Über die Kerngebiete des menschlichen Hirnstammes

@article{Braak2004berDK,
  title={{\"U}ber die Kerngebiete des menschlichen Hirnstammes},
  author={Heiko Braak},
  journal={Zeitschrift f{\"u}r Zellforschung und Mikroskopische Anatomie},
  year={2004},
  volume={122},
  pages={145-159}
}
  • H. Braak
  • Published 2004
  • Zeitschrift für Zellforschung und Mikroskopische Anatomie
SummaryThe three dimensional shape of the nucleus reticularis lateralis, nucleus interfascicularis hypoglossi, the nucleus of Roller and a hitherto unknown cellular layer (Repagulum cuneati) is described on the basis of 800 μ sections, which are stained with aldehydefuchsin. By this method lipofuscin granules in the nerve cells are stained selectively. The stereomicroscopical investigation of the sections can replace time consuming reconstructions.The nucleus reticularis lateralis is divided… 
3 Citations

Über die Kerngebiete des menschlichen Hirnstammes

  • H. Braak
  • Zeitschrift für Zellforschung und Mikroskopische Anatomie
  • 2004
SummaryBy means of a newly developed method for the demonstration of neurolipofuscines the distribution of pigments in the dorsal glossopharyngeus-vagus-complex is described.Since apart from few

On the structure of the human archicortex

  • H. Braak
  • Biology
    Cell and Tissue Research
  • 2004
A new technique utilizing the successive examination of both the Golgi and the pigment picture of individual neurons allows a clear determination of the cell types by distinguishing characteristics of the pigment deposits, and allows to separate unequivocally the pyramids from the various types of stellate cells.

The morphology of lipopigment granules in oligodendrocytes of the cerebellum and spinal cord and in Schwann cells of theN. ischiadicus of the cat, Japanese waltzing mouse, and albino mouse

The structure of these granules is distinct from that found in nerve cells and other glial cells and allows the diagnosis of oligodendrocyte or Schwann cell in cerebellum and spinal cord and in the Schwann cells of peripheral nerves of cat, albino mouse, and Japanese waltzing mouse lipopigment bodies.