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引用次数: 71
摘要
本综述并不是对免疫测定法和液相色谱-质谱法的研究和发展进行总结,而是对应用于生物液体中生物分子定量测量的每种技术的优缺点进行简要总结。检测和定量生物分子的能力在20世纪给科学带来了革命性的变化,并一直持续到今天。例如,它使科学家能够开展研究以发现和验证生物标志物,但它在诊断应用中发挥了最突出的作用,用于监测人类样本中生物分子的存在和水平,以诊断和监测疾病,用于食品和饮料中确保食品安全和真实性,用于监测环境中地面、废物和饮用水中污染物的存在和水平。个性化或精准医疗的发展将伴随着对作为生物标志物的生物分子面板的检测和量化需求的增加,以及作为治疗或作为延迟或预防疾病发作的措施的一系列药物,遵循在正确的时间为正确的患者提供正确的药物,重要的是以正确的剂量。越来越多的健康和安全法规要求对食品、饮料和环境样本进行更多的检测。随着人们对生物分子检测和定量的需求不断增加,人们对高通量、低成本和更准确的结果提出了更高的要求。传统上,免疫测定法一直是生物分子检测和定量的首选技术。然而,在过去的二十年中,替代技术已被证明提供了免疫测定的补充作用。液相色谱-质谱(LC-MS)就是这样一种技术,在某些应用中,它已被证明是免疫测定的有力替代方法。随着各个领域对常规生物分子定量的需求不断增加,免疫分析是满足不断增加的通量、降低每个样品成本和提高准确性的最佳解决方案吗? JOURNAL of APPLIED BIOANALYSIS, 2016年10月,第108-116页。http://dx.doi.org/10.17145/jab.16.015 (ISSN 2405-710X)第二卷,第4期
This review is not intended as a summary of research and development of immunoassays and liquid chromatography-mass spectrometry but rather as a brief summary of the pros and cons of each technology applied to the quantitative measurement of biomolecules primarily in biofluids. The ability to detect and quantitate biomolecules revolutionised science in the twentieth century and continues to this day. It allows scientists, for example, to conduct research to find and validate biomarkers, but has found its most prominent role in diagnostic applications where it is used to monitor the presence and levels of biomolecules in human samples for the diagnosis and monitoring of disease, in food and beverages to ensure food safety and authenticity and in the environment to monitor the presence and levels of contaminants of ground, waste and drinking water. The growth in personalised or precision medicine will be accompanied by an increased need to detect and quantify panels of biomolecules as biomarkers, as well as a range of drugs taken as treatment or as a measure to delay or prevent onset of disease, following the paradigm of the right drug for the right patient at the right time and importantly at the right dose. Increased health and safety regulations demand more testing of food and beverage and environmental samples. With increasing need for biomolecule detection and quantitation comes the demand for high-throughput, lower cost per sample analysis and more accurate results. Traditionally, immunoassays have been the technology of choice for the detection and quantitation of biomolecules. However, over the past two decades alternative technologies have been shown to offer a complementary role to immunoassays. Liquid chromatography-mass spectrometry (LC-MS) is one such technology and for some applications has been shown to offer a powerful alternative to immunoassays. With the increasing demands for routine biomolecule quantitation coming from a broad range of fields, are immunoassays the best solution to keep pace with the increased throughput needed, demand for lower cost per sample and improved accuracy JOURNAL OF APPLIED BIOANALYSIS, October 2016, p. 108-116. http://dx.doi.org/10.17145/jab.16.015 (ISSN 2405-710X) Vol. 2, No. 4
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