FORMULATION AND CHARACTERIZATION OF SELF NANO-EMULSIFYING DRUG DELIVERY SYSTEM (SNEDDS) FRACTION OF N-HEXANE: ETHYL ACETATE FROM SESEWANUA LEAF (CLERODENDRUM FRAGRANS WILD.)
DOI:
https://doi.org/10.22159/ijap.2023v15i2.46365Keywords:
Surfactant, Polydispersity index, Particle size, Inflammation, Rheumatoid arthritisAbstract
Objective: Sesewanua leaves contain alkaloid compounds as antioxidants, and its leaves can be used to formulate SNEDDS dosage forms, which can effectively deliver the medicine.
This study intended to determine the variation of surfactant concentration (Tween 80) and cosurfactant (PEG 400) towards pH, viscosity, nano-emulsion duration and characterization using PSA method (particle size and polydispersity index).
Methods: This study employed a quasi-experimental method and the independent variables in this study were variations in the concentration of surfactant (Tween 80) and cosurfactant (PEG 400), which consist of 3 formulas, such as SFS 1 (6:3), SFS 2 (7:2), and SFS 3 (8:1). The dependent variables in this study including pH, viscosity, nano-emulsion time, particle size and polydispersity index which utilized One Way Anova Post Hoc LSD (p>0.05) and Tamhane (p<0.05) tests as the data analysis.
Results: The pH test SFS1-SFS3 has a pH value of 7.92, 8.30 and 8.35, followed by Viscosity test SFS1-SFS3, which has a viscosity value of 1.00 cP, 1.38 cP and 2.91 cP. Further, the SFS1-SFS3 nano emulsified time test had nano emulsified time in gastric and intestinal fluids 35.18s and 43.96s, 43.54s and 47.13s and 44.00s and 50.29s. Characterization of SFS1-SFS3 particle size in gastric and intestinal fluids 23.9 nm and 23.0 nm, 18.5 nm and 22.7 nm and 19.1 nm and 22.9 nm, while characterization of SFS1-SFS3 polydispersity index in gastric and intestinal fluids were 0.433 and 0.348, 0.451 and 0.440 and 0.568 and 0.462.
Conclusion: The increase of variations in surfactant concentration and decreased cosurfactant significantly affected pH, viscosity, nano-emulsion time, and particle size of SFS preparations. However, the polydispersity index was not considerably affected.
Downloads
References
Nguyen TH, Le HD, Kim TNT, The HP, Nguyen TM, Cornet V.Anti–inflammatory and antioxidant properties of the ethanol extract of Clerodendrum cyrtophyllum Turcz in copper sulfate‐induced inflammation in zebrafish. Antioxidants (Basel). 2020;9(3). doi: 10.3390/antiox9030192, PMID 32106612.
Faqihi AHMA, Sayed SF. Self-medication practice with analgesics (NSAIDs and acetaminophen), and antibiotics among nursing undergraduates in University College Farasan Campus, Jazan University, KSA. Ann Pharm Fr. 2021;79(3):275-85. doi: 10.1016/j.pharma.2020.10.012. PMID 33098875.
Arafa G. Thin layer chromatography (TLC) profile and antioxidant activity test of the toluene: ethyl acetate fraction of sesewanua leaves (Clerodendrum fragrans Wild.) using the DPPH method (1,1-diphenyl-2-picrylhydrazyl); 2021.
Huliselan YM, Runtuwene MRJ, Wewengkang DS. Antioxidant activity of ethanol, ethyl acetate and n-hexane extract from seswanua leaves (Clerodendron squamatum Vahl.). Pharmacon. 2015;4:155-63.
Husain Y. TLC profile and antioxidant activity test of methanol: ethyl acetate fraction of sesewanua leaves (Clerodendrum fragrans wild.) using the DPPH Method; 2021.
Lasori SR. TLC profile and antioxidant activity test of the fraction of n-hexane: ethyl acetate ethanol extract of sesewanua leaves (Clerodendrum fragrans Wild.) with DPPH Method; 2021.
Sapiun Z, Pangalo P. Formulation and anti-inflammatory potential test emulgel sesewanua leaf extract (Clerodendrum fragrans Wild.) in mice (Mus musculus) induced by carrageenin. Gorontalo; 2019.
Kurniati RI. Test of antioxidant activity of ethanol fraction of buas leaves (Premna cordifolia Linn.) by DPPH method (2,2-difenil-1-pikrilhidrazil). J akad Kim. 2013.
Huda N, Wahyuningsih I. Characterization of self nano-emulsifying drug delivery system (SNEDDS) red fruit oil (Pandanus conoideus Lam.). J Farm Pharm Sci Indones. 2018;3:49.
Nugroho BH, Sari NP. Formulation of self nano emulsifying drug delivery system (SNEDDS) karamunting leaf extract (Rhodomyrtus tomentosa Hassk.). J Ilm Farm. 2018;14:1-8.
Chabib L, Pradana DA, Jamalullail H NA. Characterization of the SNEDDS nano curcumin formulation as an antiarthritis rheumatoid. Towards Civil and Sustainable Society. 2017:226-36.
Putri NE, Nurahmanto D, Rosyidi VA. Optimization of tween 80 and propylene glycol in self nano-emulsifying drug delivery system (SNEDDS) basil essential oil (Ocimum basilicum). Health Sci Library. 2021;9:78-83.
Nasr A, Gardouh A, Ghonaim H, Abdelghany E, Ghorab M. Effect of oils, surfactants and cosurfactants on phase behavior and physicochemical properties of self-nano emulsifying drug delivery system (SNEDDS) for irbesartan and olmesartan. Int J Appl Pharm. 2016;8:13-24.
Beandrade MU. Formulation and characterization of SNEDDS extract of Black Cumin (Nigella sativa) with a bottled shark (Centrophorus sp) oil phase and immunostimulant activity test. JPSCR J Pharm Sci Clin Res. 2018;3:50.
Cerpnjak K, Zvonar A, Gasperlin M, Vrecer F. Lipid-based systems as a promising approach for enhancing the bioavailability of poorly water-soluble drugs. Acta Pharm. 2013;63(4):427-45. doi: 10.2478/acph-2013-0040, PMID 24451070.
Indratmoko S, Nurrahman A, Herawan AA. Development of kersen leaf extract nanoparticles (Muntingia calabura L.) with self nano emulsifying drug delivery system (SNEDDS) technique for antibacterial applications. Pharmaqueous J Pharm Sci. 2020;1:27-34.
Indratmoko S, Suratmi IE. Formulation, characterization and evaluation of self-nano emulsifying drug delivery system (SNEDDS) ethanol extract of pineapple peel as antibacterial Streptococcus mutans. Fitofarmaka J Ilm Farm. 2021;11:12-22.
Rowe RC, Quinn PJS, MEQ. Handbook of pharmaceutical excipients. 6th ed; 2007.
Kim JS, Ud Din F, Lee SM, Kim DS, Choi YJ, Woo MR. Comparative study between high-pressure homogenisation and shirasu porous glass membrane technique in sildenafil base-loaded solid SNEDDS: effects on physicochemical properties and in vivo characteristics. Int J Pharm 2021;592:120039.
Anindhita MA, Oktaviani N. Self-nano-emulsifying drug delivery system (SNEDDS) formulation of papaya leaf extract (Carica papaya L.) with virgin coconut oil (VCO) as carrier Oil. J Pena Med. 2016;6:103-11.
Zulfa E, Novianto D, Setiawan D. Diclofenac sodium nanoemulsion formulation with Tween 80 and span 80 combination variations: the study of physical characteristics of preparations. Media Farm Indones. 2019;14:1471-7.
Gottemukkula LD, Sampathi S. SNEDDS as lipid-based nanocarrier systems: concepts and formulation insights. Int J App Pharm. 2022;14:1-9. doi: 10.22159/ijap.2022v14i2.42930.
Nurwaini S, Nasihah RH. Formulation and antibacterial activity test on hand gel guava leaf extract (Psidium guajava L.). Proceeding 7th URECOL. Hal. 2018;2018:24-30.
Nisa M, Rafiana N, Tinggi S, Farmasi I. Formulation and characterization of self nanoemulsion drug delivery system rice bran oil formulation and characterization of self nanoemulsion drug delivery system rice bran oil. Pharm Sci. 2020;5:32-7.
Reddy SS, Suresh G. Design and in vivo evaluation of manidipine by self-nano emulsifying drug delivery systems. IJPSDR. 2019;11(6):34394. doi: 10.25004/IJPSDR.2019.110609.
Syukri Y, Martien R, Lukitaningsih E, Nugroho AE. Novel self-nano emulsifying drug delivery system (SNEDDS) of andrographolide isolated from andrographis paniculata nees: Characterization, in vitro and in vivo assessment. J Drug Deliv Sci Technol. 2018;47:514-20. doi: 10.1016/j.jddst.2018.06.014.
Maharini, Rismarika, Yusnelti. Pengaruh konsentrasi PEG 400 sebagai kosurfaktan pada formulasi nanoemulsi minyak kepayang. Chempublish J 2020;5(1):1-14. doi: 10.22437/chp.v5i1.7604.
Mathew R, Varkey J. Formulation and in vitro evaluation of self nano emulsifying drug delivery system of quercetin for enhancement of oral bioavailability. Int J Curr Pharm Sci. 2022;14:60-9. doi: 10.22159/ijcpr.2022v14i1.44113.
Wahyuningsih I, Latief Y. Self nano emulsifying drug delivery system (SNEDDS) formulation of black cumin seed oil with surfactant tween 80 and cosurfactant sorbitol. J Pharm Sci Indonesia. 2021;19:118-24.
Wulansari SA, Sumiyani R, Aryani NLD. Effect of surfactant concentration on physical characteristics of nanoemulsion and nanoemulsion gel coenzyme. J Kim Ris. 2019;4;Q10.
Nugroho BH, Citrariana S, Sari IN, Oktari RN, Munawwarah. Formulation and evaluation of SNEDDS (Self Nano-emulsifying drug delivery system) of papaya leaf extracts (Carica papaya L.) as an analgesic. J Ilm Farm. 2017;13:77-85.
Zhao T, Drug SN. Delivery systems (SNEDDS) for the oral delivery of lipophilic drugs. Self-Nanoemulsifying Drug Delivery System (SNEDDS) oral Deliv lipophilic drugs; 2015. p. 1-120.
Lestari SR, Gofur A, Fajaroh F, Maslikah Sl, Annisa Y, Malek NANN. Self-nano emulsifying drug delivery system (SNEEDS) for improved bioavailability of active compound on single clove garlic: optimization of PEG 400 and glycerol as co-surfactant. AIP Conf Proc. 2021;2353. doi: 10.1063/5.0052638.
Nandita SP, Kuncahyo I, Harjanti R. Formulation and optimization of furosemide snedds with variation concentration of tween 80 and PEG 400. JFAPS 2021;2(1):34-42. doi: 10.18196/jfaps.v2i1.12180.
Wahyuningsih I, Putranti W. Optimation comparing tween 80 and polietilenglikol 400 in self nano emulsifying drug delivery system (SNEDDS) black cumin seeed oil. Pharmacy. 2015;12:223-41.
Indriani V, Tobing NEKP, Rijai L. Self-nano emulsifying drug delivery system (SNEDDS) formulation of Ramania seed extract (Bouea macrophylla griff.) with oleic acid as the carrier oil. Proceedings of the Mulawarman Pharm Conf. 2018;8:276-84.
Ammar HO, El-Fek GS, Abdelhaleem Ali AM, Dawood RAG. Enhancement of oral bioavailability of repaglinide by self-nanoemulsifying drug delivery system. Int J Pharm Pharm Sci. 2014;6:603-6.
Madhavi K, Shikha A, Yadav JK. Self nano emulsifying drug delivery system of ramipril: formulation and in vitro evaluation. Int J Pharm Pharm Sci. 2016;8:291-6.
Mannuela N, Taurina W, Sari R. Preparation and evaluation of azithromycin-chitosan nanoparticles and antibacterial activity test against bacteria. J Students Farm Fak Kedokt UNTAN. 2016;3:1-11.
Saputra A, Fitriani EW. Effect of differences in concentrations of surfactants and cosurfactants 45:5. Physical Stability of Atenolol Self-Nanoemulsifying Drug Delivery Systems (SNEDDS) with Olive Oil Phase. Calyptra:9. 2020;40(10):15.
Syukri Y, Kholidah Z, Lutfi C. Formulation and stability study of self-nano emulsifying propolis using musk oil, cremophor RH 40 and PEG 400 as carriers. J Farm Clim Sci. 2019;6:265-73.
Published
How to Cite
Issue
Section
Copyright (c) 2023 ZULFIAYU SAPIUN, ARLAN K. IMRAN, SISILIA TERESIA ROSMALA DEWI, DHEA FADILA MASITA PADE, WIDYAWATI IBRAHIM, ROBERT TUNGADI, WIDY SUSANTI ABDULKADIR, YOS BANNE, YUSNITA RIFAI, SARTINI SARTINI, ANDI DIAN PERMANA, YUSNITA RIFAI, YSRAFIL YSRAFIL, NANGSIH SULASTRI SLAMET
This work is licensed under a Creative Commons Attribution 4.0 International License.
