纳米科学在诊断学中的应用综述

G. Menezes, Priyadharshini S Menezes, Cylma Menezes
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引用次数: 5

摘要

纳米科学处于快速发展的纳米技术领域的前沿。纳米科学和纳米技术正在改变一系列广泛的产品和服务,这些产品和服务有可能加强医学实践并改善公共卫生。医疗保健的几个领域已经从纳米技术所能提供的优势中获益。纳米科学的应用领域包括生物技术、医学、制药、物理、材料科学和电子学。纳米技术将分子诊断的极限扩展到纳米尺度。纳米芯片技术是微流控/芯片实验室技术的又一个维度。我们仍然患有严重而复杂的疾病,如癌症、心血管疾病、多发性硬化症、阿尔茨海默病和帕金森病、糖尿病,以及各种严重的炎症或传染病(如艾滋病毒)。以适当的手段面对这些疾病是极其重要的。纳米科学与生物医学之间的相互作用是当今世界科学研究的标志。纳米科学的应用可能为提高医学诊断和治疗的有效性和效率开辟新的前景,即所谓的纳米医学。一个吸引人的例子是使用量子点作为荧光标签。尽管最近癌症的治疗取得了进展,但大多数病例仍然是在肿瘤转移后才被诊断出来的,这使得患者的预后很糟糕。纳米技术在改变癌症诊断和产生具有更高灵敏度和识别精度的新一代生物传感器和医学成像技术方面具有独特的地位。新的纳米技术可以补充和增强现有的基因组和蛋白质组学技术,用于分析不同肿瘤类型的变异,从而提供区分正常细胞和恶性细胞的潜力。这篇简短的综述试图重申应用纳米科学领域的最新发展,特别是它们在各种疾病诊断中的相关性,并讨论它们的未来前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nanoscience in diagnostics: A short review
Nanoscience is at the leading edge of the rapidly developing field of nanotechnology. Nanosciences and nanotechnology are transforming a wide array of products and services that have the potential to enhance the practice of medicine and improve public health. Several areas of medical care are already benefiting from the advantages that nanotechnology can offer. Applications of nanoscience are in biotechnology, medicine, pharmaceuticals, physics, material science and also electronics. Nanotechnology extends the limits of molecular diagnostics to the nanoscale. Nanotechnology on a chip is one more dimension of microfluidic/lab on a chip technology. We still suffer serious and complex illnesses like cancer, cardiovascular diseases, multiple sclerosis, Alzheimer’s and Parkinson’s disease, and diabetes as well as different kinds of serious inflammatory or infectious diseases (e.g. HIV). It is of extreme importance to face these diseases with appropriate means. The interplay between nanoscience and biomedicine is the hallmark of current scientific research worldwide. The use of nanoscience may open new vistas of improving the effectiveness and efficiency of medical diagnosis and therapeutics, so called nanomedicine. An appealing example is the use of quantum dots as fluorescent labels. Despite recent progress in the treatment of cancer, the majority of cases are still diagnosed only after tumors metastasize, leaving the patient with a grim prognosis. Nanotechnology is in a unique position to transform cancer diagnostics and to produce a new generation of biosensors and medical imaging techniques with higher sensitivity and precision of recognition. Novel nanotechnologies can complement and augment existing genomic and proteomic techniques employed to analyze variations across different tumor types, thus offering the potential to distinguish between normal and malignant cells. This brief review tries to reiterate the most contemporary developments in the field of applied nanoscience, particularly in their relevance in diagnosis of various diseases and discuss their future prospects.
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