Analysis of the management of antipsychotics in a group of prisons.

Objective: To assess the use of prescribed antipsychotic treatments in the Spanish prison population in order to determine whether there are differences in efficacy and cost between the different long-acting antipsychotic injectables (LAIs).

Material And Method: An observational, retrospective study was carried out in twelve prisons and in two prison psychiatric hospitals. To assess efficacy, all the clinical histories of patients with some kind of LAI were reviewed and only those who were in a situation of therapeutic stability were selected, defined as those treatments that had not undergone any change in the three last months, both in doses and in the association of another antipsychotic.

General redox environment and carotid body chemoreceptor function.

Carotid body (CB) chemoreceptor cells detect physiological levels of hypoxia and generate a hyperventilation, homeostatic in nature, aimed to minimize the deleterious effects of hypoxia. Intimate mechanisms involved in oxygen sensing in chemoreceptor cells remain largely unknown, but reactive oxygen species (ROS) had been proposed as mediators of this process. We have determined glutathione levels and calculated glutathione redox potential (E(GSH); indicator of the general redox environment of cells) in rat diaphragms incubated in the presence of oxidizing agents of two types: nonpermeating and permeating through cell membranes; in the latter group, unspecific oxidants and inhibitors of ROS-disposing enzymes were used.

Significance of ROS in oxygen sensing in cell systems with sensitivity to physiological hypoxia.

Reactive oxygen species (ROS) are oxygen-containing molecular entities which are more potent and effective oxidizing agents than is molecular oxygen itself. With the exception of phagocytic cells, where ROS play an important physiological role in defense reactions, ROS have classically been considered undesirable byproducts of cell metabolism, existing several cellular mechanisms aimed to dispose them. Recently, however, ROS have been considered important intracellular signaling molecules, which may act as mediators or second messengers in many cell functions.

Molecular identification of Kvalpha subunits that contribute to the oxygen-sensitive K+ current of chemoreceptor cells of the rabbit carotid body.

Rabbit carotid body (CB) chemoreceptor cells possess a fast-inactivating K+ current that is specifically inhibited by hypoxia. We have studied the expression of Kvalpha subunits, which might be responsible for this current. RT-PCR experiments identified the expression of Kv1.

Reduced to oxidized glutathione ratios and oxygen sensing in calf and rabbit carotid body chemoreceptor cells.

1. The aim of this work was to test the redox hypotheses of O(2) chemoreception in the carotid body (CB). They postulate that hypoxia alters the levels of reactive oxygen species (ROS) and the ratio of reduced to oxidized glutathione (GSH/GSSG), causing modifications to the sulfhydryl groups/disulfide bonds of K+ channel proteins, which leads to the activation of chemoreceptor cells.