Hasil Pencarian  ::  Simpan CSV :: Kembali

"Pemanfaatan herbal di Indonesia telah lama dilakukan baik untuk penyembuhan penyakit, salah satunya pegagan (Centella asiatica (L.) Urban) sebagai penyembuh luka dan mencegah terbentuknya keloid dengan zat aktif asiatikosid yang diaplikasikan secara topikal. Oleh karena asiatikosid memiliki berat molekul yang besar, kelarutan dalam air dan lipid yang buruk, sehingga susah untuk berpenetrasi melewati kulit, untuk itu dibuat dalam sistem pembawa liposom. Penelitian ini bertujuan untuk membuat liposom dengan menganalisis pengaruh penambahan konsentrasi fosfatidilkolin terhadap stabilitas liposom dan mengetahui daya penetrasinya. Metode yang digunakan dalam penelitian ini adalah metode hidrasi lapis tipis, analisis kuantitatif kadar penjerapan asiatikosid dengan Kromatografi Lapis Tipis (KLT) Densitometri dan uji penetrasi secara in vitro dengan sel difusi Franz. Ada empat formula yang digunakan sesuai dengan perbandingan fosfatidilkolin dan kolesterol, di mana konsentrasi kolesterol tetap, hanya fosfatidilkolin yang mengalami penambahan. Hasil menunjukkan adanya peningkatan efisiensi penjerapan terhadap zat aktif asiatikosid; memperkecil distribusi ukuran partikel melalui pengukuran Particle Size Analyzer (PSA), Transmission Electron Microscope (TEM); dan peningkatan jumlah kumulatif, fluks, serta persentase jumlah asiatikosid yang terpenetrasi berdasarkan uji penetrasi in vitro selama 8 jam.

---

The use of herbs in Indonesia has been carried out long time ago for healing the disease, one of which gotu kola (Centella asiatica (L.) Urban) as wound healing and prevent the formation of keloids with asiaticoside active substance applied topically. However, asiaticoside has a large molecular weight, poor solubility in water and lipid, so difficult to penetrate through the skin. Therefore, it needs such a carrier system called liposome, which is the major constituent of lipid components, namely phosphatidylcholine and cholesterol.

The aims of this study is to analyze the effect of addition on phosphatidylcholine concentration for the stability of liposomes and its penetration. This study is using a thin layer hidration method to make liposom, entrapment levels of asiaticoside analyzed quantitatively by Thin Layer Chromatography (TLC) densitometry and in vitro penetration test with Franz diffusion cell. There are four formulas were used in accordance with the ratio of phosphatidylcholine and cholesterol, where cholesterol concentration was constant.

The results showed there was increase in efficiency of entrapment the active substance and reduce the particle size distribution. The results also showed there was increase in the cumulative number penetration, flux, and the percentage amount of asiaticoside that penetrated based on Franz diffusion cell test for 8 hours."

"

Ekstrak herba pegagan (Centella asiatica L.) memiliki kandungan senyawa aktif berupa senyawa asiatikosida. Asiatikosida memiliki absorpsi dan penetrasi yang buruk karena sifatnya yang hidrofilik. Pada penelitian ini, ekstrak kental herba pegagan dimodifikasi ke dalam bentuk kompleks nanovesikel fitosom yang diformulasikan ke dalam sediaan krim untuk mengatasi permasalahan absorpsi dan penetrasi tersebut. Tujuan dari penelitian ini adalah memformulasikan sediaan krim fitosom dan krim ekstrak tanpa modifikasi, serta membandingkan penetrasi keduanya. Fitosom dibuat dengan konsentrasi fosfolipid dan ekstrak kental 1:1. Pembuatan fitosom dilakukan dengan metode hidrasi lapis tipis. Hasil pengujian efisiensi penjerapan terhadap fitosom sebesar 47,56 ± 1,68 %. Uji penetrasi metode sel difusi Franz dilakukan terhadap kedua jenis krim menggunakan membran abdomen tikus betina. Jumlah kumulatif asiatikosida terpenetrasi dari sediaan krim fitosom dan krim non fitosom berturut-turut sebesar 4,56 ± 0,32 µg/cm² dan 1,86 ± 0,24 µg/cm², dengan persentase berturut-turut sebesar 40,81 ± 2,83%, dan 16,66 ± 2,17%. Fluks dari sediaan krim fitosom dan krim non fitosom berturut-turut adalah sebesar 0,659 ± 0,035 µg.cm^-2.jam^-1 dan 0,465 ± 0,061 µg.cm^-2.jam^-1. Sediaan krim yang mengandung ekstrak herba pegagan dalam bentuk kompleks fitosom memiliki daya penetrasi yang lebih tinggi dibandingkan krim yang mengandung ekstrak herba pegagan konvensional. Keduanya menunjukkan stabilitas fisik yang baik melalui hasil pengamatan organoleptis, homogenitas, dan viskositas yang dilakukan selama dua bulan dalam berbagai variasi suhu.

---

Centella asiatica L. extract contains active content in form of asiaticoside. The absorption and penetration properties of that active ingredient are poor, due to its hydrophilic properties. In order to overcome those obstracles, in this research, a modification of Centella asiatica L. extract was made by formulating cream containing extract in the form of nanovesicle complex called phytosome. The aim of this research is to formulate two kinds of cream that contain phytosomal extract and normal extract without any modifications, then to compare both penetration profiles. The phytosome was made by mixing 1:1 phospholipid:extract with thin layer hydration method. Entrapment efficiency value of the phytosome suspension is 47,56 ± 1,68 %. Penetration test of both creams was run using Franz diffusion cell method. The cumulative amount of asiaticoside penetrated from phytosomal and non-phytosomal cream reaches 4,56 ± 0,32 µg/cm² and 1,86 ± 0,24 µg/cm², with the percentage of 40,81 ± 2,83%, and 16,66 ± 2,17%. Flux value from the phytosomal and non-phytosomal cream amounts 0,659 ± 0,035 µg.cm^-2.hr^-1 and 0,465 ± 0,061 µg.cm^-2.hr^-1. These results show that Centella asiatica L. extract in phytosomal cream gives better penetration profile compared to non-phytosomal cream. Both creams are showing good physical stability through organoleptic, homogenicity, and also viscosity observations done throughout two months at various temperatures and conditions.

"

"Pegagan (Centella asiatica L.) merupakan salah satu tanaman yang diketahui memiliki aktivitas antioksidan tinggi. Aktivitas antioksidan pada herba pegagan dihasilkan oleh asiatikosid. Asiatikosid merupakan senyawa yang bersifat hidrofil sehingga aplikasinya pada sediaan topikal relatif sulit. Pada penelitian ini, dilakukan formulasi dan uji stabilitas fisik sediaan gel liposom yang mengandung ekstrak herba pegagan. Ekstrak herba pegagan yang diguanakan dalam formulasi memiliki nilai IC 50 sebesar 31,14 ppm dengan pengukuran menggunakan metode peredaman DPPH. Liposom dibuat dengan metode hidrasi lapis tipis. Liposom yang dihasilkan memiliki bentuk sferis dengan pengamatan menggunakan Scanning Electron Microscope (SEM). Ukuran diameter vesikel liposom rata-rata (Z-average) sebesar 198,99 nm dan nilai D90 sebesar 562,49 nm. Efisiensi penjerapan liposom diperoleh sebesar 92,59%. Liposom dimasukkan ke dalam tiga formula sediaan gel masing-masing sebesar 2, 4, dan 6%. Aktivitas antioksidan sediaan gel liposom pada ketiga formula selama empat minggu penyimpanan mengalami penurunan sebesar 0,30, 0,58, dan 0,33 %. Sediaan gel liposom diuji kestabilan fisiknya dalam berbagai suhu penyimpanan dan cycling test. Hasil pengujian menunjukkan bahwa ketiga formula gel liposom stabil secara fisik selama masa penyimpanan.

---

Pegagan (Centella asiatica L.) is one of plant that has high antioxidant activity. Antioxidant activity of pegagan?s herbs are produced by asiaticoside. Asiaticoside is hidrofilic compound, therefore its application in topical dosage form is difficult. This study performed formulation and physical stability test of liposome gel dosage form which containing pegagan herbs extract. The IC50 value of pegagan herbs extract used in formula was 31,14 ppm which was measured by DPPH assay. Liposome was formulated with thin layer hydration method. Liposome product had spherical shape which was observed by Scanning Electron Microscope (SEM). The average of vesicle diameter size (Z-average) was 198,99 nm and the D90 value was 562,49 nm. The entrapped eficiency of liposome was 92,59%. Liposome was added into three formulas of gels with 2, 4, dan 6% concentration. The decrease of antioxidant activities of three formulas of gels were 0,30, 0,58, and 0,33% . The physical stability of liposome gel dosage forms were observed in a wide range of storage temperature and cycling test. The result show that three formulas of gels were physically stable in storage period."

"Pegagan (Centella asiatica L. Urban) mengandung asiatikosid yang dapat dimanfaatkan dalam penggunaan kosmetik anti-aging yang terbukti dapat meningkatkan sintesis kolagen. Asiatikosid memiliki berat molekul yang besar dan bersifat hidrofilik sehingga menyebabkan sulit berpenetrasi melalui kulit. Transfersom merupakan salah satu sistem pembawa yang cocok untuk meningkatkan penetrasi zat aktif. Penelitian ini bertujuan memformulasikan dan mengkarakterisasi transfersom ekstrak daun pegagan. Selanjutnya transfersom dengan formula terbaik diformulasikan ke dalam bentuk sediaan gel serta dibuat gel kontrol tanpa transfersom. Kedua sediaan tersebut dievaluasi dan diuji penetrasi secara in vitro menggunakan sel difusi Franz pada tikus betina galur Sprague Dawley. Pada penelitian ini telah dilakukan optimasi formula transfersom, yaitu F1, F2 dan F3 dengan konsentrasi asiatikosid berturut-turut adalah 0,3%; 0,5%; dan 0,7% Hasil menunjukan bahwa F1 adalah formula terbaik dengan morfologi yang sferis, efisiensi penjerapan 85,80 ± 0,22 %, Dmean volume 124,62 ± 0,86 nm, nilai indeks polidispersitas 0,125 ± 0,008, zeta potensial -36,3 ± 0,30 mV dan indeks deformabilitas 1,12 sehingga digunakan pada formulasi gel. Jumlah kumulatif asiatikosid yang terpenetrasi dari sediaan gel, yaitu 1050,85 ± 19,82 μg/cm2 untuk gel transfersom dan 540,21 ± 12,28 μg/cm2 untuk gel kontrol. Presentase jumlah asiatikosid terpenetrasi dari sediaan gel transfersom dan sediaan gel kontrol secara berturut-turut adalah 51,80 ± 0,97 % dan 26,63 ± 0,60%. Fluks dari sediaan gel transfersom dan gel kontrol berturut-turut 47,92 ± 1,74 μg/cm2/jam dan 26,57 ± 0,77 μg/cm2/jam. Berdasarkan hasil tersebut dapat disimpulkan bahwa sediaan gel transfersom memiliki daya penetrasi yang lebih baik dibandingkan dengan gel kontrol.

---

Asiaticoside from Gotu kola leaves extract (Centella asiatica L. Urban) could be used as an active substance for anti-aging cosmetics. It has proven to increase collagen synthesis. Asiaticoside is hydrophillic and has a high molecular weight, therefore it would be difficult to penetrate to the skin. Transfersome is a suitable carrier system that can enhance the penetration of active substances. This study aims to formulate and characterize transfersome Gotu kola leaves extract and formulated it into a gel, a control gel also prepared without transfersome. Both gels were evaluated and penetration tested using Franz diffusion cells with the skin of female Sprague Dawley rats. Transfersome was formulated with different concentration of active substance; equals of asiaticoside 0,3% (F1), 0,5% (F2), and 0,7% (F3). The F1 transfersome were incorporated into gel dosage form, since the F1 transfersome had spherical morphology, the highest entrapment efficiency 85.80 ± 0.22%, Dmean volume 124.62 ± 0.86 nm, polydispersity index 0.125 ± 0.008, zeta potensial -36,3 ± 0,30 mV and deformability index 1.12. The cumulative amount of asiaticoside that was penetrated is 1050.85 ± 19.82 μg/cm2 for transfersome gel and 540.21 ± 12.28 μg/cm2 for control gel. Cumulative percentage of penetrated asiaticoside for transfersome gel and control gel were 51.80 ± 0.97% and 26.63 ± 0.60%, respectively. The flux of transfersome gel containing asiaticoside and control gel are respectively 47.92 ± 1,74 μg/cm2/hours and 26.57 ± 0.77 μg/cm2/hours. Based on these results it can be concluded that asiaticoside contained in transfersome gel has a better penetration compared to the control gel."

"Asiatikosid merupakan salah satu senyawa triterpen utama dalam herba tanaman Pegagan. Senyawa ini memiliki banyak khasiat bagi kesehatan diantaranya mampu menyembuhkan luka, anti stretch marks, ulkus lambung, antikonvulsif, antimikroba, dan imunomodulator. Asiatikosid memiliki sifat hidrofil, oleh karena itu untuk meningkatkan penetrasinya asiatikosid diinkorporasikan dalam etosom. Etosom merupakan modifikasi liposom yang terdiri dari fosfolipid, etanol, dan air. Penelitian ini bertujuan untuk memformulasikan dan mengkarakterisasi etosom dengan berbagai konsentrasi ekstrak dan menguji daya penetrasi secara in vitro sediaan krim mengandung etosom ekstrak herba pegagan. Berdasarkan hasil karakterisasi, dipilih satu formula terbaik yakni F1 dengan konsentrasi ekstrak 0,6 yang memiliki bentuk sferis, efisiensi penjerapan 75,03 0,295 , ukuran partikel 94,71 2,807nm, PDI 0,338 0,046 dan zeta potensial -25,067 0,814. Setelah itu, F1 etosom diformulasikan ke dalam sediaan krim dengan basis TEA stearat. Sediaan krim mengandung etosom kemudian dievaluasi, uji stabilitas secara fisik, dan uji penetrasi secara in vitro menggunakan sel difusi franz dibandingkan dengan krim kontrol, yakni krim mengandung ekstrak herba pegagan tanpa dibuat etosom. Dari hasil uji penetrasi didapatkan jumlah kumulatif asiatikosid yang terpenetrasi dari sediaan krim etosom dan krim non etosom secara berturut-turut sebesar 3651,271 37,579 ?g/cm2 dan 2873,016 36,850 ?g/cm2. Selain itu, nilai fluks kecepatan penetrasi asiatikosid dari sediaan krim etosom lebih besar daripada krim non etosom. Berdasarkan hasil pengujian tersebut dapat disimpulkan bahwa etosom dapat meningkatkan penetrasi asiatikosid melalui kulit.

---

Asiaticoside is one of the most important triterpene compound Pegagan herb. This substance has many therapeutic effects for human health such as in treatment of wound healing, anti stretch marks, gastrointestinal ulcer, anticonvulsive, antimicrobial effect and immunomodulatory effect. Asiaticoside had hydrophilic properties, therefore to increase its penetration, asiaticoside was incorporated in carrier sytems called ethosome. Ethosome is a modification of liposome that consists of phospholipid, ethanol up to 50 and water. The objectives of this study were to formulate and to characterize ethosome containing various concentration of Centella asiatica herb extract and to evaluate in vitro penetration ability of cream containing ethosome Centella asiatica herb extract. The result of characterization showed the first formula F1 with concentration of extract 0,6 as the best ethosome formula. F1 had properties such as spherical morphology, entrapment efficiency 75,03 0,295 , particle size 94,71 2,807nm, polydispersity index 0,338 0,046 and zeta potential 25,067 0,814. After that, F1 ethosome was formulated into cream with TEA stearic basis. Creams containing ethosome were evaluated, conducted physical stability test and in vitro penetration study using franz diffusion cell compared to control cream, which is cream containing non ethosome extracts. Based on the result of penetration study, ethosome cream and non ethosome cream had cumulative amount of asiaticoside penetrated sebesar 3651,271 37,579 g cm2 and 2873,016 36,850 g cm2. Furthermore, flux penetration rate asiaticoside of ethosome cream greater than non ethosome cream. So, it can be concluded that ethosome can increase asiaticoside penetration across the skin."

"Nanoparticles is one type of drug delivery system which intended to improve the bioavailability of drugs. Nanoparticles can be prepared by several methods and the ionic gelation method is the easiest one. Verapamilhydrochloride is adrugwhich used asantiarrhythmic,antiangina, and antihypertension therapy. Nevertheless, bioavailability of orally administered verapamil is very low, only about 10 to 23%. Therefore, verapamil hydrochloride was prepared as nanoparticlesdosage form to increase its bioavailability. The purpose of the present study was to optimize ionic gelation method of chitosan and sodium tripolyphosphate to obtain thebest nanoparticles formulation. Nanoparticles were obtained from four different methods. Formula A, B and C were produced by drop the sodium tripolyphosphate solution into chitosan solution at 0.75 mL/minute, while formula D were prepared by pour sodium tripolyphosphate solution into chitosan solution. Formula A and B were then strired at 400 rpm, while formula C and D at 3000 rpm. Three grams of verapamil hydrochloride was added into formula A, while formula B, C, and D were produced by adding 5 grams of verapamil hydrocloride. Particle size distribution, zeta potential, entrapment efficiency, morphology, and fourier transform infra red spectrum of each nanoparticles formula were characterized. The chosen formula was formula D which has 62.8 nm of size, 59.15% of entrapment efficiency, +25.46 mV of zeta potential, spherical shape, and the ionic interaction was confirmed by FT-IR spectrum. The results showed that chitosan-tripolyphosphate succesfully produce the verapamil hydrochloride nanoparticles by ionic gelation method."

"ABSTRAKTeh hijau dikenal sebagai sumber antioksidan. (-)-epigalokatekingalat (EGCG)merupakan antioksidan terbanyak yang terkandung dalam teh hijau yang telahterbukti memodulasi jalur biokimia kulit. Niosom merupakan sistem pembawaalternatif pengganti liposom yang memiliki kekurangan dari segi biaya danstabilitas. Formulasi niosom dilakukan untuk menstabilkan zat aktif yang tidakstabil. Formulasi niosom yang dibuat terdiri dari empat formulasi denganperbandingan molar surfaktan-kolesterol berbeda-beda, yaitu 3:1, 2:1, 1:1, dan0,5:1. Formulasi niosom dilakukan menggunakan metode hidrasi lapis tipis.Suspensi niosom yang dihasilkan kemudian dilakukan sejumlah karakterisasimeliputi ukuran dan distribusi partikel, lamelaritas, efisiensi enkapsulasi, danpotensial zeta. Niosom yang telah diuji kemudian dibuat sediaan gel menggunakanHPMC sebagai gelling agent. Gel niosom yang dihasilkan kemudian dilakukansejumlah evaluasi meliputi uji organoleptis, uji pH, uji viskositas, uji stabilitas, danuji aktivitas antioksidan dengan DPPH. Karakterisasi niosom menunjukkanperbandingan molar surfaktan-kolesterol 3:1 memiliki efisiensi enkapsulasi yangterbaik namun mengalami pemisahan setelah 7 hari. Evaluasi sediaan gel niosommenggunakan formula F3 menunjukkan gel stabil, tidak menunjukkan perubahan fisik

---

ABSTRACTGreen tea has been known as a source of antioxidant. (-)-epigallocatechin gallate(EGCG), which is the most abundant antioxidant contained in green tea, has beenshown to modulate biochemical pathways of skin. Niosom is an alternative toliposome drug vehicle systems which has disadvantages including cost andstability. Niosome was prepared for enhance stability of drug. Niosomalformulations were prepared in four different molar ratios of surfactant-cholesterol,i.e. 3:1 (F1), 2:1 (F2), 1:1 (F3), and 0.5:1 (F4). Niosomal formulations wereprepared using thin layer method. Niosomal suspensions were evaluated includingparticle size and distribution, lamellarity, encapsulation efficiency, and zetapotential. Niosomal suspension, which had been evaluated, then incorporated intogel using HPMC as gelling agent. Niosomal gel was evaluated includingorganoleptic, pH, viscosity, stability, and antioxidant activity using DPPH.Evaluation of niosomal suspensions showed that F1 has best encapsulationefficiency but experienced separation after 7 days. Evaluation of niosomal gel(using F3) showed stable formulation without changes"

"Pegagan (Centella asiatica L.) merupakan tanaman obat yang tidak asing lagi bagi masyarakat Indonesia. Pegagan mengandung asiatikosid yang berkhasiat terhadap gangguan kulit seperti selulit, bekas luka, bahkan dapat mengobati luka terbuka. Tujuan penelitian ini adalah mengamati pengaruh penambahan propilenglikol terhadap penetrasi in vitro menggunakan sel difusi Franz. Pada penelitian ini dibuat gel yang mengandung ekstrak etanol pegagan sebanyak tiga formula. Dua formula dengan penambahan propilenglikol 5% (formula 1) dan 10% (formula 2), sedangkan formula 3 sebagai kontrol tidak mengandung propilenglikol. Evaluasi fisik dilakukan terhadap ketiga formula gel yang meliputi uji organoleptis, sineresis, viskositas, konsistensi, dan stabilitas fisik, selain itu dilakukan penentuan kadar zat aktif, dan uji penetrasi secara in vitro menggunakan sel difusi Franz. Hasil penelitian ini menunjukkan ketiga gel bersifat homogen, berwarna coklat dan tidak terjadi sineresis dan. Kadar zat aktif dalam ketiga formula gel yang diukur dengan metode kromatografi lapis tipis menunjukkan 88,06 - 89,92%. Secara keseluruhan ketiga formula gel memenuhi persyaratan secara fisik, akan tetapi untuk penetrasi secara in vitro tidak dapat dideteksi, karena asiatikosid tidak larut di dalam buffer fosfat pH 7,4 dan pH 5,6. Dapat disimpulkan secara fisik gel yang dihasilkan memenuhi persyaratan akan tetapi sukar berpenetrasi pada kulit.

---

Pegagan (Centella asiatica L.) is a medicinal plant which familiar to Indonesian people. Pegagan contains asiaticoside which efficacious against skin disorders such as cellulite, scars, and even to treat open wounds. The purpose of this study was to observe the effect of propylene glycol addition against in vitro penetration using Franz diffusion cells. In this research, ​​gel containing ethanolic extract of Pegagan was made into three formulas. Two formula contained propyilene glycol, 5% (formula 1) and 10% (formula 2), while the third as a control formula which was not containing propylene glycol.

Physical evaluation performed on all gel formula that included organoleptic test, syneresis, viscosity, consistency, and physical stability, besides that also performed determination of the levels of the active substance and in vitro penetration test using Franz diffusion cells.

The results of this study suggest that all gel formula is homogeneous, brown, and no syneresis. Levels of the active substance in the three gel formula that measured by thin layer chromatography method showed 88.06 to 89.92%. Overall, gel formula meets the physical requirements, but for the in vitro penetration can not be detected, because asiaticoside was insoluble in phosphate buffer pH 7.4 and pH 5.6. It could be concluded that all gel physically qualified but difficult to penetrating the skin."