GOLD NANOPARTICLES: A PROMISING THERAPEUTIC APPROACH

Biomedical Reviews Pub Date : 2015-12-04 DOI:10.14748/BMR.V26.1541

H. Singh, Ashmeet Kaur, Ishpreet Kaur, H. Buttar, S. Bhullar

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引用次数: 4

Abstract

Nanotechnology is rapidly advancing and will leave no field untouched by its ground breaking innovations. Nanoparticles are molecules with a diameter ranging from 10-100 nm. Nanotechnology has promising biomedical applications and most noteworthy amongst them are noble metal particles. For instance, gold nanoparticles (AuNPs) provide a unique blend of physical and optical properties, chemical inertness, and high surface to volume ratio. They can be synthesized as well as functionalised to support various ligands on their surface. Their surface functionalization and diverse properties render the gold nanoparticles highly useful for drug delivery and gene carrier for therapeutic purposes and as molecular probes for disease diagnosis. The foundation for the usage of AuNPs in therapeutics and diagnosis was laid by the ancient studies done with ruby gold for curing diseases in middle ages. Presently, AuNPs have become available in different types such as spheres, rods, shells, cages and SERS particles which vary in shape, size and physical properties. The biomedical applications of these particles include drug and gene delivery, cancer diagnosis and therapy, determination of biological molecules and microorganisms, detection of disease etiology, immunoassay, enzyme immobilization, etc. Overall, the focus of this review is to highlight that AuNPs provide an excellent platform for the discovery of new therapies, cure for certain cancers, molecular probe for diagnostic purposes, as well as gene carriers and drug delivery vehicles. Biomed Rev 2015; 26: 23-36. Key words: gold nanoparticles, cancer treatment, drug delivery system, gold nanocarrier therapy

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金纳米颗粒:一种有前途的治疗方法

纳米技术正在迅速发展，其突破性的创新将使任何领域都受到影响。纳米颗粒是直径在10-100纳米之间的分子。纳米技术在生物医学上有很好的应用前景，其中最值得注意的是贵金属颗粒。例如，金纳米颗粒(AuNPs)具有独特的物理和光学性质、化学惰性和高表面体积比。它们可以被合成，也可以被功能化，以支持其表面的各种配体。它们的表面功能化和多样的性质使得金纳米颗粒在药物传递和基因载体治疗目的以及作为疾病诊断的分子探针方面非常有用。在治疗和诊断中使用aunp的基础是在中世纪用红宝石金治疗疾病的古代研究奠定的。目前，aunp已经有不同的类型，如球形、棒状、壳状、笼状和SERS颗粒，它们的形状、大小和物理性质各不相同。这些颗粒的生物医学应用包括药物和基因传递、癌症诊断和治疗、生物分子和微生物的测定、疾病病因检测、免疫测定、酶固定化等。总之，本综述的重点是强调aunp为新疗法的发现、某些癌症的治愈、诊断目的的分子探针以及基因载体和药物递送载体提供了一个很好的平台。Biomed Rev 2015;26: 23-36。关键词:金纳米粒子，癌症治疗，药物传递系统，金纳米载体治疗

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Biomedical Reviews

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