RESUMEN
Hydroxyapatite (HAp) is the most commonly used biomaterial in modern bone regeneration studies because of its chemical similarity to bone, biocompatibility with different polymers, osteoconductivity, low cost, and lack of immune response. However, to overcome the disadvantages of HAp, which include fragility and low mechanical strength, current studies typically focus on property modification through the addition of other materials. Objective. To develop and evaluate the biocompatibility of a HAp material extracted from eggshells and modified with silicon (Si) and poly(lactic-co-glycolic) acid (PLGA). Materials and Methods. An in vitro experimental study in which a HAp material prepared from eggshells was synthesized by wet chemical and conventional chemical precipitation. Subsequently, this material was reinforced with Si/PLGA using the freezing/lyophilization method, and then osteoblast cells were seeded on the experimental material (HAp/Si/PLGA). To analyse the biocompatibility of this composite material, scanning electron microscopy (SEM) and fluorescence confocal microscopy (FCM) techniques were used. PLGA, bovine bone/PLGA (BB/PLGA), and HAp/PLGA were used as controls. Results. A cellular viability of 96% was observed for the experimental HAp/Si/PLGA material as well as for the PLGA. The viability for the BB/PLGA material was 90%, and the viability for the HAp/PLGA was 86%. Cell adhesion was observed on the exterior surface of all materials. However, a continuous monolayer and the presence of filopodia were observed over both external and internal surface of the experimental materials. Conclusions. The HAp/Si/PLGA material is highly biocompatible with osteoblastic cells and can be considered promising for the construction of three-dimensional scaffolds for bone regeneration in dentistry.
RESUMEN
Introducción: en aplicaciones biomédicas, la termografía infrarroja ha permitido visualizar el patrón de distribución de temperatura de la piel y el tejido subyacente, permitiendo diagnosticar problemas vasculares o nerviosos y, particularmente, trastornos en la termorregulación como el fenómeno de Raynaud y la intolerancia al frío. Sin embargo, las publicaciones no detallan el protocolo de adquisiciónde imágenes ni validan el mismo; factores determinantes para la calidad y relevancia de la informacióndiagnóstica obtenida. Objetivo: diseñar y validar un protocolo de adquisición de imágenes por termografía infrarroja para analizar la termorregulación en la mano. Materiales y métodos: Se diseñó un nuevo protocolo de adquisición de imágenes por termografía infrarroja utilizando un estímulofrío en la mano. Se analizaron estadísticamente regiones de interés de imágenes termográficas de 18 mediciones intrasujeto en un único sujeto y mediciones intersujeto en 17 individuos sanos. Resultados: En las mediciones intrasujeto e intersujeto se encontró que 10 minutos después del estímulo frío el porcentaje de recuperación de la temperatura fue cercano al 100%, excepto en un individuo en el cual, a pesar de no reportar enfermedades o lesiones previas, la punta de los dedos después del estímulo alcanzó apenas los 28 ºC. La prueba de fatiga en uno de los sujetos sanos mostró alteraciones en el proceso de termorregulación de la mano cuando el protocolo se repite en corto tiempo.
Introduction: in biomedical applications, infrared thermography has allowed to visualize the temperaturedistribution patterns of skin and underlying tissue, allowing the diagnosis of vascular or nervous disorders, particularly disturbances in the thermoregulation process as Raynauds phenomenon and cold intolerance. However, most papers not detailed the images acquisition protocol or its validation, being these two determining factors to the quality and relevance of the obtained diagnostic information.Objective: To design and validate an acquisition protocol of diagnostic imaging by infrared thermographyto analyze the thermoregulation process in hand. Material and methods: It was designed a new acquisition protocol of diagnostic imaging by infrared thermography using a cold stimulus in hand. It was statistically analyzed the regions of interest of thermographic images of 18 intrasubject measurements (in one individual) and intersubject measurements in 17 healthy individuals. Results: In the intrasubject and intersubject measurements, it found that 10 minutes after the cold stimulus the temperature measured was close to 100% of initial temperature, except for one of healthy subjects who, despite not report diseases or previous injuries, the temperature of the fingertips after stimulus barely reached 28 °C. The fatigue test in one healthy subject presents alterations in the thermoregulation process in hand when the protocol was repeated in a short time.