Determination of radon concentration and heavy metals [Ni, Pb, Cd, As, Cr] in drinking and irrigated water sampled from Kulim, Malaysia

Background: the presence of heavy metals and radon in water are considered as a potential threat to public health. Modern day industrialization has led to increase pollutants in ecosystem whilst the main source of public radiation exposure, especially exposure from radon, is caused by portable water. This study aimed to estimate the health risk related to radon concentration and heavy metals in drinking and irrigated water

Materials and Methods: water samples, from different sources, were collected from Kulim, Malaysia and analyzed for radon and heavy metals using RAD7 and Atomic Absorption Spectrometry

Results: results showed that the maximum average value of radon concentration [16.06 +/- 1.7] Bq/l was found in well water used for drinking and irrigation. Minimum average value of radon concentration [2.65 +/- 0.33] Bq/l was found in tap water used for drinking purpose. From the measured radon concentrations, age dependent associated annual effective doses and contribution of radon in drinking water to indoor air was calculated which were found below the lower limit of recommended action level. Metal concentrations were found higher in stream and lake waters used for irrigation, compared to well and tap waters. The average daily intake of drinking water and health risk indices were found higher for infants and lower for children and adults

Conclusion: radon concentrations in well, stream and lake waters were found higher than EPA recommended level and lower than WHO action level while the annual effective doses and level of heavy metals in water reported in this study were found lower than recommended levels

Diabetes and adenosine triphosphatase: the effects of insulin, thyroxin and inhibitors on atpase

The enzyme ATPase was obtained from liver mitochondria of normal [N] and alloxan diabetic [D] rabbits. Results of the present study show that diabetes inhibited DNP-stimulated ATPase activity [40%].Insulin had no effect on the enzyme activity in N rabbits, but restored it to normal level in D animals. Thyroxine administered in vivo increased ATPase activity in both N [55%]and D [50%] rabbits. However, thiouracill given orally decreased enzyme activity in N [45%] and in D [32%] rabbits, but the enzyme activity is restored to normal level after treatment with thyroxine. The effect of some inhibitors of adenine nucleotide translocase on ATPase were carried out, it was found that, the enzyme activity is inhibited in N and D rabbits by sulfobromophthalein [I [50]; N = 12,D = 6 n mol/mg protein]; agaric acid [I[50]; N > 40,D = 25 n mol/mg protein]; hexachlorophene, 12 n mol/mg protein inhibited the enzyme activity [47% in N and 28% in D]. However, 2-p-chlorophenyl-4 [3,4-dihydroxy-phenyl]- thiazole is a weak inhibitor