Heavy metal contamination of cooked foods hawked at Chuka town in Tharaka Nithi County, Kenya

Background: Contamination of cooked foods with heavy metals is an emerging global concern, particularly due to the associated health outcomes and economic considerations. These chemicals are introduced into cooked foods mainly through poor food handling practices and sometimes from their natural milieu such as soil, water, or air. Methods: This was a descriptive cross-sectional study. The study analysed 151 food samples collected from 151 hawkers of cooked foods in Chuka town. The samples were analysed for lead, cadmium, and copper using an atomic absorption spectrophotometer (AAS) assisted by closed microwave digestion. Results: The concentration of lead in the food samples ranged from ?0.001 to 0.7 mg/kg with a mean of 0.207±0.16, cadmium ranged from ?0.001 to 0.933 with a mean of 0.105±0.195, while copper ranged from ?0.001 to 2 mg/kg with a mean of 0.461±0.456. The recorded levels of copper were below the maximum allowable limits in all the food samples. However, 57 (37.7%) and 44 (29.1%) food samples were contaminated with lead and cadmium, respectively. Overall, more than half 86 (57%) of the hawked-cooked foods were contaminated with either lead, cadmium, or both lead and cadmium. Conclusions: Cooked foods hawked at Chuka town are contaminated with either lead, cadmium, or both lead and cadmium. The County government of Tharaka Nithi to champion interventions on preventing the sale of contaminated cooked foods.

Growth and cadmium and nickel uptake of maize (Zea mays L.) in a cadmium and nickel co?contaminated soil and phytoremediation efficiency using ethylenediamine tetraacetic acid

Background: Anthropogenic activities release cadmium (Cd), nickel (Ni), and other heavy metals into soil. Zea mays can clean up contaminated soils, but little is known about how Cd and Ni co-contamination stress affects ethylenediamine tetraacetic acid (EDTA)-based phytoextraction and phytoremediation, hence this study was conducted. Methods: The experiment involved nine treatment levels (0, 5, 10, 15, and 20 mg kg-1 Cd and 0, 15, 30, 45, and 60 mg kg-1 Ni), grouped into three categories: CT as the control group, P as Cd + Ni only, and CAP as Cd + Ni + EDTA (n=3). The treatments used (CH3COO)2Cd•2H2O and NiSO4 as the source of Cd and Ni, respectively, and EDTA was applied at two rates (0 and 0.5 g/kg). After the experimental period, measurements were taken for shoot length, biomass, and metal concentrations in both the roots and shoots using established procedures. Results: The concentrations of metals in plants' roots and shoots increased as the concentrations in soil increased, but shoot length, biomass, bioconcentration factor (BCF), and translocation factor (TF) values decreased with increasing soil metal content. The application of EDTA increased metal uptake but led to greater root and shoot biomass loss. Generally, TF values for Cd and Ni were less than 1 but most of the BCF values were greater than 1. Conclusions: The study found that phytostabilization is the main mechanism for phytoremediation of Cd-Ni-co-contaminated soils with Zea mays, with EDTA addition enhancing metal accumulation and reducing biomass yield.

Relationship between metal exposure and blood pressure in rural primary school students in Shiyan City, Hubei Province / 中国学校卫生

@#To explore the relationship between metal exposure level and blood pressure, so as to provide a scientific basis for verifying the relationship between metal exposure and elevated blood pressure among primary school students.@*Methods@#In July 2022, a total of 555 students of second to sixth grade were selected by cluster random sampling method from two primary schools in Zhuxi County, Shiyan City, Hubei Province. A questionnaire survey was conducted to obtain the socio demographic characteristics and living habits of the participants. The height, weight, body mass index(BMI) and blood pressure were obtained by physical examination. At the same time, the urine of the subjects was collected, and the metal mass fraction in urine was detected by inductively coupled plasma mass spectrometry. The relationship between metal mass fraction in urine and blood pressure was analyzed by generalized linear regression.@*Results@#The detection rate of elevated blood pressure in primary school students was 15.86% , and there was a statistically significant difference in the detection rate of elevated blood pressure among obese primary school students (yes:37.25%,no:13.69%, χ 2=19.28, P <0.01).There were statistically significant differences in BMI[15.80( 14.69 ， 17.92 )，17.87(15.49，20.89)kg/m 2] between the non elevated blood pressure group and the elevated blood pressure group of elementary school students ( Z =-4.67, P <0.01). The geometric mean mass fraction of zinc in urine was the highest ( 6 942.86 μg/g), titanium was the lowest (2.20 μg/g). Zinc and lead were positively correlated with elevated systolic blood pressure( β = 0.054 , 0.014), zinc and cadmium were positively correlated with elevated diastolic blood pressure ( β =0.038,0.029) ( P <0.05).@*Conclusions@#Metal zinc, lead and cadmium concentration are associated with elevated blood pressure. It is necessary to intervene and control the exposure of zinc, lead and cadmium in the environment to promote the blood pressure health of primary school students.

Correlation between 23 metals and metalloids elements in the urine and thyroid function of traffic police / 公共卫生与预防医学

Objective To investigate the correlation between 23 metals and metalloids elements in the urine and thyroid function indicators in the blood of traffic police. Methods A cross-sectional study was performed to assess the effects of 23 metals and metalloids elements in the urine on blood thyroid function indicators in 166 traffic policemen (122 field staff and 44 internal staff) in Wuhan, Hubei Province. Each subject received an occupational health examination. Results After multiple corrections for false detection rates, in the polymetallic model, the levels of urinary manganese and urinary uranium were positively correlated with the levels of thyroid peroxidase antibody (TPOAb) in the blood (β = 66.57, 95% CI 2.92-130.22, P = 0.040 and β = 62.43, 95% CI 14.37-110.49, P = 0.011), and the level of urinary uranium was positively correlated with thyroid stimulating hormone (TSH) levels in the blood (β = 6.20, 95% CI 2.68-9.72 , P = 0.001). Urinary uranium level was negatively correlated with free thyroxine level in the blood (FT4) (β = -2.03, 95 % CI (-3.67 )- (-0.39), P = 0.015), and urinary lead level was negatively correlated with blood TSH level (β = -4.59, 95% CI (-8.67) - (-0.51), P = 0.027). Conclusion Manganese exposure is related to the increase of TPOAb level in blood, uranium exposure is related to the increase of TPOAb and TSH levels and the decrease of FT4 level in blood, and lead exposure is related to the decrease of TSH level in blood, suggesting that more attention should be paid to the effects of heavy metals on the thyroid of traffic police.

Correlation between Combined Urinary Metal Exposure and Grip Strength under Three Statistical Models: A Cross-sectional Study in Rural Guangxi / 生物医学与环境科学（英文）

OBJECTIVE@#This study aimed to investigate the potential relationship between urinary metals copper (Cu), arsenic (As), strontium (Sr), barium (Ba), iron (Fe), lead (Pb) and manganese (Mn) and grip strength.@*METHODS@#We used linear regression models, quantile g-computation and Bayesian kernel machine regression (BKMR) to assess the relationship between metals and grip strength.@*RESULTS@#In the multimetal linear regression, Cu (β = -2.119), As (β = -1.318), Sr (β = -2.480), Ba (β = 0.781), Fe (β = 1.130) and Mn (β = -0.404) were significantly correlated with grip strength ( P < 0.05). The results of the quantile g-computation showed that the risk of occurrence of grip strength reduction was -1.007 (95% confidence interval: -1.362, -0.652; P < 0.001) when each quartile of the mixture of the seven metals was increased. Bayesian kernel function regression model analysis showed that mixtures of the seven metals had a negative overall effect on grip strength, with Cu, As and Sr being negatively associated with grip strength levels. In the total population, potential interactions were observed between As and Mn and between Cu and Mn ( P interactions of 0.003 and 0.018, respectively).@*CONCLUSION@#In summary, this study suggests that combined exposure to metal mixtures is negatively associated with grip strength. Cu, Sr and As were negatively correlated with grip strength levels, and there were potential interactions between As and Mn and between Cu and Mn.

Occupational health risk assessment of n-hexane based on four risk assessment models / 环境与职业医学

Background N-hexane has been a widely used solvent in industrial production, but it is volatile at room temperature and can be accumulated in the body, and its prolonged occupational exposure may lead to serious chronic diseases in workers. Objective To use four risk assessment models to evaluate the health risk levels of n-hexane-exposed workers, discuss the applicability of the four models in the health risk assessment of n-hexane exposure, and make an important supplement to the health risk assessment of n-hexane in China. Methods In 2022, a total of 167 jobs (1724 workers) exposed to n-hexane in 85 manufacturing enterprises in Jiangsu Province were selected, and a cross-sectional study was conducted and included questionnaire surveys and evaluation of on-site air n-hexane of each job. Subsequently, the China’s classification standards of occupational hazards at workplaces (China model), U.S. Environmental Protection Agency (EPA) model, Singapore semi-quantitative risk assessment model (Singapore model), and the International Council on Mining and Metals (ICMM) model were applied to the quantitative, semi-quantitative, and qualitative assessments of the occupational health risk level of n-hexane-exposed workers. Results All job’s 8-h time-weighted average concentrations (CTWA) of n-hexane were within the national occupational exposure limits (OELs). The results of the China model graded all jobs as relatively harmless. The Singapore model graded all jobs as low risk, except that two monitoring sites of adhesive jobs were assessed as medium risk. The ICMM quantitative model evaluated all jobs as intolerable for n-hexane airborne exposure, while the matrix method evaluated all jobs as low risk. The U.S. EPA model identified five sites involving painting, printing, and adhesive jobs as high risk and the other jobs as low risk. Conclusion Inconsistent grading results are observed by using the four models for the occupational health risk assessment of n-hexane exposure, that is, harmless for all jobs by China model, while medium and high risks by Singapore model and U.S. EPA model. Therefore, we recommend to combine the Singapore model and the U.S. EPA model with the China model to assess the occupational risk of n-hexane-exposed workers by considering actual concentrations of exposure.

Cuantificación de metales en LECISAN®por espectrometría de emisión óptica con plasma acoplado inductivamente

Introducción: La contaminación resultante de la industrialización ha propiciado el aumento de la concentración de metales en diversos ambientes y su incorporación a materias primas y productos terminados, lo que repercute directamente en la salud humana. Objetivo: Cuantificar metales en la materia prima empleada en la fabricación de la tableta masticable LECISAN® y en la tableta, para establecer niveles de referencia de: aluminio, calcio, cadmio, cromo, cobre, hierro, magnesio, plomo, silicio, vanadio y zinc. Método: Se utilizó la espectrometría atómica de emisión óptica con plasma inductivamente acoplado (ICP OES) y se establecieron mediante métodos estadísticos los intervalos de confianza para la media de los valorescuantificados con una probabilidad del 95%. Resultados: Existen diferencias significativas entre las dos formas de presentación en cuanto a la cantidad de todos los metales, excepto aluminio (p<0,05). Los coeficientes de variación fueron bajos, el cromo obtuvo un valor cercano al 10% en la materia prima y el plomo resultó elevado (17,44 %). Los valores se encuentran dentro del rango reportado como permisibles según norma cubana (NC 493:2012) excepto para plomo y cobre. Se observaron mayores concentraciones de aquellos elementos con efectos favorables para la salud. Conclusiones: Los resultados encontrados deben ser considerados como referenciales para la evaluación del impacto que sobre la salud tendría el régimen de administración diaria del suplemento nutricionalLECISAN® yel análisis de factores relacionados con la presencia de metales en subproductos del refinado del aceite de soya para futura investigaciones.

Introduction: The pollution resulting from industrialization has led to an increase in the concentration of metals in various environments and their incorporation into raw materials and finished products, which has a direct impact on human health. Objective: To quantify metals in the raw material used in the manufacture of the LECISAN® chewable tablet and in the tablet, to establish reference levels of: aluminum, calcium, cadmium, chromium, copper, iron, magnesium, lead, silicon, vanadium and zinc. Method: Atomic optical emission spectrometry with inductively coupled plasma (ICP OES) was used and confidence intervals for the mean of the quantified values were established using statistical methods with a probability of 95%. Results: There are significant differences between the two presentation forms in terms of the amount of all metals, except aluminum (p<0.05). The variation coefficients were low, chromium obtained a value close to 10% in the raw material and lead was high (17.44%). The values are within the range reported as permissible according to Cuban standards (NC 493:2012) except for lead and copper. Higher concentrations of those elements with favorable health effects were observed. Conclusions: The results found should be considered as references for the evaluation of the impact that the daily administration regimen of the LECISAN® nutritional supplement would have on health and the analysis of factors related to the presence of metals in by-products of soybean oil refining for future research.

Introdução: A poluição decorrente da industrialização tem levado ao aumento da concentração de metais em diversos ambientes e à sua incorporação em matérias-primas e produtos acabados, o que tem impacto direto na saúde humana. Objetivo: Quantificar metais na matéria-prima utilizada na fabricação do comprimido mastigável LECISAN® e no comprimido, estabelecer teores de referência de: alumínio, cálcio, cádmio, cromo, cobre, ferro, magnésio, chumbo, silício, vanádio e zinco. Método: Foi utilizada espectrometria de emissão óptica atômica com plasma indutivamente acoplado (ICP OES) e os intervalos de confiança para a média dos valores quantificados foram estabelecidos por meio de métodos estatísticos com probabilidade de 95%. Resultados: Existem diferenças significativas entre as duas formas de apresentação quanto à quantidade de todos os metais, exceto alumínio (p<0,05). Os coeficientes de variação foram baixos, o cromo obteve valor próximo a 10% na matéria-prima e o chumbo foi alto (17,44%). Os valores estão dentro da faixa informada como permitida segundo as normas cubanas (NC 493:2012) exceto para chumbo e cobre. Foram observadas concentrações mais elevadas desses elementos com efeitos favoráveis à saúde. Conclusões: Os resultados encontrados devem ser considerados referências para a avaliação do impacto que o regime diário de administração do suplemento nutricional LECISAN® teria na saúde e a análise dos fatores relacionados à presença de metais em subprodutos do refino do óleo de soja para pesquisas futuras.

High-grade Pleomorphic Sarcoma Associated with Metallosis in a Patient with Total Hip Arthroplasty / Sarcoma pleomórfico de alto grau associado a metalose em paciente com artroplastia total do quadril

Abstract Although the relationship between hip arthroplasty and the development of sarcoma was first described in the literature about forty years ago, this association is extremely rare. In the present case report, we describe the association between orthopedic implants and soft tissue sarcoma in a 79-year-old man who underwent primary total hip arthroplasty (THA) for coxarthrosis 24 years ago. In the present case report, we describe the clinical evolution and the radiographic and histopathological findings of the lesion. In the intraoperative period of the second revision surgery, loosening of the acetabular and femoral components in association with extensive areas of necrosis and metallosis was evidenced. We performed debridement of the hip and right thigh region and removed the implants. Due to the extent of the lesion and to necrosis, it was not possible to perform a new joint reconstruction. The histopatho-logical diagnosis of high-grade undifferentiated pleomorphic sarcoma associated with extensive areas of metallosis was confirmed in tissue adjacent to the implant. The patient developed pulmonary metastases and died 6 months after the diagnosis. Despite the rarity of this association, sarcomas should be considered in the differential diagnosis of aseptic loosening, especially in the presence of metallosis in the peri-implant tissue. To our knowledge, the 24-year latency period between primary THA and the establishment of a sarcoma diagnosis is one of the longest reported to date.

Resumo Apesar da relação entre artroplastia de quadril e o desenvolvimento de sarcoma ter sido descrita pela primeira vez na literatura há cerca de quarenta anos, esta associação é extremamente rara. No presente relato de caso, descrevemos a associação entre implante ortopédico e sarcoma de partes moles em um homem de 79 anos submetido a artroplastia primária total do quadril (ATQ) por coxartrose há 24 anos. Foram descritas a evolução clínica e os achados radiográficos e histopatológicos da lesão. No intraoperatório da segunda cirurgia de revisão, foi evidenciada soltura dos componentes acetabular e femoral em associação com extensas áreas de necrose e de metalose. Foi realizado desbridamento da região do quadril e da coxa direita e retirada dos implantes. Devido à extensão da lesão e da necrose, não foi possível realizar nova reconstrução articular. O diagnóstico histopatológico de sarcoma pleomórfico indiferenciado de alto grau associado a extensas áreas de metalose foi estabelecido no tecido adjacente ao implante. O paciente evoluiu com metástases pulmonares e faleceu 6 meses após o diagnóstico. Apesar da raridade da associação, os sarcomas devem ser considerados no diagnóstico diferencial das solturas assépticas, particularmente na presença de metalose no tecido peri-implantar. Pelo nosso conhecimento o período de latência de 24 anos entre a ATQ primária e o estabelecimento do diagnóstico de sarcoma é um dos mais longos relatado até o momento.

Fitorremediación con Brassicaceae y Apiaceae en suelos contaminados con metales pesados

Introducción: La cuenca media del río Bogotá viene sufriendo contaminación por metales pesados debido a los vertidos industriales. Esta fuente de agua ha sido utilizada para el riego de cultivos de ciclo corto, lo que ha provocado la contaminación por metales pesados de los suelos productivos. Objetivo: Evaluar un proceso de fitorremediación con las especies de Brócoli (Brassica oleracea var. italica Plenck) y Cilantro (Coriandrum sativum L.) en suelos contaminados con metales pesados en Mosquera, Colombia. Métodos: El muestreo se realizó con un diseño factorial al azar: a) proporciones de cilantro/brócoli (30 cilantro/70 brócoli, 50/50, 70 cilantro/30 brócoli y dos controles de tipo monocultivo de cada especie) y b) tiempo de fitorremediación (3, 6 y 9 meses), cada tratamiento con cuatro parcelas experimentales. El suelo y el tejido vegetal se analizó mediante espectrofotometría de absorción atómica para determinar la concentración de los metales pesados. Resultados: Las concentraciones de metales pesados en las muestras de tejido vegetal para brócoli y cilantro mostraron valores de Cd, Pb y Cr más altos que Hg y As, respecto al control. Las concentraciones de Cd, Pb y Cr presentaron valores significativamente más altos (P < 0.05) en suelos con cilantro y brócoli mezclados, respecto al sitio de control donde la concentración de Cd registró niveles significativamente más bajos que en los otros suelos. Las concentraciones de Cd, Pb y Cr fueron más altas en tejidos de cilantro y en suelos con cilantro en comparación con el control. Conclusiones: La fitorremediación por medio de las especies Brassica oleracea var. itálica Plenck y Coriandrum sativum L. en proporciones 70/30 o 30/70 a suelos con pH entre 5.5 y 6.0 permiten una buena recuperación de suelos con contenidos de metales pesados en términos de concentraciones altas a cortos plazos, iniciando la biorremediación a los tres meses y finalizando cargas de disponibilidad variable a los nueve meses.

Introduction: The middle basin of the Bogotá River has been suffering from heavy metal contamination due to industrial discharges. This water source has been used to irrigate short-cycle crops, which has resulted in heavy metal contamination of productive soils. Objective: To evaluate a phytoremediation process with the plant species Broccoli (Brassica oleracea var. Italica plenck) and Cilantro (Coriandrum sativum L.) in soils contaminated with heavy metals in Mosquera, Colombia. Methods: Sampling was performed with a randomized factorial design: a) cilantro/broccoli proportions (30 cilantro/70 broccoli, 50/50, 70 cilantro/30 broccoli and two monoculture type controls of each species) and b) phytoremediation time (3, 6 and 9 months), each treatment with four experimental plots. Soil and plant tissue were analyzed in the laboratory by atomic absorption spectrophotometry to determine the concentration of heavy metals. Results: The concentrations of heavy metals in plant tissue samples for broccoli and cilantro showed higher values of Cd, Pb and Cr than Hg and As, with respect to the control. The concentrations of Cd, Pb and Cr presented significantly higher values (P < 0.05) in soil where there was a mixed presence of cilantro and broccoli, with respect to the control site where the concentration of Cd registered significantly lower levels than in the other soils. Finally, Cd, Pb and Cr concentrations were higher in cilantro tissues and in soils with cilantro compared to the control. Conclusions: Phytoremediation by means of Brassica oleracea var. italica Plenck and Coriandrum sativum L. in 70/30 or 30/70 proportions in soils with pH between 5.5 and 6.0 allows a good recovery of soils with heavy metal contents in terms of high concentrations in short terms, starting bioremediation after three months and ending loads of variable availability after nine months.

Mercury concentration in larvae of Eustrongylides sp (Nematoda: Dioctophymatoidea) from fish of the Brazilian Amazon / Concentración de mercurio en larvas de Eustrongylides sp (Nematoda: Dioctophymatoidea) en peces de la Amazonía brasileña

Abstract Introduction: Chemical pollution represents a great concern to aquatic organisms, especially fish. Metals enter the aquatic environment from a variety of sources, including natural biogeochemical cycles and anthropogenic sources such as industrial and residential effluents, mining and atmospheric sources. Objective: To describe the Eustrongylides sp. larvae and the interaction with their fish hosts as indicators of mercury (Hg) contamination in the Brazilian Amazon, and the distribution of Hg in the internal organs of fish species Hoplias malabaricus and Pygocentrus nattereri collected in oxbow lakes on the Tapajós River, in the municipality of Santarém, in the state of Pará. Methods: Total Hg was analyzed using the Direct Hg Analyzer - DMA-80. Concentrations of Hg in Eustrongylides sp. were compared with those found in the tissues/organs of the hosts H. malabaricus and P. nattereri. Hg concentrations in the host/parasite system were statistically compared using Principal Component Analysis. The bioconcentration factor (BCF) was calculated to assess the bioaccumulation capacity of metals in Eustrongylides sp. larvae, comparing the concentration of Hg in the parasite with that accumulated in the musculature of infected hosts. Results: Hg concentrations in all tissues/organs analyzed were higher in the parasitic species Eustrongylides sp. larvae when compared with those found in tissues/organs of H. malabaricus and P. nattereri. There was an inversely proportional relationship, showing that when Eustrongylides sp. larvae are present, the concentration in the parasite is higher than in the musculature of host fish H. malabaricus and P. nattereri. The BCF of Hg was found by comparing Eustrongylides sp. larvae/H. malabaricus muscle and was observed during a flood (BCF Hg = 15 364). Conclusions: The results confirm the greater bioaccumulative capacity of Eustrongylides sp. compared to its host. The data indicated the viability of using Eustrongylides sp. larvae in biomonitoring programs. It is worth mentioning that fish samples for Hg analysis must be free of parasites since their presence can alter the results.

Resumen Introducción: La contaminación química del hábitat acuático representa un gran peligro para organismos acuáticos, especialmente para peces. Los metales ingresan al ambiente acuático desde una variedad de fuentes, incluidos los ciclos biogeoquímicos naturales y fuentes antropogénicas, como efluentes industriales y residenciales, minería y fuentes atmosféricas. Objetivo: Describir las especies de Eustrongylides sp. y la interacción con sus peces hospederos como indicadores de contaminación por mercurio en la Amazonía brasileña, y la distribución en los órganos internos de las especies de peces Hoplias malabaricus y Pygocentrus nattereri recolectadas en cochas del Río Tapajós, en el municipio de Santarém, del estado de Pará. Métodos: El Hg total se analizó utilizando el Direct Hg Analyzer - DMA-80. Las concentraciones de Eustrongylides sp. se compararon con las encontrados en los tejidos/órganos de los hospederos H. malabaricus y P. nattereri. Las concentraciones en el sistema hospedero/parásito se compararon estadísticamente utilizando el análisis de componentes principales. Se calculó el factor de bioconcentración (BCF) para evaluar la capacidad de bioacumulación de metales en larvas de Eustrongylides sp., comparando la concentración en el parásito con la acumulada en la musculatura de los hospederos infectados. Resultados: Las concentraciones de Hg en todos los tejidos/órganos analizados fueron mayores en las larvas de la especie parasitaria Eustrongylides sp. en comparación con las encontradas en los tejidos/órganos de H. malabaricus y P. nattereri. Hubo una relación inversamente proporcional, mostrando que cuando las larvas de Eustrongylides sp. están presentes, la concentración en el parásito es mayor que en la musculatura de los peces hospederos H. malabaricus y P. nattereri. El BCF de Hg se encontró comparando Eustrongylides sp. larvas/ músculo H. malabaricus y se observó durante una inundación (BCF Hg = 15 364). Conclusiones: Los resultados confirman la mayor capacidad bioacumulativa de Eustrongylides sp. en comparación con su hospedero. Los datos indicaron la viabilidad de utilizar larvas de Eustrongylides sp. en programas de biomonitoreo. Cabe mencionar que las muestras de pescado para análisis de Hg deben estar libres de parásitos ya que su presencia puede alterar los resultados.

Assessment of Biodrainage Potential of Existing Plant Species Along the Sewage Drains of Vedapatti Drainage Stretch, Coimbatore, Tamil Nadu, India

The proper disposal of manufacturing and consumer waste, including sewage sludge, is one of the numerous environmental issues facing today's society. In addition to posing serious health concerns to humans, anthropogenic activities are a major source of environmental pollution and can result in an overabundance of pollutants entering the terrestrial ecosystem. The goal of the current study was to determine how existing tree and plant species near sewage drains were affected by the bioaccumulation of carcinogenic metals (Cd, Ni, Co, and Cr) together with other heavy metals. These heavy metals found in the sewage are hazardous to the health of both people and the environment. To further understand how well these plant species adapted to the metal-contaminated soil, many biological parameters, including stomatal density, leaf length, leaf area index, and stress hormone levels, were investigated. For every species included in the study, soil samples were taken near the sewer drains and the rhizosphere. The plant species' leaves and roots (where feasible) were also harvested. To check for metal buildup in the wood, various tree species had their trunks harvested. All of these samples go through an acid digestion process using an aquaregia combination. Following digestion, the samples are examined using Microwave Plasma Atomic Emission Spectroscopy (MP-AES) for the presence of heavy metals. In this study, we briefly address the findings on the accumulation of heavy metals by certain plant species.

Potentiality of Weed Plants for Phytoremediation of Heavy Metal Polluted Soil

Phytoremediation, which utilizes the remarkable ability of plants to concentrate elements and compounds from the environment and metabolize various molecules in their tissues, appears very promising for the removal of pollutants from the environment. In this study, the soil was altered by continuously adding industrial waste, affecting factors like pH, electrical conductivity, soil organic carbon, and metal concentrations. The Contamination factor for metals in the Metoda soil sample was Cu (1.98), Mn (1.58), Cr (1.58), Cd (7.67), and Pb (166.72), while the Pollution load index was 397.51. In comparison, the Shapar soil sample had a Contamination factor of Cu (2.24), Mn (1.58), Cr (1.23), Cd (12.67), and Pb (167.44), with a Pollution load index of 480.49. The contaminated sites showed higher micronutrient and trace element concentrations in weed plants compared to non-contaminated sites. Withania somnifera L. and Calotropis gigantea L. had the highest concentrations of Cd 2.08±0.05 and 2.60±0.05, respectively. Amaranthus spinosus L. accumulated the most Pb (36.34±0.2) and Cr (64.30±0.50), while Withania somnifera L. accumulated the most Mn (28.08±0.43), and Ipomoea aquatica Forssk accumulated the most Cu (43.68±0.37).This article addresses key research, potential benefits and the potential future needs for phytoremediation. Results indicated that uptake patterns of heavy metals by weed plant tissues were more or less related with nature of metals and species specifications. All the studies suggested that each weed plant could be used as a modern tool as a biomonitor.

Effect of Incorporation of Sewage Sludge and Fly Ash on Soil Physico-Chemical Properties and Okra in Inceptisols of Prayagraj U.P

The present research was conducted to determine whether it would be feasible to grow Okra in amended soil utilising sewage sludge and fly ash. Different types of nutrients and heavy metals were found in both soil amendments and for growth of the plant and crop yield they are used as ameliorate in acidic soils. In the research trial, soil properties like Bulk density, Particle density and pH are found to be positively non-significant and Pore space, Water holding capacity, EC, OC, Nitrogen, Phosphorus, Potassium, Iron, Manganese, Zinc and copper are found to be positively significantly low to medium range, which comprises yellowish brown sandy loam textured neutral to alkaline soil that is non-saline in nature among all the treatment combination applied.

Network-based Toxicogenomics Approach to Unraveling the Influence of Lead and Cadmium Mixture on the Development and Progression of Hypertension

Heavy metals, generally characterized by high densities and atomic weights, are ubiquitous in the environment and are a public health concern due to the several health issues they pose to humans. Of all heavy metals, lead and cadmium among others are known to be capable of inducing multiple health effects even at a low rate of exposure. Hypertension (HYP), a major cause of death and a risk factor for other cardiovascular diseases, is known to be caused by both lead and cadmium. While the mechanism underlying the development of HYP induced by independent exposure to lead and cadmium has been well studied, the mechanism underlying the induction and progression of HYP upon lead and cadmium co-exposure remains mildly explored. Hence, this study aimed to elucidate the mechanism using a toxicogenomic approach. The set of genes affected by both heavy metals was identified using the comparative toxicogenomics database (CTD) while HYP targets were retrieved from the Gene Cards database. The shared genes between the heavy metals and the disease were identified and subjected to further analysis. The results of our analysis revealed the signaling pathways that are dysregulated by lead and cadmium co-exposure while oxidative stress, inflammation, and endothelial dysfunction were revealed as processes pertinent to the induction and progression of HYP by lead and cadmium co-exposure. Biomarkers that could be used for prognosis evaluation were also identified. Ultimately, this study supports and advances the growing body of finding on the roles played by lead and cadmium co-exposure in inducing HYP.

Concentración de metales en sangre de cordón umbilical debido a exposición prenatal en una cohorte de la Ciudad de México / Prenatal exposure to metals and concentration thereof in umbilical cord blood in a Mexico City cohort

Resumen Antecedentes: En México es exigua la evidencia sobre la exposición prenatal a metales. Objetivo: Estimar la concentración de arsénico, cadmio, manganeso y plomo en sangre de cordón umbilical (SCU), y su asociación con las concentraciones en sangre materna durante el embarazo y parto. Material y métodos: Se analizó la concentración de los metales en sangre materna durante el embarazo (n = 901), parto (n = 732) y en la SCU (n = 512) de participantes de la cohorte PROGRESS, residentes en la Ciudad de México. Se estimó la asociación entre la concentración en SCU y los biomarcadores maternos mediante modelos lineales generalizados, ajustados por covariables relevantes. Resultados: La media (μg/L) de plomo, arsénico y manganeso en SCU fue 27.14 (25.28-29.14), 0.77 (0.71-0.84) y 42.60 (40.45-44.83), respectivamente. El valor del cadmio no se pudo estimar porque 86.2 % de las mediciones fueron inferiores al límite de detección. Las concentraciones de plomo y manganeso en SCU se asociaron significativamente a los biomarcadores maternos durante el embarazo y el parto; solo se observó asociación con arsénico en el parto. Conclusiones: La exposición prenatal a metales tóxicos en periodos sensibles de la organogénesis evidencia un problema de salud pública desatendido. Se requiere un biomonitoreo poblacional y establecer regulación dirigida a proveer atención a población vulnerable.

Abstract Background: In Mexico, there is a paucity of evidence on the magnitude of prenatal exposure to metals. Objective: To estimate the concentration of arsenic, cadmium, manganese and lead in umbilical cord blood (UCB) and its association with maternal blood concentrations during pregnancy and delivery. Material and methods: Metal concentration in maternal blood was analyzed during pregnancy (n = 901), delivery (n = 732) and in UCB (n = 512) from participants of the PROGRESS cohort residing in Mexico City. The association between concentrations in UCB and maternal biomarkers was analyzed using generalized linear models, adjusted for relevant covariates. Results: Mean concentrations (μg/L) of lead, arsenic and manganese in UCB were 27.14 (25.28-29.14), 0.77 (0.71-0.84) and 42.60 (40.45-44.83), respectively. Cadmium concentration could not be estimated because 86.2% of measurements were below the detection limit. Lead and manganese concentrations in UCB were significantly associated with maternal biomarkers during pregnancy and delivery; at delivery, association was only observed with arsenic. Conclusions: Prenatal exposure to toxic metals in sensitive periods of organogenesis shows a neglected public health problem. Biomonitoring of the population and establishment of regulations aimed at providing care to vulnerable populations is required.

Heavy Metal Contaminants in Popularly-consumed Vegetables of Freetown, Sierra Leone

The contamination of the environment with heavy metals is one of the challenges that make up Sierra Leone's environmental problem, with urbanization being one of the main causes; due to the lack of proper waste dumpsites and landfills for infrastructural development, rivers, and streams are polluted. The loss of biodiversity, but river and stream pollution have a significant impact on aquatic life. Animals and plants in contaminated water sources "may perish or reproduce improperly". This study assessed the level of concentration of heavy metals namely; chromium (Cr), iron (Fe), copper (Cu), zinc (Zn), and lead (Pb) in some commonly-consumed vegetables like Manihot esculenta (Cassava) leaves, Ipomoea batatas (Potato) leaves, Amaranthus viridis (African spinach), Corchorus olitorius (Krain krain); Solanum lycopersicum (Tomatoes); Cucumis sativus (Cucumber); Brassica oleracea (Cabbage); Abelmoschus esculentus fruits (Okra); Capsicum annuum (Bell Pepper); and Lactuca sativa (Lettuce) which were all purchased at local market places in Freetown. The vegetable samples were analyzed using an X-ray fluorescence machine (XRF) to determine their heavy metal concentration. The goal was to determine the food safety status of the vegetables by comparing the results to the maximum permissible limit (MPL) for vegetables, as set by WHO/FAO. The levels of Zn, Cr, Fe, Cu, and Pb in all vegetable samples varied from 4.70 – 5.69 %; 3.46 – 4.58 %; 4.00 – 4.52 %; 2.87 – 3.42 %; and 0.5 – 1.2 %, respectively. This result indicates that the metals were present at unsafe levels. According to the result, the maximum concentration values are much higher than the MPL value suggested by WHO/FAO for vegetables, implying that eating vegetables from the source market sites in this study may pose a health risk to humans. Heavy metals in vegetables should be monitored on a regular basis to prevent excessive accumulation of these heavy metals in the human food chain. When it comes to vegetable marketing, certain precautions should be implemented.

Physicochemical Properties, Heavy Metals and Aflatoxins Content of Crude Palm and Groundnut Oils Produced and Marketed in Benue State, Nigeria

The study aims at assessing the physicochemical properties, heavy metals, and aflatoxins content of crude palm and groundnut oils produced and sold in the Adikpo, Wadata, and Otukpa areas of Benue state, Nigeria. Specific gravity, refractive index, acid value, saponification value, peroxide value, moisture content, and smoke point are the physicochemical properties evaluated. The heavy metals analyzed include; Lead, Nickel, Copper, Iron, Arsenic, and Iron. Total aflatoxins were determined by Enzyme-linked immunosorbent assay (ELISA). Findings revealed that most of the physicochemical properties of palm and groundnut oils from these areas deviated from the Food and Agricultural Organization/World Health Organization (FAO/WHO) standard range. A high amount of Cadmium (0.89 mg/kg, 1.01 mg/kg, and 0.92 mg/kg) was detected in the local groundnut oil samples but lesser in palm oils from Adikpo, Wadata, and Otukpa respectively, while Copper content was within the FAO/WHO safe limits. The arsenic content of palm oil produced in the region was not as high as those in groundnut oil but was higher than the recommended maximum limit of 0.1 mg/kg. The Nickel content in the oil samples was higher than the 0.50 mg/kg permissible limit, but Lead was within the safe limits. Total Aflatoxin content in crude groundnut oil was within the range of 9.05 ppm to 10.13 ppm, while a range of 2.03 ppm to 2.74 ppm was recorded in crude palm oil. The locally produced oils are of lower quality, suggesting that refining should be adopted and quality seeds should be used for the extraction of oils.

Evaluating Bioremediation Potentials of Fungi Species (Alternaria Sp., Aspergillus Sp. and Fusarium Sp.) on Heavy Metals from Plausible Industrial Effluent Discharges in Mmiri Ele Stream in Nnewi, Anambra State, Nigeria

The greatest challenge of man today is to deal with metal pollution problems because unlike organic compounds which are decomposed naturally, heavy metals tend to persist on the aquatic environment, hence get accumulated at different sensitive sites. Given the growth in environmental awareness, emphasis is given on this exploration of environment friendly ways for decontamination procedures. Attention has been drawn to bioremediation which is a good alternative to conventional remediation technologies. The preference for it is based on the fact that it is of low cost, and generates non-toxic by products. Microorganisms have acquired a variety of mechanisms to adapt themselves to the toxicity of heavy metals. The results obtained from the bioremediation of cadmium, chromium and copper in both the water samples and sediment samples using Alternaria sp, Aspergillus sp and Fusarum sp, show that there is a significant decrease in the quantities of cadmium, chromium and copper in both the water samples and sediment samples upon treatments with the selected microorganisms. The result of the bioremediation of chromium shows a significant decrease in the amount of chromium in the sample from the mean value of 0.423 for pre-remediation treatment to 0.08 for post remediation treatment. There was also a reasonable decrease in the amount of copper metal in the water sample from 0.193 to 0.092. The post bioremediation of cadmium in sediment sample shows a significant decrease in the amount of cadmium from 0.2430 to 0.1880, tending towards the value of the control. The bioremediation of the heavy metals significantly reduced the amount of the heavy metals present in the polluted environment. Hence, it can be said that under suitable environmental and biochemical conditions, microorganisms can be used in the remediation of the heavy metals present in a heavy metal polluted environment.

Application and comparison of three occupational health risk assessment methods in automobile manufacturing enterprises / 环境与职业医学

Background The complex and diverse occupational disease hazards in automobile manufacturing industry pose high occupational health risks to workers. Objective To explore the methods that can accurately reflect the workplace health risk grade of automobile manufacturing enterprises, and to guide enterprises to practice risk classification management. Methods Comprehensive index method, International Commission on Mining and Metals occupational health risk assessment method (ICMM method), and risk index method were used toassess health risks of occupational disease hazards in major workstations such as welding, polishing, and painting in three automobile manufacturing enterprises in Hunan Province. Kappa consistency test was used to test the grading results of the three assessment methods. The re-examine results and detection rate of contraindications of occupational health examinations in the past three years were used to verify the assessment results. Results The results of comprehensive index method showed that the hazards of each selected workstation in enterprises A and B were evaluated as grade 2-3, among which NO2 in enterprise A was grade 3, and welding fume, NO2, and formaldehyde in enterprise B were all grade 3. The hazards of each selected workstation in enterprise C were grade 3-4, among which NO2 and benzene in were grade 4, and welding fume, manganese and its compounds, grinding wheel dust, and xylene were grade 3. The hazards evaluated by ICMM quantitative method were grade 2 and grade 5, among which manganese and its compounds in enterprise A and welding fume, grinding wheel dust, and benzene series in enterprise C were graded as grade 5. The hazards evaluated by risk index method were grade 1-4, among which manganese and its compounds in enterprises A and B were grade 3, and manganese and its compounds and benzene in enterprise C were grade 4. The Kappa value between comprehensive index method and ICMM method was 0.084 (P>0.05), that between comprehensive index method and risk index method was −0.046 (P>0.05), and that between ICMM method and risk index method was 0.014 (P>0.05), indicating poor consistency. By comparing the results of occupational health surveillance with the results of occupational health risk assessment, one worker was found to have occupational contraindication of manganese exposure and 1 worker was found to have excessive manganese in hair in enterprise A. However, the comprehensive index method graded low risk for manganese and its compounds in enterprise A and the result is conservative. The key workstations identified by ICMM method were consistent with the occupational health examination results, but the assessment grades were all extremely high risk, and the results were too strict. One worker was found to be contraindicated to welding fumes, and 2 polishers were found to have severe mixed pulmonary ventilation dysfunction in enterprise C. Mild and moderate pulmonary ventilation dysfunction was found to be common in welding and polishing workstations in each enterprise. The assessment results of welding fumes and grinding wheel dust by the risk index method were negligible risks, which were inconsistent with the occupational health examination results. Conclusion The comprehensive index method, ICMM method, and risk index method can basically identify workstations with serious occupational hazards, but they have certain limitations and applicability. In general, the evaluation results of the comprehensive index method were generates more consistent with the results with occupational health surveillance than the other two methods, is more comprehensive and objective in consideration, and is more suitable for health risk assessment of automobile manufacturing enterprises.

Spatial distribution and health risk assessment of heavy metals in drinking water of rural schools in Henan Province / 中国学校卫生

Objective@#To evaluate health risks of five heavy metals in drinking water of rural schools in Henan Province, so as to provide scientific basis for drinking water safety in rural schools.@*Methods@#Totally 1 269 drinking water samples were collected and analyzed for five heavy metals (As, Cd, Cr 6+ , Pb, Hg) concentration in 106 cities and counties of Henan Province, and its spatial distribution characteristics were explored by geographic information system (GIS). Risk assessment method recommended by the United States Environmental Protection Agency (U.S. EPA) was applied to evaluate health risks from five heavy metals through oral ingestion.@*Results@#The qualified rate of As concentration was 100%, and the qualified rates of Cd, Cr 6+ , Pb and Hg were 99.9% , 99.9%, 99.5%, 99.6%. The highest carcinogenic risk was As (3.05×10 -5 ), followed by Cr 6+ (2.73×10 -5 ), and the highest non carcinogenic risk was As (0.158 3), followed by Pb(0.041 7). The carcinogenic risk and non carcinogenic risk were all higher in girls than boys. The carcinogenic and non carcinogenic risks were differences in different regions( P <0.05).@*Conclusion@#Health risks of five heavy metals in drinking water for rural schools in Henan Province were within the acceptable risk level recommended by EPA. As, Cr 6+ and Pb were the main health risk factors in drinking water, and that might impact negatively the healthy growth of primary and middle school students. These should be future efforts of drinking water safety management.