RESULTS: The percent change in LDL cholesterol level from baseline until study completion was statistically greater for the combination of 10 mg ezetimibe + 10 mg atorvastatin compared with increasing atorvastatin AC220 Angiogenesis inhibitor to 20 mg (-25.8% vs -15.1%; P < 0.0001). A similar result was observed for ezetimibe + atorvastatin compared with switching to 2.5 mgt rosuvastatin (-25.8% vs 0.8%; P <
0.0001). The proportion of patients who reached the target LDL cholesterol value with the combination of ezetimibe + atorvastatin was significantly higher than increasing atorvastatin and switching to rosuvastatin (78.7%, 41.3%, and 3.1%, respectively). Although 5 serious adverse experiences bearing no relation to the study medications were reported, there were no adverse reactions.
CONCLUSIONS: The combination of 10 mg ezetimibe +10 mg atorvastatin was more effective than increasing atorvastatin to 20 mg or switching to 2.5 mg rosuvastatin in patients with hypercholesterolemia whose LDL cholesterol levels had not reached the recommended target www.selleckchem.com/products/Nutlin-3.html value with 10 mg atorvastatin monotherapy for 4 weeks. Ezetimibe coadministration with atorvastatin was well tolerated. ClinicalTrials.gov identifier: NCT 00871351. (Curr Ther Res Clin Exp. 2012;73:16-40) (c) 2012 Elsevier
HS Journals, Inc. All rights reserved.”
“Objective: The objective of our case report is to increase the awareness of neutropenia as a rare but potentially serious adverse outcome of commonly used dopamine agonists for the treatment of prolactinomas.
Methods: This report reviews the clinical history, diagnosis, investigations, and drug treatment of our patient.
Results: Neutropenia was recurrent after changing to various different dopamine agonists necessitating surgical treatment of a prolactinoma.
Conclusion: This case serves a reminder of this adverse drug reaction. Considering the significant impact and potentially a life threatening outcome, we advocate routine monitoring of full blood count prior Rigosertib chemical structure to and during the treatment with dopamine
agonists.”
“BACKGROUND: Supercritical antisolvent (SAS) micronisation of synthetic trans-beta-carotene was studied using tetrahydrofuran (THF) as solvent and supercritical carbon dioxide (CO2) as antisolvent, with the objective of increasing its bioavailability and facilitating its dispersion in oil and emulsion formulations as a result of its smaller particle size. The micronised powder was analysed by scanning electron microscopy and high-performance liquid chromatography. Micronisation experiments were performed in order to evaluate the effects of temperature (308.15-333.15 K), pressure (6.5-13 MPa) and concentration of the liquid solution (6-9 g L-1). The effect of the supercritical CO2/THF flow ratio in the range between 4 and 44 (on a mass basis) was also analysed.