PGB pair production at LHC and ILC as a probe of the topcolor-assisted technicolor models

The topcolor-assisted technicolor (TC2) model predicts some light pseudo goldstone bosons (PGBs), which may be accessible at the LHC or ILC. In this work we study the pair productions of the charged or neutral PGBs at the LHC and ILC. For the productions at the LHC we consider the processes proceeding through gluon-gluon fusion and quark-antiquark annihilation, while for the productions at the ILC we consider both the electron-positron collision and the photon-photon collision. We find that in a large part of parameter space the production cross sections at both colliders can be quite large compared with the low standard model backgrounds. Therefore, in future experiments these productions may be detectable and allow for probing TC2 model.Comment: 26 pages, 16 figures. slight changes in the text; notations for curves changed; references adde

Higgs Boson Theory and Phenomenology

Precision electroweak data presently favors a weakly-coupled Higgs sector as the mechanism responsible for electroweak symmetry breaking. Low-energy supersymmetry provides a natural framework for weakly-coupled elementary scalars. In this review, we summarize the theoretical properties of the Standard Model (SM) Higgs boson and the Higgs sector of the minimal supersymmetric extension of the Standard Model (MSSM). We then survey the phenomenology of the SM and MSSM Higgs bosons at the Tevatron, LHC and a future e+e- linear collider. We focus on the Higgs discovery potential of present and future colliders and stress the importance of precision measurements of Higgs boson properties.Comment: 90 pages, 31 figures. Revised version. To be published in Progress in Particle and Nuclear Physics. This paper with higher resolution figures can be found at http://scipp.ucsc.edu/~haber/higgsreview/higgsrev.p

Unpacking ecosystem service bundles: towards predictive mapping of synergies and trade-offs between ecosystem services

Multiple ecosystem services (ES) can respond similarly to social and ecological factors to form bundles. Identifying key social-ecological variables and understanding how they co-vary to produce these consistent sets of ES may ultimately allow the prediction and modelling of ES bundles, and thus, help us understand critical synergies and trade-offs across landscapes. Such an understanding is essential for informing better management of multi-functional landscapes and minimising costly trade-offs. However, the relative importance of different social and biophysical drivers of ES bundles in different types of social-ecological systems remains unclear. As such, a bottom-up understanding of the determinants of ES bundles is a critical research gap in ES and sustainability science. Here, we evaluate the current methods used in ES bundle science and synthesize these into four steps that capture the plurality of methods used to examine predictors of ES bundles. We then apply these four steps to a cross-study comparison (North and South French Alps) of relationships between social-ecological variables and ES bundles, as it is widely advocated that cross-study comparisons are necessary for achieving a general understanding of predictors of ES associations. We use the results of this case study to assess the strengths and limitations of current approaches for understanding distributions of ES bundles. We conclude that inconsistency of spatial scale remains the primary barrier for understanding and predicting ES bundles. We suggest a hypothesis-driven approach is required to predict relationships between ES, and we outline the research required for such an understanding to emerge

Multivisceral transplantation for pediatric intestinal pseudo-obstruction: single center's experience of 16 cases

Chronic intestinal pseudo-obstruction (CIPO) in children may be life-threatening due to the complications of parenteral nutrition (PN) or catheter-related sepsis. Multivisceral transplantation (MVTx) is a lifesaving option but limited experience is available. We report our experience with MVTx in pediatric CIPO patients. Sixteen children with CIPO underwent MVTx at median age of 4 years. Indications for MVTx were liver failure (n = 10), loss of venous access (n = 3), or sepsis (n = 3). Modified MVTx without the liver was performed in six patients. Induction immunosuppression included tacrolimus, steroid with adjunctive agent in period I (April 1996 to December 2000), namely, OKT3 (n = 1), mycophenolate mofetil (n = 4), or daclizumab (n = 2); and in period II (January 2001 to present), Campath 1H (n = 4) or daclizumab (n = 5). The grade of rejection was severe in 12.5% and mild to moderate in 87.5% of cases. Isolated rejection of the transplanted stomach or pancreas was not diagnosed during clinical course or on autopsy. Actuarial patient survival for 1 year/2 years for period, I and II were 57.1%/42.9% and 88.9%/77.8%. None of the long-term survivors is on PN and all tolerate enteral feedings. Pancreatic enzyme supplementation or insulin therapy is not needed in survivors. Gastric emptying was substantially affected in one case. Bladder function did not improve in those with urinary retention problems. MVTx for CIPO offers a lifesaving option with excellent function of the transplanted pancreas and stomach among survivors

Fibrolamellar carcinoma of the liver. A 5 cases report

Gli autori descrivono la propria esperienza circa il trattamento della variante "fibrolamellare" nell'epatocarcinoma. Sono descritti i risultati e la prognosi dei pazienti trattati

Biocompatible single-chain polymer nanoparticles loaded with an antigen mimetic as potential anticancer vaccine

The "pancarcinoma" Tn antigen (αGalNAc-O-Ser/Thr) is a tumor-associated carbohydrate antigen (TACA) overexpressed on the surface of cancer cells and suitable target for anticancer vaccines. However, TACAs commonly show weak immunogenicity, low in vivo stability, and poor bioavailability. To address these issues, the development of physiologically stable TACA synthetic mimetics and novel nanocarriers for multivalent display are object of intense research. Nanomaterials represent suitable scaffolds to multimerize antigens, but absence of toxicity, easy functionalization and capability to incorporate biomolecules are compulsory characteristics for vaccine nanocarriers. Here, we report on the conjugation of a synthetic Tn-antigen mimetic to biocompatible and water-dispersible dextran-based single-chain nanoparticles (DXT-SCPNs). In vitro stimulation of PBMCs and analysis of interleukins production indicated a specific innate immune modulation mediated by the multivalent presentation of the Tn mimetic at the nanoparticle surface. These preliminary results pave the way for the development of Tn-mimetic clusters on biocompatible DXT-SCPN for TACA-based vaccines