Supplemental Digital Content is Available in the Text.This unique multicenter approach provides high-quality evidence validating burrowing as a robust and reproducible outcome measure to infer the global effect of pain on rodents.
Our results indicate that apoptotic mechanisms are involved in the modulation of myonuclear number during chronic unloading and subsequent reloading. Furthermore, it appears that CaN is related to fibre size and phenotype adaptations, but not to apoptotic responses.
5-Lipoxygenase (5-LO) converts arachidonic acid, released from membrane phospholipids upon external stimulation, to leukotriene C4 (LTC4), which induces various kinds of cellular and molecular responses. We examined the effects of 5 min of ischemia on brain 5-LO and LTC4 during reperfusion using the gerbil model of transient forebrain ischemia that develops neuronal necrosis selectively in the hippocampus. Neurons exhibited dense 5-LO immunoreactivity; 5-LO was partially redistributed from cytosolic to particulate fractions 3 min during reperfusion. LTC4 was generated in neurons and was increased in all forebrain regions during reperfusion. Postischemic increases in LTC4 were inhomogeneous; a greater increase was observed in the hippocampus (13.37 +/- 0.24 pmol/g tissue) than in the other regions (cerebral cortex: 3.29 +/- 1.09 pmol/g). Superoxide dismutase and dimethylthiourea, oxygen radical scavengers, attenuated the production of LTC4 and damage to the neurons in the hippocampus during reperfusion. Our findings indicated that reperfusion, which was associated with translocation of cytosolic 5-LO to membranes and generation of oxygen radicals, induced the production of LTC4 and suggested that excess LTC4 production may mediate irreversible reperfusion injuries in the hippocampal neurons.
Rapid infusion enhanced both MTX penetration into the CSF and tumor response and may improve patient survival. Administration of three or more cycles of therapy should be carefully weighed in terms of cytoreductive benefits.
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