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第 2 期苏捷等：腹泻性贝类毒素免疫荧光层析快速检测卡的测试与分析 261

tion in China[J]. World Agriculture, 2023(3): 108 − 119. 杂志，2023，35（8）：1231 − 1234.
［ 5 ］齐占会，史荣君，于宗赫，等. 滤食性贝类养殖对浮 Chen J Z, Hong S P, Zhang J H, et al. Investigation into
游生物的影响研究进展 [J]. 南方水产科学，2021， an outbreak of suspected shellfish poisoning caused by
17（3）：115 − 121. consuming Bullacta exarata[J]. Chinese Journal of Food
Qi Z H, Shi R J, Yu Z H, et al. Review of influences of Hygiene, 2023, 35(8): 1231 − 1234.
filter-feeding bivalves aquaculture on planktonic com- ［13］ Wang Y F, Javeed A, Jian C Q, et al. Precautions for
munity[J]. South China Fisheries Science, 2021, 17(3): seafood consumers: an updated review of toxicity, bioac-
115 − 121. cumulation, and rapid detection methods of marine bi-
［ 6 ］胡乐彬，范妮妮，蔡帅，等. 长牡蛎贝壳损伤后的再固 otoxins[J]. Ecotoxicology and Environmental Safety,
着能力初探 [J]. 海洋通报，2023，42（2）：173 − 181. 2024, 274: 116201.
Hu L B, Fan N N, Cai S, et al. Preliminary study on re- ［14］杜伟，张晓辉，孔蕾，等. 小鼠生物法与 ELISA 法对
settlement ability of the Pacific oyster, Crassostrea gigas 腹泻性贝类毒素的检测比较 [J]. 浙江农业科学，
after shell damage[J]. Marine Science Bulletin, 2023, 2020，61（10）：2132 − 2135.
42(2): 173 − 181. Du W, Zhang X H, Kong L, et al. Comparison on detec-
［ 7 ］ Reguera B, Riobó P, Rodríguez F, et al. Dinophysis tox- tion of diarrhetic shellfish poisoning by mouse bioassay
ins: causative organisms, distribution and fate in shell- and ELISA[J]. Journal of Zhejiang Agricultural Sci-
fish[J]. Marine Drugs, 2014, 12(1): 394 − 461. ences, 2020, 61(10): 2132 − 2135.
［ 8 ］朱洁，徐汇镔，陆荣茂，等. 双壳贝类腹泻性贝毒抗［15］ Ochi N, Suzuki T. Determination of lipophilic marine bi-
性机制及其去除方法研究进展 [J]. 浙江农业科学， otoxins (azaspiracids, brevetoxins, and okadaic acid
2023，64（6）：1393 − 1398. group) and domoic acid in mussels by solid-phase ex-
Zhu J, Xu H B, Lu R M, et al. Study on resistance mech- traction and reversed-phase liquid chromatography with
anisms and detoxification of diarrheal shellfish poison- tandem mass spectrometry[J]. Journal of Chromatogra-
ing in bivalves[J]. Journal of Zhejiang Agricultural Sci- phy A, 2024, 1720: 464795.
ences, 2023, 64(6): 1393 − 1398. ［16］ Zhou Y S, Wang J N, Wu B L, et al. Rapid determina-
［ 9 ］张锦宏，王莉冰，邹文旺，等. 漳州市 2018—2023 年 tion of furazolidone residues in animal foods by time-re-
海洋生物毒素监测结果 [J]. 海峡预防医学杂志， solved fluorescence immunochromatography[J]. Food
2024，30（1）：5 − 8. Chemistry, 2024, 445: 138711.
Zhang J H, Wang L B, Zou W W, et al. Monitoring res- ［17］ Pan X M, Yang Y L, Li H M, et al. Development of
ults of marine biotoxin in Zhangzhou City, 2018— time-resolved fluorescence immunochromatography and
2023[J]. Strait Journal of Preventive Medicine, 2024, ic-ELISA based on monoclonal antibodies specifically
30(1): 5 − 8. recognizing fumonisin B 1 [J]. Food Bioscience, 2024,
［10］贺娇，孙金芳，杨欣，等. 我国沿海地区市售贝类腹 59: 104131.
泻性贝类毒素污染及膳食暴露的空间分析 [J]. 中国［18］王雪琦. 时间分辨免疫荧光层析法检测总 IgE 的研

食品卫生杂志，2023，35（8）：1166 − 1173. 究 [D]. 天津：天津科技大学，2023.
He J, Sun J F, Yang X, et al. Spatial analysis of diarrhet- Wang X Q. Time-resolved immunofluorescence chroma-
ic shellfish poison contamination and dietary exposure of tography for the detection of total IgE[D]. Tianjin:
commercially available shellfish in coastal areas of Tianjin University of Science and Technology, 2023.
China[J]. Chinese Journal of Food Hygiene, 2023, ［19］ Huang J Y, Chen C C, Liang H K, et al. Development of
35(8): 1166 − 1173. a fluorescence immunochromatography method for quan-
［11］ Estévez J, Estevan-Martínez C, Vilanova E, et al. Okada- titative measurement of matrix metalloproteinase-9[J].
ic acid[M]//Wexler P. Encyclopedia of toxicology. 4th Practical Laboratory Medicine, 2024, 38: e00356.
ed. Amsterdam: Academic Press, 2024: 99 − 105. ［20］ Yang X S, Cheng X D, Tu Z J, et al. PDA-mediated col-
［12］陈锦钟，洪舒萍，张锦宏，等. 一起食用泥螺引起的 orimetric-fluorescence co-enhanced immunochromato-
疑似贝类毒素中毒暴发事件调查 [J]. 中国食品卫生 graphy assay for the simultaneous and rapid detection of

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