Mathematical modelling of brimonidine absorption via topical delivery of microparticle formulations to the eye
[Display omitted] We developed a mathematical model to elucidate the absorption profile of an ocular drug, brimonidine, into the aqueous humour (AH) after its topical administration to the eye via microparticle formulations. For this, a compartment model with three distinct compartments of tear, cor...
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| Published in | Journal of industrial and engineering chemistry (Seoul, Korea) Vol. 39; pp. 194 - 202 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier B.V
25.07.2016
한국공업화학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1226-086X 1876-794X |
| DOI | 10.1016/j.jiec.2016.05.030 |
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| Abstract | [Display omitted]
We developed a mathematical model to elucidate the absorption profile of an ocular drug, brimonidine, into the aqueous humour (AH) after its topical administration to the eye via microparticle formulations. For this, a compartment model with three distinct compartments of tear, cornea, and AH was proposed. The parameters were estimated, employing the experimental data of in vitro drug release, in vivo preocular retention, and drug concentration in the AH, which were obtained with four distinct microparticle types: (1) spherical microparticles without mucoadhesion, (2) spherical microparticles with mucoadhesion, (3) nanostructured microparticles without mucoadhesion, and (4) nanostructured microparticles with mucoadhesion. Our results showed that, for all microparticle types, the simulated and experimental profiles of drug concentration in the AH were in good agreement, as were the overall pharmacokinetic parameters, implying that the model is reliable. With this validated model, we predicted the drug concentration profile in the tear, where nanostructured, mucoadhesive microparticles showed greater than 1.9-fold increase in drug bioavailability, compared with the other microparticle types. This improvement at the preocular surface was reflected in the enhanced drug bioavailability in the AH: greater than 1.5-fold increase compared with the other microparticle types. |
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| AbstractList | We developed a mathematical model to elucidate the absorption profile of an ocular drug, brimonidine, into the aqueous humour (AH) after its topical administration to the eye via microparticle formulations. For this, a compartment model with three distinct compartments of tear, cornea, and AH was proposed. The parameters were estimated, employing the experimental data of in vitro drug release, in vivo preocular retention, and drug concentration in the AH, which were obtained with four distinct microparticle types: (1) spherical microparticles without mucoadhesion, (2) spherical microparticles with mucoadhesion, (3) nanostructured microparticles without mucoadhesion, and (4) nanostructured microparticles with mucoadhesion. Our results showed that, for all microparticle types, the simulated and experimental profiles of drug concentration in the AH were in good agreement, as were the overall pharmacokinetic parameters, implying that the model is reliable. With this validated model, we predicted the drug concentration profile in the tear, where nanostructured, mucoadhesive microparticles showed greater than 1.9-fold increase in drug bioavailability, compared with the other microparticle types. This improvement at the preocular surface was reflected in the enhanced drug bioavailability in the AH: greater than 1.5-fold increase compared with the other microparticle types. We developed a mathematical model to elucidate the absorption profile of an ocular drug, brimonidine,into the aqueous humour (AH) after its topical administration to the eye via microparticle formulations. For this, a compartment model with three distinct compartments of tear, cornea, and AH was proposed. The parameters were estimated, employing the experimental data of in vitro drug release, in vivopreocular retention, and drug concentration in the AH, which were obtained with four distinctmicroparticle types: (1) spherical microparticles without mucoadhesion, (2) spherical microparticleswith mucoadhesion, (3) nanostructured microparticles without mucoadhesion, and (4) nanostructuredmicroparticles with mucoadhesion. Our results showed that, for all microparticle types, the simulatedand experimental profiles of drug concentration in the AH were in good agreement, as were the overallpharmacokinetic parameters, implying that the model is reliable. With this validated model, wepredicted the drug concentration profile in the tear, where nanostructured, mucoadhesive microparticlesshowed greater than 1.9-fold increase in drug bioavailability, compared with the other microparticletypes. This improvement at the preocular surface was reflected in the enhanced drug bioavailability inthe AH: greater than 1.5-fold increase compared with the other microparticle types. KCI Citation Count: 0 [Display omitted] We developed a mathematical model to elucidate the absorption profile of an ocular drug, brimonidine, into the aqueous humour (AH) after its topical administration to the eye via microparticle formulations. For this, a compartment model with three distinct compartments of tear, cornea, and AH was proposed. The parameters were estimated, employing the experimental data of in vitro drug release, in vivo preocular retention, and drug concentration in the AH, which were obtained with four distinct microparticle types: (1) spherical microparticles without mucoadhesion, (2) spherical microparticles with mucoadhesion, (3) nanostructured microparticles without mucoadhesion, and (4) nanostructured microparticles with mucoadhesion. Our results showed that, for all microparticle types, the simulated and experimental profiles of drug concentration in the AH were in good agreement, as were the overall pharmacokinetic parameters, implying that the model is reliable. With this validated model, we predicted the drug concentration profile in the tear, where nanostructured, mucoadhesive microparticles showed greater than 1.9-fold increase in drug bioavailability, compared with the other microparticle types. This improvement at the preocular surface was reflected in the enhanced drug bioavailability in the AH: greater than 1.5-fold increase compared with the other microparticle types. |
| Author | Choi, Karam Park, Ki Ho Choy, Young Bin Park, Chun Gwon Kim, Young Kook Kim, Sungwan |
| Author_xml | – sequence: 1 givenname: Chun Gwon surname: Park fullname: Park, Chun Gwon organization: Institute of Medical & Biological Engineering, Medical Research Center, Seoul National University, Seoul 03080, Republic of Korea – sequence: 2 givenname: Karam surname: Choi fullname: Choi, Karam organization: Interdisciplinary Program in Bioengineering, College of Engineering, Seoul National University, Seoul 08826, Republic of Korea – sequence: 3 givenname: Young Kook surname: Kim fullname: Kim, Young Kook organization: Department of Ophthalmology, Seoul National University Hospital, Seoul 03080, Republic of Korea – sequence: 4 givenname: Ki Ho surname: Park fullname: Park, Ki Ho organization: Department of Ophthalmology, Seoul National University Hospital, Seoul 03080, Republic of Korea – sequence: 5 givenname: Sungwan surname: Kim fullname: Kim, Sungwan email: sungwan@snu.ac.kr organization: Institute of Medical & Biological Engineering, Medical Research Center, Seoul National University, Seoul 03080, Republic of Korea – sequence: 6 givenname: Young Bin surname: Choy fullname: Choy, Young Bin email: ybchoy@snu.ac.kr organization: Institute of Medical & Biological Engineering, Medical Research Center, Seoul National University, Seoul 03080, Republic of Korea |
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| Cites_doi | 10.1016/j.jconrel.2015.10.027 10.1016/S0939-6411(97)00064-7 10.1517/17425247.3.2.275 10.1002/jps.2600760205 10.1109/JBHI.2015.2465156 10.1002/jps.22764 10.1089/jop.1995.11.297 10.1248/bpb.23.1352 10.1124/dmd.30.4.421 10.1002/jps.2600650909 10.1038/clpt.1985.166 10.1002/jps.2600670507 10.1023/A:1018964823193 10.1016/S0002-9394(99)00083-5 10.1038/eye.1999.17 10.1023/A:1016268922035 10.1016/j.mito.2007.03.003 10.1016/S0378-5173(99)00147-7 10.1038/clpt.2008.297 10.1016/j.ijpharm.2014.03.048 10.1080/02713680591004077 10.1152/ajpcell.2001.281.2.C595 10.1002/jps.2600781116 10.1016/j.jconrel.2004.07.001 10.1007/s11095-010-0066-1 10.1016/0169-409X(95)00017-2 10.1167/iovs.07-0593 10.1111/j.1755-3768.1979.tb00504.x 10.1007/s11095-014-1468-2 |
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| Keywords | r2 KeAH KaTC KeC DM Brimonidine Ocular drug delivery Microparticles PLGA/PEG MS AUC DT PLGA MS KeT Mathematical model PLGA NM PBS Cmax PLGA/PEG NM MS AH Fm DAH Nanostructure CAH RMSE Dr CT PLGA PEG t KaCA Tmax VAH VT DC NM |
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We developed a mathematical model to elucidate the absorption profile of an ocular drug, brimonidine, into the aqueous humour (AH) after its... We developed a mathematical model to elucidate the absorption profile of an ocular drug, brimonidine, into the aqueous humour (AH) after its topical... We developed a mathematical model to elucidate the absorption profile of an ocular drug, brimonidine,into the aqueous humour (AH) after its topical... |
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| SubjectTerms | Absorption Brimonidine Compartments Drugs Eyes Mathematical analysis Mathematical model Mathematical models Microparticles Nanostructure Ocular drug delivery 화학공학 |
| Title | Mathematical modelling of brimonidine absorption via topical delivery of microparticle formulations to the eye |
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