In presence of Ca (II)

In presence of Ca (II) Panobinostat in vivo ion the percentage of protein binding of drug increased (42–46) % at lower concentration range and (82–91) % at higher concentration zone. In brief, Ca2+ caused an increase in protein binding of Amlodipine besylate leading to the formation of stable 1:1 Amlodipine besylate–Ca 2+ complex. This means that the increase in percentage of protein binding may be due to capture of binding sites in the protein by Ca2+ or Amlodipine besylate

& Amlodipine besylate–Ca2+ complex. Thus possibility of adverse effect of Amlodipine besylate may become prominent in presence of Ca or similar drugs in the body system. The subsequent non-linear shape of the Scatchard plots (Fig. 14 and Fig. 15) describes both high and low affinity binding sites of the drug on protein molecules. There were at least two classes (Class 1 and Class II) of binding sites in BSA for Amlodipine besylate and its (1:1) complex with Ca (II) ion (Table 2). We saw that in class I binding sites, the value of affinity constant for Amlodipine besylate alone 1.02 was lower than its 1:1 complexes with Ca (II) ion 1.04 (Table 2), that is, the presence of Ca 2+ with Amlodipine besylate at physiological temperature and pH conditions, cause an increase in values of affinity constant. In class-I, the number of binding

site decrease in presence of Ca (II) ion 2.08 than that of alone Amlodipine besylate i.e. 8.03. Since it is almost exclusively limited to albumin and the number of available binding sites is limited, the binding properties of drugs depend on Selleck 17-AAG plasma albumin concentration. So, due to increase in affinity of the Amlodipine besylate to plasma

protein in class I binding site in presence of Ca (II) ion, the volume of distribution (Vd) as well as bioavailability of the drug (Amlodipine besylate) may decrease.17 and 18 So the proposed drug–metal interactions could interfere substantially with the intestinal absorption see more of Amlodipine besylate owing to the lower solubility of the chelates in intestinal tract.19 So concomitant administration of Amlodipine besylate with food products containing Calcium, nutritional supplements and multivitamins containing Ca (II) ion could impair the clinical efficacy of the drug and reduce its bioavailability. More detailed research may reveal the mechanism of increase binding of drug to the protein in presence of calcium. All authors have none to declare. “
“In nineties solid lipid nanoparticles followed by nanostructured lipid formulations were introduced as an alternative to the conventional colloidal systems like emulsions, liposomes and microparticulate dispersions.1 The important merits of nanostructured lipid based systems includes its biocompatibility, its suitability for drug targeting, fabricated drug release, easy production process and suitability for the large scale production.2 and 3 However, it has few demerits also like drug loading and drug stability during storage.

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