纳米热诊断和治疗系统

Habibe Kutuk, T. Karaduman
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引用次数: 0

摘要

纳米技术是在原子和分子水平上控制材料的科学。随着纳米材料用于诊断和治疗目的,分子纳米技术领域已经出现,使纳米电子生物传感器和个人医疗应用成为可能。药物靶向是纳米医学研究的重要领域之一。在药物靶向中,使用不同的靶向纳米载体。药物靶向的目的是将活性物质转运、吸收、分散到选择性部位。如果剂量率低于足够量或超过毒性水平,则可能发生不良影响。如今,药物载体纳米系统的使用,减少了活性成分的剂量,消除了这些意想不到的情况,延长了给药频率,净化了毒性作用,将活性成分分配到所需的区域。这些载体是携带各种药物或显像剂的材料。在本研究中,将讨论药物靶向和药物递送系统。为了将药物运送到体内特定或难以到达的部位,纳米载体是有针对性的,它们具有不同的药物或不同的结构。药物输送系统分为胶束、树突、脂质体、纳米颗粒和碳纳米管等不同的类别。需要使用有效的和合适的载体系统来有效地进入细胞。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nanothermic Systems for Diagnosis and Treatment
Nanotechnology is the science of controlling materials at the atomic and molecular levels. With the use of nanomaterials for diagnostic and therapeutic purposes, the field of molecular nanotechnology has emerged, enabling nanoelectronic biosensors and individual medical applications. One of the most important areas in nanomedicine is drug targeting. In drug targeting, different targeted nanocarriers are used. The aim of drug targeting is the transport, absorption dispersion of the active substance to the selective site. Undesirable effects may occur if the dose rate falls below a sufficient amount or exceeds the toxic level. Today, drug carrier nanosystems are used, reducing the dose of active ingredient to eliminate these unexpected situations, prolonging dosing frequency, purify toxic effects, distributes the active ingredient to the desired area. These carriers are materials which that carry a variety of drugs or imaging agents. In this study, drug targeting and drug delivery systems will be discussed. For transporting drugs to specific or difficult-to-reach sites in the body, nanocarriers are targeted, with various agents or differences in structure. Drug delivery systems are divided into various classes as micelles, dendrimers, liposomes, nanoparticles and carbon nanotubes. There is a need to use an effect ive and suitable carrier system for effective entry into the cell.
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