Dr. Sorada Kanokpanont
ดร. โศรดา กนกพานนท์
Education : 2002 Ph.D. (specialized in Biochemical Engineering) Department of Chemical Engineering, Drexel University, PA, USA 1996 M.Sc. (Chemical Engineering) Department of Chemical Engineering, Drexel University, PA, USA 1989 Bachelor of Science (Biotechnology) Faculty of Technology, Khon Kean University, Khon Kean, Thailand
Address
Biomaterial for Medical and Health Research Unit Department of Chemical Engineering (9th Floor, Building 4)
Faculty of Engineering, Chulalongkorn University Bangkok 10330, Thailand
sorada.k@chula.ac.th
02-218-7918
02-218-6877
Research interest
My work aims to bring Thailand’s biomaterials to advanced applications. I co-found the Biomaterial Engineering for Medical and Health Research Unit (BEMHRU).
Highlights
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An axial distribution of seeding, proliferation, and osteogenic differentiation of MC3T3-E1 and rat bone marrow-derived mesenchymal stem cells across a 3D Thai silk fibroin/gelatin/hydroxyapatite scaffold in a perfusion bioreactor. Materials Science & EngineeringC58, 960-970 (2016)
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Thai silk fibroin/gelatin sponges for the dual controlled release of curcumin and docosahexaenoic acid for anticancer treatment. Journal of Pharmaceutical Sciences 105 (1), 221-230 (2016)
Expertise
Biomaterial engineering and applications
Biochemical engineering (Biomass & Bioreactor)
Research Groups
Publications
Laomeephol, C., Vasuratna, A., Ratanavaraporn, J., Kanokpanont, S., Luckanagul, J.A., Humenik, M., Scheibel, T., Damrongsakkul, S. Impacts of blended bombyx mori silk fibroin and recombinant spider silk fibroin hydrogels on cell growth, 2021, Polymers, 13 (23), 4182.
Pudkon, W., Laomeephol, C., Damrongsakkul, S., Kanokpanont, S., Ratanavaraporn, J. Comparative study of silk fibroin‐based hydrogels and their potential as material for 3‐dimensional (3d) printing, 2021, Molecules 26(13), 3887.
Laomeephol, C., Fereira, H., Kanokpanont, S., Neves, M.N., Kobayashi, H., Damrongsakkul, S., Dual-functional liposomes for curcumin delivery and accelerating silk fibroin hydrogel formation, 2020, International Journal of Pharmaceutics 589, 119844.
Chancheewa B., Buranapraditkun S., Laomeephol C., Rerknimitr P., Kanokpanont S., Damrongsakkul S., Klaewsongkram J. In vitro immune responses of human peripheral blood mononuclear cells to silk fibroin: IL-10 stimulated anti-inflammatory and hypoallergenic properties. 2020. Materials Today Communications, 24, 101044.
Laomeephol, C., Guedes, M., Ferreira, H., Reis, R. L., Kanokpanont, S., Damrongsakkul, S., Neves, N. M. Phospholipid‐induced silk fibroin hydrogels and their potential as cell carriers for tissue regeneration. 2020. Journal of tissue engineering and regenerative medicine, 14 (1), 160-172.
Apinun J., Honsawek S., Kuptniratsaikul S., Jamkratoke J., Kanokpanont S. Osteogenic differentiation of rat bone marrow-derived mesenchymal stem cells encapsulated in Thai silk fibroin/collagen hydrogel: A pilot study in vitro. 2019. Asian Biomedicine, 12 (6), 273-279.
Apinun J., Chaisuparat R., Wangdee C., Kuptniratsaikul S., Jamkratoke J., Kanokpanont S. Evaluation of bone regeneration using injectable surfactant-induced thai silk fibroin/collagen in situ- forming hydrogel in segmental bone defects in rats. 2019. Journal of the Medical Association of Thailand, 102 (3), 347-354.
Ratanavaraporn, J., Chuma, N., Kanokpanont, S., Damrongsakkul, S. Beads fabricated from alginate, hyaluronic acid, and gelatin using ionic crosslinking and layer‐by‐layer coating techniques for controlled release of gentamicin. 2019. Journal of Applied Polymer Science, 136 (1), 46893.
Kanokpanont, S., Yamdech, R., Aramwit, P. Stability enhancement of mulberry-extracted anthocyanin using alginate/chitosan microencapsulation for food supplement application. 2018. Artificial cells, nanomedicine, and biotechnology, 46 (4), 773-782.
Tangsadthakun, C., Kanokpanont, S., Sanchavanakit, N., Pichyangkura, R., Banaprasert, T., Tabata, Y., Damrongsakkul, S. Systematic methods and tools for design of sustainable chemical processes for CO2 utilization. 2016. Computers and Chemical Engineering 87 , 125-144.
Sinlapabodin S., Amornsudthiwat P., Damrongsakkul S., Kanokpanont S. An axial distribution of seeding, proliferation, and osteogenic differentiation of MC3T3-E1 and rat bone marrow-derived mesenchymal stem cells across a 3D Thai silk fibroin/gelatin/hydroxyapatite scaffold in a perfusion bioreactor. 2016. Materials Science & Engineering C 58 , 960-970.
Sinlapabodin, S., Amornsudthiwat, P., Damrongsakkul, S., Kanokpanont, S. An axial distribution of seeding, proliferation, and osteogenic differentiation of MC3T3-E1 cells and rat bone marrow-derived mesenchymal stem cells across a 3D Thai silk fibroin/gelatin/hydroxyapatite scaffold in a perfusion bioreactor. 2016. Materials Science and Engineering C 58 , 960-970.
Lerdchai, K., Kitsongsermthon, J., Ratanavaraporn, J., Kanokpanont, S., Damrongsakkul, S. Thai Silk Fibroin/Gelatin Sponges for the Dual Controlled Release of Curcumin and Docosahexaenoic Acid for Anticancer Treatment. 2016. Journal of Pharmaceutical Sciences 105 (1) , 221-230.
Thitiwuthikiat, P., Ii, M., Saito, T., Asahi, M., Kanokpanont, S., Tabata, Y. A vascular patch prepared from thai silk fibroin and gelatin hydrogel incorporating simvastatin-micelles to recruit endothelial progenitor cells. 2015. Tissue Engineering – Part A 21 (7-8) , 1309-1319.
Dararutana, C., Ratanavaraporn, J., Honsawek, S., Kanokpanont, S., Damrongsakkul, S. Characteristics and osteoconductivity of bone composite scaffolds made of Thai silk fibroin, gelatin and inorganic compounds: A comparative study of β-tricalcium phosphate and hydroxyapatite. 2015. Macromolecular Symposia 354 (1) , 258-264.
Ratanavaraporn, J., Kanokpanont, S., Damrongsakkul, S. The development of injectable gelatin/silk fibroin microspheres for the dual delivery of curcumin and piperine. 2014. Journal of Materials Science: Materials in Medicine 25 (2) , 401-410.
Sinthop, S., Patumraj, S., Kanokpanont, S. Development of gelatin-thai silk fibroin microspheres for three dimensional cell culture. 2014. Advanced Materials Research 931-932 , 200-204.
Amornsudthiwat, P., Mongkolnavin, R., Kanokpanont, S., Panpranot, J., Wong, C., Damrongsakkul, S. Improvement of early cell adhesion on Thai silk fibroin surface by low energy plasma. 2013. Colloids and Surfaces B: Biointerfaces 111 , 579-586.
Prasertsung, I., Kanokpanont, S., Mongkolnavin, R., Wong, C., Panpranot, J., Damrongsakkul, S. Comparison of the behavior of fibroblast and bone marrow-derived mesenchymal stem cell on nitrogen plasma-treated gelatin films. 2013. Materials Science and Engineering C 33 (7) , 4475-4479.
Kulpreechanan, N., Bunaprasert, T., Damrongsakkul, S., Kanokpanont, S., Rangkupan, R. Effect of polycaprolactone electrospun fiber size on L929 cell behavior. 2013. Advanced Materials Research 701 , 420-424.
Somvipart, S., Kanokpanont, S., Rangkupan, R., Ratanavaraporn, J., Damrongsakkul, S. Development of electrospun beaded fibers from Thai silk fibroin and gelatin for controlled release application. 2013. International Journal of Biological Macromolecules 55 , 176-184.
Vorrapakdee, R., Kanokpanont, S., Ratanavaraporn, J., Waikakul, S., Charoenlap, C., Damrongsakkul, S. Modification of human cancellous bone using Thai silk fibroin and gelatin for enhanced osteoconductive potential. 2013. Journal of Materials Science: Materials in Medicine 24 (3) , 735-744.
Kanokpanont, S., Damrongsakkul, S., Ratanavaraporn, J., Aramwit, P. An innovative bi-layered wound dressing made of silk and gelatin for accelerated wound healing. 2012. International Journal of Pharmaceutics 436 (1-2) , 141-153.
Prasertsung, I., Kanokpanont, S., Mongkolnavin, R., Wong, C., Panpranot, J., Damrongsakkul, S. Plasma enhancement of in vitro attachment of rat bone-marrow-derived stem cells on cross-linked gelatin films. 2012. Journal of Biomaterials Science, Polymer Edition 23 (11) , 1485-1504.
Thitiwuthikiat, P., Kanokpanont, S. Assessment of physical, mechanical and biological properties of thai silk fibroin vascular scaffold. 2012. Advanced Materials Research 506 , 381-384.
Yamdech, R., Aramwit, P., Kanokpanont, S. Stability of anthocyanin from mulberry extracts in alginate microspheres at high temperature. 2012. Advanced Materials Research 506 , 587-590.
Srisuk, P., Thongnopnua, P., Raktanonchai, U., Kanokpanont, S. Physico-chemical characteristics of methotrexate-entrapped oleic acid-containing deformable liposomes for in vitro transepidermal delivery targeting psoriasis treatment. 2012. International Journal of Pharmaceutics 427 (2) , 426-434.
Jetbumpenkul, P., Amornsudthiwat, P., Kanokpanont, S., Damrongsakkul, S. Balanced electrostatic blending approach – An alternative to chemical crosslinking of Thai silk fibroin/gelatin scaffold. 2012. International Journal of Biological Macromolecules 50 (1) , 7-13.
Kanokpanont, S., Damrongsakkul, S., Thitiwuthikiat, P. Biomedical application of Thai silks. 2011. BMEiCON-2011 – 4th Biomedical Engineering International Conference , 286-289.
Ratanavaraporn, J., Damrongsakkul, S., Kanokpanont, S., Yamamoto, M., Tabata, Y. Osteogenic differentiation of bone-marrow-derived stem cells cultured with mixed gelatin and chitooligosaccharide scaffolds. 2011. Journal of Biomaterials Science, Polymer Edition 22 (8) , 1083-1098.
Aramwit, P., Siritientong, T., Kanokpanont, S., Srichana, T. Formulation and characterization of silk sericin-PVA scaffold crosslinked with genipin. 2010. International Journal of Biological Macromolecules 47 (5) , 668-675.
Tungtasana, H., Shuangshoti, S., Shuangshoti, S., Kanokpanont, S., Kaplan, D., Bunaprasert, T., Damrongsakkul, S. Tissue response and biodegradation of composite scaffolds prepared from Thai silk fibroin, gelatin and hydroxyapatite. 2010. Journal of Materials Science: Materials in Medicine 21 (12) , 3151-3162.
Ratanavaraporn, J., Rangkupan, R., Jeeratawatchai, H., Kanokpanont, S., Damrongsakkul, S. Influences of physical and chemical crosslinking techniques on electrospun type A and B gelatin fiber mats. 2010. International Journal of Biological Macromolecules 47 (4) , 431-438.
Ratanavaraporn, J., Kanokpanont, S., Tabata, Y., Damrongsakkul, S. Modulation of in vitro attachment, proliferation and osteogenic differentiation of rat bone-marrow-derived stem cells using different molecular mass chitosans and their blends with gelatin. 2010. Journal of Biomaterials Science, Polymer Edition 21 (8-9) , 979-996.
Wareechuensook, M., Tabata, Y., Kanokpanont, S. Characteristics of cholesterol-grafted gelatin micelles. 2010. Advanced Materials Research 93-94 , 595-598.
Thitiwuthikiat, P., Aramwit, P., Kanokpanont, S. Effect of Thai silk sericin and its extraction methods on L929 mouse fibroblast cell viability. 2010. Advanced Materials Research 93-94 , 385-388.
Vachiraroj, N., Damrongsakkul, S., Kanokpanont, S. Gelatin/hydroxyapatite scaffolds: Studies on adhesion, growth and differentiation of Mesenchymal stem cells. 2010. Advanced Materials Research 93-94 , 121-124.
Aramwit, P., Kanokpanont, S., Nakpheng, T., Srichana, T. The effect of sericin from various extraction methods on cell viability and collagen production. 2010. International Journal of Molecular Sciences 11 (5) , 2200-2211.
Prasertsung, I., Mongkolnavin, R., Kanokpanont, S., Damrongsakkul, S. The effects of pulsed inductively coupled plasma (PICP) on physical properties and biocompatibility of crosslinked gelatin films. 2010. International Journal of Biological Macromolecules 46 (1) , 72-78.
Vachiraroj, N., Ratanavaraporn, J., Damrongsakkul, S., Pichyangkura, R., Banaprasert, T., Kanokpanont, S. A comparison of Thai silk fibroin-based and chitosan-based materials on in vitro biocompatibility for bone substitutes. 2009. International Journal of Biological Macromolecules 45 (5) , 470-477.
Tritanipakul, S., Kanokpanont, S., Kaplan, D., Damrongsakkul, S. Morphology and In Vitro Biocompatibility of Hydroxyapatite-Conjugated Gelatin/Thai Silk Fibroin Scaffolds. 2009. IFMBE Proceedings 23 , 1377-1380.
Prasertsung, I., Kanokpanont, S., Mongkolnavin, R., Damrongsakkul, S. The Effects of Pulse Inductively Coupled Plasma on the Properties of Gelatin. 2009. IFMBE Proceedings 23 , 1217-1219.
Ratanavaraporn, J., Kanokpanont, S., Tabata, Y., Damrongsakkul, S. Growth and osteogenic differentiation of adipose-derived and bone marrow-derived stem cells on chitosan and chitooligosaccharide films. 2009. Carbohydrate Polymers 78 (4) , 873-878.
Aramwit, P., Kanokpanont, S., De-Eknamkul, W., Srichana, T. Monitoring of inflammatory mediators induced by silk sericin. 2009. Journal of Bioscience and Bioengineering 107 (5) , 556-561.
Aramwit, P., Kanokpanont, S., De-Eknamkul, W., Kamei, K., Srichana, T. The effect of sericin with variable amino-acid content from different silk strains on the production of collagen and nitric oxide. 2009. Journal of Biomaterials Science, Polymer Edition 20 (9) , 1295-1306.
Chamchongkaset, J., Kanokpanont, S., Kaplan, D., Damrongsakkul, S. Modification of thai silk fibroin scaffolds by gelatin conjugation for tissue engineering. 2008. Advanced Materials Research 55-57 , 685-688.
Ratanavaraporn, J., Kanokpanont, S., Tabata, Y., Damrongsakkul, S. Effects of acid type on physical and biological properties of collagen scaffolds. 2008. Journal of Biomaterials Science, Polymer Edition 19 (7) , 945-952.
Prasertsung, I., Kanokpanont, S., Bunaprasert, T., Thanakit, V., Damrongsakkul, S. Development of acellular dermis from porcine skin using periodic pressurized technique. 2008. Journal of Biomedical Materials Research – Part B Applied Biomaterials 85 (1) , 210-219.