19 research outputs found
Advanced Regenerative Techniques Based on Dental Pulp Stem Cells for the Treatment of Periodontal Disease
Recent progress in periodontology intended to reduce the risk represented by periodontal disease for systemic disorders and general human health condition. In this chapter, we overview the advantages and limitations of current techniques based on occlusive membranes for periodontal regeneration. Special emphasis is paid to advanced techniques using stem cells from dental pulp for the regeneration of bone defects caused by the chronic periodontal disease. Stem cells isolation, in vitro expansion and characterization techniques are presented. Therapeutic strategies of stem cells delivery using natural polymeric carriers are discussed. Stem cell-scaffold constructs application in bone tissue engineering is proposed, taking into account the marked decline of healing, and regenerative processes in elderly individuals. Future researchers envisage multiple effects of engineered constructs with antimicrobial, anti-inflammatory, and regenerative activity for periodontal treatment
Preparation and Characterization of a Collagen-Liposome-Chondroitin Sulfate Matrix with Potential Application for Inflammatory Disorders Treatment
Smart drug delivery systems with controllable properties play an important role in targeted therapy and tissue regeneration. The aim of our study was the preparation and in vitro evaluation of a collagen (Col) matrix embedding a liposomal formulation of chondroitin sulfate (L-CS) for the treatment of inflammatory disorders. Structural studies using Oil Red O specific staining for lipids and scanning electron microscopy showed an alveolar network of nanosized Col fibrils decorated with deposits of L-CS at both periphery and inner of the matrix. The porosity and density of Col-L-CS matrix were similar to those of Col matrix, while its mean pore size and biodegradability had significantly higher and lower values (P<0.05), respectively. In vitro cytotoxicity assays showed that the matrix system induced high cell viability and stimulated cell metabolism in L929 fibroblast cell culture. Light and electron micrographs of the cell-matrix construct showed that cells clustered into the porous structure at 72 h of cultivation. In vitro diffusion test indicated that the quantity of released CS was significantly lower (P<0.05) after embedment of L-CS within Col matrix. All these results indicated that the biocompatible and biodegradable Col-L-CS matrix might be a promising delivery system for local treatment of inflamed site
Induction of differentiation inhibits the tumorigenic potential of glioblastoma cancer stem cells
The outcome of the patients with newly diagnosed glioblastoma remains dismal, despite the use of surgery, radiotherapy and adjuvant temozolomide and while new agents like anti-angiogenic agents seem to offer some promise, a new approach is needed. Recent studies suggest that cancer stem cells (CSCs) may play an important role in malignant gliomas invasion and proliferation. Therefore, CSCs became new therapeutical targets, and one of the main experimental therapies which could be used against CSCs is the differentiation therapy.The purpose of this study was to characterize the CSCs isolated from glioblastoma samples, to assess in vivo the tumorigenic potential of these cells and to induct the differentiation of the CSCs. The changes in invasive markers (matrixmetalloproteases-MMPs, cadherins and cathenins) expression were assessed. CSCs exposed to differentiation inductor factors have been inoculated in nude mice and their tumorigenic potential has been evaluated. The stemness biological feature was correlated with increased of MMPs, cadherins, catenin expression and with tumour contra-lateral invasion. The expression of MMPs, cadherins and cadherins decreased after exposure of the CSCs cultures to the differentiation inductor factors. In vivo experiments demonstrated the inhibition of tumorigenic potential of differentiated CSCs cultures.In conclusion, differentiated CSCs showed a decreased expression of invasive markers in vitro and lost their tumorigenic potential in vivo
Tracing the accumulation and effects of mercury uptake in the previtellogenic ovary of crucian carp Carassius auratus gibelio by autometallography and caspase-3 immunohistochemistry
The aims of the present study were to apply
the AMG technique for localization of mercury at the
light and electron microscopic level in the ovary of
crucian carp after exposure to mercuric chloride and to
find out if this heavy metal induces expression of
caspase-3. Depending on the stage of ovarian follicle
development, two patterns of mercury accumulation
have been found in previtellogenic ovary of crucian
carp. The first mercury accumulation pattern has been
found in the early previtellogenic oocyte without zona
radiata. In these oocytes, mercury accumulates into an
ooplasmic region that seems to correspond to the
Balbiani body (32-65 μm oocyte diameter), throughout
the cytoplasm (84-116 μm oocyte diameter) and in the
cortical cytoplasm (~180 μm oocyte diameter). The
second mercury accumulation pattern has been found in
the late previtellogenic oocyte with cortical alveoli (229-
330 μm oocyte diameter). Ultrastructural observations
have shown grains of silver-enhanced mercury inside
coated vesicles, the cortical lysosome-like bodies or
multivesicular bodies and cortical alveoli. Immunohistochemistry
reaction for caspase-3 was positive in
nuclei of the early previtellogenic oocyte and Balbiani
body
Indigo Carmine: Between Necessity and Concern
Dyes, such as indigo carmine, have become indispensable to modern life, being widely used in the food, textile, pharmaceutical, medicine, and cosmetic industry. Although indigo carmine is considered toxic and has many adverse effects, it is found in many foods, and the maximum permitted level is 500 mg/kg. Indigo carmine is one of the most used dyes in the textile industry, especially for dyeing denim, and it is also used in medicine due to its impressive applicability in diagnostic methods and surgical procedures, such as in gynecological and urological surgeries and microsurgery. It is reported that indigo carmine is toxic for humans and can cause various pathologies, such as hypertension, hypotension, skin irritations, or gastrointestinal disorders. In this review, we discuss the structure and properties of indigo carmine; its use in various industries and medicine; the adverse effects of its ingestion, injection, or skin contact; the effects on environmental pollution; and its toxicity testing. For this review, 147 studies were considered relevant. Most of the cited articles were those about environmental pollution with indigo carmine (51), uses of indigo carmine in medicine (45), and indigo carmine as a food additive (17)
Anti-Inflammatory Activity of Biomaterials Intended for Periodontal Disease Treatment
Periodontal disease is associated with chronic tissue inflammation, which besides bacterial [...