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"Pendahuluan: Aktivitas proliferasi, sintesis kolagen, dan hidrasi kulit akan menurun seiring proses penuaan kulit, sehingga kulit menua menjadi kusam, kendur, dan kering. Aquaporin-3 (AQP3) adalah protein kunci yang berperan pada proliferasi dan hidrasi keratinosit, sekarang menjadi target inovasi pengembangan kosmetika pelembab anti penuaan kulit. Penelitian ini bertujuan menganalisis kombinasi dua bahan alam yaitu ekstrak etanol Centella asiatica dan nanopartikel kitosan (EECA+NPK) terhadap proliferasi sel fibroblast dan keratinosit, sintesis kolagen I dan III serta ekspresi protein aquaporin-3 (AQP3) secara in vitro.Metode: Dilakukan uji proliferasi sel fibroblas dan keratinosit yang dianalisis dengan uji Microculture Tetrazolium (MTT), analisis sintesis kolagen I dan III menggunakan Enzyme Linked Immunosorbent Assay (ELISA) kit (COL1A1 dan COL3A1) setelah dipajankan dengan ekstrak etanol Centella asiaticadalam nanopartikel kitosan (EECA + NPK) pada beberapa konsentrasi selama 24, 48, dan 72 jam dibandingkan dengan asam retinoat, selanjutnya ekspresi aquaporin-3 (AQP3) dianalisis dengan teknik Imunositokimia menggunakan antibodi anti-aquaporin3 ab125219, kemudian dianalisis secara kuantitatif menggunakan ImageJ software.Hasil: EECA + NPK dapat meningkatkan proliferasi fibroblas 1.6 kali lipat dibandingkan kontrol. Optimal pada konsentrasi 6.25 mg/mL dan proliferasi sel keratinosit optimal pada konsentrasi 3.125 mg/mL, secara statistic tidak berbeda bermakna dengan AR. (EECA + NPK) dapat meningkatkan sintesis kolagen I setelah pajanan 72 jam dan kolagen III setelah pajanan 48 jam, secara statistic tidak berbeda bermakna dengan AR. Uji imunositokimia dengan antibodianti-aquaporin3 ab125219 (EECA + NPK) dapat meningkatkan ekspresi aquaporin 3 (AQP 3) pada sel fibroblas optimal pada konsentrasi 12.5 mg/mL dan sel keratinosit pada konsentrasi3.125 mg/mL setelah pajanan selama 24 jam, secara statistik berbeda dengan AR.Kesimpulan: Ekstrak etanol Centella asiatica dalam nanopartikel kitosan (EECA + NPK) dapat meningkatkan proliferasi fibroblas dan keratinosit, meningkatkan sintesis kolagen I dan III, serta ekspresi protein AQP3 pada sel fibroblas dan sel keratinosit.

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Introduction: Proliferation activity, collagen synthesis, and hydration of the skin will decrease with the process of aging, therefore, skin looks dull, sagging, and dry. Aquaporin-3 (AQP3) is a key protein that plays a role in keratinocyte proliferation and hydration, recently becomes the target of innovation development of anti-aging cosmetic moisturizer. This research aims to analyze a combination of two natural ingredients, Centella asiaticaethanolic extractand chitosan nanoparticles (EECA + NPK) to increased proliferation fibroblast cell and keratinocyte, synthesis type I and III collagen, and the expression of AQP3 in vitro.Methods: Microculture Tetrazolium Test was conducted to analyze the proliferation of fibroblast and keratinocyte. The synthesis of type I and III collagen in fibroblast were analyzed using Ezyme Linked Immunosorbent Assay (ELISA) kit (COL1A1 and COL3A1) after the exposure of CAEE + CNP in several concentrations for 24, 48, 72 hours and compared to Retinoic acid (RA). The expression of AQP 3 on fibroblast and keratinocyte was analyzed using antibody anti-aquaporin 3 ab125219 immunocytochemistry technique, then quantitively analyzed using Image-J software.Results: CAEE+ CNP increased the proliferation of fibroblas optimal result at 6.25mg/mL concentration and the proliferation of keratinocyte increased 1.5 time than control, optimal result at 3.125 mg/mL concentration, statistically were not significant different with RA.CAEE + CNP increased the synthesis collagen type I optimal after incubated for 72hours and the synthesis collagen type III optimal 48 hours, statistically were not significant different with RA.Using antibody anti-aquaporin 3 ab125219 immunocytochemistry examination indicated CAEE+ CNP increased the expression of AQP 3 on fibroblast and keratinocyte, optimal results at 12.5 mg/mL and 3.125 mg/mL respectively after 24 hours exposure.Conclusion: CAEE + CNP increased the proliferation of fibroblast and keratinocyte, synthesis of type I and III collagen, and the expression of AQP3 in fibroblast and keratinocyte;Introduction: Proliferation activity, collagen synthesis, and hydration of the skin will decrease with the process of aging, therefore, skin looks dull, sagging, and dry. Aquaporin-3 (AQP3) is a key protein that plays a role in keratinocyte proliferation and hydration, recently becomes the target of innovation development of anti-aging cosmetic moisturizer. This research aims to analyze a combination of two natural ingredients, Centella asiaticaethanolic extractand chitosan nanoparticles (EECA + NPK) to increased proliferation fibroblast cell and keratinocyte, synthesis type I and III collagen, and the expression of AQP3 in vitro."

"In this research, we studied the preparation of nanochitosan from the addition of potassium persulfate as an initiator for monomer polymerization and monocarboxylic acid—namely acetic acid, lactic acid, and formic acid—to a chitosan solution. To obtain the dried form of chitosan nanoparticles, we investigated the effects of oven and spray drying systems toward the physicochemical properties and morphology of chitosan nanoparticles. Successfully prepared chitosan nanoparticles were characterized by Fourier transform infrared spectroscopy (FTIR), Field Emission Scanning Microscopy/Energy Dispersive X-ray Analysis (FESEM-EDX), and a particle size analyzer (PSA). The structures of nanochitosan prepared in different acids were quite similar based on the FTIR spectra. By increasing the concentrations of potassium persulfate, the yields of chitosan nanoparticles also increased. The concentration of potassium persulfate had a significant influence on the production of chitosan nanoparticles. The lowest concentration of potassium persulfate (0.6 mmol) did not produce an observable formation of chitosan nanoparticles. By using formic acid and potassium persulfate in various concentrations from 1.2–3.0 mmol, chitosan nanoparticles were obtained. A particle size distribution of chitosan nanoparticles was produced from a formic acid solution having a smaller size compared to others. The acidity effect of monocarboxylic acids in the formation of chitosan nanoparticles was better compared to the addition of other acids. Furthermore, synthesized chitosan nanoparticles (50–110 nm) produced from formic acid solutions have potential applications for drug carrier purposes."

"Efavirenz merupakan obat anti HIV yang sukar larut dalam air dengan bioavailabilitas lebih kecil dari 45%. Kelarutan dan bioavailabilitas obat merupakan faktor penting yang mempengaruhi efektivitas terapetik. Saat ini nanoformulasi  menggunakan sistem penghantar berbasis nanopolimer banyak dikembangkan untuk meningkatkan kelarutan dan bioavailabilitas obat, salah satunya adalah kitosan yang merupakan polimer alami bersifat biokompatibel, biodegradabel dan non toksik.  Pada penelitian ini nanopartikel kitosan  sebagai sistem penghantar efavirenz dimodifikasi dengan fraksi etil asetat ekstrak daun mimba (Azadirachta indica) untuk meningkatkan sifat hidrofobik dan kapasitas pemuatan,  selanjutnya proses pemuatan efavirenz dilakukan dengan metode gelasi ionik  menggunakan tripolifosfat sebagai agen pengikat silang dengan bantuan tween 80 untuk mencegah penggumpalan. Berdasarkan optimasi proses sintesis, kondisi optimal diperoleh pada sintesis  nanopartikel yang menggunakan kitosan, ekstrak daun mimba, tween 80 dan tripolifosfat sebagai agen pengikat silang, dengan konsentrasi tween 80 0,321 mg/mL dispersan, rasio konsentrasi kitosan dan tripolifosfat 1:1, rasio konsentrasi kitosan dan efavirenz 1:1,5 yang mempunyai ukuran partikel dibawah 100 nm. Nanopartikel yang dihasilkan mempunyai efisiensi dan pemuatan sebesar 93,40% dan kapasitas pemuatan sebesar 39,92%, persen berat perolehan 91,06% dan nilai potensial zeta sebesar -42,1 mv. Hasil uji pelepasan efavirenz dalam media larutan dapar fosfat menunjukkan pelepasan maksimum pada pH 7,8 sebesar 63,93% hingga 48 jam, sedangkan dalam media larutan natrium dodesil sulfat 1% pelepasan efavirenz mencapai 90,74% hingga 24 jam. Studi spektra infra merah menunjukkan interaksi antara ekstrak daun mimba dan kitosan adalah interaksi kimia, sedangkan interaksi antara kitosan dan efavirenz adalah interaksi fisik.

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Efavirenz is an anti-HIV drug with low solubility and variable bioavailability less than 45%. Solubility and bioavailability of the drug are important factors that influence therapeutic effectiveness. Nanoformulation using a nanopolymer-based delivery system is widely developed to improve the solubility and bioavailability of drugs, one of the extensively used is chitosan which is a natural polymer that is biocompatible, biodegradable and non toxic. In this study, chitosan nanoparticles as the delivery system of efavirenz were modified with the ethyl acetate fraction of mimba leaf extract (Azadirachta indica) to improve hydrophobic properties and loading capacity, then the process of loading efavirenz was carried out by ionic gelation using tripolyphosphate as a crosslinking agent and tween 80 to prevent aggregation. Based on the optimization of nanoparticle synthesis, the most satisfactory composition was obtained by nanoparticle using chitosan, neem leaf extract, tween 80 and tripolyphosphate, with tween 80 concentration 0.321 mg/mL dispersant, chitosan and tripolyphosphate concentration ratios 1: 1, chitosan and efavirenz concentration ratios 1: 1.5, because the drug nanoparticles size range was obtained as required for the nanoparticle drugs. The resulting nanoparticles have efficiency and loading capacity of 93.40% and 39,92%, practical yield percentage was 91.06%, zeta potential value was -42.1. Drug release test was carried out in vitro using paddle type dissolution test equipment in buffer phosphate solution media showed maximum drug release at pH 7.8 of 63.93% up to 48 hours, while in the medium a solution of 1% sodium dodecyl sulfate drug release reached 90.74% up to 24 hours. Thereafter, there was no further significant release seen. The FTIR spectral studies showed the interaction between mimba leaf extract and chitosan was chemical interaction, while interaction between efavirenz and chitosan was physical interaction."

"Azithromycin (AZI) adalah antibiotika yang digunakan secara luas. AZI merupakan obat yang memiliki spesifikasi kelarutan yang rendah dalam air serta memiliki nilai bioavailabilitas oral rendah yaitu sebesar 37%. Rendahnya kelarutan dan bioavailabilitas oral AZI dapat berdampak pada rendahnya efek terapetik obat tersebut. Teknik enkapsulasi dan sistem penghantar obat melalui nanocarrier adalah metode alternatif untuk meningkatkan bioavailabilitas obat yang memiliki kelarutan rendah dalam air. Nanopartikel kitosan (NPKS) adalah salah satu polimer yang paling umum digunakan sebagai penghantar obat. Pada penelitian ini nilai efisiensi enkapsulasi dan kapasitas pemuatan AZI pada NPKS berhasil ditingkatkan dengan memodifikasi NPKS menggunakan ekstrak daun binahong (EDB). Metabolit sekunder pada EDB dapat bereaksi dengan gugus amina pada NPKS dan meningkatkan sifat hidrofobiknya sehingga interaksi antara NPKS dengan AZI menjadi lebih baik. Hal tersebut dapat terlihat dari nilai efisiensi enkapsulasi dan kapasitas pemuatan AZI yang sangat baik untuk NPKS- EDB-AZI yaitu pada nilai 95,24 ± 1,30% dan 55,74 ± 1,03%. Hasil karakterisasi TEM menunjukkan bahwa NPKS-EDB-AZI terdistribusi secara homogen dengan ukuran partikel 24,6 ± 2,9 nm. Berdasarkan hasil uji pelepasan obat in vitro, NPKS-EDB-AZI melepaskan AZI sebesar 1,12 ± 0,33% ketika ditempatkan pada pH 1,6 selama 2 jam, 82,05 ± 2,23% pada pH 6,8 selama 6 jam, dan 93,44 ± 1,94% ketika ditempatkan pada pH 7,4 selama 16 jam. Penelitian ini menunjukan bahwa NPKS yang termodifikasi EDB dapat dimanfaatkan sebagai sistem penghantar azithromycin dengan nilai efisiensi pemuatan dan kapasitas pemuatan yang baik, serta memberikan sifat pelepasan obat secara terkontrol.

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Azithromycin (AZI) is a widely used antibiotic. AZI is a drug that has a low solubility in water and a low oral bioavailability value of 37%. The low solubility and oral bioavailability of AZI can have an impact on the low therapeutic effect of the drug. Encapsulation techniques and drug delivery systems via nanocarriers are alternative methods to improve the bioavailability of drugs that have low solubility in water. Chitosan nanoparticles (NPKS) are one of the most commonly used polymers as drug conductors. In this study, the value of encapsulation efficiency and AZI loading capacity on NPKS was successfully increased by modifying NPKS using binahong leaf extract (EDB). Secondary metabolites in EDB can react with amine groups in NPKS and increase their hydrophobic properties so that the interaction between NPKS and AZI becomes better. This can be seen from the excellent encapsulation efficiency and AZI loading capacity values for NPKS-EDB-AZI, namely 95.24 ± 1.30% and 55.74 ± 1.03%. The results of TEM characterization showed that NPKS-EDB-AZI was homogeneously distributed with a particle size of 24.6 ± 2.9 nm. Based on the results of in vitro drug release tests, NPKS-EDB-AZI released AZI of 1.12 ± 0.33% when placed at pH 1.6 for 2 hours, 82.05 ± 2.23% at pH 6.8 for 6 hours, and 93.44 ± 1.94% when placed at pH 7.4 for 16 hours. This study shows that EDB-modified NPKS can be used as an azithromycin delivery system with good loading efficiency and loading capacity and controlled drug release properties.

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"Ester asam lemak sakarida dapat diperoleh melalui reaksi esterifikasi antara maltosa dengan asam lemak minyak sawit menggunakan pelarut organik. Reaksi esterifikasi dilakukan secara enzimatik menggunakan katalis lipase Candida rugosa E.C.3.1.1.3 terimobilisasi pada nanopartikel Fe3O4-Kitosan, dengan pelarut isoamil alkohol dan iso butanol. Imobilisasi lipase Candida rugosa pada nanopartikel Fe3O4-Kitosan menggunakan metode ikat silang dengan glutaraldehida sebagai agen pengikat silang. Imobilisasi dilakukan menggunakan larutan lipase dengan konsentrasi awal enzim yaitu 200 dan 350 ppm. Variasi yang dilakukan menggunakan perbandingan rasio mol substrat gula: asam lemak, yaitu 1:30 ; 1:60 ; dan 1:90. Hasil yang lebih baik diperoleh menggunakan konsentrasi awal lipase 200 ppm, dengan nilai persen loading imobilisasi lipase yang diperoleh adalah 31,28 % dan aktivitas hidrolisis lipase terimobilisasi sebesar 2,88 U/mL dan aktivitas spesifiknya sebesar 1,23 U/mg. Hasil optimasi perbandingan rasio molar gula dan asam lemak menunjukkan kondisi optimum diperoleh pada rasio 1 : 30 menggunakan pelarut iso butanol, dengan % konversi 5,0 %. Hasil uji emulsifier menunjukkan bahwa produk esterifikasi dapat berfungsi sebagai emulsifier.

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Sugar esters can be produced with esterification between maltose and palm oil fatty acid in organic solvents. Esterification reaction was carried out enzymatically using immobilized Candida rugosa lipase EC.3.1.1.3 on Fe3O4--chitosan nanoparticles, with isoamyl alcohol and isobutanol as the solvents. Candida rugosa lipase was immobilized on Fe3O4-chitosan nanoparticles using cross-linking method with glutaraldehyde as cross linker. Immobilization was carried out with two initial enzyme concentrations of 200 and 350 ppm. The variations of molar substrate ratio of sugar : fatty acid used in this study were 1:30, 1:60, and 1:90. The optimal results was obtained using initial concentration of 200 ppm lipase. The loading percentage of immobilized lipase was 31,28 % with hydrolytic activity of immobilized lipase was 2,88 U/mL and the specific activity was 1,23 U/mg. The highest % conversion in esterification obtained in this study was 5.0 %, using molar ratio 1:30 in iso bthanol as solvent. The ester product obtained was then examined by simple emulsion test and can be used as an emulsifying agent."