Implementation of a Prototype of an Electronic Device for Measuring Lead Calculation in Blood

Kevin Jairol Rodriguez-Villarreal; Ana Adriana Huamani-Huaracca; Lina Cardenas-Pineda; Sebastian Ramos-Cosi; Alicia Alva-Mantari

doi:10.3991/ijoe.v20i16.52861

Implementation of a Prototype of an Electronic Device for Measuring Lead Calculation in Blood

Kevin Jairol Rodriguez-Villarreal
, Ana Adriana Huamani-Huaracca
, Lina Cardenas-Pineda
, Sebastian Ramos-Cosi
, Alicia Alva-Mantari

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

1 Cita (Scopus)

Resumen

Lead, a vital but dangerous industrial metal, poses serious health risks. Exposure, especially in mining and industrial areas, has led to alarming statistics; in Mexico, 21.8% of children have elevated blood lead levels, while in Cuba, 58% of exposed workers exhibit signs of poisoning. In Huacho, Peru, 71.4% of the population has high levels of lead, attributable to the mining industry. Globally, lead is estimated to contribute to 0.6% of the disease burden and cause approximately 143,000 deaths annually, with more than 600,000 children under the age of five dying from it. Traditional methods are expensive and time-consuming. That is why a low-cost portable device is proposed, developed with technology such as Matlab and Arduino, which uses anodic voltammetry to measure blood lead concentrations. Although requiring improvements, this device has the potential to significantly improve the monitoring and prevention of lead-related diseases, providing accurate and rapid results to protect public health where the reading of the presence of lead in the blood was achieved.

Idioma original	Inglés
Páginas (desde-hasta)	4-14
Número de páginas	11
Publicación	International Journal of Online and Biomedical Engineering
Volumen	20
N.º	16
DOI	https://doi.org/10.3991/ijoe.v20i16.52861
Estado	Publicada - 19 dic. 2024

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title = "Implementation of a Prototype of an Electronic Device for Measuring Lead Calculation in Blood",

abstract = "Lead, a vital but dangerous industrial metal, poses serious health risks. Exposure, especially in mining and industrial areas, has led to alarming statistics; in Mexico, 21.8\% of children have elevated blood lead levels, while in Cuba, 58\% of exposed workers exhibit signs of poisoning. In Huacho, Peru, 71.4\% of the population has high levels of lead, attributable to the mining industry. Globally, lead is estimated to contribute to 0.6\% of the disease burden and cause approximately 143,000 deaths annually, with more than 600,000 children under the age of five dying from it. Traditional methods are expensive and time-consuming. That is why a low-cost portable device is proposed, developed with technology such as Matlab and Arduino, which uses anodic voltammetry to measure blood lead concentrations. Although requiring improvements, this device has the potential to significantly improve the monitoring and prevention of lead-related diseases, providing accurate and rapid results to protect public health where the reading of the presence of lead in the blood was achieved.",

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Implementation of a Prototype of an Electronic Device for Measuring Lead Calculation in Blood. / Rodriguez-Villarreal, Kevin Jairol; Huamani-Huaracca, Ana Adriana; Cardenas-Pineda, Lina et al.
En: International Journal of Online and Biomedical Engineering, Vol. 20, N.º 16, 19.12.2024, p. 4-14.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Implementation of a Prototype of an Electronic Device for Measuring Lead Calculation in Blood

AU - Rodriguez-Villarreal, Kevin Jairol

AU - Huamani-Huaracca, Ana Adriana

AU - Cardenas-Pineda, Lina

AU - Ramos-Cosi, Sebastian

AU - Alva-Mantari, Alicia

PY - 2024/12/19

Y1 - 2024/12/19

N2 - Lead, a vital but dangerous industrial metal, poses serious health risks. Exposure, especially in mining and industrial areas, has led to alarming statistics; in Mexico, 21.8% of children have elevated blood lead levels, while in Cuba, 58% of exposed workers exhibit signs of poisoning. In Huacho, Peru, 71.4% of the population has high levels of lead, attributable to the mining industry. Globally, lead is estimated to contribute to 0.6% of the disease burden and cause approximately 143,000 deaths annually, with more than 600,000 children under the age of five dying from it. Traditional methods are expensive and time-consuming. That is why a low-cost portable device is proposed, developed with technology such as Matlab and Arduino, which uses anodic voltammetry to measure blood lead concentrations. Although requiring improvements, this device has the potential to significantly improve the monitoring and prevention of lead-related diseases, providing accurate and rapid results to protect public health where the reading of the presence of lead in the blood was achieved.

AB - Lead, a vital but dangerous industrial metal, poses serious health risks. Exposure, especially in mining and industrial areas, has led to alarming statistics; in Mexico, 21.8% of children have elevated blood lead levels, while in Cuba, 58% of exposed workers exhibit signs of poisoning. In Huacho, Peru, 71.4% of the population has high levels of lead, attributable to the mining industry. Globally, lead is estimated to contribute to 0.6% of the disease burden and cause approximately 143,000 deaths annually, with more than 600,000 children under the age of five dying from it. Traditional methods are expensive and time-consuming. That is why a low-cost portable device is proposed, developed with technology such as Matlab and Arduino, which uses anodic voltammetry to measure blood lead concentrations. Although requiring improvements, this device has the potential to significantly improve the monitoring and prevention of lead-related diseases, providing accurate and rapid results to protect public health where the reading of the presence of lead in the blood was achieved.

KW - contamination

KW - detection

KW - electronic device

KW - health prevention

KW - lead exposure

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M3 - Artículo

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SN - 2626-8493

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JO - International Journal of Online and Biomedical Engineering

JF - International Journal of Online and Biomedical Engineering

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ER -

Implementation of a Prototype of an Electronic Device for Measuring Lead Calculation in Blood

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