Health Risk Assessment of Inorganic Arsenic Through Groundwater Drinking Pathway in some Agricultural Districts of Hamedan, West of Iran

Soheil Sobhanardakani *

Cited by CrossRef: 8

1- Hosseini N, Sobhanardakani S, Cheraghi M, Lorestani B, Merrikhpour H. Expansive herbaceous species as bio-tools for elements detection in the vicinity of major roads of Hamedan, Iran. Int J Environ Sci Technol. 2022;19(3):1611 [Crossref]

2- Hoang H, Chiang C, Lin C, Wu C, Lee C, Cheruiyot N, Tran H, Bui X. Human health risk simulation and assessment of heavy metal contamination in a river affected by industrial activities. Environmental Pollution. 2021;285:117414 [Crossref]

3- Hammood M, Chamani A, Sobhanardakani S. Health risk assessment of heavy metal exposure from indoor dust: A case study of residential buildings in Isfahan, Iran. Environ Health Eng Manag. 2024;11(1):39 [Crossref]

4- Sepahvand A, Farhadi M, Mohammadi M, Bayat M, Falahi B, Ghanizadeh F, Koshki Nasab F, Reshadatian N, Maleki R, Farhadi A, Dalvand N, Neisi M. A Review of the Effect of Drinking Water Contaminated with Arsenic on Liver Cancer. Avicenna J Environ Health Eng. 2024;11(1):47 [Crossref]

5- Akbarimorad S, Bolonio Martín D, Sobhan Ardakani S. Concentrations, source identification and environmental risk assessment of potentially hazardous elements in agricultural soils of Hamedan, west of Iran. International Journal of Environmental Analytical Chemistry. 2024;:1 [Crossref]

6- Rahmani A, Khamutian S, Doosti-Irani A, Shokoohizadeh M, Razdari R, Niksiar S. Association between Arsenic Concentration of Groundwater and Mortality from Leukemia and Urological Cancers in the Northwest of Iran. 2023;12(5) [Crossref]

7- Maanijou M, Poursheikhi E, Ramezani T. Estimation of arsenic background concentration in stream sediments in Zia-Abad area (NW Iran). Environ Monit Assess. 2020;192(3) [Crossref]

8- Rivera-Hernández J, Green-Ruiz C, Pelling-Salazar L, Flegal A. Monitoring of As, Cd, Cr, and Pb in Groundwater of Mexico’s Agriculture Mocorito River Aquifer: Implications for Risks to Human Health. Water Air Soil Pollut. 2021;232(7) [Crossref]

9- Sobhanardakani S, Hosseini N. A Monte Carlo Simulation-Based Ecological and Health Risks Assessment of Trace Elements in Soils of City of Hamedan, West of Iran. Soil and Sediment Contamination: An International Journal. 2025;:1 [Crossref]

10- Ma L, Xu H, Xie Q, Chen N, Yu Q, Li C. Mechanism of As(V) adsorption from aqueous solution by chitosan-modified diatomite adsorbent. Journal of Dispersion Science and Technology. 2022;43(10):1512 [Crossref]

11- Shokoohi R, Khazaei M, Mostafaloo R, Khazaei S, Signes-Pastor A, Ghahramani E, Torkshavand Z. Systematic review and meta-analysis of arsenic concentration in drinking water sources of Iran. Environ Geochem Health. 2024;46(5) [Crossref]

12- Khalijian A, Lorestani B, Sobhanardakani S, Cheraghi M, Tayebi L. Ecotoxicological Assessment of Potentially Toxic Elements (as, Cd, Ni and V) Contamination in the Sediments of Southern Part of Caspian Sea, the Case of Khazar Abad, Mazandaran Province, Iran. Bull Environ Contam Toxicol. 2022;109(6):1142 [Crossref]

13- Amjadian H, Sobhan Ardakani S. Assessment of Potentially Toxic Element Pollution in Groundwater Resources Using MI and PoS Indices (Case Study: City of Sonqor). jehe. 2023;10(2):146 [Crossref]

14- Marufi N, Oliveri Conti G, Ahmadinejad P, Ferrante M, Mohammadi A. Carcinogenic and non-carcinogenic human health risk assessments of heavy metals contamination in drinking water supplies in Iran: a systematic review. 2024;39(1):91 [Crossref]

15- Baigorria E, Cano L, Sapag K, Alvarez V. Removal efficiency of As(III) from aqueous solutions using natural and Fe(III) modified bentonites. Environmental Technology. 2022;43(24):3728 [Crossref]