F.-H. Güldner scite author profile

A silver method is proposed for the selective, well-contrasted and reproducible demonstration of "dark" neurons in frozen, vibratome and paraffin sections cut at a thickness of 5 to 200 microns from aldehyde-fixed brains. The Golgi-like staining of the dendrites enables assorting of "dark" neurons according to characteristic neuron classifications. The staining procedure includes an esterification with 1-propanol, a treatment with diluted acetic acid and development. The esterification strongly increases the argyrophilia of both "dark" neurons and mitochondria. Unwanted co-staining of mitochondria is suppressed by the acetic acid treatment, while a special developer is used to render the staining controllable. The applicability of the method to experimental neuropathology is demonstrated by Golgi-like staining of "dark" neurons in rat brains exposed, before transcardial perfusion-fixation and delayed autopsy, to various pathological conditions including ischemia, hypoglycemia, trauma, status epilepticus, deafferentation and poisoning with kainic acid, colchicine and sodium azide, respectively.

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Numbers of neurons and astroglial cells in the suprachiasmatic nucleus of male and female rats

Güldner

1983

Exp Brain Res

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The suprachiasmatic nucleus (SCN) of male and female rats contains about 180,000 neurons per mm3 tissue. As the volume of the SCN (unilaterally) does not exceed 0.064 mm3 in the present preparation it is assumed to contain between 11,000 and 12,000 neurons. The astroglia: neuron ratio is approximately 1:3. The number of neurons and glial cells were obtained by a new approach measuring the areal density of the nuclei on micrographs and their mean volume from three-dimensionally reconstructed nuclei in serial thick sections. Neuronal nuclei tend to be smaller in SCN of male rats, but contain relatively more nucleoli than neuronal nuclei in SCN of female rats.

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Increase in postsynaptic density material in optic target neurons of the rat suprachiasmatic nucleus after bilateral enucleation

Güldner

Ingham

1980

Neuroscience Letters

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Synaptology of the rat suprachiasmatic nucleus

Güldner

1976

Cell Tissue Res.

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Within the suprachiasmatic nucleus (SCN) of the rat the fine structure of the synapses and some features of their topological arrangement were studied. Five types of synapses could be distinguished with certainty: A. Two types of Gray-type-I (GTI) or asymmetrical synapses (approximately 33%). The presynaptic elements contain strikingly different types of mitochondria. Size of clear vesicles: approximately 450 A. Synapses with subjunctional bodies often occur, among these also "crest synapses". Localization: dendritic shafts and spines, rarely somata. B. Three types of Gray-type-2 (GTII) or symmetrical synapses (approximately 66%):1) Axo-dendritic and -somatic (=AD) synapses. Size of clear vesicles: approximately 500 A. 2) Invaginated axo-dendritic and -somatic (=IAD) synapses with club-like postsynaptic protrusions within the presynaptic elements (PreE1). Size of clear vesicles is very variable: approximately 400-1,000 A. 3) Dendro-dendritic, -somatic and somato-dendritic (=DD) synapses occurring at least partly in reciprocal arrangements. They represent an intrinsic system. Shape of clear vesicles: often oval; sucrose treatment partly produces flattening. Dense core-vesicles (dcv) are found in all GTII- and most of the GTI-synapses after three-dimensional reconstruction. All types of synapses (mostly GTII-synapses) can be enclosed by multilamellar astroglial formations. The synapses often occur in complex synaptic arrangements. Dendrites and somata of females show significantly more multivesiculated bodies than those of males. Further pecularities of presynaptic (PreELs) and postsynaptic elements (PostELs) within the SCN are described and discussed.

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F.-H. Güldner

Golgi-like demonstration of ?dark? neurons with an argyrophil III method for experimental neuropathology

Numbers of neurons and astroglial cells in the suprachiasmatic nucleus of male and female rats

Increase in postsynaptic density material in optic target neurons of the rat suprachiasmatic nucleus after bilateral enucleation

Synaptology of the rat suprachiasmatic nucleus

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