Page 149 - วารสารกรมการแพทย์แผนไทยฯ ปีที่ 20 ฉบับที่ 1
P. 149

J Thai Trad Alt Med                                   Vol. 20  No. 1  Jan-Apr  2022  129




                4.  Tungmunnithum D, Kongsawadworakul P, Hano C. A   Agril Univ. 2019;17(4):476-82.
                  cosmetic perspective on the antioxidant flavonoids from     15.  Shilpi JA, Gray AI, Seidel V. Chemical constituents from
                  Nymphaea lotus L. Cosmetics. 2021;8(12):1-9.  Ludwigia adscendens. Biochemical systematics and
                5.  Thamlikitkul V. Thailand antimicrobial resistance con-  ecology. 2010;38(1):106-9.
                  tainment and prevention program. Bangkok: Division     16.  Ooh KF, Ong HC, Wong FC, Chai TT. HPLC profil-
                  of Infectious Diseases and Tropical Medicine, Faculty   ing of phenolic acids and flavonoids and evaluation
                  of Medicine Siriraj Hospital, Mahidol University; 2015.   of anti-lipoxygenase and antioxidant activities of
                  114 p. (in Thai)                            aquatic vegetable Limnocharis flava. Acta Pol Pharm.
                6.  Sritubtim S, Krapeedeang S, Wongsa N. Biological activi-  2015;72(5):973-9.
                  ties on growth inhibition of bacteria of medicinal plant     17.  Sruthi A, Panjikkaran ST, Aneena ER, Pathrose B,
                  extracts from plants found in the upper Northeastern   Mathew D. Insights into the composition of lotus rhi-
                  Thailand. SDU Res. J. 2014;7(1):21-39. (in Thai)  zome. Journal of Pharmacognosy and Phytochemistry.
                7.  Kim SY, Kang DH, Kim JK, Ha YG, Hwang JY, Kim T,   2019;8(3):3550-5.
                  Lee SH. Antimicrobial activity of plant extracts against     18.  Gad MH, Tuenter E, El-Sawi N, Younes S, El-Ghadban
                  Salmonella typhimurium, Escherichia coli 0157:H7, and   EM, Demeyer K, Pieters L, Heyden YV, Mangelings D.
                  Listeria monocytogenes on fresh lettuce. J Food Sci.   Identification of some bioactive metabolites in a frac-
                  2011;76(1):M41-6.                           tionated methanol extract from Ipomoea aquatica (aerial
                8.  Bunpatanasak S, Siriyota K. Bacterial pathogens causing   parts) through TLC, HPLC, UPLC-ESI-QTOF-MS and
                  food poisoning in health regions 2 and Phichit province   LC-SPE-NMR fingerprints analyses. Phytochem Anal.
                  in 2013-2017. Journal of Disease Prevention and Control:   2018;29(1):5-15.
                  DPC.2 Phitsanulok. 2019;6(1):1-15. (in Thai)    19.  Watanabe M, Miyashita T, Devkota HP. Phenolic
                9.  Pornsakda S, Plainsirichai M, Srisaeard K, Nakornreab   compounds and ecdysteroids of Diplazium esculentum
                  M, Laopraserd P, Vichitsoonthonkul T, Photchanachai   (Retz.) Sw. (Athyriaceae) from Japan and their chemo-
                  S. Effect of plate brush (Solanum torvum Sw.) crude   taxonomic significance. Biochemical Systematics and
                  extract on the inhibition of pathogenic bacteria (Esch-  Ecology. 2021;94:104211.
                  erichia coli, Staphylococcus aureus and Salmonella     20.  Hamdy SA, Hefnawy HM, Azzam SM, Aboutabl EA.
                  typhimurium). Agricultural Sci. J. 2010;41(3/1):573-6.   Chemical profiling, volatile oil analysis and anticholin-
                  (in Thai)                                   esterase activity of Hydrocotyle umbellata L. aerial parts
                10.  Jantanu S, Yuentrakul P, Jirapong C. Inhibition of Strep-  cultivated in Egypt. South African Journal of Botany.
                  tococcus pyogenes by edible film containing Moringa   2018;115:108-12.
                  oleifera Lam. extracts. Huachiew Chalermprakiet Sci     21.  Lee SY, Mediani A, Ismail IS, Maulidiani, Abas F. An-
                  Tech. 2016;2(2):20-7. (in Thai)             tioxidant and a-glucosidase inhibitors from Neptunia
                11.  Chahomchuen T, Siramon P. Antimicrobial activity of   oleracea fractions using 1H NMR-based metabolomics
                  crude extract from Rhizophora barks. King Mongkut’s   approach and UHPLC-MS/MS analysis. BMC Comple-
                  Agricultural Journal. 2019;37(2):212-20. (in Thai)  ment Altern Med. 2019;19(7):1-15.
                12.  Ratananikom K, Srikacha N, Khannaloa Y. Antibacte-    22.  Kathiresh M, Devi PS, Saravanakumar M. Bioactive
                  rial activity of Artocarpus lakoocha Roxb. crude extract   compounds in Sesbania sesban flower and its anti-
                  towards common human pathogens. J Thai Trad Alt   oxidant and antimicrobial activity. Journal of Pharmacy
                  Med. 2019;17(1):54-62. (in Thai)            Research. 2012;5(1):390-3.
                13.  Barman AK, Kha A, Sarkar KK, Dev S, Das AK, Biswas     23.  Anusiya G, Bharathi S, Mukesh PK, Sainandhini G.
                  NN. Antioxidant, antibacterial and toxicity studies of   Gowthama PU. Extraction and molecular character-
                  aerial parts of Ludwigia adscendens L. Khulna University   ization of biological compounds from water hyacinth.
                  Studies. 2018;15(1&2) 23-36.                Journal of Medicinal Plants Studies. 2020;8(5):14-9.
                14.  Aunjum A, Biswas R, Ullah MS, Billah MM, Islam ED,     24.  Ma’arif B, Agil M, Laswati H. Phytochemical assess-
                  Islam KD. Bioactivity analysis of Sarcolobus globosus   ment on n-hexane extract and fractions of Marsilea
                  Wall., a mangrove plant of the Sundarbans. J Bangladesh   crenata Presl. leaves through GC-MS. Trad. Med. J.
   144   145   146   147   148   149   150   151   152   153   154