Treatment with St John's Wort for 14 days resulted in significant increases in the urinary 6-beta-hydroxycortisol/cortisol ratio. This finding suggests that St John's Wort is an inducer of CYP3A4.
The stereo-isomer-specific clearance of ketorolac in infants and toddlers (aged 6-18 mo) shows rapid elimination of the analgesic S(-) isomer. No adverse effects on surgical drain output, oximetry measured saturations, renal or hepatic function tests were seen. Simulation of single dosing at 0.5 or 1 mg/kg every 4 or 6 h does not lead to accumulation of S(-) ketorolac, the analgesic isomer, but does result in increases in R(+) ketorolac. Shorter dose intervals may be needed in infants older than 6 mo.
Preexisting hypertension complicates 5% of all pregnancies. The objective of this study was to evaluate steady-state atenolol pharmacokinetics and pharmacodynamics (n = 17) during the second trimester (2nd T), third trimester (3rd T), and 3 months postpartum. Pregnancy as compared to 3 months postpartum (nonpregnant control) resulted in significant (P < .05) changes, including the following: 42% (2nd T) and 50% (3rd T) increase in creatinine clearance, 38% (2nd T) and 36% (3rd T) increase in atenolol renal clearance, 12% (2nd T) and 11% (3rd T) decrease in atenolol half-life, 20% (2nd T) and 28% (3rd T) increase in cardiac output, 15% (2nd T) and 23% (3rd T) increase in resting heart rate, and 22% (2nd T) and 21% (3rd T) decrease in total peripheral resistance in subjects on steady-state oral atenolol for treatment of hypertension in pregnancy. In conclusion, the renal clearance of atenolol along with creatinine clearance is increased during pregnancy. However, this does not translate into an increase in apparent oral clearance of atenolol, possibly related to the high variability in bioavailability. Atenolol administration did not appear to change the pattern of the increase in cardiac output and the decrease in total peripheral resistance, which normally occurs during pregnancy.
Microarray-based transcriptional profiling was used to determine the effect of progesterone in the cortical contusion (CCI) model. Gene ontology (GO) analysis then evaluated the effect of dose on relevant biological pathways. Treatment (vehicle, progesterone 10 mg/kg or 20 mg/kg given i.p.) was started 4 h post-injury and administered every 12 h post-injury for up to 72 h, with the last injection 12 hr prior to death for the 24 h and 72 h groups. In the CCI-injured vehicle group compared to non-injured animals, expression of 1,114, 4,229, and 291 distinct genes changed > 1.5-fold ( p < 0.05) at 24 h, 72 h, and 7 days, respectively. At 24 h, the effect of low-dose progesterone on differentially expressed genes was < 20% the effect of higher dose compared to vehicle. GO analysis identified a significant effect of low-and high-dose progesterone treatment compared to vehicle on DNA damage response. At 72 h, high-dose progesterone treatment compared to vehicle affected expression of almost twice as many genes as did low-dose progesterone. Both low-and high-dose progesterone resulted in expression of genes regulating inflammatory response and apoptosis. At 7 days, there was only a modest difference in high-dose progesterone compared to vehicle, with only 14 differentially expressed genes. In contrast, low-dose progesterone resulted in 551 differentially expressed genes compared to vehicle. GO analysis identified genes for the low-dose treatment involved in positive regulation of cell proliferation, innate immune response, positive regulation of anti-apoptosis, and blood vessel remodeling.
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