Dr. Anggraini Barlian

Dr. Anggraini Barlian

BSc. (ITB), Ph.D (ITB)


School of Life Sciences & Technology
Institut Teknologi Bandung
Jl. Ganesa No. 10 Bandung,
Indonesia 40132
Phone: +62 22 251 1575, 250 0258
Fax: +62 22 253 4107
Email: aang@sith.itb.ac.id

Position
Associate Professor in Cell and Molecular Biology
Academic Career
Associate Professor in Cell and Molecular Biology Institut Teknologi Bandung 2013
Doctorate (Biology) Institut Teknologi Bandung 1999
Master University of Waterloo, Canada 1990
Bachelor (Biology) Institut Teknologi Bandung 1987
Employment
Academic staff (1988 – now)
Research Topic
  • Cellular mechanism of aging
  • Cellular mechanism of wound healing and tissue engineering
  • Reproductive biology
Recent and Present Research Topic
2020 – 2024 Optimasi metode micropatterning dan formulasi rekayasa jaringan (Prioritas Riset Nasional, Fokus Riset Kesehatan)
2020 – present Rekayasa Topografi Substrat Berbasis Sutera Laba-laba untuk Multipotensi Sel Punca Mesenkimal Manusia (Riset ITB Skema A)
2020 – present Aplikasi Nanopatterning terhadap Pertumbuhan dan Diferensiasi Sel Punca (Riset ITB Multidisiplin)
2019 Rekayasa Jaringan Kulit Manusia Menggunakan Biomaterial Scaffold (Simlitabmas 2019 – 2020)
2019 Rekayasa Jaringan Rawan dari Human Mesenchymal Stem Cells dengan Induksi Indirubin yang Ditumbuhkan pada Scaffold Berbasis Biomaterial (Simlitabmas 2018-2019)
2018 – present Aplikasi micropatterning untuk peningkatan proliferasi dan diferensiasi human Wharton’s Jelly mesenchymal stem cells. (Ristekdikti Kalbe Award, 2019-2020)
2018 – 2019 Induksi sel punca asal Wharton’s jelly menjadi kondrosit yang ditumbuhkan pada scaffold berbahan dasar alami untuk aplikasi rekayasa jaringan (Riset ITB 2018, Skema B)
2017 – 2018 Stem cell Application in Tissue Engineering for Back Pain Injury (Asahi Glass 2018-2019)
2017 – 2018 Diferensiasi Terarah Human Mesenchymal Stem Cells menjadi Sel Kondrosit Menggunakan Metode Micropatterning : Studi Aplikasi Stem Cell untuk Rekayasa Jaringan Rawan (Riset ITB Skema B)
2016 – 2017 Development of biodegradable silk fibroin scaffold for tissue engineering applications
2015 Pengaruh Oksidatif Stres pada Sel Otak: Studi Proses Penuaan dan Demensia (Riset Inovasi ITB)
2014 Pengaruh Kondisi Hipoksia pada Sel Kulit dalam Menanggulangi Penuaan (Riset Inovasi ITB)
Courses Taught
Course Code Course Name
BI-1101 Biologi Dasar
BI-4109 Biologi Sel Punca
BI-4107 Metode Analisis Biomedik
BI-5012 Biologi Sel Lanjut
BI-2209 Biologi Sel
BI-2201 Perkembangan Hewan
BT-5215 Aplikasi Sel Punca dan Pengobatan Regeneratif
Publications
National Publications :

  1. D. Anggraeny., A. Barlian., K. Anggadiredja. 2017. Efek Diklofenak dan VCO terhadap Ekspresi Reseptor EP3 pada Tikus Strain Wistar Adiksi Nikotin Kondisi Dependence. Medika Kartika: 1(1), pp. 14-32.
  2. Anggadiredja, K., A. Barlian ., Y. D. M. Pinang. & D. Anggraeny. 2011. Virgin coconut oil prevents nicotine dependence and relapse. Journal of Pharmacology , 7: 664-669.
  3. Barlian, A. , K. Anggadiredja. & A, Kusumorini. 2011. Damage in fungal morphology underlies the antifungal effect of lyophilisate of granular gland secretion from Duttaphyrnus melanostictus frog. Journal of Biological Science, 11: 282-287.
  4. Barlian, A. , K. Anggadiredja, A, Kusumorini. & U. Ekawati. 2011. Structure of Duttaphrynus melanostic frog skin and antifungal potency of the skin extract. Journal of Biological Science, 11: 196-202
International Publications :

  1. Barlian, A., Judawisastra, H., Ridwan, A. Ratih, A. & M. Ebtalingga. (November 10, 2020). Chondrogenic differentiation of Wharton’s jelly mesenchymal stem cell on silk spidroin-fibroin mix scaffold supplemented with L-ascorbic acid and platelet rich plasma. Scientific Reports.
  2. Barlian, A. & Riani, Y. D. 2020. Aging process in dermal fibroblast cell culture on green turtle (Chelonia mydas). 3Bio Journal of Biological Science, Technology and Management. 2(2). P11-17.
  3. Barlian, A., Agustin, R., Putra, R. E. 2020. The protective effect of propolis nanoemulsion (NEP) against UVB irradiation induced photoaging in human dermal fibroblast (HDF). 3Bio Journal of Biological Science, Technology and Management. 2(2). P1-10.
  4. Barlian, A., dan Yanti, N.L.W.E. 2020. Glycosaminoglycans content and type II collagen localization in chondrogenic differentiation of adipose-derived mesenchymal stem cells induced by L-ascorbic acid 2-phosphate. Journal of Mathematical and Fundamental Sciences. Vol. 52(1)
  5. Rosadi, I., Karina, K., Rosliana, I., Barlian, A. et al. In vitro study of cartilage tissue engineering using human adipose-derived stem cells induced by platelet-rich plasma and cultured on silk fibroin scaffold. Stem Cell Res Ther 10, 369 (2019). https://doi.org/10.1186/s13287-019-1443-2
  6. Wibowo, U.A., Judawisastra, H., Barlian, A., Alfarafisa, N.M., Moegni, K.F., dan Remelia, M. 2019. Development of Salt Leached Silk Fibroin Scaffold using Direct Dissolution Techniques for Cartilage Tissue Engineering. International Journal on Advanced Science Engineering Information Technology. E-ISSN 2088-5334. Vol.9(3): 810-815
  7. Vanawati, N., Barlian, A., Tabat, Y., Judawisastra, H., dan Wibowo, I. 2019. Comparison of Human Mesenchymal Stem Cells Biocompatibility Data Growth on Gelatin and Silk Fibroin Scaffolds. Data in Brief. Vol.27. https://www.sciencedirect.com/science/article/pii/S2352340919310339
  8. Rosadi, I., Karina, K., Rosliana, I., Barlian, A. et al. 2019. The Effect of Human Platelet-Rich Plasma and L-Ascorbic Acid on Morphology, Proliferation, and Chondrogenesis Ability towards Human Adipose-Derived Stem Cells. Molecular and Cellular Biomedical Sciences. P-ISSn 2527-4384. E-ISSN 2527-3443. Vol.3(1): 26-33
  9. Giovanni, R., Wibowo, U.A., Judawisastra, H., Barlian, A. 2019. Growth of human dermal fibroblasts on polyvinyl alcohol-silk fibroin nanofiber scaffold. Journal of Mathematical and Fundamental Sciences. Vol.51(3)
  10. Barlian, A., Riani, Y. D. 2018. Correlation of hypoxia and pro-senescence protein expression in green sea turtle (Chelonia mydaslung epithelial and dermal fibroblast cell culture. Journal of Mathematical and Fundamental Sciences: 50(1), pp. 59-71.
  11. Sanawati, A., Barlian, A., Tan, M.I. 2017. Construction, in silico analysis, and in vitro expression of DNA vaccine candidate encoding human rotavirus capsid protein VP6. International Journal of Integrative Biology: 18(1), pp. 1-6.
  12. Barlian, A., N. Vanawati and F. D. Ayuningtyas. 2015. The Patterns of Sex Determination and Differentiation Genes in Green Sea Turtle (Chelonia mydas). Journal of Biological Researches: 20 (15-20) 2015.
  13. F. D. Ayuningtyas., Y. Ogawa., M. Kim., A. Barlian., M. Kino-oka. 2014. Culture Surface Design to Direct Commitment of Human Mesenchymal Stem Cells to Myogenic Lineage. Tissue Engineering Part A: 20, pp. S127. 
  14. F. D. Ayuningtyas and A. Barlian. 2014. Wt1 and FoxL2 Genes Expression Pattern in Mesonephros-Gonad Complexes of Green Sea Turtle (Chelonia mydas) Embryos Incubated in Feminization and Masculinization Temperature. World Academy of Science, Engineering and Technology, International Journal of Biotechnology and Bioengineering: Volume 8, no.10.
  15. Y. D. Riani. and A. Barlian. 2014. Establishment and Aging Process Analysis in Dermal Fibroblast Cell Culture of Green Turtle (Chelonia mydas). World Academy of Science, Engineering and Technology, International Journal of Biotechnology and Bioengineering: Volume 8, no.10.
International Seminar :

  1. Barlian, A., Judawisastra, H., Ridwan, A., Ratih, A., Vanawati, N. 2019. Differentiation of human Wharton’s jelly mesenchymal stem cells on biomaterial-based scaffold for cartilage tissue engineering. AIP Conference Proceedings. Vol.2193
  2. Hidayatullah, P., Mengko, T.E.R., Munir, R., Barlian, A. A Semiautomatic Sperm Cell Data Annotator for Convolutional Neural Network. Proceeding – 2019 5th International Conference on Science in Information Technology: Embracing Industry 4.0: Towards Innovation in Cyber Physical System, ICSITech 2019.
  3. Anggraini Barlian & Erika Widia. 2013. Effect of islet Langerhans transplantation on blood glucose level of alloxan induced diabetic rats. Oral presentation in International Seminar on Tropical Bio-resources for Sustainable Bioindustry. ITB Bandung, 30–31 October 2013
National Seminars (in Indonesian) :

  1. Anggraini B , Kusnandar Anggadiredja, Abdul Rakhmat. 2013. Biologi molekuler dari perkembangan sistem saraf pusat. National seminar of Indonesian Association of Anatomists.
  2. Anggraini B , Yemima D. Riany, Cynthia Christina, Nurul Fajriah, Agnesia Lestari. 2013. New hope in anti-aging medicine. Symposium and workshop INCAAM.
Professional Membership
2019 – present Member of Asosiasi Sel Punca Indonesia
Research and Managerial Positions
2019 – present Secretary of Senate in School of Life Science and Technology ITB
2019 – present Secretary of Commision I, Academic Senate ITB
2016 – present Person in Charge in internasionalisation programme, World Class University Programme of ITB
2018 – 2019 Member of internal quality assurance ITB
2016 – 2018 Head of Research Group for Physiology, Animal Development and Biomedical Science, SITH ITB
2013 – 2015 Head of Biotechnology Master Programme and head of Biology Doctoral Programme in School of Life Science & Technology, ITB
2011 – 2013 Head of Biomanagement and Head of Biotechnology Master Programme in School of Life Science & Technology, ITB
2005 – 2006 Secretary of Department of Biology, FMIPA ITB
Invention and Innovative Activities
  1. Kepemilikan invensi no 117/DivKI-ITB/SPKI/XII/2019 dengan judul: MATERIAL TINTA ALAMI BERPOLA MIKRO (BIO-INKING MICROPATTERN) UNTUK PERTUMBUHAN DAN DIFERENSIASI TERARAH SEL PUNCA DARI PROTEIN SPIDROIN LABA-LABA Argiope sp. SERTA METODE PEMBUATANNYA” (2019)
  2. Nomor paten P00201912265: PERANCAH UNTUK REKAYASA JARINGAN RAWAN ARTIKULAR DARI SERAT FIBROIN DAN SERAT SPIDROIN SERTA METODE PEMBUATANNYA (2019)
Paten 
  • Barlian, A. dan Ridwan,A. 2020. MATERIAL TINTA ALAMI BERPOLA MIKRO (BIO-INKING MICROPATTERN) UNTUK PERTUMBUHAN DAN DIFERENSIASI TERARAH SEL PUNCA DARI PROTEIN SIDROIN LABA-LABA ARGIOPE SP. SERTA METODE PEMBUATANNYA. Paten ID : P00202002535

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