E Hienzsch scite author profile

E Hienzsch

5Publications

22Citation Statements Received

5Citation Statements Given

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Friedrich Schiller University Jena

Publications

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Scanning Electron Microscope and Microprobe Investigation of Phosphate Phases in Uroliths

Hesse¹,

Lange²,

Berg³

et al. 1979

Urol Int

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In uroliths various phosphate phases can be detected which indicate different formation conditions. Structure and topography of the respective phosphate phases are characterized by scanning electron microscopy and microprobe techniques. Trace element enrichment is investigated and illustrated; for example, sulfur is found preferentially in carbonate apatite. From the distribution of the phosphate phases, conclusions can be drawn concerning the urolith genesis.

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A contribution to the formation mechanism of calcium oxalate urinary calculi

et al. 1976

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In vitro investigations of the formation of Whewellite or Weddellite are described. By means of different precipitation models the influence of cationic minerals on the formation of Weddellite could be observed. The possible conversion of Weddellite into Whewellite in vivo is demonstrated by in vitro experiments. A theory of the formation of Weddellite or Whewellite urinary calculi is developed on the basis of the results obtained.

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New Aspects in Combined Treatment of Urinary Bladder Carcinoma

Albert¹,

Arndt²,

Hienzsch³

et al. 1975

Eur Urol

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Mass Spectrométrie Trace Element Analysis of Calcium Oxalate Uroliths

Hesse

Berg

et al. 1977

Eur Urol

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A contribution to the formation mechanism of calcium oxalate urinary calculi

et al. 1979

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Rabbits were given glyoxylic acid to induce intrarenal calcium oxalate crystal formation. The point of crystallisation in the renal tubule, the structure and the composition of the intrarenal crystals were studied. The initial crystallisation takes place in the proximal tubule. Calcium phosphate formation was excluded by microprobe examination. The comparison of the structures of the intrarenally formed crystals with those of Whewellite stones by scanning electron microscopy and the examination of isolated crystals by x-ray diffraction showed the intratubular crystals to consist of Whewellite.

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E Hienzsch

Scanning Electron Microscope and Microprobe Investigation of Phosphate Phases in Uroliths

A contribution to the formation mechanism of calcium oxalate urinary calculi

New Aspects in Combined Treatment of Urinary Bladder Carcinoma

Mass Spectrométrie Trace Element Analysis of Calcium Oxalate Uroliths

A contribution to the formation mechanism of calcium oxalate urinary calculi

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