Evaluation of the biological responses of silver nanoparticles synthesized using Pelargonium x hortorum extract.

Silver nanoparticles (AgNPs) are one of the widely studied nanomaterials for diverse biomedical applications, in particular, as antimicrobial agents to kill bacteria, fungi, and viruses. In this report, AgNPs were synthesized using a geranium (Pelargonium x hortorum) leaves extract and tested for their antimicrobial and cytotoxic activity and reactive oxygen species (ROS) production. Using green biosynthesis, the leaves extract was employed as a reducing and stabilizing agent. Synthesis parameters like reaction time and precursor (silver nitrate AgNO3) volume final were modified, and the products were tested against Streptococcus mutans. For the first time, the metabolomic analysis of extract, we have identified more than 50 metabolites. The UV-Vis analysis showed a peak ranging from 410-430 nm, and TEM confirmed their nearly spherical morphology for all NPs. The antimicrobial activity of the NPs revealed a minimum inhibitory concentration (MIC) of 10 µg mL-1. Concerning cytotoxicity, a dose-time-dependent effect was observed with a 50% cellular cytotoxicity concentration (CC50) of 4.51 µg mL-1 at 24 h. Interestingly, the cell nuclei were visualized using fluorescence microscopy, and no significant changes were observed. These results suggest that synthesized spherical AgNPs are promising potential candidates for medical applications.

Effect of Streptococcus mutans on surface-topography, microhardness, and mechanical properties of contemporary resin composites.

OBJECTIVE: Dental caries is the most prevalent disease globally, and Streptococcus mutans (S. mutans) is a common associated oral bacteria. Additionally, S. mutans possess esterase activity capable of degrading resin composites (RC). However, the effect of degradation on the physical-mechanical properties of the RC has not been extensively studied. We evaluated the flexure strength (FS), the diametral tensile strength (DTS), the modulus of elasticity (ME), and the microhardness of three contemporary RC to establish if S. mutans could affect them. METHODS: One hundred thirty-eight bar-shaped and 276 disc-shaped specimens were fabricated with Enamel Plus HRi, IPS Empress Direct, and Clearfil AP-X, and physical-mechanical testing was done after been incubated during 30 and 60 days in culture media with or without S. mutans. Also, a scanning electron microscope was used to identify surface changes. RESULTS: None of the tested RC were affected in their mechanical properties (FS, ME, and DTS). However, Clearfil AP-X and Enamel Plus HRI showed eroded surfaces and a decreased microhardness after 30 and 60 days S. mutans incubation. IPS Empress Direct presented the lowest values in all the tests, but its physical-mechanical features and surface were not affected by bacteria's exposure. CONCLUSIONS: Exposure to S. mutans could affect some contemporary RC; however, the effect seems superficial since its mechanical features were not affected.

2D Nanosheets-A New Class of Therapeutic Formulations against Cancer.

Researchers in cancer nanomedicine are exploring a revolutionary multifaceted carrier for treatment and diagnosis, resulting in the proposal of various drug cargos or "magic bullets" in this past decade. Even though different nano-based complexes are registered for clinical trials, very few products enter the final stages each year because of various issues. This prevents the formulations from entering the market and being accessible to patients. In the search for novel materials, the exploitation of 2D nanosheets, including but not limited to the highly acclaimed graphene, has created extensive interest for biomedical applications. A unique set of properties often characterize 2D materials, including semiconductivity, high surface area, and their chemical nature, which allow simple decoration and functionalization procedures, structures with high stability and targeting properties, vectors for controlled and sustained release of drugs, and materials for thermal-based therapies. This review discusses the challenges and opportunities of recently discovered 2D nanosheets for cancer therapeutics, with special attention paid to the most promising design technologies and their potential for clinical translation in the future.

Antifungal biomaterial for reducing infections caused by Candida albicans in edentulous patients.

INTRODUCTION: Polymethylmethacrylate (PMMA) acrylic resins are used to make dentures for edentulous patients. OBJECTIVE: To find out the prevalence of Candida species in patients with and without removable prostheses from a dental clinic in León, Guanajuato, as well as to assess the antifungal effect and biological behavior of an experimental PMMA with silver nanoparticles for its possible application in prostheses. METHOD: To identify Candida species, smear samples were obtained from the palatal mucosa of 140 patients aged ≥ 60 years. The experimental PMMA with silver nnoparticles was placed in Candida albicans cultures, which were stained with the Live/Dead® kit for analysis under confocal microscopy; subsequently, it was implanted in Wistar rats in order to know its behavior in the surrounding tissues. RESULTS: Candida albicans was the most prevalent species in the evaluated patients, followed by Candida tropicalis and Candida krusei. The acrylic resin with silver nanoparticles significantly decreased the presence of Candida albicans. In the animal model, a discrete and controlled inflammatory reaction was found, which indicated biocompatibility of the acrylic resin that was used. CONCLUSIONS: It is possible for the nanostructured material with antifungal effect to be used in order to promote the reduction of oral Candida infections in edentulous patients.

INTRODUCCIÓN: Las resinas acrílicas de polimetilmetacrilato (PMMA) son utilizadas para elaborar dentaduras para pacientes edéntulos. OBJETIVO: Conocer la prevalencia de las especies de Candida en pacientes con y sin prótesis removibles de una clínica de odontología en León, Guanajuato; así como valorar el efecto antifúngico y el comportamiento biológico de un PMMA experimental con nanopartículas de plata para su posible aplicación en prótesis. MÉTODO: Para identificar las especies de Candida se obtuvieron muestras para frotis de la mucosa palatina de 140 pacientes con edad ≥ 60 años. El PMMA experimental con nanopartículas de plata fue colocado en cultivos de Candida albicans, los cuales fueron teñidos con el kit Live/Dead® para su análisis bajo microscopia confocal; posteriormente, se implantó en ratas Wistar para conocer su comportamiento en los tejidos circundantes. RESULTADOS: Candida albicans fue la especie más prevalente en los pacientes valorados, seguida de Candida tropicalis y Candida krusei. La resina acrílica con nanopartículas de plata disminuyó significativamente la presencia de Candida albicans. En el modelo animal se encontró reacción inflamatoria discreta y controlada, lo cual indicó la biocompatibilidad de la resina acrílica utilizada. CONCLUSIONES: Es posible utilizar el material nanoestructurado con efecto antifúngico para promover la reducción de infecciones orales por Candida en pacientes edéntulos.

Cytotoxicity of solutions recommended for the storage of avulsed teeth in cultures with periodontal ligament cells. / Citotoxicidad de soluciones recomendadas para el almacenamiento de dientes avulsionados en cultivo con células del ligamento periodontal.

Introduction: The medium for avulsed teeth storage until their reimplantation is key to the preservation of human periodontal ligament fibroblasts (HPLF). Objective: Our purpose was to compare the cytotoxic effect of milk and isotonic solution, used for the storage of avulsed teeth, on the preservation of HPLF. Method: A subculture of periodontal ligament fibroblasts was carried out with a density of 1:2 (3 ×105 cells/mL) and was incubated for 48 hours. The cells were divided in two groups, which were placed either in milk or isotonic solution for 24 hours at 5% CO2, 37 ºC and 95% humidity. The number of viable cells was determined with a colorimetric fast assay by the reduction of MTT and mitochondrial activity. Data were processed with the Shapiro-Wilk normality test, Student's t-test and paired Student's t-test (with significance set at 0.05). Results: The cells exposed to milk for 24 hours showed statistically significant cytotoxicity at concentrations of 0.09, 0.39, 0.78, 1.56, 3.125, 6.25 and 50%. HPLFs exposed to isotonic solution showed no significant reduction in the number of cells at concentrations of 25 and 50%. Conclusion: Isotonic solution appears to be better for HPLF 24-hour storage in comparison with whole milk.

Introducción: El medio de almacenamiento de los dientes avulsionados hasta su reimplante es vital para conservar los fibroblastos del ligamento periodontal humano (HPLF). Objetivo: Comparar el efecto citotóxico para conservar los HPLF de la leche y la solución isotónica para almacenamiento de dientes avulsionados. Método: Se realizó subcultivo de fibroblastos del ligamento periodontal con una densidad de 1:2 (3 × 105 células/mL), que fueron incubados por 48 horas. Se integraron dos grupos de células, que se colocaron en leche y solución isotónica durante 24 horas a 5 % de CO2, a 37°C y 95 % de humedad. El número de células viables fue determinado por colorimetría rápida por reducción de MTT y actividad mitocondrial. Los datos fueron sometidos a pruebas de normalidad de Shapiro-Wilk, t de Student y t de Student pareada (significación de 0.05). Resultados: Las células expuestas a la leche por 24 horas mostraron citotoxicidad estadísticamente significativa a concentraciones de 0.09, 0.39, 0.78, 1.56, 3.125, 6.25 y 50 %. Los HPLF expuestos a solución isotónica no mostraron reducción significativa del número de células a concentraciones de 25 y 50 %. Conclusión: La solución isotónica parece mejor para el almacenamiento de HPLF en 24 horas, comparada con la leche entera.

Growth evolution and phase transition from chalcocite to digenite in nanocrystalline copper sulfide: Morphological, optical and electrical properties.

Copper sulfide is a promising p-type inorganic semiconductor for optoelectronic devices such as solar cells, due its small band gap energy and its electrical properties. In this work nanocrystalline copper sulfide (Cu x S), with two stoichiometric ratios (x = 2, 1.8) was obtained by one-pot synthesis at 220, 230, 240 and 260 °C in an organic solvent and amorphous Cu x S was obtained in aqueous solution. Nanoparticle-like nucleation centers are formed at lower temperatures (220 °C), mixtures of morphologies (nanorods, nanodisks and nanoprisms) are seen at 230 and 240 °C, in which the nanodisks are predominant, while big hexagonal/prismatic crystals are obtained at 260 °C according to TEM results. A mixture of chalcocite and digenite phases was found at 230 and 240 °C, while a clear transition to a pure digenite phase was seen at 260 °C. The evolution of morphology and transition of phases is consistent to the electrical, optical, and morphological properties of the copper sulfide. In fact, digenite Cu1.8S is less resistive (346 Ω/sq) and has a lower energy band gap (1.6 eV) than chalcocite Cu2S (5.72 × 10(5) Ω/sq, 1.87 eV). Low resistivity was also obtained in Cu x S synthesized in aqueous solution, despite its amorphous structure. All Cu x S products could be promising for optoelectronic applications.