Saving Science Through Replication Studies.

The scientific enterprise has long been based on the presumption of replication, although scientists have recently become aware of various corruptions of the enterprise that have hurt replicability. In this article, we begin by considering three illustrations of research paradigms that have all been subject to intense scrutiny through replications and theoretical concerns. The three paradigms are one for which the corpus of research points to a real finding, one for which the corpus of research points to a significantly attenuated effect, and one for which the debate is ongoing.

Magnesium deficiency reduces fear-induced conditional lick suppression in mice.

The consequences of broad-scale alterations in magnesium (Mg2+) levels on learning and memory are poorly understood. We have recently demonstrated that adult male mice maintained on an Mg2+-deficient diet exhibit reduced conditional freezing behavior. The purpose of the present study was to determine if the detrimental effect of Mg2+ deficiency in mice extended to another measure of conditional fear, conditioned lick suppression (CLS), as well as to another form of learning, spatial learning in the swim maze task.

Race, gender, and clinical risk index for babies (CRIB) score as predictors of severe retinopathy of prematurity.

Purpose: To determine whether race, gender, and the Clinical Risk Index for Babies (CRIB) illness severity score are predictors of threshold or severe prethreshold retinopathy of prematurity warranting surgery (ROP warranting surgery) and whether racial and gender differences in ROP are correlated with racial and gender differences in illness severity.

Methods: This was a retrospective analysis of premature infants 401-1250 g at birth that were admitted to the University Hospital of Cincinnati (January 1998 to May 2003). Birth weight, gestational age, multiple birth, birth in the study hospital or elsewhere, race, gender, CRIB score, and eye findings were abstracted.

Magnesium deficiency impairs fear conditioning in mice.

Magnesium (Mg2+) is one of the most abundant cations found in the body. In the central nervous system, Mg2+ plays an important role in the function of N-methyl-D-aspartate (NMDA)-type glutamate receptors, which are centrally involved in memory processing. Despite the relatively large concentration of Mg2+ in the CNS, little is known about the behavioral consequences of Mg2+ deficiency.