Hasil Pencarian  ::  Simpan CSV :: Kembali

"This book focuses on new small molecule approaches to combat viral infections. The chapters describe the discovery and development from bench through the clinic of relatively recently-approved antiviral drugs and compounds in advanced clinical development. Organized by a virus (such as HIV, HCV, RSV, influenza, HBV and CMV) and written by top academic and industrial authorities in the field, the book provides a unique opportunity to study, understand and apply discovery and development principles and learning without the need for an individual to research, analyze and synthesize all immense sourcing references. Topics showcase challenges and solutions of issues encountered, offeringtremendous experience accumulated over many years of research that will be particularly useful to basic and bench scientists as well as clinicians as they continue discovering and developing new drugs and therapies."

"By focusing on general molecular mechanisms of antiviral drugs rather than therapies for individual viruses, this ready reference provides the critical knowledge needed to develop entirely novel therapeutics and to target new viruses.It begins with a general discussion of antiviral strategies, followed by a broad survey of known viral targets, such as reverse transcriptases, proteases, neuraminidases, RNA polymerases, helicases and primases, as well as their known inhibitors. The final section contains several cases studies of recent successful antiviral drug development.Edited by Erik de Clercq, the world authority on small molecule antiviral drugs, who has developed more new antivirals than anyone else."

"The Gold Standard for medical microbiology, diagnostic microbiology, clinical microbiology, infectious diseases due to bacteria, viruses, fungi, parasites; laboratory and diagnostic techniques, sampling and testing, new diagnostic techniques and tools, molecular biology; antibiotics/​ antivirals/​ antifungals, drug resistance; individual organisms (bacteria, viruses, fungi, parasites)"

"DENV merupakan sebuah virus yang penularannya melalui vektor nyamuk, yaitu Aedes aegypti. Virus ini terdiri dari 4 tipe, yaitu DENV-1, DENV-2, DENV-3, dan DENV-4. Infeksi DENV banyak terjadi pada negara dengan iklim tropis, diantaranya seperti Karibia, Asia Tenggara, serta Pasifik Barat. Indonesia termasuk salah satu negara dengan endemis infeksi DENV di seluruh wilayahnya. Hingga saat ini, tatalaksana yang diberikan untuk pasien dengan infeksi DENV masih berupa tatalaksana suportif dikarenakan belum ditemukan obat yang efektif untuk mengobati keempat tipe DENV. Ekstrak daun Shorea spp. disinyalir memiliki kemampuan untuk menginhibisi DENV sehingga dapat digunakan sebagai antiviral. Pada penelitian ini, sel Huh7It-1diinfeksikan dengan DENV dan diberikan ekstrak Shorea spp. dengan berbagai konsentrasi. Efektifitas ekstrak diteliti dengan menggunakan konsentrasi 320 μg/ml, 160 μg/ml, 80 μg/ml, 40 μg/ml, 20 μg/ml, dan 10 μg/ml. Efek inhibisi diuji menggunakan metode Focus Assay. Sedangkan efek sitotoksik diuji menggunakan metode MTT Assay. Pada penelitian ini didapatkan nilai sitotoksik (CC50) ekstrak terhadap sel dan nilai inhibisi (IC50) ekstrak terhadap DENV, yaitu nilainya sebesar 150,85 μg/ml dan 23,22 μg/ml. Berdasarkan nilai IC50 dan CC50, didapatkan nilai Selectivity Index (SI) sebesar 6,496. Hal ini menunjukkan bahwa ekstrak daun Shorea spp. memiliki efek inhibisi terhadap DENV dan dapat dikembangkan sebagai antiviral terhadap DENV di masa mendatang.

---

DENV is a virus transmitted through mosquito vectors, named Aedes aegypti. This virus consists of four types, which is DENV-1, DENV-2, DENV-3 and DENV-4. DENV infection are more prevalent in countries with tropical climates, such as the Caribbean, Southeast Asia, and the Western Pacific. Indonesia is one of the country with endemic DENV infection founded in the entire region. Until now, the treatment which is given to patients with DENV infection is still in the form of supportive treatment, because effective drugs to treat the four types of DENV has not been discovered yet. Leaf extract of Shorea spp. allegedly has the ability to inhibit DENV which acts as an antiviral.

In this study, Huh7lt cell was infected with DENV and was given Shorea spp. extracts in various concentrations from 320 μg/ml, 160 μg/ml, 80 μg/ml, 40 μg/ml, 20 μg/ml, and 10 μg/ml. Inhibitory effect was tested by using focus assay, while cytotoxic effect was tested by using MTT assay. In this study, the extract's cytotoxic value (CC50) against cell and inhibition values (IC50) against DENV was determined, with the results 150.85 μg/ml and 23.22 μg/ml. Based on value of IC50 dan CC50, Selectivity Inde x (SI) score was 6,496. This indicates that the leaf extract of Shorea spp. has inhibitory effects against DENV and could be developed as an antiviral againsts DENV in the future."

"Virus Dengue (DENV) adalah salah satu penyakit virus dengan transmisi oleh nyamuk dan telah menyebar ke negara negara yang sebelumnya tidak pernah ada kejadian infeksi DENV. Walaupun demikian, belum ada obat antivirus berlisensi yang efektif. Salah satu agen alami yang diduga memiliki sifat anti virus terhadap DENV adalah asam galat yang telah terbukti memiliki sifat antivirus terhadap Herpes Simplex Virus 1 (HSV 1). Tujuan dari penelitian ini adalah untuk mempelajari toksisitas dan efektifitas amyl galat sebagai antivirus untuk DENV secara in vitro. Huh 7it-1 sel diinfeksikan dengan DENV 2 NGC strain yang telah diberi perlakuan dengan amyl galat pada konsentrasi 80 μg/ mL, 40 μg/ mL, 20 μg/mL, 10 μg/ mL, 5 μg/ mL, dan 2.5 μg/ mL. Viabilitas sel setelah diberi perlakuan dengan amyl galat kemudian diukur dengan MTT assay menggunakan spektrofotometer, sementara inhibisi virus oleh amyl galat diukur dengan menggunakan focus assay. Untuk menguji validitas dan perbedaan yang signifikan data uji statistik Kruskal Wallis dilakukan kepada setiap variabel dan uji Mann- Whitney juga digunakan untuk membandingkan hasil dengan kontrol negatif. Nilai CC50, IC50, dan SI dari penelitian adalah >80 ug/mL, 6 ug/mL, dan >13.333. Viabilitas sel setelah diberi amyl galat dengan konsentrasi 2.5 mg/mL tidak berbeda secara bermakna dengan control (P>0.05) akan tetapi pada konsentrasi ≥ 5 ug/mL ada perbedaan yang bermakna dengan kontrol (P<0.05). Hambatan infektivitas pada perlakuan amyl galat dengan konsentrasi 2.5 ug/mL, 5 ug/mL tidak berbeda secara bermakna dengan kontrol (P>0.05) namun pada konsentrasi ≥ 10 ug/mL ada perbedaan bermakna dengan control (P<0.05). Amyl galat mempunyai selektivitas yang signifikan terhadap sel yang terinfeksi DENV (SI>10) dan dapat disimpulkan bahwa amyl galat mempunyai potensi untuk dipakai sebagai obat anti virus melawan DENV, namun kajian dan percobaan lebih lanjut masih diperlukan.

---

Dengue virus (DENV) is a viral disease transmitted by mosquitoes and has spread to countries where there has never been a DENV infection. However, there are no effective antiviral drugs available. One of the natural agents suspected of having anti-virus properties is against DENV is gallic acid which has been proven to have antiviral properties against Herpes Simplex Virus 1 (HSV 1). The aim of this research is to study the toxicity and effectiveness of amyl galat as an antiviral for DENV in vitro. Huh 7it-1 cells were infected with DENV 2 NGC strains that had been treated with amyl error at concentrations of 80 μg / mL, 40 μg / mL, 20 μg /mL, 10 μg / mL, 5 μg / mL, and 2.5 μg / mL. Cell viability after being treated with amyl error was then measured by MTT assay using a spectrophotometer, while viral inhibition by amyl error was measured using focus assay. To test the validity and significant differences Kruskal Wallis statistical test data was performed on each variable and the Mann-Whitney test was also used to compare results with negative controls. Score CC50, IC50, and SI of the study were > 80 μg / mL, 6 μg / mL, and > 13,333. Cell viability after being given amyl error with a concentration of 2.5 mg / mL was not significantly different from control (P > 0.05) but at a concentration of ≥ 5 ug / mL there was a significant difference with control (P < 0.05). Barriers to infectivity in the treatment of amyl galat with a concentration of 2.5 μg / mL, 5 μg / mL did not differ significantly with control (P > 0.05) but at concentrations ≥ 10 ug / mL there were significant differences with control (P < 0.05). Amyl error has a significant selectivity to cells infected with DENV (SI > 10) and can be concluded that amyl error has the potential to be used as an antiviral drug against DENV, but further studies and trials are still needed."

"Demam dengue masih memiliki angka insidensi tinggi terutama di Indonesia. Sampai saat ini, belum ditemukan terapi antivirus dengue. Penelitian untuk mendapatkan antivirus dengue dari sumber herbal sudah banyak dilakukan. Salah satu tanaman yang berpotensi sebagai antivirus dengue adalah Calophyllum nodosum yang diketahui memiliki aktivitas antimikroba. Penelitian ini menguji efek antiviral fraksi butanol Calophyllum nodosum terhadap aktivitas virus dengue tipe 2 dengan sel Huh-7-it sebagai sel host secara in vitro dan konsentrasi inhibisi minimal. Efek antiviral dinilai dengan nilai konsentrasi inhibitorik 50 IC50 dan konsentrasi sitotoksik 50 CC50. Nilai IC50 menilai efek inhibisi ekstrak dan didapatkan dari hasil focus assay dengan menggunakan konsentrasi ekstrak 80, 40, 20, 10, 5, dan 2,5 g/mL Nilai CC50 menunjukkan efek sitotoksik ekstrak dan dihasilkan dari MTT assay dengan menggunakan konsentrasi 640, 320, 160, 80, 40, 20, dan 10 g/mL Perbandingan IC50 dan CC50 menghasilkan indeks selektivitas SI. Hasil IC50 adalah 5.6 g/mL dan hasil CC50 adalah 1181 g/mL sehingga didapatkan SI 210.9. Konsentrasi inhibisi minimal adalah 2.5 g/mL. Analisis statistic menunjukkan perbedaan bermakna antara kelompok control dengan kelompok perlakuan pada focus assay dan MTT assay. Dapat disimpulkan bahwa fraksi butanol Calophyllum nodosum memiliki efek antiviral tinggi dibandingkan efek sitotoksiknya.

---

Dengue fever still has a high incidence rate especially in Indonesia. Until now, there is no dengue antiviral therapy found. Researches to develop dengue antiviral from herbal sources had been done. One of the potential plants as dengue antiviral is Calophyllum nodosum which is known to have antimicrobial activity. This research evaluated the antiviral effects of butanol fraction of Calophyllum nodosum on DENV 2 activity with Huh 7 it cells as host cells in vitro and also evaluated minimal inhibitory concentration. Antiviral effects were assessed with 50 inhibitory concentration IC50 and 50 cytotoxic concentration CC50 values. The value of IC50 showed the effect of extract inhibition and is obtained from the focus assay results using the extract concentrations of 80, 40, 20, 10, 5, and 2.5 g mL. The CC50 value showed the effect of cytotoxic extract and resulted from MTT assay using concentrations of 640, 320 , 160, 80, 40, 20, and 10 g mL. Ratio of CC50 and IC50 is the selectivity index SI . The value of IC50 is 5.6 g mL and the value of CC50 is 1181 g mL and resulted in SI 210.9. The minimum inhibitory concentration is 2.5 g mL. Statistical analysis showed significant differences between control group and treatment group on focus assay and MTT assay. It can be concluded that the butanol fraction of Calophyllum nodosum has a high antiviral effect compared to its cytotoxic effects."

"Infeksi dengue memiliki prevalensi yang tinggi di dunia, dengan spektrum penyakit yang luas yaitu Demam Dengue, Demam Berdarah Dengue, dan Sindrom Syok Dengue. Namun, tatalaksana yang ada tidak bersifat spesifik. Sudah banyak penelitian yang dilakukan untuk mencari vaksin dan antivirus dengue. Salah satu yang sudah terbukti memiliki efek antivirus dengue adalah senyawa turunan asam galat yaitu propil galat dan etil galat. Penelitian eksperimental ini bertujuan untuk mengetahui efek antivirus campuran propil galat dan etil galat terhadap virus dengue serotipe 2 pada sel Huh7it-1. Efek sitotoksisitas senyawa terhadap sel diuji dengan metode 3- 4,5-dimethylthiazol-2-yl -2,5-diphenyltetrazolium bromide assay. Nilai yang didapat digunakan untuk mencari nilai konsentrasi toksik 50 . Efek inhibisi senyawa terhadap replikasi virus diuji dengan metode focus assay. Nilai yang didapat digunakan untuk mencari nilai konsentrasi hambat 50 . Dari hasil penelitian didapatkan nilai CC50 = 117.942 mg/ml, IC50 = 4.455 mg/ml, dan SI = 26.474. Campuran propil galat dan etil galat memiliki efek antivirus terhadap DENV-2 dan cukup selektif.

---

Dengue infection have a serious prevalence in worldwide with a broad spectrum of disease from dengue fever, dengue hemorrhagic fever, and dengue shock syndrome. Otherwise, the nowadays treatment seems not specific for the dengue itself. There were a lot of study to search for the vaccine and the antivirus. One of the successful study that contained a significant effect of dengue antivirus is a chemical compound from gallate acid named propyl gallate and ethyl gallate. This experimental study aim to know the antivirus effect from the mixture of propyl gallate and ethyl gallate to the dengue virus serotype 2 in Huh7it 1 cells. Cytotoxicity effect of the mixture to the cells tested by 3 4,5 dimethylthiazol 2 yl 2,5 diphenyltetrazolium bromide assay technique. Obtained results can be used to search for the half cytotoxic concentration. The inhibition effect from this mixture to the viral replication processes tested by focus assay technique. Obtained results can be used to search for the half inhibitory concentration. From this study, the value of CC50 is 117.942 g mL, meanwhile the value of IC50 is 4.455 g mL with the SI value is 26.474. The mixture of propyl gallate and ethyl gallate have an antivirus effect to DENV 2 strain which are quite selective."

"Demam Berdarah Dengue DBD merupakan salah satu penyakit infeksi dengan prevalensi yang cukup tinggi di negara-begara beriklim tropis maupun sub-tropis, termasuk Indonesia. Penyakit ini disebabkan oleh infeksi virus Dengue. Beragam penelitian telah dilakukan dan dikembangkan guna menemukan zat-zat atau senyawa baru yang memiliki potensial untuk dijadikan antivirus dengue, dengan fokus penelitian utama menggunakan bahan-bahan herbal. Penelitian ini bertujuan untuk melihat efektivitas antiviral campuran senyawa turunan asam galat berupa propil galat dan metil galat terhadap Dengue Virus Serotipe-2 DENV-2 dengan menggunakan sel Huh7it-1. Variabel bebas penelitian adalah konsentrasi campuran metil galat dan propil galat. Variabel terikat berupa nilai Inhibitory Concentration 50, Cytotoxic Concentration 50, dan Selectivity Index masing-masing sebesar 4.911 ?g/ mL ?g/mL didapatkan dengan teknik focus assay, 113.788 ?g/mL didapatkan dengan menggunakan teknik MTT assay, dan 23.168. Hasil uji analisis bivariat menunjukkan hubungan yang bermakna antara konsentrasi campuran metil galat dan propil galat yang diberikan dengan persen infektivitas dan persen viabilitas P=0.003. Dapat disimpulkan bahwasannya campuran metil galat dan propil galat memiliki poensial untuk menjadi antivirus DENV-2.

---

Dengue Haemorrhagic Fever DHF is one of the highest prevalent diseases in tropical dan sub tropical countries, including Indonesia. This disease is caused by Dengue virus infection. Researches have been done and developed through years to find potential compounds to be dengue antivirus, especially using herbal resources. The goal of this study is to observe the antiviral efectivity of Methyl Gallate and Prophyl Gallate Mixtures against DENV 2. This study is performed in Huh7it 1 cells using in vitro technique. The independent variable of this study is the concentration of methyl gallate and prophyl gallate mixtures. The dependent variables are Inhibitory Concentration 50 with focus assay, Cytotoxic Concentration 50 with MTT assay, and Selectivity Index, with values respectively 4.911 g mL, 113.788 g mL, and 23.168 The results from bivariate analytical study shows significant relation between the concentration of methyl gallate and prophyl gallate mixtures given in the study with the infectivity and viability persentation P 0.003. Therefore, we can say that methyl gallate and prophyl gallate mixtures have the potential to be the antivirus against DENV 2."