiroxina se comprobaron histológicamente signos de una hipo resp. hiperactividad de la glándula tiroidea.
The present study focuses on how to assess the reality of soil pollution by heavy elements on the right bank of Mosul City after 2017. Seventy samples are collected from the right-bank soils depending on the random system. Chemical analysis is conducted using the ICP-MS technique to determine the concentrations of the heavy elements (As, Cd, Cr, Ni, Pb, Zn) in these samples, and then to calculate the pollution factors: Geoaccumulation Index, Enrichment Factor, and Contamination Factor. The average crust is adopted for the comparison and definition of the permissible limits for calculating the pollution factors. The results of the chemical analysis show that the concentrations of the elements (As, Cd, Cr, Ni, Pb, Zn) are higher than the average crust by a ratio of 100%, 85.3%, 44.29%, 100%, 37.14%, 24.28% respectively, which have an effect on the results of the pollution factors, and this refers to an addition of heavy elements to soil of the right bank of Mosul City as a result of human activity (anthropogenic). These activities are the military operations and the use of different types of weapons such as bombs, missiles, ammunition and the remnants thereof, which contain many heavy metals as well as fumes and gases emitted from burning waste, vehicle exhaust, electricity generators, liquid waste in urban and industrial areas, sewage water, fertilizers and pesticides. To know the role of physicochemical characteristics and their contribution to the distribution of heavy elements in the soil, pH and electrical conductivity are measured and the organic matter content is determined. The results show a rate of 7.8, 27.8, and 4.6, respectively.
The kaolinite of the Duikhala Deposite in the Iraqi Western Desert underwent intercalation with potassium acetate (KAc) and was subsequently washing with water several times. More than 70% of intercalation was achieved and checked using the X-ray diffraction (XRD) technique by observing a decrease in the peak intensity 7.2 Å and the appearance of the peak intensity at 14 Å after two days of intercalation. The surface area and cation exchange capacity were increased in the treated sample compared to the untreated one. Transmission electron microscopy images of the treated sample of kaolinite, after 35 cycles of repeated intercalation and washing, showed that the kaolinite lamellar were wrapped along the main crystal directions and transformed into the nanotube shape halloysite mineral.
Summary The excretion of organic iron in the urine of animals receiving Ambilhar (Niridazolde) could be explained by the strong chelating power of the drug with the metal. One atom of iron requires 6 molecules of the drug to form a stable hexa‐coordinated iron complex. In the presence of glucuronic acid (in vitro) the complex becomes water solible. In the absence of glucuronic acid (in vitro) the complex is no longer soluble. In vivo and in vitro studies supported these conclusions. Zusammenfassung Chelatbildende Kraft von Ambilhar für Körpereisen Bei mit Ambilhar (Niridazol) behandelten Tieren konnte die erhöhte Ausscheidung von organischem Eisen im Urin auf die starke Eisen‐Chelat‐Bildung des Medikamentes zurückgeführt werden. Für die Bildung eines stabilen Eisenkomplexes (Hexa‐Koordination) benötigt ein Eisenatom 6 Ambilhar Moleküle. Bei Anwesenheit von Glucuronsäure (in vivo) wird der Komplex wasserlöslich. Bei Abwesenheit von Glucuronsäure (in vitro) verliert der Komplex die Wasserlöslichkeit. Résumé L'«Ambilhar» comme chélateur du fer dans l'organisme L'excrétion élevée de fer organique dans l'urine d'animaux traités à l'«Ambilhar» (Niridazol) est liée à la formation fer‐chélateur du médicament. Un atome de fer a besoin de 6 molécules d'«Ambilhar» pour former un complexe stabile (hexa‐coordination). Le complexe est soluble dans l'eau en présence d'acide glucuronique (in vivo). Le complexe perd sa solubilité dans l'eau en absence d'acide glucuronique (in vitro). Resumen Fuerza quelatógena de Ambilhar para el hierro corporal La excreción elevada de hierro orgánico con la orina en animales tratados con Ambilhar (Niridazol) se pudo explicar por el fuerte poder quelatógeno del medicamento con el metal. Un átomo de hierro precisa para formar un complejo ferroso estable (coordenación hexa) 6 moléculas de Amilhar. En presencia de ácido glucurónico (in vitro), el complejo se torna hidrosoluble. El complejo pierde la hidrosolubilidad en ausencia de ácido glucurónico (in vitro).
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