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"Kayu bangkal (Nauclea subdita) (Korth.) Steud. secara tradisional digunakan sebagai masker wajah, yang dapat melindungi kulit dari pengaruh buruk sinar matahari. Penelitian sebelumnya menyatakan bahwa, ekstrak kayu bangkal memiliki aktivitas antioksidan yang sangat kuat. Penelitian ini bertujuan untuk mengetahui aktivitas antioksidan 1,1-difenil-2-pikrilhidrazil (DPPH), Ferric Reducing Antioxidant Power (FRAP), 2,2′-azinobis-(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS), aktivitas anti-elastase, total polifenol dan flavonoid, ekstrak dan fraksi teraktif kayu bangkal, standardisasi, kandungan, kadar fraksi teraktif kayu bangkal. Rendemen metode ekstraksi UAE (Ultrasound Assisted Extraction) kayu bangkal menghasilkan rendemen tertinggi, dengan nilai 7,12% lebih tinggi dibandingkan metode MAE(Microwave Assisted Extraction) dan Soxhlet. Ekstrak teraktif (UAE) memiliki kandungan fenol sebesar 101.40±2.44 mg EAG/g ekstrak, dan flavonoid sebesar 12.86±0.08 mg EK/g ekstrak. Ekstrak teraktif (metode UAE) memiliki aktivitas antioksidan yang sangat kuat (DPPH, FRAP dan ABTS) sebesar 19,75±0,06 μg/mL; 44.11±1.37 μg/mL; dan 15,14±0,03 μg/mL. Fraksi teraktif (fraksi air) kayu bangkal memiliki aktivitas antioksidan (DPPH, FRAP dan ABTS) yang sangat kuat sebesar 15,24±0,02 μg/mL; 58.53±0.23 μg/mL; 22.34±0.02 μg/mL. Ekstrak teraktif kayu bangkal memiliki aktivitas penghambatan elastase sebesar 361,22±16,20 μg/mL. Fraksi teraktif memiliki aktivitas penghambatan elastase sebesar 706,611±22.25 μg/mL. Hasil penelitian ini menunjukkan bahwa ekstrak dan fraksi teraktif kayu bangkal memiliki aktivitas antioksidan yang sangat kuat, berpotensi sebagai anti-elastase. Fraksi teraktif kayu bangkal telah distandarisasi berdasarkan parameter spesifik dan non spesifik serta memiliki kandungan kuersetin dengan kadar 0,215±0,118 μg/mL.

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Bangkal wood (Nauclea subdita) (Korth.) Steud. is traditionally used as a face mask, which can protect the skin from the adverse effects of sunlight. Previous research stated that bangkal wood extract had potent antioxidant activity. This study was conducted to determine the antioxidant activity of 1,1-diphenyl-2-picrylhydrazyl (DPPH), Ferric Reducing Antioxidant Power (FRAP), 2,2′-azinobis-(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS), anti-elastase activity, total polyphenols and flavonoids content, of the most active extract and fraction of bangkal wood, standardization, content, levels of the most active fraction of bangkal wood. The Ultrasound-Assisted Extraction (UAE) method of bangkal wood produced the highest yield, with a value of 7.12% higher than the Microwave Assisted Extraction (MAE) and Soxhlet methods. The most active extract (UAE) had a phenol content of 101.40±2.44 mg EAG/g extract, and flavonoids of 12.86±0.08 mg EK/g extract. The most active extract (UAE method) had potent antioxidant activities of 19.75±0.06 μg/mL; 44.11±1.37 μg/mL; and 15.14±0.03 μg/mL. The most active fraction (water fraction) of bangkal wood had potent antioxidant activity of 15.24±0.02 μg/mL; 58.53±0.23 μg/mL; 22.34±0.02 μg/mL. The most active extract of bangkal wood had elastase inhibitory activity of 361.22±16.20 μg/mL. The most active fraction had an elastase inhibitory activity of 706.611±22.25 μg/mL.The results of this study indicated that the extract and the most active fraction of bangkal wood had potent antioxidant activity, and potential as anti-elastase. The most active fraction of bangkal wood had been standardized based on specific and non-specific parameters and had quercetin content with a level of 0.215±0.118 μg/mL."

"ABSTRAKTanaman yang mengandung antioksidan dapat dikembangkan menjadi sediaan kosmetik krim anti-kerut karena kemampuannya sebagai anti-kolagenase dan anti-elastase. Rumput laut coklat Sargassum sp. diketahui mengandung antioksidan polifenol seperti senyawa floroglusinol. Penelitian terhadap Sargassum sp. perlu dilakukan karena pemanfataan rumput laut belum maksimal. Penelitian ini bertujuan untuk mendapatkan krim Sargassum sp yang stabil dan memiliki aktivitas anti-kolagenase serta anti-elastase. Sediaan krim Sargassum plagyophyllum diuji total fenolik dengan metode Folin- ciocalteu dan diuji aktivitas anti-kolagenase dan elastasenya. Hasil menunjukkan krim Sargassum plagyophyllum memiliki total fenolik yaitu 5,597 0,74 mg PGE/g ekstrak kering, dan memiliki nilai IC50 anti-kolagenase krim sebesar 20,83 ?g/mL sedangkan nilai IC50 anti-elastase sebesar 183,73 ?g/mL. Kesimpulannya bahwa sediaan krim Sargassum plagyophyllum stabil dan memiliki aktivitas anti-kolagenase serta anti-elastase.

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ABSTRACTAnti wrinkle cosmetic preparations which function as anti collagenase and anti elastase is caused by the ability of antioxidants inside the plants. Brown seaweed Sargassum sp. is known to contain polyphenol antioxidants such as phloroglucinol compounds. The number of seaweed production is high but its utilization has not been maximized. This study to obtain cream containing Sargassum sp. extract which is stable and have anti collagenase and anti elastase activity.The total phenolic content of Sargassum plagyophyllum cream was tested with Folin ciocalteu method and then tested for its anti collagenase and elastase activity. The result show that the Sargassum plagyophyllum cream formulation has total phenol content of 5.597 0.74 mg PGE g of dried extract, IC50 value of cream as anti collagenase was 20.83 g mL and as an anti elastase value of 183.73 g mL. In conclusion, Sargassum plagyophyllum can be developed as a stable cream and has anti collagenase and anti elastase activity. "

"Riset pencarian senyawa bioaktif yang memiliki aktivitas penghambatan terhadap enzim elastase dan antioksidan dalam menunda proses penuaan pada kulit terus diupayakan agar dapat dikembangkan menjadi kandidat agen anti-aging yang potensial. Tanaman mabolo (Diospyros blancoi A. DC.) merupakan tanaman asli Indonesia yang belum banyak dieksplorasi pemanfaatannya baik secara tradisional maupun ilmiah sebagai anti-aging. Penelitian ini bertujuan untuk mengidentifikasi senyawa bioaktif dari ekstrak metanol daun (EDM) atau ekstrak metanol kulit batang (EKM) tanaman mabolo yang memiliki aktivitas anti-elastase dan antioksidan teraktif. Ekstraksi daun dan kulit batang dengan pelarut metanol mengggunakan ultrasound assisted-extraction (UAE). Aktivitas anti-elastase dan antioksidan dari tiap ekstrak, fraksi, subfraksi, dan isolat dievaluasi. Hasil penelitian menunjukkan bahwa EKM memiliki aktivitas anti-elastase dan antioksidan lebih kuat dibanding EDM meskipun keduanya memiliki aktivitas yang sangat kuat dibawah 50 µg/mL. EKM sebagai ekstrak teraktif dilanjutkan fraksinasi padat-cair dan menghasilkan fraksi etil asetat kulit batang mabolo (FEKM) yang memiliki aktivitas anti-elastase dan antioksidan paling kuat dibandingkan dengan fraksi metanol kulit batang mabolo (FMKM) maupun fraksi heksan kulit batang mabolo (FHKM). FEKM sebagai fraksi teraktif difraksinasi lebih lanjut dengan kromatografi kolom menghasilkan 16 subfraksi etil asetat kulit batang mabolo (SEKM A-SEKM P). Hasil identifikasi isolat melalui FTIR dan NMR dibandingkan terhadap literatur. Isolat DB1 yang diperoleh dari isolasi SEKM N diduga asam galat, sedangkan isolat DB2 yang diperoleh dari isolasi SEKM L dan SEKM N diduga asam betulinat. Aktivitas anti-elastase isolat DB2 [IC50 = 8,62 µg/mL (18,88 µM)] lebih kuat dibanding DB1 (IC₅₀ = 93,35 µg/mL (548,70 µM)]. Akan tetapi, aktivitas antioksidan isolat DB1 lebih kuat dibanding isolat DB2. Sementara itu, aktvitas antielastase isolat DB2 menunjukkan jenis inhibisi unkompetitif secara in vitro. Hasil interaksi secara in silico diprediksi isolat DB2 menghambat bukan pada sisi aktif enzim elastase (1B0F) dengan energi bebas ikatan sebesar -5,85 kcal/mol.

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Studies on the discovery of bioactive compounds that have inhibitory activity against elastase enzymes and antioxidants in delaying the skin's aging process are still being explored so that potential anti-aging agents could be developed. The mabolo plant (Diospyros blancoi A. DC.) is a native Indonesian plant that has not been widely explored for its traditional and scientific uses as anti-aging. This study aimed to identify bioactive compounds from leaf methanol extract (EDM) or stem bark methanol extract (EKM) of the mabolo plant that have the most active anti-elastase and antioxidant activities. Extraction of leaves and stem bark with methanol solvent using ultrasound assisted-extraction (UAE). Both the anti-elastase and antioxidant activities of each extract, fraction, subfraction, and isolate were evaluated. The results showed that EKM had stronger anti-elastase and antioxidant activities than EDM although both had very strong activities below 50 µg/mL. EKM as the most active extract was followed by solid-liquid fractionation and resulted in ethyl acetate fraction of mabolo stem bark (FEKM) which had the strongest anti-elastase and antioxidant activities compared to methanol fraction of mabolo stem bark (FMKM) and hexane fraction of mabolo stem bark (FHKM). FEKM as the most active fraction was further fractionated by column chromatography to obtain 16 ethyl acetate subfractions of mabolo stem bark (SEKM A - SEKM P). The results of isolate identification by FTIR and NMR were compared to the literature. Isolate DB1 obtained from SEKM N isolation was considered gallic acid, while isolate DB2 obtained from SEKM L and SEKM N isolation was considered betulinic acid. The anti-elastase activity of isolate DB2 [IC50 = 8.62 µg/mL (18.88 µM)] was stronger than DB1 (IC50 = 93.35 µg/mL (548.70 µM)]. However, the antioxidant activity of isolate DB1 was stronger than isolate DB2. Meanwhile, the anti-elastase activity of isolate DB2 showed an uncompetitive type of inhibition in vitro. In silico interaction results predicted DB2 isolate inhibits not on the active side of the elastase enzyme (1B0F) with a binding free energy of -5.85 kcal/mol."

"Mikroalga Nannochloropsis sp. memiliki kandungan biomassa bervariasi, salah satunya protein. Hidrolisis protein menghasilkan peptida dan asam amino sehingga meningkatkan bioaktivitas dari protein. Penelitian ini bertujuan untuk mendapatkan protein hidrolisat dari mikroalga Nannochloropsis sp. serta mengetahui keamanan dan efektivitasnya sebagai produk kosmetik anti-aging. Protein hidrolisat mikroalga Nannochloropsis sp. (PHMN) diperoleh dari proses hidrolisis menggunakan enzim alkalase. PHMN dievaluasi perolehan rendemen, derajat hidrolisis, kandungan proksimat, asam amino serta aktivitas anti-elastasenya. PHMN diformulasikan menjadi sediaan emulgel, kemudian dievaluasi sifat fisikokimia dan stabilitasnya. Uji keamanan produk kosmetik PHMN dilakukan dan efektivitas produk kosmetik PHMN sebagai anti-aging dievaluasi dengan mengukur serat kolagen, elastisitas, dan kelembaban kulit relawan. Protein hidrolisat yang diperoleh memiliki nilai rendemen sebesar 25,77%±3,16% (b/b), derajat hidrolisis sebesar 36,73%, dan mengandung asam amino yang didominasi oleh asam glutamat, asam aspartat, dan leusin. Nilai konsentrasi penghambatan setengah maksimal (IC50) PHMN sebagai anti-elastase yaitu 244,43 mg/mL. Produk kosmetik PHMN menunjukkan stabilitas yang baik yaitu homogen dan kadar yang stabil setelah 24 minggu. Penggunaan produk kosmetik PHMN tidak menyebabkan iritasi dan meningkatkan serat kolagen, elastisitas, dan kelembaban kulit setelah 28 hari. Dari penelitian ini disimpulkan bahwa diperoleh protein hidrolisat dari mikroalga Nannochloropsis sp. serta produk kosmetik PHMN memiliki karakteristik yang baik, aman, dan efektif sebagai anti-aging

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Microalgae Nannochloropsis sp. contain various biomass composition including protein. Protein hydrolysis generate peptide and amino acids so that protein bioactivity improves. The purpose of study was to obtain protein hydrolysate from Nannochloropsis sp. microalgae, also assess its safety and efficacy as anti-aging cosmetic product. Nannochloropsis sp. protein hydrolysate (NPH) was obtained from microalgae through enzymatic hydrolysis using alcalase enzyme and characterized for yield, degree of hydrolysis (DH), proximate content, amino acids composition, and anti-elastase activity. NPH was formulated as emulgel, then evaluated for physical characteristics and stability. NPH cosmetic product was evaluated for safety and efficacy as anti-aging by measuring collagen fibers, elasticity, and moisture in volunteers. NPH was obtained with yield of 25.77±3.16% (w/w), DH value of 36.73%, and amino acids dominated by glutamic acid, aspartic acid, and leucin. Half-maximum inhibitory concentration (IC50) value as anti-elastase was 244.43 µg/mL. NPH cosmetic product showed good stability which homogenous and had stable protein content after 24 weeks storage. NPH cosmetic product usage did not cause skin irritation and increased collagen fiber, elasticity and moisture after 28 days. In conclusion, protein hydrolysate was obtained from Nannochloropsis sp. microalgae and NPH cosmetic product had good characteristic, safe, and effective as anti-aging."

"Daun senggani (Melastoma malabathricum L.) mengandung senyawa fenolik dan flavonoid yang diketahui dapat menghambat aktivitas elastase. Daun senggani merupakan bahan alam yang banyak mengandung polifenol dan memiliki banyak manfaat secara etnofarmakologi seperti penyembuhan luka potong dan luka tusuk, diare, disentri, sakit gigi dan secara ilmiah memiliki manfaat sebagai antimikroba, antiinflamasi, antioksidan dan lain sebagainya. Penelitian ini bertujuan untuk mengetahui potensi dari ekstrak daun senggani dalam menghambat aktivitas elastase yang diekstraksi secara bertingkat dengan bantuan alat Ultrasonic-Assisted Extraction (UAE) menggunakan tiga macam pelarut yakni n-heksana, etil asetat dan etanol 70%. Ekstrak yg didapatkan diuji penghambatannya terhadap aktivitas elastase dengan menggunakan microplate reader, kemudian dilakukan penetapan kadar flavonoid dan fenol total pada ekstrak teraktif. Hasil uji penghambatan aktivitas elastase menunjukkan bahwa ekstrak etanol 70% daun senggani merupakan ekstrak teraktif dengan nilai IC50 95,88 µg/mL. Kadar flavonoid dan fenol total pada ekstrak etanol 70% daun senggani berturut-turut adalah 7,33 mg QE/g ekstrak dan dan 80,67 mg GAE / g ekstrak.

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Sengganis leaves (Melastoma malabathricum L.) contains flavonoid and phenolic compounds that are known could inhibit elastase activity. Senggani leaves are natural ingredients that contain polyphenols and has many ethnopharmacologically benefits to treat such as cuts and wounds, diarrhoea, dysentery, tootache and scientific findings such as antimicrobials, anti-inflammatory, antioxidants and so forth. This study aims to test the inhibition of elastase activity using Ultrasonic-Assisted Extraction (UAE) with three different types of solvents; n-hexane, ethyl acetate and ethanol 70% extract of senggani leaves. Each extract was tested for its inhibition of elastase activity using microplate reader, then total flavonoid and phenolic content was determined at the most active extract. The result of inhibition test of elastase activity showed that ethanol 70% extract of senggani`s leaves was the most active extract with IC50 value 95.88 ¼g/mL. Total flavonoid and phenolic content in ethanol 70% extract were 7.33 mg QE/g extract and 80,67 mg GAE/g extract respectively."

"Daun senggani (Melastoma malabathricum L.) digunakan sebagai penyembuh luka secara empiris. Senyawa yang bertanggungjawab atas aktivitas farmakologi daun senggani adalah senyawa fenolik, flavonoid, dan glikosida. Senyawa fenolik dan flavonoid diketahui memiliki aktivitas anti-aging. Selain itu, senyawa flavonoid dan fenolik tidak stabil dan sulit terpenetrasi di kulit. Tujuan penelitian ini untuk mengetahui aktivitas anti-aging ekstrak daun senggani dan mendapatkan serum fitosom ekstrak daun senggani yang stabil dan memiliki penetrasi yang baik. Uji aktivitas anti-aging dilakukan secara in vitro terhadap dua enzim, yaitu elastase dan kolagenase. Tiga formula fitosom dibuat dengan metode hidrasi lapis tipis berdasarkan perbandingan massa ekstrak dan fosfolipid. Fitosom dikarakterisasi berdasarkan morfologi, ukuran partikel dan zeta potensial, profil spektrum FTIR, dan efisiensi penjerapan. Formula fitosom terpilih diformulasikan ke dalam sediaan serum, kemudian diuji stabilitas dan penetrasi secara in vitro dengan sel difusi Franz. Ekstrak daun senggani memiliki aktivitas anti-elastase (IC₅₀ 95,553 µg/mL) dan anti-kolagenase (62,933 µg/mL). Fitosom ekstrak daun senggani (F2, 1:1 b/b) memiliki bentuk sferis, Dv90 638,00±62,39 nm, PDI 0,503±0,05, zeta potensial (ZP) -38,3±1,6 mV, efisiensi penjerapan 92,22±0,31%. Spektrum IR membuktikan terjadinya kompleks antara ekstrak dan fosfolipid dalam fitosom. Serum fitosom tidak mengalami perubahan ukuran partikel, namun mengalami penurunan kadar kuersetin setelah 12 minggu penyimpanan pada suhu 25^oC. Fluks serum fitosom adalah 0,56±0,01 µg/cm²/jam, sedangkan fluks serum ekstrak adalah 1,28±0,02 µg/cm²/jam. Dapat disimpulkan bahwa ekstrak daun senggani berpotensi sebagai bahan kosmetik anti-aging, fitosom ekstrak daun senggani stabil pada suhu rendah, dan serum ekstrak terpenetrasi lebih baik dibandingkan dengan serum fitosom. Penelitian lebih lanjut dibutuhkan untuk lebih meningkatkan stabilitas dan penetrasi ekstrak daun senggani. 

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Senggani leaves (Melastoma malabathricum L.) was used traditionally to treat wound because of flavonoids and phenolic compound. Flavonoid and phenolic compounds were known to have anti-aging activity. However, flavonoids and phenolic compounds were poor in stability and skin permeation. The aim of this study was to evaluate the anti-aging activity of the extracts, then formulate and evaluate serum dosage form containing senggani leaves extract-loaded phytosomes. Anti-aging activity was evaluated by in vitro elastase inhibitor and collagenase inhibitor. The extract was formulated into three formulations of phytosomes with thin layer method. The phytosomes were characterized in terms of particle morphology, particle size, zeta potential, profile spectra of FTIR, and entrapment efficiency. The selected phytosome formula was formulated into serum dosage form and evaluated its stability and in vitro penetration study using Franz diffusion cell. The senggani leaves extract has anti-elastase and anti collagenase with IC₅₀ of  95.553 µg/mL and 62.933 µg/mL, respectively.

The selected phytosome formula (F2, 1:1 w/w) has a spherical shape, Dv90 of 638.00±62.39 nm, PDI 0.503±0.05, zeta potential of -38.3±1.6 mV, and entrapment efficiency of 92.22±0.31%. Molecular interaction between extract and phospholipid was confirmed from FTIR spectrum. Serum phytosome was physically stable, but chemically unstable after 12 weeks storage in 25^oC. According to the in vitro penetration study, the diffusion flux of quercetin as marker from phytosome and extract serum was 0.7945 µg/cm²/h and 1.835 µg/cm²/h, respectively. In conclusion, the extract could be a potential anti-aging, the phytosomes were stable in low temperature, and the skin penetration of the extract serum was much better than the phytosomes serum. Further study was required to improve stability and penetration of the extract. "

"Jeruk limau adalah salah satu sumber minyak atsiri yang dapat dijumpai secara mudah di Indonesia, tetapi belum banyak penelitian yang menguji manfaatnya. Penelitian ini bertujuan untuk menguji potensi minyak atsiri kulit jeruk limau dalam menghambat aktivitas enzim tirosinase dan elastase, serta melakukan karakterisasi menggunakan pengukuran massa jenis, indeks refraksi, putaran optik, dan analisis GC-MS. Metode ekstraksi minyak atsiri dilakukan menggunakan distilasi air, kemudian pengujian antitirosinase dan antielastase dilakukan dengan mengukur absorbansi minyak atsiri dalam menghambat enzim menggunakan microplate reader. Asam kojat sebagai pembanding uji antitirosinase memiliki IC50 sebesar 4,26 μg/mL, sedangkan minyak atsiri kulit jeruk limau memiliki IC50 sebesar 235,89 μg/mL. Pada pengujian antielastase, pembanding kuersetin menunjukkan IC50 6,12 µg/mL terhadap enzim elastase, sedangkan minyak atsiri kulit jeruk limau memiliki IC50 sebesar 40,66 μg/mL. Nilai massa jenis minyak atsiri kulit jeruk limau sebesar 0,8317 g/mL, indeks refraksi sebesar 1,467, dan perputaran optik sebesar [α] 25 = +35,10 (c=1, neat, λ=589 nm) yang memberikan informasi awal mengenai kebenaran minyak atsiri yang diteliti. Hasil analisis GC-MS menunjukkan adanya senyawa aktif dalam minyak atsiri, yaitu β-pinena, d-limonena, sitronelal, sitronelol, dan α-pinena. Oleh karena itu, penelitian ini menunjukkan kebenaran minyak atisiri kulit jeruk limau dan potensinya sebagai ihibitor tirosinase dan elastase.

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One such source of essential oil is Citrus amblycarpa, commonly known as kaffir lime, which is readily available in Indonesia, but there have been limited studies exploring its potential applications. This research aims to investigate the inhibitory potential of kaffir lime peel essential oil against tyrosinase and elastase enzymes, while also characterizing its physical and chemical properties through density, refractive index, optical rotation, and GC-MS analysis. The essential oil was extracted using water distillation, and its anti- tyrosinase and anti-elastase activities were evaluated by measuring its absorbance using a microplate reader. The positive control, kojic acid, exhibited an IC50 value of 4.26 μg/mL in the anti-tyrosinase assay, while the kaffir lime peel essential oil sample showed an IC50 value of 235.89 μg/mL. In the anti-elastase assay, the positive control, quercetin, displayed an IC50 value of 6.12 µg/mL, while the kaffir lime peel essential oil sample demonstrated an IC50 value of 40.66 μg/mL. The measured density of kaffir lime peel essential oil was 0.8317 g/mL, with a refractive index of 1.467 and an optical rotation of [α]D25 = +35.10 (c = 1, neat, λ = 589 nm). GC-MS analysis identified several active compounds in the essential oil, including β-pinene, d-limonene, citronellal, citronellol, and α-pinene."