Drugs online research references
Drug Metab Dispos. 2000 Nov;28(11):1267-9.
Chronic nifedipine dosing enhances cephalexin bioavailability and intestinal absorption in conscious rats.
Berlioz F, Lepere-Prevot B, Julien S, Tsocas A, Carbon C, Roze C, Farinotti R.
UPRES 2706, Faculte de Pharmacie Chatenay Malabry, France.
Cephalexin, a beta-lactam antibiotic, is rapidly absorbed via the di-and tripeptide intestinal transporters, as for many peptidomimetic drugs. Acute nifedipine has been shown to increase intestinal absorption of several beta-lactams: amoxicillin and cefixime in humans, and cephalexin in the rat. We showed previously that the nervous system was involved in the increasing effect of nifedipine on cephalexin intestinal absorption in anesthetized rats. The aim of the present study was 2-fold: 1) to investigate whether the effect of nifedipine is maintained in conscious rats, and 2) to determine whether the nifedipine effect will persist during chronic nifedipine administration. Acute and chronic oral administration of nifedipine significantly increased oral cephalexin area under the plasma concentration-time curve (34 and 25%, respectively) and maximum concentration in plasma (57 and 51%, respectively), while the distribution and elimination parameters of intra-arterial cephalexin were not affected by acute or chronic nifedipine administration. In conclusion, acute nifedipine effect on intestinal absorption of cephalexin is independent of anesthesia in rats. Since nifedipine could still enhance cephalexin intestinal absorption after a 7-day b.i.d. treatment, it can be envisaged to apply this effect to increase bioavailability of poorly absorbed peptidomimetic drugs in man.
online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11038150&dopt=Abstract
lifecell.com
Glycerolized red blood cells (RBC) are approved for long-term cryopreservation. However, the need to remove the glycerol cryoprotectant prior to transfusion has limited the usefulness of this cryopreservation method. This report describes using non-cryoprotectant biochemical stabilization techniques to substitute for the standard glycerol cryoprotectant. The glycerolized RBC method was compared to a newly developed LC-V method that combines transfusable cryoprotectants (hydroxyethyl starch and dextran) and specific non-cryoprotectant biochemical stabilizers (nicotinamide, nifedipine, and flurbiprofen). Results demonstrate that the biochemical stabilizers significantly reduce cryopreservation-induced hemolysis compared to cryopreservation in their absence and that thaw hemolysis levels approach those of standard 40% (w/v) glycerolized RBC (3.1+/-0.2% for 40% glycerol compared to 8.7+/-0.9% for the LC-V protocol). Furthermore, LC-V cryopreserved RBC exhibit a significantly enhanced post-thaw stability compared to glycerolized RBC as determined by osmotic fragility index (0.557+/-0.034 for 40% glycerol compared to 0.478+/-0.016 for the LC-V protocol). Analysis of biochemically stabilized RBC proteins revealed a transient translocation of carbonic anhydrase to the membrane fraction. However, the enhanced RBC recovery and stability could not be attributed to this event. Finally, DSC analysis demonstrated that the biochemical stabilizers of the LC-V process were not functioning as surrogate cryoprotectants in that they did not affect the quantity or quality of ice formed. Overall, this work demonstrates that cryopreservation-induced RBC damage may be corrected or prevented through specific biochemical stabilization and represents a significant step toward a directly transfusable cryopreserved RBC product.
online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12482381&dopt=Abstract
Exp Brain Res. 1991;84(1):224-8.
Nimodipine and nifedipine enhance transmission at the Schaffer collateral CA1 pyramidal neuron synapse.
O'Regan MH, Kocsis JD, Waxman SG.
Department of Neurology, Yale University School of Medicine, West Haven, CT 06516.
Intracellular recording in the in vitro hippocampal slice was utilized to examine the effects of nimodipine and nifedipine on CA1 pyramidal cell excitability. The excitatory postsynaptic potential (EPSP) elicited by a single stimulus in stratum radiatum was enhanced by nifedipine as evidenced by increases in EPSP amplitude, area and slope. Threshold for synaptically-evoked somatic action potentials was decreased following either nifedipine or nimodipine application, often resulting in spontaneous action potential activity. A secondary, late EPSP-like event appeared in the intracellular recordings during and following bath application of nimodipine, and was associated with burst-like activity in field potential recordings. In accordance with the hydrophobic nature of these compounds, extensive washout in normal Krebs' solution failed to reverse their effects, but nifedipine's actions were photolabile. These results indicate that dihydropyridines can enhance synaptic efficacy in the CA1 region of the hippocampus.
online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=1649768&dopt=Abstract
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