Fibromatosis gingival: diagnóstico y tratamiento: reporte de un caso / Gingival fibromatosis: diagnosis and treatment: case report

La fibromatosis gingival es una deformidad desarrollada de baja prevalencia. Las características clínicas de la FG incluyen tejidos gingivales hiperplásicos de consistencia firme y nodular, presentándose en forma generalizada o localizada. Las características histológicas de la FG incluyen principalmente tejido conectivo con un denso infiltrado rico en fibras de colágeno y un epitelio denso con papilas epiteliales largas. Se presenta un reporte de caso de un paciente masculino de 12 años referido para su tratamiento al servicio de Periodoncia e Implantes dentales de la Clínica Estomatológica Central de la Universidad Peruana Cayetano Heredia.

Gingival fibromatosis is a developed deformity with low prevalence. The clinical features of FG include hyperplastic gingival tissues usually firm and nodular, occurring in a generalized or localized form. The histologic features of FG mainly include connective tissue with a dense infiltrate rich in collagen fibers and dense epithelium with epithelial papillae long. This is a case report of a male patient of 12 years referred for treatment to a Periodontics and Implants Service of the Central Dental Clinic of the Cayetano Heredia Peruvian University.

Trace detection of triphenylene by surface enhanced Raman spectroscopy using functionalized silver nanoparticles with bis-acridinium lucigenine.

Surface enhanced raman scattering (SERS) of triphenylene (TP) has been recorded on Ag nanoparticles functionalized with the molecular assembler bis-acridinium lucigenine dication (LG) which approaches the adsorbate to the metal surface allowing for its detection. Structural information on the host and the analyte can be extracted from the SERS spectra of LG and LG/TP complex. The acridinium planes in LG are staggered, so cavities into which hydrophobic TP can be allocated are created. Moreover, the orientation of LG with respect to the metal surface changes from tilted to perpendicular when concentration of TP increases. However, perpendicular orientation of TP with respect to the metal surface is preferred according to the in-plane enhanced bands recorded in the SERS spectrum. The dependence of the Raman signal of TP on LG concentration has been checked, and trace concentrations of TP have been detected by this technique which therefore can be used as a chemical sensor of organic pollutants.

Photodissociation mechanism of methyl nitrate. A study with the multistate second-order multiconfigurational perturbation theory.

The photodissociation reactions of methyl nitrate CH(3)ONO(2) starting at the 193 and 248 nm photolytic wavelengths have been studied with the second-order multiconfigurational perturbation theory (CASPT2) by computation of numerical energy gradients for stationary points. In addition, energy profiles of reaction paths and vertical excitations have been investigated with the multistate extension of the multiconfigurational second-order perturbation theory (MS-CASPT2). It is found that excitation at 193 nm yields three reaction paths: (i) the so-called slow channel CH(3)ONO(2)--> CH(3)O + NO(2)--> CH(3)O + NO + O; (ii) the fast channel CH(3)ONO(2)--> CH(3)O + NO(2); and (iii) CH(3)ONO(2)--> CH(3)ONO + O. The slow channel starts at the S(4) surface, in contrast, the population of the S(3) state can lead to the fast channel or to direct atomic oxygen extrusion. The rather high relative yield of the channel leading to oxygen extrusion from methyl nitrate is explained on the basis of an S(3)/S(2) conical intersection that transfers the initial excitation localized in the npi* S(3) state to the sigmapi* S(2) state with a consequent weakening of the N-O bond. With respect to photolysis at 248 nm, it was not possible to unambiguously distinguish between S(1) and S(2) as the populated state, however, the S(2) state is suggested as mainly responsible for dissociation at this excitation energy.