The lithium ions concentration in human serum and saliva was determined using dry-slide technology Vitros 250 Analyser (Ortho Clinical Diagnostic) and atomic absorption spectrometry Perkin Elmer 403 (AAS). We analyzed lithium ions in 100 serum and saliva specimens of patients after oral administration of lithium carbonate (3 x 300 mg) Jadran, Galen Laboratory Rijeka. Saliva and blood were taken 2 and 12 hours after the last dose. At the same time lithium ions at samples of blood and saliva were determined with both methods which showed high level of correlation. The mean difference of lithium ions between saliva and serum was statistically significant for p<0.05 using t student test. At saliva we got constant of elimination Kel = 0.02(-1)h and elimination half life (t(1/2)) was t(1/2)=34.6 h. For serum was t(1/2)= 24 h what means that lithium ions elimination is slower from saliva then from serum. That is the reason why probably concentration at saliva is higher then at serum. Lithium elimination is two compartment pharmacokinetic model where important part of compartment are saliva and salivary glands. At a certain point in medical treatment it could be expected to use controlled determination of lithium ions in saliva with serum as control.
Eudragit E microspheres containing bacampicillin hydrochloride were prepared by solvent evaporation and solvent extraction methods. Three different systems of solvents were used: methyl acetate, acetone and methanol/liquid paraffin. The success of the procedures depended mostly on the lipophilicity of the solvent. The particle size of microspheres was determined by sieve analysis. The results showed that the average size of microspheres is influenced greatly by the type of solvent. Scanning electron microscopy was used for observation of the shape of microspheres. Microspheres prepared by the solvent evaporation method in systems with acetone and methyl acetate were all of a regular spherical shape. The surface of all other microspheres were folded. The influence of magnesium stearate content in microspheres was also studied in terms of different methods, solvents and processing conditions.
Microspheres with bacampicillin were prepared by the solvent evaporation method using systems methanol, acetone and methyl acetate / liquid paraffin and Eudragit E as polymer. Sieve analysis showed that the particle size of the microspheres follows l o gnormal distribution with average size of 123, 206 and 300 pm, respectively. Scanning electron microscopy was used to prove that all chosen systems provided the particles of regular spherical shape without .aggregation. HPLC method was developed for testing drug content, drug stability and dissolution. The results of HPLC analysis showed the exisistence of degradation 2295
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.