Short-Term Exposure to Nanoplastics Does Not Affect Bisphenol A Embryotoxicity to Marine Ascidian Ciona robusta.

Plastic pollution is recognized as a global environmental threat and concern is increasing regarding the potential interactions of the smallest fragments, nanoplastics (1 µm), with either physical and chemical entities encountered in the natural environment, including toxic pollutants. The smallest size of nanoplastics (<100nm) rebounds to their safety associated with remarkable biological, chemical and physical reactivity that allow them to interact with cellular machinery by crossing biological barriers and causing damage to living beings. Recent findings on nanoplastic occurrence in marine coastal waters, including the Mediterranean Sea, leave open the question on their ability to act as a vector of other contaminants of emerging concerns (CECs) concomitantly released by wastewater treatment plants and reaching marine coastal waters. Here, we assess for the first time the role of non-functionalized polystyrene nanoparticles (PS NPs, 20 nm) as a proxy for nanoplastics (1 and 10 µg/mL) alone and in combination with bisphenol A (BPA) (4.5 and 10 µM) on Ciona robusta embryos (22 h post fertilization, hpf) by looking at embryotoxicity through phenotypic alterations. We confirmed the ability of BPA to impact ascidian C. robusta embryo development, by affecting sensory organs pigmentation, either alone and in combination with PS NPs. Our findings suggest that no interactions are taking place between PS NPs and BPA in filtered sea water (FSW) probably due to the high ionic strength of seawater able to trigger the sorption surface properties of PS NPs. Further studies are needed to elucidate such peculiarities and define the risk posed by combined exposure to BPA and PS NPs in marine coastal waters.

Early diagnosis of Gaucher disease based on bone symptoms / Diagnóstico temprano de enfermedad de Gaucher mediante detección de manifestaciones óseas.

Gaucher disease (GD) is caused by a genetic deficiency of the lysosomal enzyme glucocerebrosidase (GCase) leading to the accumulation of glucocerebroside in the liver, spleen, and bone marrow. The early diagnosis allows a prompt enzyme replacement therapy reversing cytopenias and visceromegaly and preventing irreversible bone lesions. Current diagnostic algorithms are based on well-recognized hematological manifestations. Although bone symptoms are present in 25-32% of the patients, they are not usually suspected as associated with Gaucher disease at clinical presentation. We designed an educational program aimed to give advice on the skeletal involvement in GD and a new diagnostic algorithm that considers bone symptoms to facilitate its early diagnosis (BIG project: Bone Involvement in Gaucher Disease). The study aims at describing the BIG project and the results of its application in our clinic in various cities in Argentina. Within the frame of this project, between March 2017 and December 2018, 38 dry blood spot samples from patients with bon e manifestations suspected of having GD were submitted to quantification of GCase activity. One sample did not meet the inclusion criteria. Deficient GCase activity was detected in three of the remaining 37 samples. The diagnosis of GD was confirmed in two girls who presented bone manifestations of 4 and 2 years of evolution, respectively, without hematological alterations. The third patient with low enzyme activity had normal leukocyte GCase. The two newly diagnosed cases of GD show the efficacy of our dual strategy aimed to facilitate the early diagnosis of this rare disease.

La enfermedad de Gaucher (EG) es causada p or una deficiencia genética de la glucocerebrosidasa (GCasa) que provoca acumulación de glucocerebrósido en hígado, bazo y médula ósea. La terapia temprana de reemplazo enzimático revierte citopenias, visceromegalias y previene lesiones óseas irreversibles, por lo cual el diagnóstico precoz es fundamental. Los algoritmos diagnósticos en uso apuntan a manifestaciones hematológicas clásicas. Los síntomas óseos están presentes en 25-32% de los pacientes pero no suelen despertar sospecha de EG. Diseñamos un programa educativo sobre la afecta ción ósea de la EG y un algoritmo focalizado en la presentación con manifestaciones óseas para facilitar su diagnóstico precoz (proyecto BIG: Bone Involvement in Gaucher Disease). El objetivo del trabajo es describir el proyecto BIG y los resultados de su aplicación en nuestra consulta. Entre marzo de 2017 y diciembre de 2018 se recibieron 38 muestras de sangre seca de pacientes con alguna manifestación ósea sospechosa de EG para cuantificar la actividad de GCasa. Una muestra no cumplía los criterios de inclusión y en 3 de las 37 restantes se observó actividad deficiente de GCasa. El diagnóstico de EG se confirmó por medición de GCasa en leucocitos en dos niñas con manifestaciones óseas de 4 y 2 años de evolución, respectivamente, sin citopenia ni visceromegalia clínicamente evidentes. En el otro paciente con baja actividad la medición en leucocitos fue normal. Los casos detectados muestran la efectividad de un programa educacional de difusión y la utilidad de un algoritmo de detección precoz basado en síntomas óseos que facilitaría el diagnóstico de EG.

Diagnóstico temprano de enfermedad de gaucher mediante detección de manifestaciones óseas / Early diagnosis of Gaucher disease based on bone symptoms

Resumen La enfermedad de Gaucher (EG) es causada por una deficiencia genética de la glucocerebrosidasa (GCasa) que provoca acumulación de glucocerebrósido en hígado, bazo y médula ósea. La terapia temprana de reemplazo enzimático revierte citopenias, visceromegalias y previene lesiones óseas irreversibles, por lo cual el diagnóstico precoz es fundamental. Los algoritmos diagnósticos en uso apuntan a manifestaciones hematológicas clásicas. Los síntomas óseos están presentes en 25-32% de los pacientes pero no suelen despertar sospecha de EG. Diseñamos un programa educativo sobre la afectación ósea de la EG y un algoritmo focalizado en la presentación con manifestaciones óseas para facilitar su diagnóstico precoz (proyecto BIG: Bone Involvement in Gaucher Disease). El objetivo del trabajo es describir el proyecto BIG y los resultados de su aplicación en nuestra consulta. Entre marzo de 2017 y diciembre de 2018 se recibieron 38 muestras de sangre seca de pacientes con alguna manifestación ósea sospechosa de EG para cuantificar la actividad de GCasa. Una muestra no cumplía los criterios de inclusión y en 3 de las 37 restantes se observó actividad deficiente de GCasa. El diagnóstico de EG se confirmó por medición de GCasa en leucocitos en dos niñas con manifestaciones óseas de 4 y 2 años de evolución, respectivamente, sin citopenia ni visceromegalia clínicamente evidentes. En el otro paciente con baja actividad la medición en leucocitos fue normal. Los casos detectados muestran la efectividad de un programa educacional de difusión y la utilidad de un algoritmo de detección precoz basado en síntomas óseos que facilitaría el diagnóstico de EG.

Abstract Gaucher disease (GD) is caused by a genetic deficiency of the lysosomal enzyme glucocerebrosidase (GCase) leading to the accumulation of glucocerebroside in the liver, spleen, and bone marrow. The early diagnosis allows a prompt enzyme replacement therapy reversing cytopenias and visceromegaly and preventing irreversible bone lesions. Current diagnostic algorithms are based on well-recognized hematological manifestations. Although bone symptoms are present in 25-32% of the patients, they are not usually suspected as associated with Gaucher disease at clinical presentation. We designed an educational program aimed to give advice on the skeletal involvement in GD and a new diagnostic algorithm that considers bone symptoms to facilitate its early diagnosis (BIG project: Bone Involvement in Gaucher Disease). The study aims at describing the BIG project and the results of its application in our clinic in various cities in Argentina. Within the frame of this project, between March 2017 and December 2018, 38 dry blood spot samples from patients with bone manifestations suspected of having GD were submitted to quantification of GCase activity. One sample did not meet the inclusion criteria. Deficient GCase activity was detected in three of the remaining 37 samples. The diagnosis of GD was confirmed in two girls who presented bone manifestations of 4 and 2 years of evolution, respectively, without hematological alterations. The third patient with low enzyme activity had normal leukocyte GCase. The two newly diagnosed cases of GD show the efficacy of our dual strategy aimed to facilitate the early diagnosis of this rare disease.