Universality and the magnetic catalysis of chiral symmetry breaking

The hypothesis that the magnetic catalysis of chiral symmetry breaking is due to interactions of massless fermions in their lowest Landau level is examined in the context of chirally symmetric models with short ranged interactions. It is argued that, when the magnetic field is sufficiently large, even an infinitesimal attractive interaction in the appropriate channel will break chiral symmetry.Comment: 24 pages, 6 figures, REVTeX. The final version with minor corrections. To appear in Phys Rev D60 (1999

Calculations of binding energies and masses of heavy quarkonia using renormalon cancellation

We use various methods of Borel integration to calculate the binding ground energies and masses of b-bbar and t-tbar quarkonia. The methods take into account the leading infrared renormalon structure of the hard+soft part of the binding energies E(s), and of the corresponding quark pole masses m_q, where the contributions of these singularities in M(s) = 2 m_q + E(s) cancel. Beforehand, we carry out the separation of the binding energy into its hard+soft and ultrasoft parts. The resummation formalisms are applied to expansions of m_q and E(s) in terms of quantities which do not involve renormalon ambiguity, such as MSbar quark mass, and alpha_s. The renormalization scales are different in calculations of m_q, E(s) and E(us). The MSbar mass of b quark is extracted, and the binding energies of t-tbar and the peak (resonance) energies for (t+tbar) production are obtained.Comment: 23 pages, 8 double figures, revtex4; the version to appear in Phys.Rev.D; extended discussion between Eqs.(25) and (26); the paragraph between Eqs.(32) and (33) is new and explains the numerical dependence of the residue parameter on the factorization scale; several new references were added; acknowledgments were modified; the numerical results are unchange

Análise da superfície e osseointegração de implantes dentários com superfícies biomiméticas contedo Ca, Mg e F

Os tratamentos das superfícies dos implantes dentários osseointegráveis sofreram modificações significativas com o objetivo de melhorar a estabilidade primária e secundária. Entre as modificações destaca-se a deposição de íons, como flúor, cálcio e magnésio. Estes íons possuem baixa taxa de degradação no meio corpóreo e ótima interação biológica com as células e com os tecidos ósseos. No presente trabalho, para avaliar os efeitos do F, Ca e do Mg na osseointegração foram realizados ensaios in vitro e in vivo. Implantes foram inseridos em tíbias de coelhos e determinou-se os torques de inserção e remoção após 2, 4 e 8 semanas. Os ensaios in vivo foram complementados pela medida da rugosidade, molhabilidade e análise da superfície em microscopia eletrônica de varredura. Os resultados foram comparados com os obtidos com implantes com a superfície tratada com ácido (superfície Porous) e com deposição de flúor (superfície Porous Nano). Os resultados obtidos mostraram que o torque para remover os implantes Porous 8 semanas após a cirurgia foi de 16,96 + 1,32 N.cm, o tratado com flúor apresentou melhores resultados (17,93 ± 4,47 N.cm) e a superfície com Ca e Mg foi a que apresentou a interface osso-implante com menor resistência (10,83 + 1,20 N.cm). O maior torque indica que a adição de flúor facilita os mecanismos envolvidos na osseointegração dos implantes e permite o carregamento da prótese em tempos menores

Dynamic prediction of advanced colorectal neoplasia in inflammatory bowel disease

Background & AimsColonoscopic surveillance is recommended in patients with colonic inflammatory bowel disease (IBD) given their increased risk of colorectal cancer (CRC). We aimed to develop and validate a dynamic prediction model for the occurrence of advanced colorectal neoplasia (aCRN, including high-grade dysplasia and CRC) in IBD.MethodsWe pooled data from 6 existing cohort studies from Canada, The Netherlands, the United Kingdom, and the United States. Patients with IBD and an indication for CRC surveillance were included if they underwent at least 1 follow-up procedure. Exclusion criteria included prior aCRN, prior colectomy, or an unclear indication for surveillance. Predictor variables were selected based on the literature. A dynamic prediction model was developed using a landmarking approach based on Cox proportional hazard modeling. Model performance was assessed with Harrell’s concordance-statistic (discrimination) and by calibration curves. Generalizability across surveillance cohorts was evaluated by internal–external cross-validation.ResultsThe surveillance cohorts comprised 3731 patients, enrolled and followed-up in the time period from 1973 to 2021, with a median follow-up period of 5.7 years (26,336 patient-years of follow-up evaluation); 146 individuals were diagnosed with aCRN. The model contained 8 predictors, with a cross-validation median concordance statistic of 0.74 and 0.75 for a 5- and 10-year prediction window, respectively. Calibration plots showed good calibration. Internal–external cross-validation results showed medium discrimination and reasonable to good calibration.ConclusionsThe new prediction model showed good discrimination and calibration, however, generalizability results varied. Future research should focus on formal external validation and relate predicted aCRN risks to surveillance intervals before clinical application.</div