MODIFYING FRACTION EXTRACTED FROM SESEWANUA (CLERODENDRUM FRAGRANS WILD) LEAVES IN SNEDDS PREPARATIONS: CHARACTERIZATION AND BIOAVAILABILITY TEST
DOI:
https://doi.org/10.22159/ijap.2024v16i2.49372Keywords:
Particle size analysis, AUC, Nanoparticle, Crane and wilsonAbstract
Objective: This study aimed to determine the effect of compound modification using acyl chloride derivatives on n-hexane: ethyl acetate fraction of sesewanua leaves, focusing on the characteristics and pharmacokinetics profile in Self-Nano-emulsifying Drug Delivery System (SNEDDS) preparations.
Methods: A quasi-experimental method was used with six SNEDDS formulas, namely F0 (without active substance), F1 (acetyl chloride fraction), F2 (propanoyl chloride fraction), F3 (butyryl chloride fraction), and F4 (pentanoyl chloride fraction) and F5 (piperine compound). The fractions were subjected to characterization tests, including particle size, polydispersity index, and zeta potential as well as determination of pharmacokinetics profile using the modified crane and Wilson method.
Results: The results showed that the characterization tests of particle size using Particle Size Analyzer (PSA) for F0-F5 on gastric fluid included 15.8, 17,367, 20,367, 15.8, 28.233, and 21.533 nm. The polydispersity index values were 0.211, 0.438, 0.311, 0.383, 0.394, and 0.397, while the Zeta Potential values were-22,267,-22.2,-23.5,-24,033,-22,967, and-21.6 mV, respectively. The pharmacokinetics profile of AUC0-∞ was as follows: F0 0 μg, F1 492.83, F2 492.83, F3 245.98, F4 492.94, and F5 843.38 μg. Fraction five (F5) as a control had a higher AUC0-∞ value than compared to the fractions modified with acyl chloride derivatives. The T1/2 elimination values were F0 0 h, F1 22.5 h, F2 10.811 h, F3 35.54 h, F4 231.01 h, and F5 15.469 h.
Conclusion: Based on the results, the addition of acetyl, propanoyl, butyryl, and penthanoyl chloride affected Particle Size Characterization Analysis and pharmacokinetics profile of SNEDDS preparation of n-hexane: ethyl acetate fraction. Structural modification showed the ability to alter the bioavailability of the active ingredient according to the desired therapeutic goal.
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Sapiun Z, Imran AK, Rosmala Dewi ST, Masita Pade DF, Ibrahim W, Tungadi R. Formulation and characterization of self-nano-emulsifying drug delivery system (SNEDDS) fraction of N-hexane: ethyl acetate from sesewanua leaf (Clerodendrum fragrans wild.). Int J App Pharm. 2023;15(2):72-7. doi: 10.22159/ijap.2023v15i2.46365.
Pangalo P, Sapiun Z, Imran AK, Muindar M, Sabaruddin S, Wicita PS. Optimization of dimethyl sulfoxide as an enhancer on ex vivo penetration of sesewanua (Clerodendrum fragrans wild) leaf extracts emulgel. Int J App Pharm. 2022;14(3):110-6. doi: 10.22159/ijap.2022v14i3.43938.
Reddy MR, Gubbiyappa KS. A comprehensive review on supersaturable self-nanoemulsifying drug delivery system. Asian J Pharm Clin Res. 2021;14(8):40-4. doi: 10.22159/ajpcr.2021.v14i8.41987.
Pratiwi L, Fudholi A, Martien R, Pramono S. Physical and chemical stability test of SNEDDS (self-nanoemulsifying drug delivery system) and nanoemulsion ethyl acetate fraction of Garcinia mangostana L. Trad. Trad Med J. 2018;23(2):84-90. doi: 10.22146/mot.28533.
Khalid N, Sarfraz M, Arafat M, Akhtar M, Lobenberg R, Ur Rehman N. Nano-sized droplets of self-emulsifying system for enhancing oral bioavailability of chemotherapeutic agent VP-16 in rats: a nano lipid carrier for BCS class IV drugs. J Pharm Pharm Sci. 2018;21(1):398-408. doi: 10.18433/jpps30097, PMID 30365396.
Beandrade MU. Formulation and characterization of SNEDDS extract of black cumin (Nigella sativa) with shark oil phase (Centrophorus sp) and immunostimulant activity test. J Pharm Sci Clin Res. 2018;1(5):234-44. doi: 10.20961/jpscr.v3i1.15506.
Melidya L. Test of effectiveness of oral SNEDDS preparation fraction n-hexan: ethyl acetate of sesewanua leaves (Clerodendrum fragrans Wild) against rheumatoid arthritis index in male white rats (Rattus norvegicus). Gorontalo: Health Polytechnic of the Ministry of Health Gorontalo; 2022.
Hamzah RA. Anti rheumatoid arthritis activity test of oral SNEDDS preparation of sesewanua leaves (Clerodendrum fragrans Wild.) in mice (Rattus norvegicus) induced CFA (Complete Freund Adjuvant). Gorontalo: Health Polytechnic of the Ministry of Health Gorontalo; 2022.
Kazi M, Shahba AA, Alrashoud S, Alwadei M, Sherif AY, Alanazi FK. Bioactive self-nanoemulsifying drug delivery systems (bio-SNEDDS) for combined oral delivery of curcumin and piperine. Molecules. 2020;25(7). doi: 10.3390/molecules25071703, PMID 32276393, PMCID PMC7181043.
Wang S, Alseekh S, Fernie AR, Luo J. The structure and function of major plant metabolite modifications. Mol Plant. 2019;12(7):899-919. doi: 10.1016/j.molp.2019.06.001, PMID 31200079.
Suryadi A, Siswodihardjo S, Widiandani T, Widyowati R. Structure modifications of pinostrobin from Temu Kunci (Boesenbergia pandurata ROXB. SCHLECHT) and their analgesic activity based on in silico studies. Res J Pharm Technol. 2021;14(4):2089-94. doi: 10.52711/0974-360X.2021.00370.
Pratama MRF, Poerwono H, Siswodihardjo S. Molecular docking of novel 5-O-benzoylpinostrobin derivatives as wild type and L858R/T790M/V948R mutant EGFR inhibitor. J Basic Clin Physiol Pharmacol. 2019;30(6):20190301. doi: 10.1515/jbcpp-2019-0301, PMID 31855568.
Novo Fernandez O, Oliveros D, Canela Garayoa R, Balcells Fluvia M, Mendez Arteaga JJ, Eras Joli J. Introducing lipophilicity to (Polyhydroxyalkyl)thiazolidine carboxylic acids via acylation. ACS Omega. 2022;7(13):11075-81. doi: 10.1021/acsomega.1c07078, PMID 35415335, PMCID PMC8991926.
Aleman RS, Moncada M, Aryana KJ. Leaky gut and the ingredients that help treat it: a review. Molecules. 2023;28(2). doi: 10.3390/molecules28020619, PMID 36677677, PMCID PMC9862683.
Ferdiansyah R, Ardiansyah SA, Rachmaniar R, Yuniar I. The effect of cocrystal formation using carboxylic acid conformer with solvent evaporation and solvent drop grinding methods on bioavailability of active substances. J Ilm Farm Bah. 2021;12(1):28-38. doi: 10.52434/jfb.v12i1.987.
Shukla M, Jaiswal S, Sharma A, Srivastava PK, Arya A, Dwivedi AK. A combination of complexation and self-nanoemulsifying drug delivery system for enhancing oral bioavailability and anticancer efficacy of curcumin. Drug Dev Ind Pharm. 2017;43(5):847-61. doi: 10.1080/03639045.2016.1239732, PMID 27648633.
Yuen KH, Peh KK, Billa N, Chan KL, Toh WT. Bioavailability and pharmacokinetics of acyclovir tablet preparation. Drug Dev Ind Pharm. 1998;24(2):193-6. doi: 10.3109/03639049809085607, PMID 15605452.
Mardhatillah MN, Nurahmi E, Erida G. Uji aktivitas bioherbisida ekstrak n-heksana babadotan (Ageratum conyzoides L.) Subfraksi C pada berbagai konsentrasi terhadap pertumbuhan gulma bayam duri (Amaranthus spinosus L.). J Ilm Mah Pert. 2022;7(4):94-100. doi: 10.17969/jimfp.v7i4.22248.
Widya I. Formulation and characterization of self-Nano emulsifying drug delivery system (SNEDDS) fraction toluene: ethyl acetate sesewanua leaves (Clerodendrum fragrans Wild.). gorontalo: Health Polytechnic of the Ministry of Health Gorontalo; 2022.
Ustun O, Berrin Ozcelik O, Baykal T. Bioactivities of ethanolic extract and its fractions of cistus laurifolius L. (Cistaceae) and salvia wiedemannii boiss. (Lamiaceae) species. Pharmacogn Mag. 2016;12Suppl 1:S82-5. doi: 10.4103/0973-1296.176125, PMID 27041865, PMCID PMC4792006.
Bekers O, Uijtendaal EV, Beijnen JH, Bult A, Underberg WJM. Cyclodextrins in the pharmaceutical field. Drug Dev Ind Pharm. 1991;17(11):1503-49. doi: 10.3109/03639049109026630.
Mehanna MM, Mneimneh AT. Formulation and applications of lipid-based nanovehicles: spotlight on self-emulsifying systems. Adv Pharm Bull. 2021;11(1):56-67. doi: 10.34172/apb.2021.006, PMID 33747852, PMCID PMC7961215.
Kim JS, Din Ud 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. International Journal of Pharmaceutics. 2021;592:120039. doi: 10.1016/j.ijpharm.2020.120039, PMID: 33152479.
Anindhita MA, Oktaviani N. formulasi self-nanoemulsifying drug delivery system (SNEDDS) ekstak daun pepaya (Carica papaya L.) dengan virgin coconut oil (VCO) sebagai minyak pembawa. Pen J Kes. 2016;6(2):103-11. doi: 10.31941/pmjk.v6i2.395.
Alothaid H, Aldughaim MS, Yusuf AO, Yezdani U, Alhazmi A, Habibullah MM. A comprehensive study of the basic formulation of supersaturated self-nanoemulsifying drug delivery systems (SNEDDS) of albendazolum. Drug Deliv. 2021;28(1):2119-26. doi: 10.1080/10717544.2021.1986601, PMID 34612775, PMCID PMC8510591.
Ponto T, Latter G, Luna G, Leite Silva VR, Wright A, Benson HAE. Novel self-nano-emulsifying drug delivery systems containing astaxanthin for topical skin delivery. Pharmaceutics. 2021;13(5). doi: 10.3390/pharmaceutics13050649, PMID 34063593, PMCID PMC8147608.
Tungadi R, Thomas NA, Van Gobel WG. Formulation, characterization, and evaluation of astaxanthin self nano-emulsifying drug delivery system (SNEDDS) liquid drops. Ind J Pharm Ed. 2021;1(3):168-78. doi: 10.37311/ijpe.v1i3.11400.
Akiyama Y, Matsumura N, Ono A, Hayashi S, Funaki S, Tamura N. Prediction of oral drug absorption in rats from in vitro data. Pharm Res. 2023;40(2):359-73. doi: 10.1007/s11095-022-03173-6, PMID 35169960.
Crane RK, Wilson TH. In vitro method for the study of the rate of intestinal absorption of sugars. J Appl Physiol. 1958;12(1):145-6. doi: 10.1152/jappl.1958.12.1.145, PMID 13502278.
Desnita R, Luliana S, Anggraini S. In vitro penetration of alpha arbutin niosome span 60 system in gel preparation. Pharmaciana. 2017;7(2):249-56. doi: 10.12928/ pharmaciana.v7i2.6799.
Hikmawanti NPE, Hanani E, Maharani S, Putri AIW. Piperine levels in java chili and black fruits extracts from regions with different altitude. J Jamu Ind. 2021;6(1):16-22. doi: 10.29244/jji.v6i1.176.
Dina CH. The effect of giving black tea (Camellia sinensis) steeped water on the pharmacokinetic profile of theophylline in male wistar rats. Yogyakarta: Universitas Islam Indonesia; 2012.
Farmakope Herbal MHRI. Indonesia. 2nd ed. Jakarta: Ministry of Health Republic of Indonesia; 2017.
Phumat P, Khongkhunthian S, Wanachantararak P, Okonogi S. Effects of piper betle fractionated extracts on inhibition of streptococcus mutans and Streptococcus intermedius. Drug Discov Ther. 2018;12(3):133-41. doi: 10.5582/ddt.2018.01021, PMID 29998994.
Putri NM. Effervescent granule formulation fraction n-hexan: ethyl acetate ethanol extract sesewanua leaves (Clerodendrum fragrans Wild.) as an antioxidant. Gorontalo: Health Polytechnic of the Ministry of Health Gorontalo; 2022.
Ayuningtyas ND, Pitarisa AP, Aryani SM, editors. Solubility screening of SNEDDS components of mahogany seed oil extract (Swietenia Mahagoni (Linn.)). Pros sem nas Kes; 2021.
Aisy ZHR, Puspita OE, Shalas AF. Optimization of nifedipine nanoemulsion formula using the self-nanoemulsifying drug delivery system (SNEDDS) method. Pharm J Ind. 2021;6(2):85-95. doi: 10.21776/ub.pji.2021.006.02.3.
Reka L, Godage CM, Wijayabandara J, Siriwardhene A. Evaluation of antifungal activity of languas galangal rhizome and development of a topical antifungal Cream. Medicines (Basel, Switzerland). 2023;10(6). doi: 10.3390/medicines10060034, PMID 37367729, PMCID PMC10302669.
Zubaydah W, Magistia L, Indalifiany A. Formulasi dan uji karakteristik self –nanoemulsifying drug delivery system (SNEDDS) ekstrak etanol sponge xestospongia sp. menggunakan tween 80 sebagai surfaktan. Majalah Farmasetika 2023;8(2):104-10. doi: 10.24198/mfarmasetika.v8i2.41779.
Nisa M, Khairuddin K, Rafiana NJJoP, Sciences M. Formulation and characterization of self nanoemulsion drug delivery system rice bran oil. Journal of Pharmaceutical and Medicinal Sciences. 2021;5(2). doi: 10.32814/jpms.v5i2.117.
Rathore C, Hemrajani C, Sharma AK, Gupta PK, Jha NK, Aljabali AAA. Self-nanoemulsifying drug delivery system (SNEDDS) mediated improved oral bioavailability of thymoquinone: optimization, characterization, pharmacokinetic, and hepatotoxicity studies. Drug Deliv Transl Res. 2023;13(1):292-307. doi: 10.1007/s13346-022-01193-8, PMID 35831776, PMCID PMC9726673.
Fitria A, Hanifah S, Chabib L, Uno AM, Munawwarah H, Atsil N. Design and characterization of propolis extract loaded self-nano emulsifying drug delivery system as immunostimulant. Saudi Pharm J. 2021;29(6):625-34. doi: 10.1016/j.jsps.2021.04.024, PMID 34194270, PMCID PMC8233540.
Miao Y, Zhao S, Zuo J, Sun J, Wang J. Reduced the food effect and enhanced the oral bioavailability of ivacaftor by self-nanoemulsifying drug delivery system (SNEDDS) using a new oil phase. Drug Des Devel Ther. 2022;16:1531-46. doi: 10.2147/DDDT.S356967, PMID 35637746, PMCID PMC9143795.
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.
Sahumena MH, Suryani S, Rahmadani N. The self-nanoemulsifying drug delivery system (SNEDDS) formulation of mefenamic acid uses VCO with a combination of tween and span surfactants. J Syifa Sci Clin Res. 2019;1(2):37-46. doi: 10.37311/jsscr.v1i2.2660.
Hastuti ED, Sukarno S. Formulasi sediaan self nanoemulsifying drug delivery system (SNEDDS) ekstrak etil asetat buah parijoto (Medinilla speciosa Blume) serta uji stabilitas fisik. Cendekia J Pharm 2020;4(2):131-7. doi: 10.31596/cjp.v4i2.106.
Sari YN, Zaini E, Ismed F. Peningkatan laju disolusi piperine dengan pembentukan multikomponen kristal menggunakan asam nikotinat. J Sains Farm Klin. 2019;6(2):180-5. doi: 10.25077/jsfk.6.2.180-185.2019.
Ballatore C, Huryn DM, Smith AB. Carboxylic acid (bio)isosteres in drug design. Chem Med Chem. 2013;8(3):385-95. doi: 10.1002/cmdc.201200585, PMID 23361977, PMCID PMC3640829.
Kemit N, Widarta IWR, Nocianitri KA. Effect of solvent type and maceration time on the content of flavonoid compounds and antioxidant activity of avocado leaf extract (Persea americana Mill.). J Ilm Tek Pangan. 2016;5(2):130-41. doi: 10.24843/itepa.2023.
Harahap Y, Putri GR, Suryadi H. Pharmacokinetic profile of 75 Mg clopidogrel in plasma of Indonesian healthy subjects by ultra-high-performance liquid chromatography-tandem mass spectrometry. Int J App Pharm. 2018;10(1). doi: 10.22159/ijap.2018.v10s1.73.
Priani SE. Study on the development of nanosuspension preparations for intravenous delivery of poorly water-soluble drugs. Maj Farm. 2022;7(2):83-98. doi: 10.24198/ mfarmasetika.v7i2.37343.
Pradana DA, Hayati F, Sukma D. Effect of honey pretreatment on the pharmacokinetics of rifampicin elimination in male wistar rats. J Ilm Farm. 2013;10(1):18-27. doi: 10.20885/jif.
Nugrahaningsih W, Afanin SI. Pharmacokinetics of fig leaf extract flavonoids in rat blood plasma. Life Sci. 2022;11(2):192-205. doi: 10.15294/lifesci.v11i2.64403.
Kusumorini N, Nugroho AK, Pramono S, Martien R. Development of new isolation and quantification method of piperine from white pepper seeds (Piper nigrum L) using a validated HPLC. Indonesian J Pharm. 2021;32(2):158-65. doi: 10.22146/ijp.866.
Mamuaja CF. Lipid A. Unsrat Press; 2017.
Jackson E, Shoemaker R, Larian N, Cassis L. Adipose tissue as a site of toxin accumulation. Compr Physiol. 2017;7(4):1085-135. doi: 10.1002/cphy.c160038. PMID 28915320, PMCID PMC6101675.
Bhalani DV, Nutan B, Kumar A, Singh Chandel AK. Bioavailability enhancement techniques for poorly aqueous soluble drugs and therapeutics. Biomedicines. 2022;10(9). doi: 10.3390/biomedicines10092055, PMID 36140156, PMCID PMC9495787.
Maganti L, Panebianco DL, Maes AL. Evaluation of methods for estimating time to steady state with examples from phase 1 studies. AAPS J. 2008;10(1):141-7. doi: 10.1208/s12248-008-9014-y, PMID 18446514, PMCID PMC2751459.
Nasution A. Extravascular POJMUPH. Farmakokinetika Klinis. 2015:1-2.
Quader MMA, Osman MA, El Maghraby GM. Intestinal absorption of eprosartan mesylate from the self-emulsifying system and cyclodextrin complex. Int J Pharm Pharm Sci. 2017;9(2):302-7. doi: 10.22159/ijpps.2017v9i2.16215.
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Copyright (c) 2024 ZULFIAYU SAPIUN, ARLAN K. IMRAN, AHMAD ASWAD, MOHAMAD USMAN NUR, YSRAFIL YSRAFIL, NUR’AINUN PANIGORO, NURRAHMATIA UTINA, IKSANDI ALIWU
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