Abstract
The role of age and concomitant exposure to trace elements on Wistar rats was investigated in this study. Fifteen 12 weeks old rats divided into groups A, B and C, and fifteen 36 weeks old rats divided into groups D, E and F were acclimatised for 2 weeks. Groups A and D served as the control groups and were administered distilled water. Groups B and E were administered 1 mL each of 5 ppm, while groups C and F were administered 1 mL each of 10 ppm of lead, cadmium, copper and zinc solutions daily for 1 week. Rats were sacrificed by cervical dislocation and the harvested cerebrum was digested in HNO3 and HClO4. Quantification of metals was done using Flame Atomic Absorption Spectrophotometer. A 5 µm thick paraffin section of the cerebrum obtained at the level of the optic chiasma was stained with H&E and evaluated. Zinc concentration was markedly reduced while cadmium and lead concentrations were increased in both experimental groups across the age groups in a dose-dependent fashion. Copper concentration was reduced in rats with 5 ppm exposure while in those with 10 ppm exposure it was similar to the control. Pyknotic glial cells were more and widespread in the younger rats but few and restricted to the mid-cortical region in older rats. Early neuronal necrosis was widespread in older rat group but restricted to internal granular layer in young rats. Central neuronal chromatolysis was noted in both groups of younger rats but restricted to the 5 ppm group of older rat group. Cerebral concentration of zinc was reduced in cadmium and lead exposure. Glial cells pyknosis were widespread in older rats, but early neuronal necrosis was more widespread in younger rats, showing that the cellular effect of heavy metal is age dependent.
Highlights
Some of the oldest cases of heavy metal induced health problems in the world, starting from ancient civilizations, were caused by both natural and anthropogenic activities such as mining, smelting, combustion of coal and mineral oils, alloy processing and paint making (Alloway and Jackson, 1991; Cunningham,1995)
The percentage relative standard deviation (%RSD) values of between 2.98 and 5.29% obtained for the heavy metals concentrations in the brain tissues showed that precision was better than 10% RSD level
Zinc, Lead and Cadmium were detected in the brain tissues of both the control and experimental rat groups to an appreciable levels implying that the brain tissues contained background levels that could have come through the parents of the rats or from their feeds
Summary
Some of the oldest cases of heavy metal induced health problems in the world, starting from ancient civilizations, were caused by both natural and anthropogenic activities such as mining, smelting, combustion of coal and mineral oils, alloy processing and paint making (Alloway and Jackson, 1991; Cunningham,1995). Improvements in food production and processing technology had increased the chances of contamination of food with various environmental pollutants, especially heavy metals. Essential as well as non-essential elements are known to cause morphological abnormalities, reduced growth, impairment and dysfunction of the cardiovascular, endocrine, gastro-intestinal, immune, central and peripheral nervous systems. Such elevation increase allergic reactions, cause genetic mutation, compete with essential trace metals for biochemical bond sites thereby disrupting the trace elements metabolism (Pier 1975; Baykov et al, 1996; Garry, 2001; Lo'pez-Alonso et al, 2002).
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