Promotion of Patient-Reported Outcome Label Claims Based on Nonprimary Endpoints.

Introduction: Patient-reported outcomes (PROs) play an increasingly pivotal role in confirmatory clinical trials with pressures to develop drug differentiation strategies. Claims based on primary endpoints that are included in the product label are likely to be fully promoted by the manufacturers; however, the extent to which manufacturers promote claims based on secondary PRO endpoints is unknown. The purpose of this review is to assess the extent of promotion of PRO label claims for 6 pharmaceutical products with nonprimary PRO endpoints.

Endogenous neuropeptide Y prevents recurrence of experimental febrile seizures by increasing seizure threshold.

Febrile seizures (FSs) typically occur at the onset of fever and do not recur within the same febrile episode despite enduring or increased hyperthermia. Recurrent seizures during the same febrile episode are considered "complex," with potentially altered prognosis. A characterized immature rat model of FS was used to test the hypotheses that (1) a first FS influences the threshold temperature for subsequent ones, and (2) the underlying mechanisms involve the release and actions of the endogenous inhibitory hippocampal neuropeptide Y (NPY).

Is neuronal death required for seizure-induced epileptogenesis in the immature brain?

Do seizures cause neuronal death? At least in the immature hippocampus, this may not be the critical question for determining the mechanisms of epileptogenesis. Neuronal injury and death have clearly been shown to occur in most epilepsy models in the mature brain, and are widely considered a prerequisite to seizure-induced epilepsy. In contrast, little neuronal death occurs after even a severe and prolonged seizure prior to the third postnatal week.

Developmental febrile seizures modulate hippocampal gene expression of hyperpolarization-activated channels in an isoform- and cell-specific manner.

Febrile seizures, in addition to being the most common seizure type of the developing human, may contribute to the generation of subsequent limbic epilepsy. Our previous work has demonstrated that prolonged experimental febrile seizures in the immature rat model increased hippocampal excitability long term, enhancing susceptibility to future seizures. The mechanisms for these profound proepileptogenic changes did not require cell death and were associated with long-term slowed kinetics of the hyperpolarization-activated depolarizing current (I(H)).