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Showing 4 results for Health Risk Assessment
Concentration of potentially toxic elements in black tea imported to Iran: a potential risk assessment study
Gholamali Javedan, Hamid Reza Ghaffari, Zoha Heidarinejad, Nahid Zeraei, Somayeh Hoseinvandtabar, Fateme Pourramezani, Mehrdad Ahmadi,
Volume 15, Issue 1 (4-2022)
Abstract
Background and Objective: The aim of this study was to investigate the concentration of potentially toxic elements (arsenic, lead, copper, cadmium and mercury) in black tea imported to southern Iran and to assess the risk of carcinogenic and non-carcinogenic exposure to consumers.
Materials and Methods: For this purpose, 94 samples of black tea from 15 brands imported from India in 2021 were selected. Heavy metals concentrations were measured using an atomic absorption spectrometer (GBC model SAVANTAA). After determining the concentration of heavy metals in black tea samples, health risk assessment was determined using Montocarlo simulation technique.
Results: According to the results, the average concentrations of heavy metals namely arsenic, lead, copper, cadmium and mercury were 0.03±0.02, 0.02±0.16, 15.67±7.69, 0.02±0.01 and 0.006±0.005 mg/kg, respectively. The hazard quotient (HQ) of the heavy metals arsenic, lead, copper, cadmium and mercury were 1.07×10-2, 6.37×10-3, 3.45×10-5, 2.05×10-2 and 7.19×10-4, respectively.
Conclusion: Therefore, according to the findings, it can be concluded that the concentrations of potentially toxic elements (arsenic, lead, copper, mercury and cadmium) in black tea were consistent with the standard level of Iran and World Health Organization. Additionally, the average carcinogenic risk index for arsenic metal was 4.49×10-6, which is much lower than the acceptable level of carcinogenic risk (10-6). Therefore, the concentrations of five potentially toxic elements in the studied black tea did not show any significant risk for consumers.
 

Risk assessment of exposure to heavy metals (Pb, Cd, Cr, and Ni) in the hazardous solid wastes identified in the wastewater treatment plant of industrial city
Hamid Kariab, Mohammad Mehdi Emamjomeh, Sheida Zakariaie,
Volume 15, Issue 4 (3-2023)
Abstract
Background and Objective: Due to the presence of heavy metals (HMs), sludge produced in industrial wastewater treatment plants (WWPT) is classified as special waste and can cause adverse health effects. The present study aimed to identify special wastes and assess the risk associated with the presence of HMs in the sludge of WWTP from an Industrial City.
Materials and Methods: Identifying the special wastes was conducted using a checklist, and classification was performed in accordance with the Basel Convention. Ecological risk assessment was done by determining the geo-accumulation and ecological indexes. The estimation of health risk was done by determining HQ and ELCR indexes.
Results: The highest amount of special waste was allocated to sludge with a value of 3900.0 kg/month. Chromium was detected in the highest concentration (95.89 ± 52.15 mg/kg). The level of chromium and nickel pollution was evaluated in the low range, and cadmium was very severe. The ecological risk of lead was estimated in a significant range and was very high for cadmium. The HQ was less than 1, and the ELCR for inhalation and dermal exposure was estimated to be lower than the acceptable risk level of WHO.
Conclusion: The present study showed that the largest amount of special waste is dedicated to sludge. Although the concentration of  HMs was lower than the acceptable limits, the sludge had a high ecological risk level. Therefore, the accumulation and transfer of sludge must be carried out under the provisions of the Basel Convention and environmental considerations.

Determining the amount of pesticides and toxins in drinking and agricultural water resources and health risks assessment: a case study of Fasa city, Iran
Ehsan Aghayani, Azizallah Dehghan, Navid Alinejad, Malihe Amiri,
Volume 17, Issue 4 (3-2025)
Abstract
Background and Objective: Monitoring pesticide concentrations in drinking water resources is crucial for enhancing water quality and public health. Therefore, periodic assessments of pesticide levels in these resources are essential to safeguard consumer health.
Materials and Methods: This study aimed to assess the concentrations of six pesticides—malathion, diazinon, glyphosate, paraquat, deltamethrin, and cypermethrin—in agricultural water resources as well as in urban and rural water distribution networks in Fasa city in 2023. Pesticide levels were monitored in 25 drinking water samples and 6 agricultural water samples.
Results: The results show that pesticide concentrations are higher in agricultural water compared to drinking water and distribution networks. Specifically, the concentrations of malathion and diazinon in agricultural water resources are significantly higher than in drinking water, with levels potentially up to eight times greater. The total risk index for samples from agricultural water sources ranges from 0.89 to 1.36, indicating a comparable risk to that of drinking water.
Conclusion: The health risk assessment of malathion, diazinon, glyphosate, paraquat, deltamethrin, and cypermethrin in drinking water resources suggests no immediate threat to public health. However, due to the elevated pesticide levels in agricultural water resources, ongoing monitoring of water sources near agricultural areas is recommended.
 

Assessment of cancer and non-cancer health risks associated with exposure to black carbon particles in the ambient air of Tehran city
Somayeh Alizadeh Attar, Alireza Pardakhti, Khosrow Ashrafi, Mohammad Sadegh Hassanvand,
Volume 18, Issue 1 (5-2025)
Abstract
Background and Objective: Black carbon is a byproduct of the incomplete combustion of fossil and biomass fuels. Long-term exposure to black carbon has been linked to an increased risk of lung cancer and cardiovascular diseases. This study aims to evaluate the carcinogenic and non-carcinogenic risks associated with black carbon exposure in the ambient air of Tehran.
Materials and Methods: Hourly black carbon concentrations were collected from the air quality monitoring stations operated by Tehran's Air Quality Control Company and averaged to calculate annual means for 2021, 2022, and 2023. The risk assessment for black carbon exposure in Tehran was conducted using the US EPA model.
Results: The findings reveal that in Tehran, the carcinogenic risk index (CR) due to black carbon exposure in ambient air is higher for adults than for children. The non-carcinogenic risk quotient (HQ) for both age groups remains below the threshold value of one, indicating a low and negligible non-carcinogenic risk. However, children demonstrate a higher HQ compared to adults. The lifetime cancer risk associated with black carbon exposure is calculated to be 1.4 × 10-3, while the annual cancer risk is estimated at 0.02 × 10-3.
Conclusion: The results indicate that the carcinogenic risks associated with black carbon exposure exceed acceptable levels for both adults and children. Adults face a cancer risk six times greater than children, though the non-carcinogenic risk is assessed as low. Reducing black carbon emissions is critical for improving public health in traffic-congested cities, and further research on this topic is strongly recommended.
 

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