Acceptable surface limits (ASLs) of skin sensitizers derived from the local lymph node assay (LLNA): BrdU-ELISA EC1.6 values and their relationships to known sensitization potency information.

Skin sensitization is an extremely important risk factor for occupational health and safety, and it would be desirable to set health-based exposure limits (HBELs) for the quantitative risk assessment (QRA) based on the skin sensitizing potencies of chemical. We attempted to set acceptable surface limits (ASLs) as HBELs for skin sensitizers in the workplace based on the local lymph node assay (LLNA): BrdU-ELISA EC1.6 values. To calculate the ASLs, a safety assessment factor (SAF)interspecies value of 6, based on the EC1.6 values/human repeat insult patch test (HRIPT) NOEL ratios, a SAFinterindividual value of 10, and a SAFfrequency/duration value of 3 were applied, referring to previous literatures on SAFs for skin sensitization QRA, and the composite SAF was calculated as 180. The ASLs (mg/100 cm2 ) derived thus for 33 chemicals ranged from 0.001 to 10.417. Comparison of the ranges with known human sensitization potency classes and GHS subcategories revealed that use of GHS Category 1A chemicals needs to be controlled to ensure surface residue levels of less than 1 mg/100 cm2 . To minimize sensitization risks, a quantitative sensitization risk assessment method for chemicals and appropriate risk management are necessary. This report provides a potentially useful ASL-based method of managing sensitization risk derived from LLNA: BrdU-ELISA EC1.6 values, comparison of the ASLs and known human sensitization potency data showed that GHS subcategorization results would be a primary information notifying ASL ranges to be required for minimizing the sensitization risk.

Toxicological assessment method for evaluating the occupational risk of dynamic olfactometry assessors.

The paper aims to propose a new method to evaluate the occupational exposure risk for examiners involved in dynamic olfactometry. Indeed, examiners are possibly exposed to hazardous pollutants potentially present in odorous samples. A standardized method to evaluate the examiners' occupational safety is not yet available and the existing models present some critical aspect if applied to real odorous samples (no uniform reference concentrations applied and presence of compounds for which no toxicity threshold is available). A deepening of assessment procedure to evaluate the occupation exposure risk for olfactometric assessors is necessary. This paper proposes a standardized approach for risk assessment in dynamic olfactometry. The proposed approach allows the quantification synthetic and conservative risk indices. In this model, the use of the hazard index for the odorous mixture was proposed to assess the non-carcinogenic risk; the calculation of the inhalation risk was applied to estimate the carcinogenic risk. Different databases can be used to retrieve proper occupational exposure limits, according to the proposed hierarchical basis. These implementations allow obtaining the complete characterization of real samples which can be used to calculate the minimum dilution factor for protecting the panellists' health.

Toxicology and human health risk assessment of polyethoxylated tallow amine surfactant used in glyphosate formulations.

Roundup® branded herbicides contain glyphosate, a surfactant system and water. One of the surfactants used is polyethoxylated tallow amine (POE-T). A toxicology dataset has been developed to derive the most representative points of departure for human health risk assessments. Concentrated POE-T was very irritating to skin, corrosive to eyes, and sensitizing to skin. The irritation and sensitization potential of POE-T diminishes significantly upon dilution with water. Repeated dosing of rats with POE-T produced gastrointestinal effects but no systemic effect on organ systems. POE-T was not genotoxic and had no effect on embryo-fetal development or reproduction. The occupational risk assessment of POE- T for the agricultural use of glyphosate products has demonstrated that margins of exposure (MOEs) are 2517 and 100,000 for maximum and geometric mean dermal exposures, respectively. In the food risk assessment for relevant agricultural uses, the range of MOEs for consumption of foods from plant and animal origin were 330 to 2909. MOEs ≥100 are generally considered to be of no toxicological concern. Based on the results of the occupational and food risk assessments, it is concluded that there are no significant human health issues associated with the use of POE-T as a surfactant in glyphosate products.

Nanotechnology in agriculture: Opportunities, toxicological implications, and occupational risks.

Nanotechnology has the potential to make a beneficial impact on several agricultural, forestry, and environmental challenges, such as urbanization, energy constraints, and sustainable use of resources. However, new environmental and human health hazards may emerge from nano-enhanced applications. This raises concerns for agricultural workers who may become primarily exposed to such xenobiotics during their job tasks. The aim of this review is to discuss promising solutions that nanotechnology may provide in agricultural activities, with a specific focus on critical aspects, challenging issues, and research needs for occupational risk assessment and management in this emerging field. Eco-toxicological aspects were not the focus of the review. Nano-fertilizers, (nano-sized nutrients, nano-coated fertilizers, or engineered metal-oxide or carbon-based nanomaterials per se), and nano-pesticides, (nano-formulations of traditional active ingredients or inorganic nanomaterials), may provide a targeted/controlled release of agrochemicals, aimed to obtain their fullest biological efficacy without over-dosage. Nano-sensors and nano-remediation methods may detect and remove environmental contaminants. However, limited knowledge concerning nanomaterial biosafety, adverse effects, fate, and acquired biological reactivity once dispersed into the environment, requires further scientific efforts to assess possible nano-agricultural risks. In this perspective, toxicological research should be aimed to define nanomaterial hazards and levels of exposure along the life-cycle of nano-enabled products, and to assess those physico-chemical features affecting nanomaterial toxicity, possible interactions with agro-system co-formulants, and stressors. Overall, this review highlights the importance to define adequate risk management strategies for workers, occupational safety practices and policies, as well as to develop a responsible regulatory consensus on nanotechnology in agriculture.

Psychosocial risks of workers in the plywood industry: A cross-sectional study in the Ecuadorian Amazon region.

This work assessed the psychosocial risks of 124 workers from the plywood industry in Ecuador's Amazon region. Two psychosocial risk assessment (PRA) methods were selected due to their widespread use in Ecuadorian organisations: FPSICO from the Spanish National Institute for Occupational Safety and Health and the "Psychosocial Risk Assessment Questionnaire" (PRAQ) from the Ecuadorian Labour Ministry. Therefore, two surveys of 89 and 58 items were applied to evaluate nine scales and eight risk dimensions for FPSICO and PRAQ, respectively. Results show that according to FPSICO, the main psychosocial risks were detected in the scales of working time (WT), variety and content (VC), and workload (WL), with a prevalence of 34.8 % and 41.7 %. For PRAQ, the margin of action and control (D4), load and work rate (D1), and leadership (D3) were the most affected dimensions, with a risk prevalence between 29.1 % and 43.6 %. Although there is a lower risk prevalence in the rest of the scales and dimensions assessed, improvement actions are needed in the short term. Furthermore, the findings suggest an association between gender and risk prevalence, especially in the dimensions of Leadership (D3), Skills development (D2), and Self-perceived health (D8.8), where being a woman increases the likelihood of suffering from these conditions by up to three times. In addition, a brief comparative analysis was conducted, looking for coincidences in the scales that each PRA instrument assesses and the prevalence of the psychosocial risks detected.

Occupational risk of nano-biomaterials: Assessment of nano-enabled magnetite contrast agent using the BIORIMA Decision Support System.

The assessment of the safety of nano-biomedical products for patients is an essential prerequisite for their market authorization. However, it is also required to ensure the safety of the workers who may be unintentionally exposed to the nano-biomaterials (NBMs) in these medical applications during their synthesis, formulation into products and end-of-life processing and also of the medical professionals (e.g., nurses, doctors, dentists) using the products for treating patients. There is only a handful of workplace risk assessments focussing on NBMs used in medical applications. Our goal is to contribute to increasing the knowledge in this area by assessing the occupational risks of magnetite (Fe3O4) nanoparticles coated with PLGA-b-PEG-COOH used as contrast agent in magnetic resonance imaging (MRI) by applying the software-based Decision Support System (DSS) which was developed in the EU H2020 project BIORIMA. The occupational risk assessment was performed according to regulatory requirements and using state-of-the-art models for hazard and exposure assessment, which are part of the DSS. Exposure scenarios for each life cycle stage were developed using data from literature, inputs from partnering industries and results of a questionnaire distributed to healthcare professionals, i.e., physicians, nurses, technicians working with contrast agents for MRI. Exposure concentrations were obtained either from predictive exposure models or monitoring campaigns designed specifically for this study. Derived No-Effect Levels (DNELs) were calculated by means of the APROBA tool starting from in vivo hazard data from literature. The exposure estimates/measurements and the DNELs were used to perform probabilistic risk characterisation for the formulated exposure scenarios, including uncertainty analysis. The obtained results revealed negligible risks for workers along the life cycle of magnetite NBMs used as contrast agent for the diagnosis of tumour cells in all exposure scenarios except in one when risk is considered acceptable after the adoption of specific risk management measures. The study also demonstrated the added value of using the BIORIMA DSS for quantification and communication of occupational risks of nano-biomedical applications and the associated uncertainties.

Comparison of silica-based materials for organophosphorus pesticides sampling and occupational risk assessment.

A novel air sampler has been designed containing a sorbent based on UVM-7 mesoporous silica doped with Ti. The sorbent has been applied for the determination of organophosphorus pesticides in occupational air, followed by gas chromatography with mass spectrometry detection. Thus, several silica materials with different structures (mesoporous UVM-7 and microporous xerogels) were synthesized, and modified with the addition of Ti and Fe. The structure of these materials was proved by transmission electronic microscopy, energy-dispersive X-ray, X-ray diffraction, nitrogen adsorption-desorption and UV-Vis and Raman spectroscopy. The potential of these materials for the retention of pesticides was evaluated and Ti25-UVM-7 was selected as the best solid phase for analyte sorption. Then, several sampling parameters were optimized and analytical features such as breakthrough volume were determined. Using the designed samplers, quantitative retentions were achieved with recoveries in the range 93-107% for all analytes except for diazinon (82%). RSD values below 13% were obtained. Likewise, the sensitivity of the method was studied, and limits of quantification below 0.5 µg m-3 were obtained for all pesticides. The reusability of the material was also proved. The developed procedure has been applied to the air sampling and occupational risk assessment, during and after methyl-chlorpyrifos application in orange plantations. High concentrations and exposure rates above the limit value for ensure safe work conditions were obtained. At the same time, the air was sampled with XAD-2 samplers as a reference method, and results obtained with both devices were statistically comparable.

Evaluación de riesgos de manipulación repetitiva a alta frecuencia basada en análisis de esfuerzos dinámicos en las articulaciones sobre modelos humanos digitales / Risk assessment of high frequency repetitive handling based on dynamic stress analysis in joints of Digital human Models

El nuevo método desarrollado está dirigido a evaluar el riesgo derivado de la realización de tareas repetitivas a alta frecuencia. Utiliza un sistema de captura de movimiento basado en sensores inerciales, utilizable en los propios puestos de trabajo, que nos permite trasladar el movimiento a un modelo biomecánico de antropometría similar al sujeto observado. Incorpora un motor de cálculo de esfuerzos en las articulaciones, que tiene en cuenta las dimensiones antropométricas, las fuerzas externas, las reacciones en los puntos de apoyo, así como las fuerzas de inercia derivadas de las aceleraciones lineales y angulares alcanzadas durante la tarea. El resultado es un método predictivo de riesgo musculoesquelético que, a diferencia de otros métodos que requieren un trabajo muy minucioso (UNE 1005-3) a la hora de definir las acciones técnicas, reduce drásticamente el proceso de análisis ya que el proceso es automático, y no está influenciado por la subjetividad del evaluador.

The new method developed is aimed at assessing the risk from repetitive tasks at high frequency. It uses a motion capture system based on inertial sensors for use in their own jobs, which allows us to transfer the movement to a biomechanical model similar to the observed subject anthropometry. Incorporates a calculation engine of efforts in joints, considerating the anthropometric dimensions, external forces, the reactions in the support points, as well as the inertial forces arising from linear and angular accelerations encountered during the task. The result is a musculoskeletal risk predictive method which, unlike other methods that require a very thorough job (UNE 1005-3) for defining the technical actions, dramatically reduces the analysis process because the process is automated, and is not influenced by the subjectivity of the evaluator.

Estratégia de avaliação do risco de lesões músculoesqueléticas de membros superiores ligadas ao trabalho aplicada na indústria de abate e desmancha de carne em Portugal / Work-related upper limbs musculoskeletal disorder risk evaluation strategy in a Portuguese meatpacking plant

Objectivo: As lesões músculo-esqueléticas ligadas ao trabalho (LMELT) são doenças profissionais frequentes. Neste estudo ensaiou-se uma estratégia de diagnóstico do risco e de vigilância da saúde dos trabalhadores numa empresa de abate e desmancha de carne. Métodos: Utilizou-se uma estratégia de obtenção de informação em todos os postos de trabalho e trabalhadores da empresa. Utilizaram-se: (i) adaptação do Questionário Nórdico Músculo-Esquelético, incluindo caracterização da exposição biomecânica; (ii) protocolo de avaliação clínica de LMELT; (iii) filtro RSI e método Strain Index; (iv) instrumentação, como electrogoniometria e sensores de força em postos de risco elevado. Resultados: Identificou-se a presença de sintomas e sinais de LMELT principalmente nos punhos/mãos (n=27) e região lombo-sagrada(n=32), uma importante prevalência de casos relacionados com a actividade de trabalho (30%) e níveis de risco elevados com base nas classificações do Strain Index (n=26 MSDto e n=7 MSEsq). A utilização da instrumentação permitiu obter detalhes da repetitividade, das posturas e dos momentos de aplicação de força, úteis para a intervenção. Conclusões: A prevenção só é possível através da aplicação de programas/estratégias integradas de diagnóstico e gestão do risco de LMELT que sejam eficazes no sentido da intervenção sobre a actividade e as condições de trabalho.

Background: Work-related Musculoskeletal Disorders (WRMSD) are common occupational diseases. The present study aims at examining an integrated perspective of risk assessment and health surveillance at a meatpacking plant. Methods: The strategy adopted was of obtaining information about WRMSDs awareness at all workstations and from all their workers. This was based on: (i) questionnaire application - an adaptation of the Nordic musculoskeletal questionnaire, including a biomechanical item, (ii) WRMSDs clinical protocol (iii) RSI risk filter and Strain Index application, (iv) instrumentation with electrogoniometry and force sensors at previously classified as high risk workstations. Results: WRMSDs signs and symptoms mainly in wrist/hands (n=27) and in lumbar region (n=32) were identified. Results revealed an important prevalence of WRULMSDs associated to meatpacking industry activities (30%) and high risk scores based on Strain Index (n=26 Right UL; n=7 LeftUL). Instrumentation showed details of recurrency, of postures and of force, which can be used for intervention. Conclusions: Its necessary to develop ergonomic strategies and approaches on WRMSDs prevention (risk assessment and management) that will lead to changes on workstations and working processes.