ABSTRACT
Study Background: Lead
continues to be a significant public health problem in developing countries, where there are considerable variations in the sources and pathways of exposure. Aim: This study investigates the level
of lead in drinking water sources in Shomolu, Yaba and Bariga areas of Lagos
State, Nigeria and the human risk exposure using a mice model. Materials and
Methods: Water samples were collected in public water sources (borehole,
sachet water, bottle water and tap water) and analyzed for lead using Flame
Atomic Absorption Spectrophotometer (Varian model-AA240FS) equipped with a lead
hollow cathode lamp. Contamination factor was determined. Healthy Mature female
albino-mice, weighing 25.3 ± 2.5 g
were exposed to the contaminated drinking water for 28 days to the different
concentrations of lead nitrate: 1
mg/l, 10 mg/l, 50 mg/l, 500 mg/l and 1000 mg/l. Blood and liver were collected
for hematology liver function test and histopathology. Results: Lead
concentrations in
public water sources in Shomolu, Bariga and Yaba areas of Lagos State were
below 5.0 μg/l
and contamination factor were less
than 1.0. At 1.0 mg/l (1000 μg/l)
Lead exposure, the relative weight increase in this group (as compared to the
controlled group) was very slow, up to the 14th day (with weight
loss of 3.17 g and
relative weight loss of 23.1%), then increased up to the 28th day
(with weight loss of 7.34 g, and
relative weight gain of 18.4%). At 50.0 mg/l Lead exposure, there was a rapid
weight decrease, a greater relative weight loss was experienced at the 14th day (weight gain, 1.36 g and
67.0% relative weight loss), then there was weight recovery at the 28th day (weight gain of 4.60 g,
25.8% relative weight loss). The 100.0 mg/l Lead exposed group showed steady
decrease in weight, 14th day had a weight gain of 2.02 g and relative weight loss of 51.0% while the 28th day had 2.10 weight gain and 66.1% weight loss respectively. In the 500.0 mg/l
Lead exposure group, a similar trend was observed as with 1.0 mg/l and 50 mg/l
Lead exposures, showing greater weight loss at the 14th day (2.14 g and 151.9% weight loss), as compared to the 28th day exposure (1.36 g and
121.9% weight loss respectively). Alanine aminotransferase (ALT) and Akaline
phosphatase (ALP) in the control group increased with time, but these had a different trend in the exposed groups. The RBC
decreased with increase in concentrations from 1.0 mg·l to 50.0 mg/l Lead exposures, after which it increases at
100.0 mg/l,
500.0 mg/l
and 1000 mg/l.
The highest RBC was noticed at the highest exposure concentration at the 28th day with RBC, much higher than the control. The highest WBC was noticed at the
highest exposure concentration at the 28th day with WBC, 8.77 ± 2.36 (×109/L) (p < 0.05). The 28th day, 100.0 mg/L
exposed mice’s liver had cellular vacuolization and mild necrosis. At 14th and 28th day of exposure, the 500.0 mg/L and 1000.0 mg/L exposed
mice had significant liver pathological alterations including the presence of
polymorphic nuclei, blood vessel congestion, cellular vacuolization and severe
necrosis. Conclusion: Lead induces hematological disturbances, liver
histological alterations and change in weight in mice. These become obvious as
exposure concentration increases with time. Continuous monitoring of municipal
water pipeline reticulation should be ensured to prevent incidence of seepage
of toxicants such as lead into domestic water sources.