รศ. ดร.อดิศรี เจริญพานิช
Assoc. Prof. Dr.Adisri Charoenpanich
CONTACT
charoenpanich_a@silpakorn.edu
EDUCATION
DOCTOR DEGREE
PhD. (Biomedical Engineering) from joint department of Biomedical Engineering at University of North Carolina, Chapel hill and North Carolina State University, USA (2556)
MASTER DEGREE
Master of Science (Biomedical Engineering) from joint department of Biomedical Engineering at University of North Carolina, Chapel hill and North Carolina State University, USA (2553)
EXPERTISE
Cell biology. Utilization of in vitro cells culture for analyzes of natural derived products, or synthetic chemicals.
RESEARCH
1. สารออกฤทธิ์ทางชีวภาพต่อการพัฒนาของเซลล์ต้นกำเนิดไปเป็นเนื้อเยื่อไขมันและเนื้อเยื่อกระดูก หรือฤทธิ์ในการต้านเซลล์มะเร็ง
2. ความเป็นพิษของไมโครพลาสติก ต่อเซลล์เยื่อบุผิวผนังลำไส้
3. เซนเซอร์เรืองแสง ในการตรวจวัดไอออนในเนื้อเยื่อพืช และเซลล์คน
2. ความเป็นพิษของไมโครพลาสติก ต่อเซลล์เยื่อบุผิวผนังลำไส้
3. เซนเซอร์เรืองแสง ในการตรวจวัดไอออนในเนื้อเยื่อพืช และเซลล์คน
JOURNAL PUBLICATION
1. Praikaew, P., Roongcharoen, T., Charoenpanich, A., Kungwan, N., & Wanichacheva, N. (2020). Near-IR aza-BODIPY-based probe for the selective simultaneous detection of Cu2+ in aqueous buffer solutions and its application in biological samples. Journal of Photochemistry and Photobiology A: Chemistry, 112641.
2. Petdum, A., Faichu, N., Sirirak, J., Khammultri, P., Promarak, V., Panchan, W., Sooksimuang, T., Charoenpanich, A. and Wanichacheva, N. (2020). [5] Helicene-rhodamine 6 G hybrid-based sensor for ultrasensitive Hg2+ detection and its biological applications. Journal of Photochemistry and Photobiology A: Chemistry, p.112473.
3. Praikaew, P., Maniam, S., Charoenpanich, A., Sirirak, J., Promarak, V., Langford, S.J., & Wanichacheva, N. (2019). Water-soluble Cu2+-fluorescent sensor based on core-substituted naphthalene diimide and its application in drinking water analysis and live cell imaging. Journal of Photochemistry and Photobiology A: Chemistry, 382, 111852. (ISI)
4. Kraithong, S., Panchan, W., Charoenpanich, A., Sirirak, J., Sahasithiwat, S., Swanglap, P., Promarak, V., Thamyongkit, P. & Wanichacheva, N. (2019). A method to detect Hg2+ in vegetable via a “Turn–ON” Hg2+–Fluorescent sensor with a nanomolar sensitivity. Journal of Photochemistry and Photobiology A: Chemistry, 112224. (ISI)
5. Rattanopas, S., Piyanuch, P., Wisansin, K., Charoenpanich, A., Sirirak, J., Phutdhawong, W., & Wanichacheva, N. (2019). Indole-based fluorescent sensors for selective sensing of Fe2+ and Fe3+ in aqueous buffer systems and their applications in living cells. Journal of Photochemistry and Photobiology A: Chemistry, 377, 138-148. (ISI)
6. Jarutikorn, S., Kraithong, S., Sirirak, J., Panchan, W., Sooksimuang, T., & Charoenpanich, A. (2019). Environmentally Friendly Ag+ Detection of “Turn-on” Fluorescent Sensor with a Mega-Stokes Shift and Its Application in Biological Systems. Oriental Journal of Chemistry, 35(3), 1227-1234. (ISI)
7. Obsuwan, K., Tharapan, S., Thepsithar, C., & Charoenpanich, A. (2019). Effect of polysaccharides on enhance growth of Dendrobium officinale Kimura & Migo cultured in vitro. In 3rd ISAT 2019 and 17th ISBB 2019 Harmonization of smart and sustainable agriculture. pp 100-105.
8. Sakunkaewkasem, S., Petdum, A., Panchan, W., Sirirak, J., Charoenpanich, A., Sooksimuang, T., & Wanichacheva, N. (2018). Dual-analyte fluorescent sensor based on [5] helicene derivative with super large stokes shift for the selective determinations of Cu2+ or Zn2+ in buffer solutions and its application in a living cell. ACS sensors, 3(5), 1016-1023. (ISI)
9. Kaewnok, N., Petdum, A., Sirirak, J., Charoenpanich, A., Panchan, W., Sahasithiwat, S., & Wanichacheva, N. (2018). Novel Cu 2+-specific “Turn-ON” fluorescent probe based on [5] helicene with very large Stokes shift and its potential application in living cells. New Journal of Chemistry, 42(7), 5540-5547. (ISI)
10. Kraithong, S., Sangsuwan, R., Worawannotai, N., Sirirak, J., Charoenpanich, A., Thamyongkit, P., & Wanichachewa, N. (2018). Triple detection modes for Hg2+ sensing based on a NBD-fluorescent and colorimetric sensor and its potential in cell imaging. New Journal of Chemistry, 42(15), 12412-12420. (ISI)
11. Charoenpanich, A., Bodle, J., & Loboa, E. (2017). The role of cyclic tensile strain on osteogenesis and angiogenesis in human mesenchymal stem/ stromal cells. In The biology and therapeutic application of mesenchymal cells (First edition). John Willey & Son, Inc
12. Tachapermpon, Y., Thavornpradit, S., Charoenpanich, A., Sirirak, J., Burgess, K., & Wanichacheva, N. (2017). Near-infrared aza-BODIPY fluorescent probe for selective Cu2+ detection and its potential in living cell imaging. Dalton Transactions, 46(46), 16251-16256. (ISI)
13. Tachapermpon, Y., Chaneam, S., Charoenpanich, A., Sirirak, J., & Wanichacheva, N. (2017). Highly Cu 2+-sensitive and selective colorimetric and fluorescent probes: Utilizations in batch, flow analysis and living cell imaging. Sensors and Actuators B: Chemical, 241, 868-878. (ISI)
14. Tungkasen H., Yoomak S., Jaidee S., Phetchrid S., Sengsai S., Charoenpanich A., & Areekijseree M. (2016). Characterizing the oocytes and protein patterns of small and medium porcine follicles”. In Proceedings of the Burapha University International Conference 2016. Chonburi, Thailand.
15. Charoenpanich, A., Sangthong, T., Gumlungpat, N., & Vejaratpimol, R. (2016). A Comparative Cytotoxicity Analysis of Cadmium Chloride on Three Mammalian Cell Lines: L929, BHK21, and HepG2 with Trypan Blue, Neutral Red, MTT, Clonogenic, and Micronucleus Assays. In Proceedings of the 2nd Environment and Natural Resource International Conference (pp. 10-16). Phra Nakhon Si Ayutthaya, Thailand,.
16. Charoenpanich, A., Bodle, J., & Loboa, E. (2016). The role of cyclic tensile strain on osteogenesis and angiogenesis in human mesenchymal stem/stromal cells, in The Biology and Therapeutic Application of Mesenchymal. Cells (ed K. Atkinson), John Wiley & Sons, Inc., Hoboken, NJ, USA. ISBN doi: 10.1002/9781118907474.ch17
2. Petdum, A., Faichu, N., Sirirak, J., Khammultri, P., Promarak, V., Panchan, W., Sooksimuang, T., Charoenpanich, A. and Wanichacheva, N. (2020). [5] Helicene-rhodamine 6 G hybrid-based sensor for ultrasensitive Hg2+ detection and its biological applications. Journal of Photochemistry and Photobiology A: Chemistry, p.112473.
3. Praikaew, P., Maniam, S., Charoenpanich, A., Sirirak, J., Promarak, V., Langford, S.J., & Wanichacheva, N. (2019). Water-soluble Cu2+-fluorescent sensor based on core-substituted naphthalene diimide and its application in drinking water analysis and live cell imaging. Journal of Photochemistry and Photobiology A: Chemistry, 382, 111852. (ISI)
4. Kraithong, S., Panchan, W., Charoenpanich, A., Sirirak, J., Sahasithiwat, S., Swanglap, P., Promarak, V., Thamyongkit, P. & Wanichacheva, N. (2019). A method to detect Hg2+ in vegetable via a “Turn–ON” Hg2+–Fluorescent sensor with a nanomolar sensitivity. Journal of Photochemistry and Photobiology A: Chemistry, 112224. (ISI)
5. Rattanopas, S., Piyanuch, P., Wisansin, K., Charoenpanich, A., Sirirak, J., Phutdhawong, W., & Wanichacheva, N. (2019). Indole-based fluorescent sensors for selective sensing of Fe2+ and Fe3+ in aqueous buffer systems and their applications in living cells. Journal of Photochemistry and Photobiology A: Chemistry, 377, 138-148. (ISI)
6. Jarutikorn, S., Kraithong, S., Sirirak, J., Panchan, W., Sooksimuang, T., & Charoenpanich, A. (2019). Environmentally Friendly Ag+ Detection of “Turn-on” Fluorescent Sensor with a Mega-Stokes Shift and Its Application in Biological Systems. Oriental Journal of Chemistry, 35(3), 1227-1234. (ISI)
7. Obsuwan, K., Tharapan, S., Thepsithar, C., & Charoenpanich, A. (2019). Effect of polysaccharides on enhance growth of Dendrobium officinale Kimura & Migo cultured in vitro. In 3rd ISAT 2019 and 17th ISBB 2019 Harmonization of smart and sustainable agriculture. pp 100-105.
8. Sakunkaewkasem, S., Petdum, A., Panchan, W., Sirirak, J., Charoenpanich, A., Sooksimuang, T., & Wanichacheva, N. (2018). Dual-analyte fluorescent sensor based on [5] helicene derivative with super large stokes shift for the selective determinations of Cu2+ or Zn2+ in buffer solutions and its application in a living cell. ACS sensors, 3(5), 1016-1023. (ISI)
9. Kaewnok, N., Petdum, A., Sirirak, J., Charoenpanich, A., Panchan, W., Sahasithiwat, S., & Wanichacheva, N. (2018). Novel Cu 2+-specific “Turn-ON” fluorescent probe based on [5] helicene with very large Stokes shift and its potential application in living cells. New Journal of Chemistry, 42(7), 5540-5547. (ISI)
10. Kraithong, S., Sangsuwan, R., Worawannotai, N., Sirirak, J., Charoenpanich, A., Thamyongkit, P., & Wanichachewa, N. (2018). Triple detection modes for Hg2+ sensing based on a NBD-fluorescent and colorimetric sensor and its potential in cell imaging. New Journal of Chemistry, 42(15), 12412-12420. (ISI)
11. Charoenpanich, A., Bodle, J., & Loboa, E. (2017). The role of cyclic tensile strain on osteogenesis and angiogenesis in human mesenchymal stem/ stromal cells. In The biology and therapeutic application of mesenchymal cells (First edition). John Willey & Son, Inc
12. Tachapermpon, Y., Thavornpradit, S., Charoenpanich, A., Sirirak, J., Burgess, K., & Wanichacheva, N. (2017). Near-infrared aza-BODIPY fluorescent probe for selective Cu2+ detection and its potential in living cell imaging. Dalton Transactions, 46(46), 16251-16256. (ISI)
13. Tachapermpon, Y., Chaneam, S., Charoenpanich, A., Sirirak, J., & Wanichacheva, N. (2017). Highly Cu 2+-sensitive and selective colorimetric and fluorescent probes: Utilizations in batch, flow analysis and living cell imaging. Sensors and Actuators B: Chemical, 241, 868-878. (ISI)
14. Tungkasen H., Yoomak S., Jaidee S., Phetchrid S., Sengsai S., Charoenpanich A., & Areekijseree M. (2016). Characterizing the oocytes and protein patterns of small and medium porcine follicles”. In Proceedings of the Burapha University International Conference 2016. Chonburi, Thailand.
15. Charoenpanich, A., Sangthong, T., Gumlungpat, N., & Vejaratpimol, R. (2016). A Comparative Cytotoxicity Analysis of Cadmium Chloride on Three Mammalian Cell Lines: L929, BHK21, and HepG2 with Trypan Blue, Neutral Red, MTT, Clonogenic, and Micronucleus Assays. In Proceedings of the 2nd Environment and Natural Resource International Conference (pp. 10-16). Phra Nakhon Si Ayutthaya, Thailand,.
16. Charoenpanich, A., Bodle, J., & Loboa, E. (2016). The role of cyclic tensile strain on osteogenesis and angiogenesis in human mesenchymal stem/stromal cells, in The Biology and Therapeutic Application of Mesenchymal. Cells (ed K. Atkinson), John Wiley & Sons, Inc., Hoboken, NJ, USA. ISBN doi: 10.1002/9781118907474.ch17