abstracts

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Here's one that struck me

Theresa.....http://www.geocities.com:0080/ResearchTriangle/2888/micro18.html

Chronic Effects of Mercury on Organisms:

Morphological changes in organs and tissues affected by mercury

NOTE: These are notes are incomplete.

Please refer to the original for scientific research.

MORPHOLOGICAL CHANGES IN ORGANS AND TISSUES AFFECTED BY MERCURY

Summary only

First of all, the data indicate that even very low mercury concentrations in

organs and tissues produce pathological changes of different intensity. On

the whole these changes are reversible and only in special cases is there

irreversible destruction. The latter is definitely connected with individual

sensitivity, the duration of total exposure and the respective mercury

concentration in the organs and tissues. Pathomorphological changes develop

first in and are most damaging to the depot organs.

As a rule, low mercury concentrations are associated with dystrophic changes

in the neurons of the brain (primarily in the cortex) and also a thickening

and thinning of the basic argyrophilic substance. Under the later influence

of mercury dystrophic changes appear (granular, vacuole, fatty), seldom

necrobiotic, in the liver, kidneys myocardium, thyroid and adrenal glands.

By the end of the experiment morphological changes in the internal organs

were more highly developed and hemodynamic and dystrophic disorders were

accompanied by necrosis and neurotic disturbance.

Low mercury concentrations often produce these changes without visible

evidence of micromercurialism - on a background of apparent health. This

agrees with the data of Ye. I. Makovshaya, S. G. Serebryanaya, Ye. A.

Antonovich (1962).

Prolonged exposure to mercury inhibits protein resynthesis, depresses the

reactive capacity of protein molecules, inactivates free SH- groups of cell

proteins. Naturally, these disruptions of protein metabolism must be

reflected in morphological changes. Dystrophic changes in organs and tissues

are a consequence of metabolic disturbance.

Observations of organs and tissues of animals subjected to the prolonged

action of low mercury concentrations, hemodynamic disruption and vascular

changes, evidently, are caused by trophic destruction and lead to the

development of hypoxia.

On the basis of the preceding studies and comparison of our results with

literature data, it becomes evident that the dynamics of pathological

changes arising during micromercurialism play as crucial role as CNS and

consequent vascular disorders with the appearance of hypoxia, thus the

effect of mercury on the cardiovascular system, especially, on vascular

permeability applies to all organs and tissues. Apparently, both indicated

mechanisms are closely linked and mutually effect one another in the course

of forming in the organism, affected by mercury, of corresponding

morphological disorders.

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