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金属辅助与微波加速脱晶:一种治疗晶体沉积疾病的潜在替代方法。

Metal-Assisted and Microwave-Accelerated Decrystallization: An Alternative Approach to Potential Treatment of Crystal Deposition Diseases.

作者信息

Thompson Nishone, Kukoyi Zainab Boone, Lansiquot Carisse, Toker Salih, Kioko Bridgit, Ajifa Hillary, Nwawulu Chinenye, Daodu Oluseyi, Aslan Kadir

机构信息

Department of Civil Engineering, Morgan State University, USA.

出版信息

Clin Arch Bone Jt Dis. 2017;1(1). doi: 10.23937/cabjd-2017/1710002. Epub 2017 Oct 13.

DOI:10.23937/cabjd-2017/1710002
PMID:33834175
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8025928/
Abstract

Gout is a painful and prevalent crystal deposition disease caused by the overproduction of Uric Acid (UA) in the body and the atypical deposition in human synovial joints as Monosodium Urate Monohydrate (MSUM). Conventional treatments, such as NSAIDs, cyclooxygenase-2 inhibitors, and systemic glucocorticoids often present harmful side-effects and are short-lived. Long-term therapies including xanthine oxidase inhibitors and the use of uricosuric agents have been developed and aim to lower the UA serum levels in the body. As regards to post-crystals deposition, our research laboratory recently proposed and demonstrated the use of the Metal-Assisted and Microwave-Accelerated Decrystallization (MAMAD) technique for the breakdown of organic and biological crystals on planar surfaces. The MAMAD technique is based on the combined use of microwave heating and Au NPs in solution. The interactions of the Au NPs with microwave's electromagnetic field result in an increase in the kinetic energy of Au NPs, and subsequently, an increase in the collisions with target crystals placed on planar surfaces leading to rapid crystal breakdown. In this regard, our laboratory aims to develop the MAMAD technique as an alternative treatment for crystal deposition diseases, particularly gout, with minimal invasion and side-effects as compared to current treatments. In this review article, we will summarize our previous findings and provide additional data detailing the effectiveness of the MAMAD technique as a rapid and efficient method for the breakdown of gout related crystals and L-alanine crystals (a model crystal).

摘要

痛风是一种疼痛且常见的晶体沉积疾病,由体内尿酸(UA)产生过多以及尿酸单钠一水合物(MSUM)在人体滑膜关节中非典型沉积所致。传统治疗方法,如非甾体抗炎药、环氧化酶 - 2抑制剂和全身糖皮质激素,常常存在有害副作用且效果短暂。已开发出包括黄嘌呤氧化酶抑制剂和使用促尿酸排泄剂在内的长期疗法,旨在降低体内血清尿酸水平。关于晶体沉积后,我们的研究实验室最近提出并证明了使用金属辅助和微波加速脱结晶(MAMAD)技术来分解平面表面上的有机和生物晶体。MAMAD技术基于溶液中微波加热和金纳米颗粒(Au NPs)的联合使用。Au NPs与微波电磁场的相互作用导致Au NPs动能增加,随后,与放置在平面表面上的目标晶体的碰撞增加,从而导致晶体快速分解。在这方面,我们实验室旨在将MAMAD技术开发为晶体沉积疾病,特别是痛风的替代治疗方法,与当前治疗相比,其侵入性和副作用最小。在这篇综述文章中,我们将总结我们之前的研究结果,并提供更多数据,详细说明MAMAD技术作为一种快速有效的方法分解痛风相关晶体和L - 丙氨酸晶体(一种模型晶体)的有效性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e959/8025928/3af5f4cefc66/nihms-1052436-f0011.jpg
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Molecules. 2016 Oct 18;21(10):1388. doi: 10.3390/molecules21101388.
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2015 年痛风分类标准:美国风湿病学会/欧洲抗风湿病联盟合作倡议。
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Regulation of uric acid metabolism and excretion.尿酸代谢与排泄的调节。
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