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"Infeksi virus dengue (DENV) masih menjadi masalah kesehatan global di dunia termasuk Indonesia. Menurut data CDC, diseluruh dunia terdapat sekitar 400 juta kasus DENV dengan 40.000 jiwa setiap tahunnya. Keparahan infeksi DENV berkaitan dengan jumlah viral load yang tinggi dan badai sitokin yang disebabkan oleh inflamasi berlebih. Sampai saat ini tidak ada antivirus spesifik digunakan untuk DENV, sementara itu penggunaan obat anti inflamasi untuk DENV terbatas hanya untuk pasien dengan gejala klinis berat. Favipiravir dan Kina Sulfat telah dilaporkan sebagai drug repurposing yang dapat menghambat replikasi DENV, namun apakah kedua obat ini memiliki aktivitas anti-inflamasi yang disebabkan oleh infeksi DENV belum dikaji lebih lanjut. Aktivitas antivirus favipiravir dan kina sulfat dianalisis melalui nilai IC50 dan CC50 terhadap DENV serotipe-1 (DENV-1) pada sel Vero. Ekspresi relatif sitokin TNF-a, IL-6, IL-10 dan faktor transkripsi NFkB dianalisis dari PBMC donor sehat yang diinfeksikan DENV-1 dengan pemberian Favipiravir atau Kina Sulfat. Hasil penelitian menunjukkan IC50 dan CC50 untuk Favipiravir sebesar 2,72 ug/mL dan 156,78 ug/mL dengan nilai SI 58, sementara IC50 dan CC50 Kina Sulfat sebesar 14,97 ug/mL dan 85,2 ug/mL dengan nilai SI 5,69. Favipiravir dan Kina Sulfat mampu menurunkan ekspresi IL-6 dan IL-10, namun menginduksi ekspresi TNF-a dan faktor transkripsi NFkB pada dua skema uji infeksi DENV-1 dengan atau tanpa antibodi. Dari penelitian ini dapat disimpulkan bahwa Favipirafir memiliki aktivitas antivirus dengue yang lebih baik dibandingkan Kina Sulfat sementara peranan Favipiravir dan Kina Sulfat sebagai anti-inflamasi infeksi DENV masih memerlukan studi lebih lanjut.

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Dengue virus (DENV) infection is still a global health problem in the world, including Indonesia. According to CDC data, worldwide there are around 400 million DENV cases with 40,000 deaths each year. The severity of DENV infection is related to the high viral load and cytokine storm caused by excessive inflammation. Until now there is no specific antiviral used for DENV, meanwhile the use of anti-inflammatory drugs for DENV is limited to patients with severe clinical symptoms. Favipiravir and Quinine Sulfate have been reported as repurposing drugs that can inhibit DENV replication, but whether these two drugs have anti-inflammatory activity caused by DENV infection has not been studied further. The antiviral activity of Favipiravir and Quinine Sulfate was analyzed through IC50 and CC50 values against DENV serotype-1 (DENV-1) on Vero cells. The relative expression of cytokines TNF-a, IL-6, IL-10 and the transcription factor NFkB was analyzed from PBMCs of healthy donors infected with DENV-1 with the addition of Favipiravir or Quinine Sulfate. The results showed that the IC50 and CC50 for Favipiravir were 2,72 ug/mL and 156,78 ug/mL with an SI value of 58, while the IC50 and CC50 of Quinine Sulfate were 14,97 ug/mL and 85,2 ug/mL with an SI value 5,69. Favipiravir and Quinine Sulfate were able to reduce the expression of IL-6 and IL-10, but induced the expression of TNF-a and the transcription factor NFkB in two DENV-1 infection test schemes with or without ADE. From this study it can be concluded that Favipiravir has better dengue antiviral activity than Quinine Sulfate, while the role of Favipiravir and Quinine Sulfate as an anti-inflammatory for DENV infections still requires further study. From this study, it can be concluded that Favipiravir has better dengue antiviral activity than Quinine Sulfate while the role of Favipiravir and Quinine Sulfate as anti-inflammatory of DENV infection still requires further study."

"Asam salisilat memiliki aktivitas anti-inflamasi dan antioksidan, namun dapat menimbulkan efek samping pada saluran cerna. Modifikasi gugus karboksilat senyawa tersebut menjadi turunan amida dapat menjadi solusi untuk mengatasi kekurangannya. Pada penelitian ini dilakukan sintesis senyawa analog salisilamida, 2‐hidroksi‐N‐(piridin‐2‐il)benzamida (1) dan turunan basa Mannich-nya (2a-f). Berdasarkan hasil uji aktivitas anti-inflamasi in vitro dengan metode penghambatan denaturasi protein, senyawa hasil sintesis menunjukkan aktivitas anti-inflamasi dengan hasil uji IC50 pada rentang = 0,118-0,434 mM. Aktivitas tersebut lebih rendah dibandingkan piroksikam yang digunakan sebagai senyawa standar (IC50 = 0,0073 mM). Senyawa 2e, 2‐hidroksi‐N‐(piridin‐2‐il)benzamida tersubstitusi basa Mannich 2,6-dimetilmorfolin merupakan senyawa paling tinggi aktivitasnya. Energi ikatan (DG) yang diperoleh dari studi penambatan molekul adalah -8,49 kkal/mol pada reseptor COX-1 (PDB ID: 1EQG) dan -8,92 kkal/mol pada reseptor COX-2 (PDB ID: 5KIR). Pengujian antioksidan dengan metode DPPH diperoleh rentang IC50 = 0,63-12,90 mM, sedangkan dengan metode FRAP diperoleh EC50 antara 0,68-0,91 mM. Semua senyawa hasil sintesis memiliki aktivitas antioksidan lebih rendah dibandingkan dengan standar asam askorbat (metode DPPH, IC50= 0,0021 mM; metode FRAP, EC50= 0,008 mM).

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Salicylic acid is a natural active substance known to have anti-inflammatory and antioxidant activity, but it has side effects in gastrointestinal tract. The modification of its carboxylic groups into amide derivatives can be a solution to overcome its weakness. In this study we synthesized salicylamide analog, 2‐hydroxy‐N‐(pyridine‐2-yl)benzamide (1) and its Mannich base derivatives (2a-f). Based on an in-vitro anti-inflammatory activity test using the inhibition protein denaturation method, the synthesized compounds showed anti-inflammatory activity. The IC50 obtained was in the range of 0.118-0.434 mM. The activity was lower than piroxicam used as a standard compound (IC50 = 0.0073 mM). Compound 2e, 2‐hydroxy‐N‐(pyridine‐2-yl)benzamide substituted by 2,6-dimethylmorpholin Mannich base, showed the highest activity with IC50= 1.18 mM. The binding energy (DG) obtained from molecular docking study was -8.49 kcal/mol and -8.92 kcal/mol for COX-1 and COX-2 receptors (PDB ID: 1EQG and 5KIR) protein target respectively. The antioxidant activity using DPPH test was obtained with IC50 in the range of 0.63-12.90 mM, while using the FRAP method EC50 in the range of 0.68-0.91 mM. All the synthesized compounds had lower antioxidant activity than ascorbic acid used as a standard (DPPH method, IC50 = 0.0021 mM; FRAP methode, EC50 = 0.008 mM)"

"Nyeri neuropatik merupakan rasa sakit akibat gangguan susunan saraf dengan prevalensi penderita sekitar 7 hingga 10 persen populasi dunia. Pengobatan alternatif menggunakan jamu herbal diajukan sebagai pengobatan minim efek samping dan harga terjangkau. Pada penelitian ini, akan dilakukan perbandingan fenolik pada ekstrak cair dan padat Jamu Turun Tegang Saraf (TTS) yang terbuat dari pala (Myristica fragrans), cengkeh (Syzyangium aromaticum) dan jahe (Zingiber officinale) serta pengujian in silico aktivitas antiinflamasi senyawa aktif jamu. Ekstrak cair dihasilkan dari refluks air bahan segar dan bubuk simplisia sedangkan bubuk ekstrak dihasilkan dari pengeringan oven dan pengeringan beku. Total fenolik pada ekstrak cair bahan segar dan bubuk simplisia tertinggi diperoleh sebesar 298,5 mg GAE per L dan 983,3 mg GAE/L pada konsentrasi 100.000 ppm. Total fenolik pada bubuk ekstrak pengeringan oven dan pengeringan beku diperoleh 281,7 mg GAE per L dan 999,6 mg GAE per L. Analisis LC MS ekstrak jamu menunjukkan adanya senyawa seperti gingerol, shogaol, myristicin, eugenol, adenine, dan chlorogenic acid. Pengeringan baik oven dan pengeringan beku menurunkan luas area pada senyawa aktif, tetapi pengeringan beku memiliki pengaruh penurunan lebih kecil. Berdasarkan pengujian in silico menggunakan perangkat lunak MOE, didapatkan hasil berupa afinitas pengikatan yang tinggi antara senyawa aktif Jamu TTS sebagai ligan termodifikasi dengan protein siklooksigenase (COX 1 dan COX 2) sebagai penyebab inflamasi.

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Neuropathic pain is pain due to nervous system disorders with a prevalence of sufferers around 7 to 10 percent of the world's population. Alternative medicine using herbal medicine is proposed as a treatment with minimal side effects and affordable prices. In this study, a comparison of phenolics will be carried out on liquid and solid extracts of Jamu Neuropathic Pain Reducer (NPR) made from nutmeg (Myristica fragrans), cloves (Syzyangium aromaticum) and ginger (Zingiber officinale) as well as in silico testing of anti-inflammatory activity of active compounds of herbs. The liquid extract is produced from water reflux of fresh material and simplisia powder while the extract powder is produced from oven drying and freeze drying. The highest total phenolics in fresh ingredient liquid extract and simplisia powder were obtained at 298.5 mg GAE per L and 983.3 mg GAE per L at a concentration of 100,000 ppm. Total phenolics in oven drying and freeze-drying extract powder obtained 281.7 mg GAE per L and 999.6 mg GAE per L. LC MS analysis of herbal extracts showed the presence of compounds such as gingerol, shogaol, myristicin, eugenol, adenine, and chlorogenic acid. Both oven drying and freeze drying decrease the area of the active compound, but freeze drying has a smaller decreasing effect. Based on molecular docking simulations using MOE software, results were obtained in the form of high binding affinity between the active compound of Jamu NPR as a modified ligand with cyclooxygenase proteins (COX 1 and COX 2) as the key role in inflammation."

"ABSTRACTThree types of cyclopentanone derivatives have been synthesized from aromatic aldehyde and ketone derivatives undera base condition through aldol condensation. These cyclopentanone products were 2,5-dibenzylidene-cyclopentanone (a), 2,5-bis-(4-hydroxy-benzylidene)-cyclopentanone (b),and 2,5-bis-(4-hydroxy-benzylidene)-cyclopentanone (c)which has a yield of 63-99%. The chemical structure of these compounds were determined using UV, IR and NMRspectroscopy. In order to clarify the role of hydroxyl and amine moieties, toxic, antioxidant and anti-inflammatoryactivities were carried out. The toxic test indicated that thecompounds showed strong toxicity. In addition, the presenceof hydroxyl and amine groups on both rings of curcumin increased the antioxidant and anti-inflammatory activities."

"COVID-19 menunjukkan berbagai manifestasi klinis dengan tingkat keparahan berkaitan dengan peningkatan mediator inflamasi yang tidak terkendali. Sebagai terapi potensial COVID-19, penelitian tentang efek imunomodulator SPM telah berlangsung. Penggunaan sekretom SPM memiliki kelebihan daripada penggunaan SPM itu sendiri. Namun demikian, mekanisme dimana sekretom memberikan efek imunomodulatornya sebagai agen terapeutik untuk COVID-19 masih belum jelas. Penelitian ini bertujuan untuk menilai apakah komponen sekretom SPM-TP mampu mengubah karakteristik inflamatorik dari sel-sel imun dengan melakukan studi in vitro dari inkubasi darah lengkap dengan sekretom yang kemudian dipaparkan dengan LPS yang merupakan agen inflamasi kuat. Sebanyak 12 sampel darah subjek COVID-19 dan sehat dikultur ke dalam  tiga kelompok (kelompok kontrol RPMI, kelompok sekretom 3μl, dan 9μl) yang diinkubasi selama 24 jam, kemudian dipaparkan LPS dan diinkubasi selama 48 jam. Supernatan kultur sebelum dan setelah paparan LPS dipanen dan diukur kadar sIL-6R, sgp130, IL-1RA, IL-6, TNF-α, IFN-γ dan IL-10. Hasil penelitian menunjukkan bahwa paparan LPS meningkatkan produksi IL-6, TNF-α, dan IL-10 dan menurunkan produksi  sIL-6R, dan sgp130, sedangkan IFN-γ tidak mengalami perubahan pada kultur darah yang telah diinkubasi dengan sekretom SPM-TP. Analisis rasio post-LPS/pre-LPS dilakukan untuk menyelidiki potensi antiinflamasi sekretom dan ditemukan sekretom SPM-TP ini memberikan efek antiinflamasinya melalui peran IL-1RA.

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COVID-19. However, the precise mechanism by which the secretome exerts its therapeutic effect on COVID-19 remains unclear. This study aims to investigate whether the components of the UC-MSC-derived secretome can alter the inflammatory characteristics of immune cells. To achieve this, an in vitro study will be conducted involving co-incubation of whole blood with secretomes, followed by LPS stimulation. A total of 12 blood samples from severe COVID-19 and healthy subjects were cultured into three groups (RPMI control group, 3μl and 9μl secretome group) incubated for 24 hours. Then, the cultures were exposed to LPS for 48 hours. The levels of sIL-6R, sgp130, IL-1RA, IL-6, TNF-α, IFN-γ, and IL-10 were measured. Results showed that LPS increased IL-6, TNF-α, and IL-10 production, while reducing sIL-6R, and sgp130, but no changes seen in IFN-γ in secretome-incubated blood cultures. The post-LPS/pre-LPS ratio analysis was conducted to investigate the anti-inflammatory potential of secretome. It was found that the secretome provides its anti-inflammatory effects through the role of IL-1RA."

"Objective: Garcinia xanthochymus extract has been reported to have several pharmacological properties. This studywas conducted to evaluate cytotoxic and anti-inflammatory activities of G. xanthochymus extracts on cell lines.Methods: The roots and stem barks of plant were extracted using maceration method with n-hexane, dichloromethaneand methanol, successively. Cytotoxic activity of the extracts was tested against MCF-7 breast adenocarcinoma usingMTT assay. Anti-inflammatory study was evaluated using RAW 264.7 mouse macrophage cells. The nitric oxideproduction in LPS-stimulated cells was measured using Griess reagent. Results: The results of cytotoxic and antiinflammatorystudy showed that dichloromethane and n-hexane extracts of root and stem bark exhibited cytotoxicactivity in dose-dependent manner. Meanwhile, for anti-inflammatory study, all root extracts together with stem barkdichloromethane and n-hexane extracts reduce NO production in LPS-stimulated cells in dose dependent manner.Conclusions: This finding indicated that G. xanthochymus extracts might become interesting candidate for treatment ofcancer and inflammation."

"Obat antiinflamasi didefinisikan sebagai golongan obat yang memiliki aktivitas menekan atau mengurangi peradangan, terutama obat antiinflamasi non steorid. Salah satu efek samping dari obat antiinflamasi non steroid adalah menyebabkan penyakit tukak lambung. Penyakit tukak lambung yang disebabkan oleh obat antiinflamasi dapat diobati dengan propolis. Di samping memiliki sifat anti tukak lambung, beberapa penelitian luar negeri mengatakan bahwa propolis memiliki efek antiinflamasi. Tujuan dari penelitian ini adalah mengidentifikasi sifat antiinflamasi propolis lokal, beserta molekul penandanya. Propolis yang digunakan dalam penelitian ini adalah propolis lebah tak bersengat dari daerah Sulawesi Selatan yaitu Tetragronula sp, dengan spesifikasi propolis padatan dan karang. Penelitian mengenai efek antiinflamasi dari propolis menggunakan metode in vivo dengan hewan uji tikus jantan sprague dawley. Metode ini menggunakan karagenan sebagai zat penginduksi inflamasi dan natrium diklofenak 135 mg/kg sebagai kontrol positif. Dosis yang akan diberikan adalah 50 mg/kg, 100 mg/kg, dan 200 mg/kg untuk propolis padatan, serta 25 mg/kg, 50 mg/kg, dan 100 mg/kg untuk propolis karang. Data diolah dengan statistik ANOVA satu arah dan Kruskall Wallis, dengan program SPSS 23.0. Hasil dari pengukuran sampel dengan metode LC-MS didapatkan grafik kromatogram dan spektra massa yang datanya diolah menggunakan program MassLynx 4.1. Hasil penelitian menunjukkan propolis padatan dengan dosis 50 mg/kg memiliki daya antiinflamasi yang paling baik sebesar 61,81 , yang disusul dengan propolis karang dosis 25 mg/kg dengan daya antiinflamasi 58,12 . Dengan metode LC-MS/MS, berhasil diidentifikasi 7 senyawa yang memiliki potensi sebagai molekul penanda antiinflamasi pada propolis padatan dan karang. Senyawa [6]-dehidrogingerdion, alfa-tokoferol suksinat, adiperforin, 6-epiangustifolin ditemukan pada kedua propolis. Senyawa deoksipodofilotoksin dan kurarinon ditemukan pada propolis padatan, serta xantoxiletin ditemukan pada propolis karang.

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Antiinflammatory drug are types of drug that have abilities to inhibit or reduced an inflammation, especially Non Steroidal Antiinflammatory Drugs NSAID . One of side effect of using the non steroid type is causing ulcerogenic disease. Ulcerogenic disease that caused by the antiinflammatory drug can be cured by propolis. Beside having an ability to cure ulcerogenic disease, propolis have the ability to cure an inflammation according to some international studies. The research main purpose are to identify antiinflammatory properties of Indonesian propolis and also the biomarkers. The propolis that used in this research were the one from stingless bee that can be found in South Sulawesi, Indonesia, which was Tetragronula sp and 2 types of propolis that used were smooth and rough propolis. The method that used to identify propolis anti inflammatory properties was in vivo method with sprague dawley white rat as the tested animal. In this method, inflammation was induced by carrageenan and 135 mg kg diclofenac sodium was used as positive control.

Dose of propolis that used in this research were 50 mg kg, 100 mg kg, 200 mg kg for smooth propolis and 25 mg kg, 50 mg kg, 100 mg kg for rough propolis. The measurement data was analyzed with One Way ANOVA and Kruskall Wallis statistical test in SPSS 23.0. After that, to identified antiinflammatory molecule marker in Propolis, LC MS MS method was used. From LC MS MS, chromatogram graph and mass spectra of the compounds would be gotten. The result of this method was analyzed by MassLynx 4.1. program. The result from this research indicated smooth propolis with dose 50 mg kg had the the best inflammatory inhibition and the value was 61,81 . In addition, rough propolis with dose 25 mg kg was the best dose after soft propolis with dose 50 mg kg and the value was 58,12 . Therefore, based on those result, both propolis had antiinflammatory effect. Moreover, if soft and rough propolis were compared in the same dose, soft propolis had more significant inflammatory inhibition than rough propolis. From LC MS MS result, 7 antiinflammatory compounds were identified as the potential antiinflammatory biomarker in propolis. 6 dehydrogingerdione, alpha tocopherol succinate, adhyperforin, and 6 epiangustifolin were identified in smooth and rough propolis. Deoxypodophyllotoxin and kurarinone were identified in smooth propolis. Meanwile xanthoxyletin was identified in rough propolis."

"Propolis merupakan suatu campuran resin alami yang dikumpulkan lebah dari berbagai tanaman yang dihinggapinya. Umumnya, propolis dihasilkan dalam jumlah yang banyak oleh lebah yang tidak bersengat dibandingkan lebah yang bersengat. Di Indonesia, diketahui bahwa daerah Kalimantan, terutama Kalimantan Selatan, merupakan daerah dengan variasi spesies lebah tidak bersengat tertinggi. Pada penelitian ini, dipilih tiga sampel propolis dari spesies lebah Heterotrigona itama, Geniotrigona thoracica, dan Tetragonula laeviceps asal Kalimantan Selatan. Pemilihan spesies lebah ini dilakukan berdasarkan data persebaran lebah di Indonesia yang dimiliki oleh Asosiasi Perlebahan Indonesia (API). Variasi asal daerah lebah penghasil propolis dan spesies lebah dapat menyebabkan kandungan senyawa kimia pada propolis sangat beragam. Adanya keragaman kandungan senyawa kimia pada setiap propolis akan menyebabkan senyawa bioaktif antiinflamasi yang terdeteksi juga berbeda. Oleh karena itu dilakukan identifikasi senyawa bioaktif antiinflamasi melalui pendekatan metabolomik yang mengkombinasikan metode analisis kimia dengan analisis statistik. Identifikasi senyawa metabolit secara umum dilakukan menggunakan instrumen LCMS/MS dan kemudian dipilih sembilan senyawa yang berpotensi sebagai senyawa bioaktif antiinflamasi. Identifikasi senyawa yang berperan signifikan dalam aktivitas antiinflamasi dilakukan dengan analisis statistik multivariat menggunakan data senyawa potensi bioaktif antiinflamasi dan nilai IC50 sampel propolis. Hasil penelitian ini adalah diperoleh senyawa 18-β-Glycyrrhetinic acid sebagai senyawa bioaktif antiinflamasi propolis Indonesia.

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Propolis is a natural resin mixture that bees collect from the various plants they inhabit. Generally, propolis is produced in greater quantities by stingless bees than stingless bees. In Indonesia, it is known that Kalimantan, especially South Kalimantan, is an area with the highest variety of stingless bee species. In this study, three propolis samples were selected from the bee species Heterotrigona itama, Geniotrigona thoracica, and Tetragonula laeviceps from South Kalimantan. The selection of bee species is based on data on the distribution of bees in Indonesia owned by the Indonesian Beekeeping Association (API). Variations in the origin of the propolis-producing bees and bee species can cause the content of chemical compounds in propolis to vary widely. The diversity of chemical compounds in each propolis will cause the detected anti-inflammatory bioactive compounds to be different. Therefore, identification of anti-inflammatory bioactive compounds was carried out through a metabolomics approach that combined chemical analysis methods with statistical analysis. Identification of metabolites in general was carried out using the LCMS/MS instrument and then nine compounds were selected as potential anti-inflammatory bioactive compounds. Identification of compounds that play a significant role in anti-inflammatory activity was carried out by multivariate statistical analysis using data on potential anti-inflammatory bioactive compounds and IC50 values of propolis samples. The results of this study were obtained by the compound 18-β-Glycyrrhetinic acid as an anti-inflammatory bioactive compound in Indonesian propolis."

"Penyakit inflamasi usus atau Inflammatory Bowel Disease (IBD) merupakan penyakit peradangan yang terjadi pada kolon, penyakit ini sebaiknya diobati dengan sistem penghantaran obat tertarget pada bagian spesifik. Sistem penghantaran yang ditargetkan untuk pengobatan IBD dirancang untuk meningkatkan konsentrasi obat pada jaringan lokal. Deksametason merupakan obat yang memiliki efek anti inflamasi dan antifibrosis yang dapat digunakan untuk memperbaiki jaringan parut yang timbul pasca operasi IBD. Penelitian ini bertujuan untuk membuat beads kalsium-alginat deksametason yang hanya dilepas pada kolon. Beads dibuat menggunakan natrium-alginat yang disambung silang dengan Ca2+ melalui metode gelasi ionik, dengan perbandingan antara natrium alginat-deksametason (3:1). Konsentrasi natrium-alginat yang digunakan sebesar 3% b/v dengan varian konsentrasi CaCl2 sebagai agen sambung silang yakni 2% (formula 1), 3% (formula 2), dan 4% (formula 3). Beads yang telah dibuat akan dikarakterisasi untuk mengetahui bentuk dan morfologi beads, distribusi ukuran partikel beads, kadar air, efisiensi proses, indeks mengembang, uji kandungan obat, efisiensi penjerapan deksametason dalam beads dan evaluasi pelepasan obat secara in vitro yang kadar deksametasonnya ditetapkan secara spektrofotometri UV-Vis. Hasilnya diperoleh bentuk beads yang hampir bulat dengan kisaran ukuran antara 630 - >800 µm. Efisiensi penjerapan terbesar diperoleh dari beads formula 1 yaitu sebesar 98,14% sedangkan setelah disalut dengan eudragit® S100 menggunakan alat fluid bed dryer diperoleh beads formula 4 dengan efisiensi penjerapan sebesar 67,78%. Beads formula 1 hanya bersifat enterik dan belum mampu menahan pelepasan zat aktif hingga di pH kolon, sedangkan beads formula 4 memiliki profil pelepasan yang lebih baik karena dapat melepas zat aktif sampai di pH kolon secara bertahap dan bertahan selama 8 jam saat di pH kolon.

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Inflammatory Bowel Disease (IBD) is a disease of inflammation in the colon, therefore this disease should be treated with targeted drug delivery systems on site-specific. Targeted delivery systems for the treatment of IBD is designed to increase the drug concentration in the local tissue. Dexamethasone is a drug having anti-inflammatory and antifibrosis effects which is used to repair scar tissue arising from postoperative IBD. This research purpose to create calcium-alginate beads dexamethasone to be released only in the colon. Beads were made ​​by using sodium-alginate and Ca2+ as crosslinker by ionic gelation method, with ratio between sodium alginate-dexamethasone (3:1). A concentration of solution sodium alginate 3 % b/v with variation concentration of crosslinker is 2% (formula 1), 3% (formula 2), and 4% (formula 3). Beads ​​will be characterized to determine the form and morphology of the beads, particle size distribution of the beads, moisture content, process efficiency, swelling ratio, drug content, encapsulation efficiency and drug release determined by spectrophotometry UV-Vis. The results obtained were spherical beads with a size range between 630 -> 800 μm with the greatest encapsulation efficiency obtained from the beads formula 1 with the amount of 98.14% and after coated with Eudragit® S100 using a fluid bed dryer apparatus, beads of formula 4 was obtained with an encapsulation efficiency of 67,78%. Beads formula 1 were only released in stomach pH and not able to hold up the release of the active substance in colonic pH, whereas beads of formula 4 releasing dexamethason gradually more than 8 hours in colonic pH, and has a better release profile for the active substance."

"Natrium diklofenak termasuk anti-inflamasi non-steroid (OAINS) dengan efek samping iritatif terhadap lambung sehingga perlu dibuat sistem pelepasan zat aktif ditunda. Tablet lepas tunda memerlukan polimer bersifat pH dependent, seperti hidroksipropil metil selulosa ftalat (HPMCP). Masalah yang dapat terjadi pada tablet salut, yaitu retakan di lapisan penyalut akibat ketidakelastisan polimer akan pemuaian akibat pemanasan. Diperlukan penambahan plasticizer yang kompatibel terhadap polimer untuk menambah keelastisannya, seperti triasetin dan trietil sitrat. Penelitian ini berfokus dalam mengevaluasi pengaruh penambahan trietil sitrat ataupun triasetin terhadap adanya cracking serta efeknya terhadap pelepasan obat pada variasi weight gain tertentu. Dilakukan metode penyalutan, yaitu formula HPMCP atau HP (F1) ; HPMCP-Triasetin atau HP-TRI (F2) ; HPMCP-Trietil Sitrat atau HP-TEC (F3) ; dan HPMCP-Triasetin-Trietil Sitrat atau HP-TRI-TEC (F4) yang akan dibuat dalam variasi weight gain 8%, 10%, dan 12%. Morfologi cracking dievaluasi dengan scanning electron microscopy (SEM). Hasil evaluasi SEM tidak ditemukan cracking dan kekasaran lapisan penyalut tablet, yaitu F1 > F3 > F4 > F2. Semua formula dan variasi weight gain-nya memenuhi syarat pelepasan obat di medium asam maupun basa. Jadi, penggunaan polimer HPMCP saja sudah mampu menahan pelepasan obat di kondisi asam dan penambahan plasticizer triasetin dan trietil sitrat mampu memperhalus morfologi lapisan penyalut tablet salut enterik.

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Sodium diclofenac is a non-steroidal anti-inflammatory drug (NSAID) with gastric irritative, necessitating the development of a delayed-release drug delivery system. This system require a pH-dependent polymer, such as hydroxypropyl methylcellulose phthalate (HPMCP). A problem that can occur is cracking in the coating layer due to the polymer's lack of elasticity during expansion caused by heating. To enhance its elasticity, the addition of a compatible plasticizer is needed, such as triacetin and triethyl citrate. This study focuses on evaluating the influence of adding triethyl citrate or triacetin on the occurrence of cracking and its effects on drug release at specific weight gain variations. The coating methods used include HPMCP or HP (F1), HPMCP-Triacetin or HP-TRI (F2), HPMCP-Triethyl Citrate or HP-TEC (F3), and HPMCP-Triacetin-Triethyl Citrate or HP-TRI-TEC (F4). These formulations will be made with variations of weight gain at 8%, 10%, and 12%. Cracking morphology will be evaluated using scanning electron microscopy (SEM). The SEM evaluation results showed no cracking and the surface roughness are F1 > F3 > F4 > F2. All formulations and their weight gain met the requirements for drug release in both acidic and basic media. Therefore, the use of HPMCP polymer alone is already capable of controlling drug release in acidic conditions, and the addition of triacetin and triethyl citrate plasticizers can further smoothen the morphology."