Taxonomic Revision of Living Boring Bivalves Belonging to the Family Pholadidae Lamarck, 1809, (Bivalvia: Myida) from the Southwestern Atlantic.

Boring bivalves of the family Pholadidae Lamarck, 1809 living in Argentinean and Uruguayan waters are herein revised. The literature research revealed twelve nominal species of Pholadidae mentioned as living in the study area. Type material of all nominal taxa were examined when it was possible.

Sequence analysis of in vivo defective interfering-like RNA of influenza A H1N1 pandemic virus.

Influenza virus defective interfering (DI) particles are naturally occurring noninfectious virions typically generated during in vitro serial passages in cell culture of the virus at a high multiplicity of infection. DI particles are recognized for the role they play in inhibiting viral replication and for the impact they have on the production of infectious virions. To date, influenza virus DI particles have been reported primarily as a phenomenon of cell culture and in experimentally infected embryonated chicken eggs.

Mapping the effects of three dopamine agonists with different dyskinetogenic potential and receptor selectivity using pharmacological functional magnetic resonance imaging.

The mechanisms underlying dopamine agonist-induced dyskinesia in Parkinson's disease remain poorly understood. Similar to patients, rats with severe nigrostriatal degeneration induced by 6-hydroxydopamine are more likely to show dyskinesia during chronic treatment with unselective dopamine receptor agonists than with D2 agonists, suggesting that D1 receptor stimulation alone or in conjunction with D2 receptor stimulation increases the chances of experiencing dyskinesia. As a first step towards disclosing drug-induced brain activation in dyskinesia, we examined the effects of dopamine agonists on behavior and blood oxygenation level-dependent (BOLD) signal in the striatum and motor cortex of rats with unilateral nigrostriatal lesions.

The phenylephrine blood pressure clamp in pharmacologic magnetic resonance imaging: reduction of systemic confounds and improved detectability of drug-induced BOLD signal changes.

Rationale: Peripheral physiologic changes accompany many central pharmacologic manipulations and can interact with brain activity and cerebral perfusion in complex ways. This considerably complicates the interpretation of drug-induced brain activity changes.

Objectives: To evaluate a method whereby drug-induced blood pressure (BP) changes are prevented.

Differential gene expression induced by chronic levodopa treatment in the striatum of rats with lesions of the nigrostriatal system.

Levodopa, the major treatment for patients with Parkinson's disease, has been shown to induce a variety of compensatory effects, including facilitation of sprouting by dopaminergic neurons, in experimental animals with lesions leading to denervation of the striatum. To better understand the cellular and molecular environment where most of these compensatory changes take place, in particular elements that might contribute to the recovery of dopaminergic innervation, we have constructed a differential expression library enriched in transcripts from the striata of rats with lesions of the medial forebrain bundle treated with levodopa for 6 months. We have used this library to screen an expression array of rat genes representing the major cell functions, and have identified several that are involved in neurotrophic mechanisms and plasticity.

Effects of orally administered levodopa on mesencephalic dopaminergic neurons undergoing a degenerative process.

Although the issue of in vivo levodopa toxicity appears to be settled by now in the light of recent findings, a crucial aspect was not accounted for the experiments designed to tackle that question. Levodopa could in fact be non-toxic on surviving dopamine neurons, but that could not be the case when the drug is administered at the same time those neurons are undergoing degeneration, which is what happens in the clinical setting. Dopaminergic neurons could in that situation be more vulnerable to levodopa's potential toxic action.