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Licht- und elektronenmikroskopische Untersuchung der Langerhansschen Inseln von Nutria (Myocastor coypus), mit besonderer Berücksichtigung der neuroinsulären Komplexe (1971)

Kern, H. F. ; Hofmann, H. V. ; Kern, D.

Springer

Cell & tissue research 113 (1971), S. 216-229

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ISSN: 1432-0878

Keywords: Islet of Langerhans ; Nutria ; Islet innervation ; Neuro-insular complex

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Description / Table of Contents: Zusammenfassung Das Inselorgan von Nutria (Myocastor coypus), einem wasserlebenden, pflanzenfressenden Säuger, wurde bei neugeborenen und erwachsenen Tieren licht- und elektronenmikroskopisch untersucht. 1. Bei neugeborenen Nutria ist das Inselorgan noch nicht voll ausdifferenziert, alle Stadien der Embryonalentwicklung werden angetroffen. Lichtmikroskopisch sind die Inselzellen nur spärlich granuliert; elektronenmikroskopisch gelingt der Nachweis von 2 Zelltypen nicht, da die Sekretgranula gleichartig aufgebaut sind. 2. Die Langerhansschen Inseln von erwachsenen Nutria bestehen aus gewundenen, zweizeiligen Bändern von B-Zellen, die A-Zellen liegen in der Einzahl dazwischen eingestreut. Die A∶B-Relation beträgt 1∶9. Im Feinbau ihrer Zellorganellen und Sekretgranula stimmen die Inselzellen von Nutria weitgehend mit denen des Meerschweinchens überein. 3. Die Inseln von neugeborenen und erwachsenen Tieren enthalten zahlreiche Nervenfasern und zugehörige Schwannsche Zellen, die in der Nachbarschaft der Kapillaren liegen und häufig von deren Basalmembran umhüllt sind. 4. Eine Sonderform der Zusammenlagerung von Nervengewebe und Inselgewebe stellen die neuro-insulären Komplexe, bei denen vegetative Ganglienzellen und Inselzellen in einem gemeinsamen Zellverband vereinigt sind. Die Ganglienzellen treten durch Synapsen untereinander in Verbindung, sie grenzen außerdem mit ihren Ausläufern ohne Zwischenschaltung von Bindegewebe an die Inselzellen. In dieser Grenzzone werden ebenfalls synaptische Endigungen an den Inselzellen beobachtet.

Notes: Summary The Langerhans islet organ of Nutria has been studied in the light and electron microscopes. 1. In the pancreas of new born Nutria all stages of embryonic differentiation of the islets are still encountered. The islet cells are only scarcely granulated, and ultrastructural differentiation of two types of islet cells according to the size or density of secretory granules is not yet possible. 2. The islets in adult Nutria consist of tortuous bands of B cells with A cells scattered singly among the bands. The A∶B cell number ratio is 1∶9. The fine structural appearances of the secretory granules in A and B islet cells in Nutria correspond respectively to those of A and B islet cells in the guinea pig. 3. The islets of new born and adult Nutria contain numerous nerve fibers and associated Schwann cells, which presumably are located along the islet capillaries. Synaptic contact of nerve fibers with both types of islet cells has been encountered. 4. The close association of nerve cells with islet cells and the fine structural appearance of both elements in the neuro-insular complexes is described. Different ganglionic cells are joined by axo-somatic and axo-dendritic synapses. The incidence of synaptic contacts between nerve cells and islet cells is not greater in the neuro-insular complexes than in the islets of Langerhans.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00339417

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Nanoporous aggregates of ZnS nanocrystallites (1998)

Scholz, S. M. ; Vacassy, R. ; Lemaire, L. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Applied Organometallic Chemistry 12 (1998), S. 327-335

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ISSN: 0268-2605

Keywords: zinc sulphide ; precipitation ; nanocrystallites ; nanopores ; optical transmission spectroscopy ; vibrational spectroscopy ; Raman spectroscopy ; X-ray diffraction ; transmission electron microscopy ; thermogravimetric analysis ; Chemistry ; Industrial Chemistry and Chemical Engineering

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: During the synthesis of ZnS powders by wet chemical precipitation, the formation of nanoporous spheres is observed. The powders have been investigated using thermogravimetric analysis, X-ray diffraction and optical spectroscopies. Nanopore formation can be explained by several stages of growth. The formation of nanoparticles as primary particles is followed by their agglomeration forming secondary particles. These secondary particles are monodispersed spheres with a considerable porosity, because the agglomeration of the nanoparticles is unlikely to be volume-filling. The voids or nanopores formed by this agglomeration process in the secondary particles is estimated to comprise around 35% of the sphere volume. They are mainly filled with water and the residues of the chemical reagents. Water in the pores partially reacts with ZnS and forms hydrated sulphates. The chemical reagents used for the precipitation reactions are also found to be bound to the nanocrystallite's surfaces as ligands in some cases. Depending on the reaction conditions and reagents, the agglomeration of the nanoparticles can also be modified or hindered by the use of complexing agents acting as a sterically stabilizing surface layer on the nanocrystallites. The agglomeration of nanoparticles to larger units being a general phenomenon, this use of complexing agents to control pore formation and agglomerate size should be applicable to other nanocrystalline systems. © 1998 John Wiley & Sons, Ltd.

Additional Material: 7 Ill.

Type of Medium: Electronic Resource

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