Controllable Fabrication and Characterization of Gold Nanoparticles: Enhanced Therapeutic Approaches in Cancer

A. Ikram, Y. Jamil, Tahir Ahmad, H. Ikram, Amna Ameen, Soban Qayyum
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Abstract

Energy trans-ducting gold nano-particles, with well-being physical, chemical and optical properties for utilization in different types of cancer therapy can be prepared through chemical seed growth reduction method. Gold nano particle is a umbrella term have a variety of size and shape. More regular gold nano-particles can be obtained by reduction of HAuCl4, selection of chemicals and parameters of growth medium are set in accordance with the required category of nano-particles. Nano-particles have longest dimension of 100 nm. Therapeutic treatments like photo-imaging, gene delivery, drug delivery, cell labeling and photo thermal therapy   can be done by gold nano particles.  They reduce the side effects of conventional therapy due to high target specificity and absorb and scatter specific wavelength of laser. Hyperthermia in cancerous cells is generated without damaging surrounding healthy tissues, cause the cell death by necrosis and apoptosis. The overall morphology of gold nano particles can be characterized by SEM and TEM.
金纳米颗粒的可控制备和表征:增强癌症治疗方法
通过化学种子生长还原法制备了具有良好物理、化学和光学性能的能量传导金纳米粒子,可用于不同类型的癌症治疗。金纳米粒子是具有多种尺寸和形状的总称。通过还原HAuCl4可以得到更规则的金纳米颗粒,根据所需的纳米颗粒类别选择化学药剂和生长介质参数。纳米粒子的最长尺寸为100纳米。像照片成像、基因传递、药物传递、细胞标记和光热治疗等治疗方法都可以用金纳米粒子来完成。由于靶特异性高,吸收和散射特定波长的激光,减少了常规治疗的副作用。在不损害周围健康组织的情况下,癌细胞产生热疗,导致细胞坏死和凋亡。利用扫描电镜(SEM)和透射电镜(TEM)对纳米金颗粒的整体形貌进行了表征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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