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Literature DB >> 6209253

Discrepancies between histological and physical methods for trace element mapping in the rat brain.

W J Lenglet, A J Bos, C C vd Stap, R D Vis, H Delhez, C J vd Hamer.

Abstract

This paper contains a comparison between four experimental methods for the detection of trace metals in biological tissues, e.g. autoradiography, dithizone-, Timm-staining and microPIXE (Particle Induced X-ray Emission). As research object the hippocampus of the rat was chosen and mainly the Zn-distribution in the fascia dentata has been examined. The comparison was judged on four criteria: spatial resolution, specificity, quantification and influence of the protein binding of the metal on the outcome of each method. Some additional Timm and microPIXE experiments have been performed to compare the metal concentrations for both normal and Zn-deficient rats. The Zn/Cu ratio for both kinds of rats were calculated and some striking differences in the concentrations were obtained. The Zn/Cu ratio for a normal rat was found to be about 40% higher than for a deficient one.

Entities: Chemical Species

Mesh：

Substances：
Silver
Dithizone
Zinc

Year: 1984 PMID： 6209253 DOI： 10.1007/bf00495645

Source DB: PubMed Journal: Histochemistry ISSN： 0301-5564

13 in total

10. Multi-element analysis of the rat hippocampus by proton induced X-ray emission spectroscopy (phosphorus, sulphur, chlorine, potassium, calcium, iron, zinc, copper, lead, bromine, and rubidium).

Authors: K Kemp; G Danscher
Journal: Histochemistry Date: 1979-01-22

2 in total

1. The effect of dietary zinc deficiency on the mossy fiber zinc content of the rat hippocampus. A microbeam PIXE study. Particle Induced X-Ray Emission.

Authors: J Wensink; W J Lenglet; R D Vis; C J Van den Hamer
Journal: Histochemistry Date: 1987

2. The dithizone, Timm's sulphide silver and the selenium methods demonstrate a chelatable pool of zinc in CNS. A proton activation (PIXE) analysis of carbon tetrachloride extracts from rat brains and spinal cords intravitally treated with dithizone.

Authors: G Danscher; G Howell; J Pérez-Clausell; N Hertel
Journal: Histochemistry Date: 1985

2 in total

Discrepancies between histological and physical methods for trace element mapping in the rat brain.

Review 1. Localization of transmitter candidates in the brain: the hippocampal formation as a model.

2. [Histochemistry of heavy metals; the sulfide-silver procedure].

3. The histochemical detection of zinc.

4. Heavy metal content in subdivisions of the rat hippocampus (zinc, lead and copper).

5. Zinc content in hippocampus and whole brain of normal rats.

6. Histochemical indications for lysosomal localization of heavy metals in normal rat brain and liver.

7. Histochemical demonstration of heavy metals with the sulfide-silver method. A methodological study.

8. Zinc dithizonate staining in the cat hippocampus: relationship to the mossy-fiber neuropil and postnatal development.

9. Membrane bound pituitary metalloendopeptidase: apparent identity to enkephalinase.

10. Multi-element analysis of the rat hippocampus by proton induced X-ray emission spectroscopy (phosphorus, sulphur, chlorine, potassium, calcium, iron, zinc, copper, lead, bromine, and rubidium).

1. The effect of dietary zinc deficiency on the mossy fiber zinc content of the rat hippocampus. A microbeam PIXE study. Particle Induced X-Ray Emission.

2. The dithizone, Timm's sulphide silver and the selenium methods demonstrate a chelatable pool of zinc in CNS. A proton activation (PIXE) analysis of carbon tetrachloride extracts from rat brains and spinal cords intravitally treated with dithizone.