Silver Nanoparticles and PDMS Hybrid Nanostructure for Medical Applications

For many years, people have known about silver’s antibacterial qualities. Silver nanoparticles are widely used in consumer products, biomedical equipment, textile products and in other applications. Having a larger surface area to coat or spread over another surface, offers a greater contact area, therefore, increases antimicrobial properties. Also, these nanoparticles can be incorporated into polydimethylsiloxane (PDMS) implants as immobilized or occluded particles to improve their performance in the body. PDMS is commonly used for biomedical applications, including components for microfluidics, catheters, implants, valves, punctual plugs, orthopedics and micro gaskets. It can be manufactured easily in different forms such as fibers, fabrics, films, blocks and porous surfaces. The use of silver nanoparticles for their antimicrobial qualities improves PDMS biocompatibility, because it inhibits microbial growth, thereby making it more attractive for biomedical applications. The presence of metal nanoparticles also helps to reduce the hydrophobic nature of PDMS. This property of PDMS does not encourage cell adhesion, which is a very critical requirement for medical implants. Silver nanoparticles improve the silicone’s wettability. The exceptional properties of silver nanoparticles combined with the PDMS have made this hybrid nanostructure applicable to different medical uses

Biosíntesis de dextranos de alto peso molecular mediante la inoculación con Leuconostoc Mesenteroides, var. Mesenteroides (atcc 10830) de jugos residuales de la agroindustria de la piña: síntesis y caracterización de hierro-dextranos = Biosynthesis of high molecular weight dextrans by inoculation with Leuconostoc mesenteroides, var. mesenteroides (ATCC 10830) residual juice from pineapple agroindustry: synthesis and characterization of iron-dextrans

En este trabajo se muestran los estudios realizados para obtener dextranos a partir de desechos de la agroindustria de piña. La fermentación se llevó a cabo en un biorreactor (10 L), se inoculó con un cultivo de Leuconostoc mesenteroides, var. mesenteroides (ATCC 10830). Se centrifugó y se precipitó y purificó con etanol. Fue caracterizado por medio de viscosidad, peso molecular y grupos funcionales por espectroscopía infrarroja. Este dextrano fue tratado con el fin de obtener hierro-dextranos

Synthesis and characterization of nanocrystalline cellulose derived from Pineapple peel residues

Pineapple peel biomass was used as raw material for nanocellulose extraction. The raw material is a residue from the Costa Rican fruit industry. The nanocellulose was obtained by a two-step hydrolysis process. Firstly, the cellulose was hydrolyzed with HCl to obtain microcrystalline cellulose. In the second step, the hydrolysis was carried out using H2SO4 to obtain smaller fragments and decrease the lignin content. A time-dependent study was carried out to determine the particle size decrease depending on the contact time with the H2SO4. The chemical, thermal and morphological properties were analyzed by Fourier transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), dynamic light scattering (DLS), zeta potential, atomic force microscopy (AFM) and scanning electron microscopy (SEM). The nanofiber-like cellulose was obtained after 60 minutes of exposure to 65 wt% H2SO4

Preliminary study of the production of hybrid compounds of chitosan and polyphenols derived from lignin from agroindustry and shrimp fishery

En este estudio se prepararon y caracterizaron microcápsulas híbridas del conjugado de polifenoles derivados de la lignina proveniente de la cáscara de piña, y el quitosano obtenido a partir de la quitina de la cáscara del camarón; ambos materiales fueron obtenidos como residuos de la industria agropecuaria y pesquería de camarón de Costa Rica. Con el objetivo de preparar compuestos fenólicos derivados de la lignina, y utilizarlos en la síntesis de las microcápsulas, se realizó la hidrólisis enzimática de la misma en un reactor a presión atmosférica a un pH de 6.8, en buffer de citrato 1 M, durante 6 h a 37ºC. Las enzimas utilizadas fueron extraídas de los cultivos de hongos de Gloeophyllum trabeum (Pers.) Murrill y Phanerochae chrysosporiumin Burdsall. Para la obtención del quitosano se realizó la desacetilación alcalina a partir de exoesqueletos del camarón Heterocarpus vicarius Fazon. Para la preparación de las microcápsulas se empleó una disolución de quitosano en ácido acético, el cual fue mezclado con una disolución acuosa del producto obtenido de la hidrólisis de la lignina y luego añadido a una disolución de vaselina para microemulsionar. Posteriormente, se agregó el glutaraldehído como agente entrecruzante. Se obtuvieron microcápsulas con tamaños entre 5 y 10 μm. Estas microcápsulas son un material promisorio ya que, mediante la formación del complejo, se puede aumentar la solubilidad del quitosano y estabilizar los polifenoles, manteniendo así sus propiedades antioxidantes. Los resultados preliminares obtenidos en esta investigación, muestran el potencial de este material para el encapsulamiento de fármacos y pesticidas.Hybrid microcapsules of the conjugate of polyphenols derived from lignin were prepared and characterized. They were obtained from pineapple peel and chitin from shrimp shell from agroindustry or shrimp fishery of Costa Rica. The phenolic compounds were obtained by hydrolysis of lignin, using the enzyme derivatives from the fungus culture of Gloeophyllum trabeum (Pers.) Murrill and Phanerochaete chrysosporium Burdsall. The reaction was carried out in a reactor with atmospheric pressure, pH 6.8, with a citrate buffer of 1M, for 6 hours at 37°C. The chitosan was obtained by alkaline deacetylation of the Heterocarpus vicarious Fazon, shrimp exoskeletons. Microcapsules were prepared mixing a solution of chitosan dissolved in acetic acid and a solution of polyphenol derivatives from lignin. Afterwards, they were added to a vaseline aqueous solution for the microemulsion formation and glutaraldehyde was added as a crosslinking agent. Microcapsules with sizes between 5 to 10 μm were obtained. These microcapsules are a promising material to increase chitosan solubility and for preventing the oxidation of polyphenols. The preliminary results obtained in this research show the potential of this material for the encapsulation of drugs and pesticides

Estratégia de difusão da nanotecnologia: Ensino interdisciplinar aos professores do ensino fundamental

The objective of the research was to disseminate nanotechnology concepts, applications, and benefits among educators from different Costa Rican provinces to increase their acceptance and dissemination of the subject to elementary students. Teachers from different areas of the country were called to participate.  Five training workshops were held in Turrialba, Cahuita, Alajuela, Buenos Aires, and Nicoya covering fundamental nanotechnology concepts and applications, as well as the contributions offered from an educational point of view. The workshops were held in person two full days including talks, practical activities, and discussions. In addition, educational materials were prepared, such as a poster and an information brochure, and two educational videos on nanotechnology. A total of 98 teachers, 87% men and 13% women, from different provinces were trained. Workshop evaluations were positive in terms of the knowledge acquired with an average of 57.30%, compared to 5.10% before starting the training. This project contributed to strengthen teachers’ knowledge about nanotechnology and its applications. In addition, national and international nanotechnology research projects were made known. The above will help teachers disseminate new knowledge to the student population, thus becoming knowledge multipliers.El objetivo de la investigación fue socializar los conceptos, aplicaciones y beneficios de la nanotecnología entre personal educador de las diferentes provincias de Costa Rica, para incrementar su aceptación y difusión del tema a los niños y niñas de educación primaria. Se realizó una convocatoria para seleccionar a sujetos educadores de distintas zonas del país. Se impartieron 5 talleres de capacitación en las siguientes localidades: Turrialba, Cahuita, Alajuela, Buenos Aires y Nicoya. En estos se abordaron temas fundamentales de la nanotecnología y sus aplicaciones, así como los aportes que se pueden ofrecer desde el punto de vista educativo. Los talleres se impartieron de manera presencial durante dos días completos, con exposición de charlas, actividades prácticas y discusiones. Además, se preparó material didáctico, como un afiche y un folleto informativo, y dos videos educativos alusivos a la nanotecnología. Se logró capacitar a 98 sujetos educadores, 87 % hombres y 13 % mujeres, de distintas provincias del país. Los resultados de las evaluaciones de los talleres fueron buenos, en términos del conocimiento adquirido con un promedio de calificación de un 57,30 %, comparado con un 5,10 % alcanzado antes de iniciar la capacitación. Este proyecto, contribuyó a fortalecer el conocimiento de los educadores sobre la nanotecnología y sus aplicaciones; además, se dieron a conocer proyectos de investigación nacionales e internacionales relativos a la nanotecnología. Lo anterior permitirá que los educadores sean capaces de transmitir los nuevos conocimientos a la población estudiantil, y se conviertan en multiplicadores del conocimiento.Esta pesquisa teve como objetivo socializar os conceitos, aplicações e benefícios da nanotecnologia entre os educadores dos diferentes municípios da Costa Rica, para aumentar a aceitação e difusão do tema nos estudantes do ensino fundamental. Foi realizada uma convocatória para escolher sujeitos educadores de distintas zonas do país. Foram ministradas 5 oficinas de capacitação nas seguintes localidades: Turrialba, Cahuita, Alajuela, Buenos Aires e Nicoya. Foram abordados temas fundamentais da nanotecnologia e suas aplicações, assim como as contribuições que podem ser dadas desde o ponto de vista educativo. Essas oficinas foram ministradas presencialmente durante dois dias completos, com exposição de palestras, atividades práticas e discussões. Além disso, foi preparado material didático, como um cartaz e um folheto informativo, e dois vídeos educativos alusivos à nanotecnologia. Foi possível capacitar 98 sujeitos educadores, 87 % homens e 13 % mulheres, de distintos municípios do país. Os resultados das avaliações das oficinas foram bons, em termos do conhecimento adquirido com uma média de nota de 57,30 %, comparado aos 5,10 % alcançados antes de iniciar a capacitação. Este projeto contribuiu para a consolidação do conhecimento dos educadores sobre a nanotecnologia e suas aplicações; além disso, divulgaram projetos de pesquisas nacionais e internacionais relativos à nanotecnologia. Isso permitirá que os educadores sejam capazes de transmitir os novos conhecimentos à população estudantil e de se transformar em multiplicadores do conhecimento

Biorefinery of rice husk to obtain functionalized bioactive compounds

The biomass industrialization valorisation of grains and cereals is considered an opportunity for the countries where agro-industrial activity is one of its main economic activities, rendering new higher-value products with a concomitant solution to waste accumulation issues. To that end, in this work we describe and characterise bioactive compounds generation from rice husk by semisolid fermentation, obtained from 500 g of the material at room temperature and 60% humidity with mixed cultures of Phanerochaete chrysosporium and Gloeophyllum trabeum. The extract was evaluated in different situations: murine mammary tumour cells (4T1), normal cells (NIH 3T3) and in Lactobacillus acidophilus, and Trichoderma harzianum. The results exhibited that the extract inhibited 4T1 cells at concentrations higher than 20μg/mL, but did not inhibit normal cells, and displayed germicide activity after 3 days incubations. We propose that these functionalized compounds have a potential application in industry/agriculture/medicine obtained from rice husk waste

Tropical agroindustrial biowaste revalorization through integrative biorefineries—review part II: pineapple, sugarcane and banana by-products in Costa Rica

Biorefineries are a model for greener production processes, based on the concept of bioeconomy. Instead of targeting first-generation biofuels—that compete with food supply—the focus relies on lignocellulosic material, considering many aspects, such as sustainable fuel production, as well as valorization of waste, as an alternative to the traditional petrochemical approach of goods production. Especially, in tropical countries agricultural activities lead to tremendous amounts of biomass, resulting in waste that has to be dealt with. In the case of Costa Rica, the five major crops cultivated for export are coffee, oil palm, pineapple, sugarcane, and banana. Traditional ways of waste treatment cannot cope with the increasing amount of biomass produced and therefore, bear various challenges often related to increased pollution. This review aims to bring up the recent state of waste treatment but even more, stress potential opportunities of adding value to not used residues; thus, improve sustainability in the agro industrial sector. Part I of the review already highlighted the potential of producing promising bioactive chemical compounds by novel biorefinery concepts from agricultural waste originating from coffee and oil palm cultivation. This second part focuses on the lignocellulose-rich biowaste from pineapple, sugarcane, and banana, showing biorefinery concepts, where fuel and energy production, as well as establishment of novel products and new applications, play an important role. © 2022, The Author(s)

Curcumin Hybrid Lipid Polymeric Nanoparticles: Antioxidant Activity, Immune Cellular Response, and Cytotoxicity Evaluation.

Poor solubility and short biological half-life present a challenge that needs to be overcome in order to improve the recognized bioactivities of curcumin (CUR), the main phenolic compounds derived from the roots of Curcuma longa. However, drug delivery systems have proven to be an excellent strategy to improve and obtain greater bioavailability. Our previous studies on curcuminoid hybrid nanoparticles have shown promising results by significantly increasing the solubility of desmethoxycurcumin (DMC) and bisdemethoxycurcumin (BDM). In this contribution, we performed a detailed characterization of a CUR as well as in vitro and in vivo studies. The developed method produced CUR loaded nanoparticles with an average size of 49.46 ± 0.80. Moreover, the FT-IR analysis confirmed the encapsulation, and TEM images showed their spherical shape. The NP achieved an encapsulation efficiency greater than 99%. Further, the release studies found that the NPs obtained a significantly higher release than the pure compounds in water. In vivo delayed-type hypersensitivity (DTH) studies showed promising results by enhancing the immune activity response of CUR in NP compared to bulk CUR. Furthermore, we report a significant increase in antioxidant activity for CUR-NP in aqueous solution compared to free CUR. Finally, an important in vitro cytotoxic effect on gastric AGS and colon SW620 adenocarcinoma cell lines was found for CUR-NP while empty carrier nanoparticles are observed to exhibit low cytotoxicity, indicating the potential of these CUR-PLU NPs for further studies to assess their phytotherapeutic applications.National Laboratory of Nanotechnology (LANOTEC).Ministerio de Ciencia, Innovación, Tecnología y Telecomunicaciones (MICITT)Universidad de Costa Rica/[115-C0-001]/UCR/Costa RicaUniversidad de Costa Rica/[115-C1-515]/UCR/Costa RicaUCR::Vicerrectoría de Docencia::Salud::Facultad de Medicina::Escuela de MedicinaUCR::Vicerrectoría de Docencia::Ciencias Básicas::Facultad de Ciencias::Escuela de QuímicaUCR::Vicerrectoría de Docencia::Salud::Facultad de Farmaci

Pineapple agro-industrial biomass to produce biomedical applications in a circular economy context in Costa Rica

Pineapple is a highly demanded fruit in international markets due to its unique appearance and flavor, high fiber content, vitamins, folic acid, and minerals. It makes pineapple production and processing a significant source of income for producing countries, such as Costa Rica. This review collects bibliographic information dating back to the beginnings of pineapple production in Costa Rica to the state of the market today. It details the impacts of its production chain and proposes a biorefinery as a solution to environmental problems. Besides the potentiality of new sustainable markets to contribute to the post-COVID-19 economy in Costa Rica is highlighted. The general characteristics of pineapple by-products -cellulose, hemicellulose, lignin, and other high-value products like bromelain y saponin- are described, as well as the primary processes for their ex-traction via biorefinery and main applications in the medical field. Finally, a brief description of the main works in the literature involving modeling and simulation studies of pineapple by-products properties is included

Caracterização estrutural de vesículas modificadas com quitosana

Vesículas a base de L-α-fosfatidilcolina (PC) y mezclas de PC/fosfogliceroles fueron caracterizadas por medio de dispersión de luz dinámica (DLS), microscopía electrónica de barrido-criogénico (Cryo-SEM) y calorimetría de titulación isotérmica (ITC). La incorporación de fosfogliceroles en la formulación de vesículas a base PC disminuyó el tamaño y la polidispersidad de las partículas, debido a un mayor empaquetamiento de las cadenas alifáticas por medio de interacciones de van der Waals. Además, resultó en una disminución significativa de la carga superficial de -75 mV comparada con el potencial Z (ξ) de las vesículas a base de PC. Ambos sistemas fueron modificados usando un polielectrolito catiónico (quitosano) de un peso molecular de 865 kDa y con un grado de desacetilación de 77 %. La naturaleza aniónica de la vesícula fosfolipídica resultó en una efectiva interacción con el polielectrolito catiónico mediante fuerzas del tipo electrostática, la cual fue determinada por medio de ITC. Los resultados fueron complementados mediante la determinación de potencial Z de los sistemas modificados, lo cual demostró que no es necesaria una inversión completa de la carga inicial de la superficie de la vesícula para asegurar el recubrimiento de esta. La adición de concentraciones de quitosano mayores a 0,1 mg/mL condujo a la agregación de las vesículas, lo cual fue demostrado mediante Cryo-SEM y DLS. Este efecto fue más significativo para el sistema basado en dimiristoilfosfoglicerol sal de sodio y quitosano, debido a la fuerte atracción electrostática.L-α-phosphatidylcholine (PC) and PC/phosphoglycerol based-vesicles were characterized by Dynamic Light Scattering (DLS), Cryo-Scanning Electron Microscopy (Cryo-SEM), and Isotermal Titration Calorimetry (ITC). The incorporation of phosphoglycerol into the PC vesicles decreased the size and the polydispersity of the particles, due to an increase of the packing of the aliphatic chains in the layer. This phenomenon has been interpreted in terms of strong van der Waals interactions. The addition of phosphoglycerols resulted in a reduction in zeta potential (ξ) to values of -75 mV, compared to PC based-vesicles. Both systems were modified by using a high molecular weight chitosan (865 kDa) with a degree of deacetylation of 77%. Strong electrostatic interactions between the cationic polyelectrolyte and the vesicles were determined by ITC experiments. The results were reinforced by means of Z potential analysis. It has been demonstrated that a complete inverse of the vesicle surface charge is not required to perform a complete coating of the phospholipid particles. The addition of concentration of chitosan above 0,1 mg/mL induced vesicles aggregation. Aggregated vesicle-polymer structures were visualized by Cryo-SEM and measured by DLS. This behavior was more significant for the PC/DMPG-Na-/chitosan system.Vesículas a base de L-α-fosfatidilcolina (PC) e mesclas de PC/fosfogliceróis foram caracterizadas por meio de dispersão de luz dinâmica (DLS), microscopia eletrônica de varredura-criogênico (Cryo-SEM) e calorimetria de titulação isotérmica (ITC). A incorporação de fosfogliceróis na formulação de vesículas a base de PC diminuiu o tamanho e a polidispersão das partículas, devido a um maior empacotamento das cadeias alifáticas por meio de interações de van der Waals. Além disso, resultou em uma diminuição significativa da carga superficial de -75 mV comparada com o potencial Z (ξ) das vesículas a base de PC. Ambos os sistemas foram modificados usando um polieletrólito catiônico (quitosana) de um peso molecular de 865 kDa e com um grau de desacetilação de 77 %. A natureza aniônica da vesícula fosfolipídica resultou em uma interação efetiva com o polieletrólito catiônico através de forças do tipo eletrostática, que foi determinada por meio de ITC. Os resultados foram complementados por meio da determinação de potencial Z dos sistemas modificados, o qual demostrou não ser necessária uma inversão completa da carga inicial da superfície da vesícula para assegurar o recobrimento desta. A adição de concentrações de quitosana maiores a 0,1 mg/mL conduziu à agregação das vesículas, o qual foi demostrado mediante Cryo-SEM e DLS. Este efeito foi mais significativo para o sistema baseado em dimiristoil fosfoglicerol sal de sódio e quitosana, devido à forte atração eletrostática.Ministerio de Ciencia y Tecnología/[Materiales inteligentes 023930]/MICIT/Costa RicaConsejo Nacional para Investigaciones Científicas y Tecnológicas/[Materiales inteligentes 023930]/CONICIT/Costa RicaUCR::Vicerrectoría de Docencia::Ciencias Básicas::Facultad de Ciencias::Escuela de Químic