Monica Cardona scite author profile

Monica Cardona

4Publications

10Citation Statements Received

13Citation Statements Given

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Affiliations

Pontifical Bolivarian University, York College, City University of New York

Publications

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Acute cytotoxicity testing with cultured human lung and dermal cells

Barile

Cardona

1998

In Vitro Cell.Dev.Biol.-Animal

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An extensive in vitro study with cultured cells was conducted to test the basal cytotoxicity theory. This theory suggests that most chemical injury, at least in vitro, is a manifestation of one or more insults to the basic cellular structures and functions common to mammalian cells. This accounts for the similarity of results in multilaboratory studies. Human fetal lung fibroblasts (HFL1), and human skin fibroblasts (WS1, Detroit551) were studied in culture to evaluate their potential to screen for cytotoxicity. Confluent monolayers were incubated in the absence or presence of increasing concentrations of test chemicals for 24 h, and the MTT assay was used to assess toxicity. Inhibitory concentrations were extrapolated from concentration-effect curves after linear regression analysis. Twenty-nine chemicals were tested with each cell line and the cytotoxicity data compared to rodent and human lethal concentrations. The data suggest that the experimental IC50 values are as accurate predictors of human toxicity as equivalent toxic blood concentrations derived from rodent LD50s. In addition, lung and skin fibroblasts revealed no significant differences among the three cell lines. The results support the conclusion that finite cell lines of human origin have the potential for screening chemicals for human toxicity. In combination with previously published reports, the data suggest that a basal cytotoxic phenomenon may explain the similarity of results among different human cell lines.

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Evaluación de la degradación por termoxidación de termoplásticos empleados en aplicaciones agrícolas

Kerguelen

Mejia

Ramírez

et al. 2009

Rem: Rev. Esc. Minas

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Evaluación de la degradación por termoxidación de termoplásticos empleados en aplicaciones agrícolas (Thermoxidation of thermoplastics used in agricultural applications) ResumenPoliolefinas como el polipropileno son ampliamente utilizadas en el campo agrícola, en particular para la protección y sostenimiento de plantas. Sin embargo, su masivo consumo viene generando importantes problemas ambientales. En este estudio muestras de polipropileno y sus mezclas con almidón y un biopolìmero como el Mater-Bi, los cuales se pueden emplear en este tipo de aplicaciones, han sido sometidas a un proceso de degradación térmica o termoxidación. Diferentes condiciones de temperatura y tiempos de exposición han sido analizadas tomando como base la norma técnica ASTMD 5510. De acuerdo con los resultados obtenidos a través de viscosimetría se aprecia que la temperatura tiene un mayor efecto sobre la escisión de cadena de la matriz que el tiempo de exposición. Los espectros infrarrojos indican la presencia de grupos funcionales que contienen oxígeno asociados con la degradación, los cuales pueden ser útiles en una posterior etapa de biodegradación. En ensayos realizados mediante calorimetría diferencial de barrido se observan pequeñas variaciones sobre la temperatura de fusión y cristalización de los diferentes materiales. En tanto que las micrografías de SEM de la mezclas muestran regiones en donde la interfase matriz/aditivo ha sido mejorada por efecto de la degradación.

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Formulación de una colada empleando harina de sacha inchi (Plukenetia volubilis L.) proveniente del proceso de obtención de aceite

Vásquez-Osorio

Hincapié-Llanos

Cardona

et al. 2017

Perspect Nutr Humana

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Filtration of Enriched and Pure Oxygen Key to Increasing Cell Culture Application Yield

Cardona¹

2007

BioProcess J

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Monica Cardona

Acute cytotoxicity testing with cultured human lung and dermal cells

Evaluación de la degradación por termoxidación de termoplásticos empleados en aplicaciones agrícolas

Formulación de una colada empleando harina de sacha inchi (Plukenetia volubilis L.) proveniente del proceso de obtención de aceite

Filtration of Enriched and Pure Oxygen Key to Increasing Cell Culture Application Yield

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