Body temperature, Aldrete-Kroulik index, and patient discharge from the Post-Anesthetic Recovery Unit

Patient discharge from post-anesthetic recovery (PAR) depends, among other factors, on normothermia and the patient's score on the Aldrete-Kroulik index. The objective of this study was to verify the relationship between the Aldrete-Kroulik index and body temperature in patients. This study was performed at the University of Sao Paulo University Hospital. Convenience sampling was used, and the sample consisted of 60 patients of ages between 18 and 60 years who underwent general anesthesia. The patients' body temperature was obtained by tympanic measurement, and the Aldrete-Kroulik index was measured on admission and at discharge from post-anesthetic recovery. The data were processed using SPSS, considering a significance level of 5%, and the Spearman and Wilcoxon tests were applied. In conclusion, no significant correlation was found between the two parameters for discharge.

Temperatura corporal, índice Aldrete e Kroulik e alta do paciente da Unidade de Recuperação Pós-Anestésica

A alta do paciente da recuperação pós-anestésica (RPA) depende, dentre outros fatores, do retorno à normotermia e do escore alcançado pelo Índice de Aldrete e Kroulik. Sendo assim, o objetivo deste estudo foi verificar a relação entre o Índice de Aldrete e Kroulik e a temperatura corporal dos pacientes. O local de pesquisa foi o Hospital Universitário da Universidade de São Paulo. O cálculo amostral foi determinado por conveniência e foi constituído por 60 pacientes, entre 18 e 60 anos, submetidos à anestesia geral. Foram verificados a temperatura corporal na região timpânica e o Índice de Aldrete e Kroulik do paciente na recepção e alta da recuperação pós-anestésica. Os dados obtidos foram processados pelo pacote estatístico SPSS, com um nível de 5% de significância, e aplicaram-se o teste de Spearman e o teste de Wilcoxon. Conclui-se que não houve correlação significativa entre os dois parâmetros indicativos de alta.

Catalyst Recovery and Recycling Facilitated by Magnetic Separation: Iridium and Other Metal Nanoparticles

The immobilization of metal nanoparticles in magnetic responsive solids allows the easy, fast, and clean separation of catalysts; however, the efficiency of this separation process depends on a strong metalsupport interaction. This interaction can be enhanced by functionalizing the support surface with amino groups. Our catalyst support contains an inner core of magnetite that enables the magnetic separation from liquid systems and an external surface of silica suitable for further modification with organosilanes. We report herein that a magnetically recoverable amino-functionalized support captured iridium species from liquid solutions and produced a highly active hydrogenation catalyst with negligible metal leaching. An analogous Ir0 catalyst prepared with use of a nonfunctionalized support shows a higher degree of metal leaching into the liquid products. The catalytic performance in the hydrogenation of alkenes is compared with that of Rh and Pt catalysts.