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      Quitosano de cangrejos con actividad antimicrobiana en compotas artesanales de plátanos Translated title: Crab chitosan with antimicrobial activity in artisanal banana compotes

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          Abstract

          Resumen Introducción: La importancia del quitosano se debe a sus propiedades químicas y biológicas ya que es biodegradable, bioactivo, poli catiónico y biocompatible, lo que le confiere una gran utilidad en la industria en aspectos biomédicos. La efectividad de sus derivados tales como la carboximetilquitosano está comprobada debido a que presenta propiedades como el ser soluble en agua y actuar como antimicrobiano en el algodón usado en la industria textil. El quitosano se extrae a partir de la quitina de los desechos de los crustáceos, siendo este polisacárido el segundo más abundante en la Naturaleza. Método: El presente estudio es de tipo aplicado con diseño y nivel experimental de corte transversal. Se utilizó, por un lado, dos variedades de plátanos: plátano isla (Musa paradisiaca) y plátano pildorita (Musa alinsanaya); de otro lado, se usaron cangrejos procedentes de los Manglares de Tumbes. La muestra no probabilística fue de 10 compotas de cada tipo de plátano y una solución de quitosano al 80% (p/v). La técnica microbiológica utilizada para el análisis de hongos y levaduras fue el recuento en placa. Se consideró evaluar el efecto conservante del quitosano respecto al del benzoato sódico. Resultados: En las muestras tratadas con quitosano (80% p/v), un 60% de ellas mostró ausencia de crecimiento y un 40% crecimientos de 5 UFC/g. Por otro lado, en las muestras tratadas con benzoato de sodio (0,1% p/v) no hubo crecimiento bacteriano en el 80% de los casos y sólo en un 20% hubo crecimientos de 10 UFC/g. Conclusiones: el quitosano obtenido a partir de la quitina de cangrejo tiene efecto antimicrobiano sobre hongos y levaduras, cuando se utiliza en una proporción del 80% (p/v) en compotas procesadas de plátano peruano.

          Translated abstract

          Abstract Introduction: The importance of chitosan is due to its chemical and biological properties as it is biodegradable, bioactive, poly cationic and biocompatible, which gives it great utility in the industry in biomedical aspects. The effectiveness of its derivatives such as carboxymethylchitosan is proven due to its water-soluble and antimicrobial properties in cotton used in the textile industry. Chitosan is extracted from the chitin of crustacean waste, the second most abundant polysaccharide in nature. Method: This is an applied study with a cross-sectional design and experimental level. Two varieties of plantain were used: island plantain (Musa paradisiaca) and pildorita plantain (Musa alinsanaya); on the other hand, crabs from the Tumbes mangroves were used. The non-probabilistic sample consisted of 10 compotes of each type of plantain and an 80% (w/v) chitosan solution. The microbiological technique used for the analysis of fungi and yeasts was the plate count. It was considered to evaluate the preservative effect of chitosan with respect to that of sodium benzoate. Results: In the samples treated with chitosan (80% w/v), 60% of them showed no growth and 40% showed growths of 5 CFU/g. On the other hand, in the samples treated with sodium benzoate (0.1%) there was no bacterial growth in 80% of the cases and only in 20% there were growths of 10 CFU/g. Conclusions: Chitosan obtained from crab chitin has an antimicrobial effect on fungi and yeasts, when used at a rate of 80% (w/v) in processed Peruvian plantain compotes.

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          Most cited references20

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          Preparation of silver nanoparticles in the presence of chitosan by electrochemical method.

          The present study involves the development of stabilized and densely dispersed chitosan-silver nanoparticles using a green approach based on electrochemical oxidation/complexation process followed by UV irradiation reduction. Formation of the nanoparticles was confirmed by appearance of surface plasmon absorption around 420 nm. The nanoparticles were characterized using transmission electron microscopy, X-ray diffraction, elemental analysis, atomic absorption, energy dispersive X-ray, Fourier transform infrared, and UV-Visible spectrophotometry. The obtained nanoparticles were uniform and spherical with average size of 2-16 nm. It was found that increasing the Ag content in the chitosan-Ag based films tends to decrease their equilibrium swelling values. The nanoparticles also demonstrated a relatively high antibacterial activity against Bacillus thuringiensis and Pseudomonas aeruginosa bacteria as compared to that of chitosan and the antibacterial activity increased with increasing the nanoparticle concentration. The obtained results revealed that the prepared nanoparticles could be tailored and used in various biomedical applications.
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            Preparation of chitosan nanoparticles as carrier for immobilized enzyme.

            This work investigated the preparation of chitosan nanoparticles used as carriers for immobilized enzyme. The morphologic characterization of chitosan nanoparticles was evaluated by scanning electron microscope. The various preparation methods of chitosan nanoparticles were discussed and chosen. The effect of factors such as molecular weight of chitosan, chitosan concentration, TPP concentration, and solution pH on the size of chitosan nanoparticles was studied. Based on these results, response surface methodology was employed. The results showed that solution pH, TPP concentration, and chitosan concentration significantly affected the size of chitosan nanoparticles. The adequacy of the predictive model equation for predicting the magnitude orders of the size of chitosan nanoparticles was verified effectively by the validation data. Immobilization conditions were investigated as well. The minimum particles size was about 42 +/- 5 nm under the optimized conditions. The optimal conditions of immobilization were as follows: one milligram of neutral proteinase was immobilized on chitosan nanoparticles for about 15 min at 40 degrees C. Under the optimized conditions, the enzyme activity yield was 84.3%.
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              Uso de agentes antimicrobianos  naturales en la  conservación de frutas y hortalizas

              En la actualidad ha surgido la necesidad de buscar alternativas de conservación, esto debido a que se ha asociado el consumo de conservadores químicos con intoxicaciones. La demanda de productos frescos mínimamente tratados está aumentando, así como el interés por los agentes antimicrobianos de origen natural (derivados de vegetales), por esto en la actualidad se busca la combinación de dos o más factores que interaccionen aditiva o sinérgicamente controlando a la población microbiana, permitiendo con esto productos semejantes al producto fresco pero con menos aditivos, cabe señalar que la velocidad de deterioro microbiológico no solo depende de los microorganismos presentes, sino también de la combinación química del producto y del tipo de carga microbial inicial. Es por ello que el principal objetivo del procesamiento de alimentos es proveer bienestar al ser humano por medio de alimentos seguros, nutricionalmente adecuados y cubrir las expectativas de sabor, aroma y apariencia, por lo cual el uso de aditivos alimentarios de origen natural implica el aislamiento, purificación, estabilización e incorporación de dichos compuestos a los alimentos con fines antimicrobianos, sin que afecte negativamente a las características sensoriales. En general, cada vez se descubren más plantas o partes de estas que contienen antimicrobianos naturales, por ejemplo los que incluyen compuestos fenólicos provenientes de cortezas, tallos, hojas, flores, ácidos orgánicos presentes en frutos y fitoalexinas producidas en plantas, por lo que ya no solo tendremos mayor seguridad, sino mejor calidad de los alimentos ya que este tipo de antimicrobianos se consideran como fuentes potencialmente seguras
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                Author and article information

                Journal
                ars
                Ars Pharmaceutica (Internet)
                Ars Pharm
                Universidad de Granada (Granada, Granada, Spain )
                2340-9894
                December 2022
                : 63
                : 4
                : 335-344
                Affiliations
                [1] Lima Lima orgnameUniversidad María Auxiliadora orgdiv1Facultad de Ciencias de la Salud orgdiv2Escuela Profesional de Farmacia y Bioquímica Peru
                Article
                S2340-98942022000400003 S2340-9894(22)06300400003
                10.30827/ars.v63i4.25982
                7f1378c0-dad3-4141-8e81-9b7b0b4abc9f

                This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

                History
                : 14 September 2022
                : 14 August 2022
                Page count
                Figures: 0, Tables: 0, Equations: 0, References: 20, Pages: 10
                Product

                SciELO Spain

                Categories
                Artículos Originales

                plátano,Chitosan,Bacterial Growth,crecimiento bacteriano,quitosano,Musa

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