Lipid particles, as drug carriers, are of increasing research interest, because a sustained drug release and avoidance of side effects could be achieved by using them. Lidocaine hydrochloride is a very efficient local anesthetic, but it has a short effect. The objective was to prolong the effect of the drug by encapsulating lidocaine hydrochloride in phospholipids microparticles. Two different procedures were used for the preparation of phospholipids microparticles. In both cases, phosphatidylcholine and lysophosphatidylcholine were used for the preparation of microparticles in which 5 % w/w lidocaine hydrochloride solution was encapsulated. The standard Franz diffusion cell was used for the experimental diffusion rate determination. The obtained results show that diffusion rate from microparticles is significantly lower than from the lidocaine hydrochloride solution, which means that this kind of microparticles could be used for the prolonged drug release. There was no much difference... in diffusion rates from microparticles obtained by different procedures. That indicates that only the composition of the particles membrane has an influence on the lidocaine hydrochloride release rate.
Keywords:
microparticles / diffusion / phospholipids / lidocaine / Franz cell
Source:
Chemical Industry & Chemical Engineering Quarterly, 2009, 15, 1, 33-35
TY - JOUR
AU - Pjanović, Rada
AU - Stojanović, Radoslava
AU - Šajber, Milana
AU - Veljković, Jelena
AU - Bošković-Vragolović, Nevenka
AU - Pejanović, Srđan
PY - 2009
UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/1454
AB - Lipid particles, as drug carriers, are of increasing research interest, because a sustained drug release and avoidance of side effects could be achieved by using them. Lidocaine hydrochloride is a very efficient local anesthetic, but it has a short effect. The objective was to prolong the effect of the drug by encapsulating lidocaine hydrochloride in phospholipids microparticles. Two different procedures were used for the preparation of phospholipids microparticles. In both cases, phosphatidylcholine and lysophosphatidylcholine were used for the preparation of microparticles in which 5 % w/w lidocaine hydrochloride solution was encapsulated. The standard Franz diffusion cell was used for the experimental diffusion rate determination. The obtained results show that diffusion rate from microparticles is significantly lower than from the lidocaine hydrochloride solution, which means that this kind of microparticles could be used for the prolonged drug release. There was no much difference in diffusion rates from microparticles obtained by different procedures. That indicates that only the composition of the particles membrane has an influence on the lidocaine hydrochloride release rate.
PB - Association of the Chemical Engineers of Serbia
T2 - Chemical Industry & Chemical Engineering Quarterly
T1 - Diffusion of lidocaine hydrochloride from lipid microparticles
EP - 35
IS - 1
SP - 33
VL - 15
DO - 10.2298/CICEQ0901033P
ER -
@article{
author = "Pjanović, Rada and Stojanović, Radoslava and Šajber, Milana and Veljković, Jelena and Bošković-Vragolović, Nevenka and Pejanović, Srđan",
year = "2009",
abstract = "Lipid particles, as drug carriers, are of increasing research interest, because a sustained drug release and avoidance of side effects could be achieved by using them. Lidocaine hydrochloride is a very efficient local anesthetic, but it has a short effect. The objective was to prolong the effect of the drug by encapsulating lidocaine hydrochloride in phospholipids microparticles. Two different procedures were used for the preparation of phospholipids microparticles. In both cases, phosphatidylcholine and lysophosphatidylcholine were used for the preparation of microparticles in which 5 % w/w lidocaine hydrochloride solution was encapsulated. The standard Franz diffusion cell was used for the experimental diffusion rate determination. The obtained results show that diffusion rate from microparticles is significantly lower than from the lidocaine hydrochloride solution, which means that this kind of microparticles could be used for the prolonged drug release. There was no much difference in diffusion rates from microparticles obtained by different procedures. That indicates that only the composition of the particles membrane has an influence on the lidocaine hydrochloride release rate.",
publisher = "Association of the Chemical Engineers of Serbia",
journal = "Chemical Industry & Chemical Engineering Quarterly",
title = "Diffusion of lidocaine hydrochloride from lipid microparticles",
pages = "35-33",
number = "1",
volume = "15",
doi = "10.2298/CICEQ0901033P"
}
Pjanović, R., Stojanović, R., Šajber, M., Veljković, J., Bošković-Vragolović, N.,& Pejanović, S.. (2009). Diffusion of lidocaine hydrochloride from lipid microparticles. in Chemical Industry & Chemical Engineering Quarterly
Association of the Chemical Engineers of Serbia., 15(1), 33-35.
https://doi.org/10.2298/CICEQ0901033P
Pjanović R, Stojanović R, Šajber M, Veljković J, Bošković-Vragolović N, Pejanović S. Diffusion of lidocaine hydrochloride from lipid microparticles. in Chemical Industry & Chemical Engineering Quarterly. 2009;15(1):33-35.
doi:10.2298/CICEQ0901033P .
Pjanović, Rada, Stojanović, Radoslava, Šajber, Milana, Veljković, Jelena, Bošković-Vragolović, Nevenka, Pejanović, Srđan, "Diffusion of lidocaine hydrochloride from lipid microparticles" in Chemical Industry & Chemical Engineering Quarterly, 15, no. 1 (2009):33-35,
https://doi.org/10.2298/CICEQ0901033P . .
