Bond Strength of Methacrylate-based Blends Containing Elastomeric Monomers and Alternative Initiators after Thermomechanical Cycling.

PURPOSE: To evaluate the bond strength to dentin produced by experimental adhesives formulated with an elastomeric methacrylate monomer (EMM) and an alternative initiator system based on a Thioxanthone derivative (QTX). MATERIALS AND METHODS: A self-etching primer was used. For the bonding resin, a model adhesive (G1) was formulated containing bis-GMA/TEG-DMA/HEMA (co-monomeric blend) + CQ/EDAB (initiator system). The other groups were formulated by adding to this formulation: EMM only (G2), QTX (G3), or EMM and QTX (G4). Clearfil SE Bond was used as the commercial control group. Fifty bovine teeth (n = 5) were restored with each one of the five adhesives. After restorative procedures, half of the specimens were stored in distilled water at 37°C for 24 h. The other half was fixed on a metal stub and subjected to 200,000 mechanical (50 N loading at 2 Hz frequency) and 1000 thermal cycles (5°C and 55°C). Afterwards, specimens were serially sectioned into beams and tested in tension until fracture. Bond strengths were statistically analyzed by two-way ANOVA and Tukey's test (α = 5%). RESULTS: After 24 h, significantly higher µTBS was observed for the formulation containing EMM and QTX (G4) when compared to Clearfil SE Bond (p < 0.05). No significant differences in µTBS were detected among the experimental groups after 24 h (p>0.05). After thermomechanical cycling, no significant differences were observed among groups. CONCLUSION: The addition of EMM and QTX can be considered as possible alternative in dental adhesive formulations.

Immunoprotection elicited in rabbit by a chimeric protein containing B-cell epitopes of Sphingomyelinases D from Loxosceles spp. spiders.

Accidents with venomous animals pose a health issue in Brazil, and those involving brown spiders (Loxosceles sp.) figure between the most frequent ones. The accidental envenomation by brown spiders causes a strong local dermonecrotic effect, which can be followed by systemic manifestations that in some cases lead to death. The production of antivenoms for the treatments of such accidents relies on a variety of animal experiments, from the spider venom extraction to the production of antivenom in horses. In the present work, there is an attempt to reduce and optimize animal experiments with the construction and production of a chimeric protein, named Lil, containing immunodominant epitopes previously mapped from the main proteins of the Loxosceles venom, the Sphingomyelinases D. The Lil protein contains epitopes from Sphinomyelinases D of the three-main species found in Brazil and this chimeric protein was found capable of inducing antibodies with the potential to partially neutralize the toxic effects of Loxosceles intermedia venom in an animal model. Therefore, in order to reduce spider usage and to improve the lifespan of the horses used for immunization we suggest the Lil protein as a potential candidate to replace the venom usage in the antivenom production protocols.

Evaluation of conjunctival swab as a mass-screening tool for molecular diagnosis of canine visceral leishmaniasis.

The canine visceral leishmaniasis (CVL) diagnosis is an important step of visceral leishmaniasis control program in Brazil once the dog is the main reservoir host of the disease. The aim of this study was to evaluate the conjunctival swab (CS) as a mass-screening tool for CVL molecular diagnosis in an endemic area classified as priority for the Brazilian Ministry of Healthy for surveillance action. A total of 1350 domiciled dogs were screened. The animals were evaluated by serological tests (enzyme-linked immunosorbent assay (ELISA) as screening and immunofluorescence antibody test (IFAT) for confirmation) and by CS associated to real-time PCR, using primers addressed to kinetoplast DNA (kDNA) minicircles and SYBR Green. Canine ß-globin gene amplification was used to evaluate the sample DNA integrity. A subgroup of 484 animals was also submitted to clinical evaluation. Among the 1350 dogs screened, 369 (27.3%) were positive by CS real-time PCR and 126 (9.3%) tested positive by ELISA. Thirty-one percent (39/126) of the ELISA-positive dogs were confirmed by IFAT. CS real-time PCR was able to detect infection in dogs independently of the symptomatology degree (p > 0.05), while ELISA was more sensitive in the group of dogs that present three or more clinical signs related to CVL. The results demonstrated that CS real-time PCR was able to detect a higher number of infected dogs than ELISA and that the prevalence of canine infections has been underestimated by the serological assays. The use of sensitive molecular diagnostic methods like CS real-time PCR, mainly in endemic areas, could greatly contribute to disease control.