University of São Paulo

About: University of São Paulo is a education organization based out in São Paulo, Brazil. It is known for research contribution in the topics: Population & Health care. The organization has 136513 authors who have published 272320 publications receiving 5127869 citations. The organization is also known as: USP & Universidade de São Paulo.

Guidelines of the Pituitary Society for the diagnosis and management of prolactinomas

Abstract: In June 2005, an ad hoc Expert Committee formed by the Pituitary Society convened during the 9th International Pituitary Congress in San Diego, California. Members of this committee consisted of invited international experts in the field, and included endocrinologists and neurosurgeons with recognized expertise in the management of prolactinomas. Discussions were held that included all interested participants to the Congress and resulted in formulation of these guidelines, which represent the current recommendations on the diagnosis and management of prolactinomas based upon comprehensive analysis and synthesis of all available data.

Mental disorders among college students in the World Health Organization World Mental Health Surveys.

Abstract: Background Although mental disorders are significant predictors of educational attainment throughout the entire educational career, most research on mental disorders among students has focused on the primary and secondary school years. Method The World Health Organization World Mental Health Surveys were used to examine the associations of mental disorders with college entry and attrition by comparing college students (n = 1572) and non-students in the same age range (18–22 years; n = 4178), including non-students who recently left college without graduating (n = 702) based on surveys in 21 countries (four low/lower-middle income, five upper-middle-income, one lower-middle or upper-middle at the times of two different surveys, and 11 high income). Lifetime and 12-month prevalence and age-of-onset of DSM-IV anxiety, mood, behavioral and substance disorders were assessed with the Composite International Diagnostic Interview (CIDI). Results One-fifth (20.3%) of college students had 12-month DSM-IV/CIDI disorders; 83.1% of these cases had pre-matriculation onsets. Disorders with pre-matriculation onsets were more important than those with post-matriculation onsets in predicting subsequent college attrition, with substance disorders and, among women, major depression the most important such disorders. Only 16.4% of students with 12-month disorders received any 12-month healthcare treatment for their mental disorders. Conclusions Mental disorders are common among college students, have onsets that mostly occur prior to college entry, in the case of pre-matriculation disorders are associated with college attrition, and are typically untreated. Detection and effective treatment of these disorders early in the college career might reduce attrition and improve educational and psychosocial functioning.

Paper-Based ELISA

Abstract: This paper describes enzyme-linked immunosorbent assays (ELISA) performed in a 96-microzone plate fabricated in paper (paper-based ELISA, or P-ELISA). ELISA is widely used in biochemical analyses; these assays are typically carried out in microtiter plates or small vials. 2] ELISA combines the specificity of antibodies with high-turnover catalysis by enzymes to provide specificity and sensitivity. We have recently described a 96-microzone paper plate— fabricated by patterning hydrophobic polymer in hydrophilic paper—as a platform for biochemical analysis. Although microfluidic paper-based analytical devices (mPADs) were designed primarily to provide analytical capability at low cost in developing countries, we expect that they will also be useful in applications such as point-of-care clinical analysis, military and humanitarian aid field operations, and others where high throughput, low volumes of sample, low cost, and robustness are important. These devices have so far been prototyped using analyses of simple analytes: glucose, total protein, and certain enzymes. P-ELISA combines the sensitivity and specificity of ELISA with the convenience, low cost and ease-of-use of paper-based platforms; P-ELISA (at it current state of development) is faster and less expensive than conventional ELISA, but somewhat less sensitive. Porous membranes, including nitrocellulose and filter paper, have been used for decades in dot-immunobinding assays (DIA). Though DIAs are the simplest form of immunoassays on paper, they typically require one piece of nitrocellulose for each assay; the pieces of nitrocellulose have to be processed individually in Petri dishes, and the assays take several hours to complete. Quantitative DIAs have been reported, but DIAs are typically qualitative, and provide only “yes/no” results. Conventional ELISA, usually performed in 96-well plates (fabricated by injection molding in plastic), is quantitative and well-suited for highthroughput assays, but each assay requires large volumes (ca. 20–200 mL) of analyte and reagents, the time required for incubation and blocking steps are long ( 1 h per step, because the reagents must diffuse to the surface of the wells), and the results are usually quantified using a plate reader, typically a $20 000 instrument. Paper microzone plates for ELISA can have the same layout as plastic 96-well plates, but each test zone requires only about 3 mL of sample, and the results can be measured using a desktop scanner, typically a $100 instrument. In addition, an entire P-ELISA can be completed in less than one hour. The ease of fabrication of paper microzone plates also opens opportunities for a wide range of non-standard formats, and customized connections to carry reagents between zones. To evaluate the feasibility of P-ELISA, and the potential advantages and disadvantages of P-ELISA and 96-well-plate-based ELISA, we adapted a standard procedure to our format and then demonstrated an indirect P-ELISA using rabbit IgG as a model analyte. We also established that P-ELISA can be used to detect and quantify antibodies to the HIV-1 envelope antigen gp41 in human serum using an anti-human IgG antibody conjugated to alkaline phosphatase (ALP) to produce a colorimetric readout. We used a 96-microzone paper plate with an array (12 8) of circular test zones for running multiple P-ELISAs in parallel (Figure 1A); the Supporting Information describes the details. The array was designed to have the same layout and dimensions as a standard plastic 96-well plate, so that it would be compatible with existing microanalytical infrastructure (eightor twelve-channel pipettes and plate readers). Each test zone was 5 mm in diameter and required 3 mL of solution to fill (e.g., to wet completely with fluid); this design was a good compromise between convenience and conservation of reagents, as it reduced the amount of reagents and sample required for the assay but ensured accurate distribution of fluids when using a manual pipette. We also examined smaller test zones, with the smallest test zone requiring 0.5 mL of solution to fill (e.g., to wet completely). This size is similar to that required in a 384-well plate format. The top and bottom faces of the test zones in papermicrozone plates are open to atmosphere. The advantage of this configuration is that the zones can be washed by adding a washing buffer to the top of the zone while pressing the bottom of the zone against a piece of blotting paper. The washing buffer goes through the test zone vertically and into [*] Dr. C.-M. Cheng, Dr. A. W. Martinez, Dr. J. Gong, Dr. C. R. Mace, Prof. S. T. Phillips, Prof. E. Carrilho, K. A. Mirica, Prof. G. M. Whitesides Department of Chemistry and Chemical Biology Harvard University Cambridge, MA 02138 (USA) E-mail: gwhitesides@gmwgroup.harvard.edu Homepage: http://gmwgroup.harvard.edu

Effect of friction on electron transfer in biomolecules

Abstract: In biological and chemical electron transfer, a nuclear reaction coordinate is coupled to other nuclear and/or ‘‘solvent’’ coordinates. This coupling, or friction, if strong enough, may substantially slow down motion along the reaction coordinate, and thus vitiate the assumption of electron transfer being nonadiabatic with respect to the nuclei. Here, a simple, fully quantum mechanical model for electron transfer using a one mode treatment which incorporates this coupling is studied. Path integral methods are used to study the dependence of the reaction rate on friction, and the limits of the moderate and the high friction are analyzed in detail. The first limit will prevail if the reaction coordinate is, e.g., an underdamped nuclear vibration, whereas the second limit will prevail if it corresponds to a slow or diffusive degree of freedom. In the high‐friction limit, the reaction rate is explicitly shown to vary between the nonadiabatic and adiabatic expressions as the tunneling matrix element and/or the friction are varied. Starting from a path integral expression for the time evolution of the reduced density matrix for the electron and reaction coordinate, a Fokker–Planck equation is obtained which reduces in the high‐friction limit to a Smoluchowski equation similar to one solved by Zusman.

Optimized δ expansion for relativistic nuclear models

Abstract: The optimized δ-expansion is a nonperturbative approach for field theoretic models which combines the techniques of perturbation theory and the variational principle This technique is discussed in the λφ4 model and then implemented in the Walecka model for the equation of state of nuclear matter The results obtained with the δ expansion are compared with those obtained with the traditional mean field, relativistic Hartree and Hartree-Fock approximations