Micellization of a starch-poly(1,4-butylene succinate) nano-hybrid for enhanced energy storage.

In this work, we report on a reverse micellization approach to prepare uncarbonized starch and poly(1,4-butylene succinate) hybrids with exceptional charge storage performance. Uncarbonized starch was activated through protonation, hybridized with poly (1,4-butylene succinate), configured into conductive reverse micelles, and incorporated with magnetite nanoparticles. Before magnetite incorporation, the maximum specific capacitance (C sp), energy density (E d), power density (P d) and retention capacity (%) of the reverse micelles were estimated to be 584 F g-1, 143 W h kg-1, 2356 W kg and 97.5%. After magnetite incorporation, we achieved a maximum supercapacitive performance of 631 F g-1, 204 W h kg-1, 4371 W kg-1 and 98%. We demonstrate that the use of magnetite incorporated St-PBS reverse micelles minimizes the contact resistance between the two supercapacitor electrodes, resulting in high charge storage capacity.

[Acute typhlitis associated with taxane-based chemotherapy]. / Tiflite acuta dopo trattamento chemioterapico con taxani.

A rare case of acute typhlitis is reported. The patient had undergone chemotherapy for a breast cancer. Clinical and diagnostic tools as well as general and topical care are examined.

The anti-tumour properties and biodistribution (as determined by the radiolabeled equivalent) of Au-compounds intended as potential chemotherapeutics.

The anti-tumour activity of the Au (I) phosphine complex [Au(dppe(2)]Cl was first discovered in the mid 1980s although promising results were obtained it did not pass clinical studies because of its toxicity to organs such as the liver and heart. The aim of this study was to determine whether the two novel gold compounds (MM5 and MM6), selected for this study, have higher selectivity for cancer cells with less toxicity towards normal cells than [Au(dppe)(2)]Cl, and also to determine whether they have improved bio distribution compared to [Au(dppe)(2)]Cl. The Au-compounds as potential chemotherapeutic drugs were evaluated by using radioactive tracers in the in vitro and in vivo studies. Results obtained from these experiments showed that the uptake of these experimental compounds was dependent on their octanol/water partition coefficient. However; the inhibition of cell growth did not correlate with the uptake of these compounds by the cells that were tested. In terms of the total uptake it was found that the compounds that were less lipophilic (MM5, MM6) were taken up less efficiently in cells than those that are more lipophilic. Therefore hydrophilic drugs are expected to have a limited biodistribution compared to lipophilic drugs. This might imply a more selective tumour uptake.

[Recanalizing entero-rectal fistula post-colostomy for inoperable rectal cancer]. / Fistola entero-rettale ricanalizzante dopo colostomia sinistra definitiva per tumore del retto inoperabile.

The Authors report a case of a spontaneous intestinal 'recanalization' after 1 year since the palliative surgery (definitive colostomy) for rectal cancer in a 79 years-old patient.

Phosphorus leaching at cold temperatures as affected by wastewater application and soil phosphorus levels.

Land application of wastewater in the northern-tier United States during winter months has been suggested as a means to reduce cost of building storage lagoons. A study was initiated in 1996 to assess land application of potato-processing wastewater on a 120-ha field at Park Rapids, MN. One objective of this study was to evaluate the effects of soil P levels and temperature on P leaching in soil columns. In this paper, we report the P sorption, desorption, and leaching characteristics of a high-P (>200 mg kg(-1)) and a low-P (<25 mg kg(-1)) surface soil from the wastewater irrigation site. The leaching experiment was done with wastewater at 4 +/- 2 or 10 +/- 2 degrees C. The high-P soil resulted in an equilibrium P concentration of 8.0 mg L(-1) compared with 0.14 mg L(-1) for the low-P soil. When low-P wastewater was applied to the high-P soil, the soil acted as a P source, and the total phosphorus (TP) concentration in the leachate was 3.5 times higher than the input TP concentration (C0). When high-P wastewater was applied to the high-P soil, the soil acted as a P sink retarding the TP concentration in the leachate by 80%. Phosphorus desorption was higher at 10 degrees C compared with 4 degrees C. The results showed that depending on P levels of the soil and the wastewater, reduction or increase in leachate P will occur below the surface soil. However, further mobility of this P under field conditions will depend on the volume and rate of percolating water as well as the sorption-desorption characteristics of the subsoil.

Two components of high-threshold Ca2+ current inactivate by different mechanisms.

High-threshold Ca2+ current triggers neurotransmitter release, but the existence, significance, and correct identification of different types of high-threshold Ca2+ channels remain controversial. We show selective inhibition of a rapidly inactivating component of high-threshold Ca2+ current in rat sensory neurons by bursts of brief pulses that mimic trains of action potentials and by prolonged depolarization just above the normal rest potential. In contrast, a slowly inactivating component decreases only when sufficient Ca2+ accumulates within the cell. Thus, there are physiologically important differences: whereas availability of the transient component depends on the value of the rest potential and the pattern of a prior stimulus, the sustained component seems to provide a baseline level of voltage-dependent Ca2+ entry that is lost only when intracellular Ca2+ rises.