首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 109 毫秒
1.
聚合物囊泡是近年来新兴的一种自组装软性纳米材料。由于其优越的理化性质,聚合物囊泡已经受到了巨大的关注并且已经被利用在多个领域。文章综述了聚合物囊泡作为药物投递载体进行小分子化合物给药治疗肿瘤和反义核酸投递进行基因治疗;模拟细胞功能重建了ATP合成过程及模拟体内三酶偶联反应过程;作为近红外荧光探针在活体深层组织荧光成像技术等生物医学领域中的应用。  相似文献   

2.
随着纳米技术的发展及其在生物医学等交叉领域的不断深入,纳米医学进入了空前繁盛的时代.基于有机、无机以及杂化纳米颗粒的多样化发展,具有独特物理化学性质的纳米制剂在疾病的诊断、治疗、生物成像等多个方面具有广泛的应用.纳米药物的发展也已迈入了新的阶段.通过材料创新、表面修饰、结构设计、新型仿生材料研制、内源性纳米囊泡提取等多...  相似文献   

3.
纳米技术应用于药物载体的研究一直是近年生物医学所关注的热点。纳米药物载体在实现靶向性给药、缓释药物、提高难溶性药物与多肽药物的生物利用度、降低药物的毒副作用等方面表现出明显的优势。本文就近些年常见的纳米载药体的种类及其特性、常用制备方法、靶向治疗方面的研究进行综述,并对未来发展前景进行展望。  相似文献   

4.
硅藻是一类微小的单细胞藻类,具有由无定形氧化硅组成的坚硬细胞壁(硅壳).硅壳具有精致的形态和结构,且随硅藻种类和生长条件不同而千变万化.目前估算的硅藻种类超过200 000种,其独特的纳米结构对光子结构、化学生物传感器、新纳米材料和器件的开发具有启发意义.同时硅藻形态形成学和分子生物学的研究,可以推动硅质材料的仿生合成...  相似文献   

5.
树枝状聚合物在生物医学领域的应用进展   总被引:6,自引:0,他引:6  
树枝状聚合物是一种人工合成的新型纳米材料 ,以其独特的结构和性能在生物医学领域受到了日益广泛的关注。作为一种新型非生物载体 ,其安全、高效、无毒 ,在药物输送、基因转移和医疗诊断等方面具有广阔的应用前景。  相似文献   

6.
磁性纳米生物材料在医学上的应用   总被引:4,自引:0,他引:4  
磁性纳米生物材料因其独特的性能而具有广泛的应用价值,尤其在肿瘤治疗,细胞及生物分子的分离纯化,临床诊断和组织工程领域,给人类疾病的治疗带来了新的契机和希望。本文介绍和评估了国内外纳米磁粒在医学应用上的进展,并展望了其未来。  相似文献   

7.
磁医学是生物磁学在医学上应用的新兴科学。当前磁医学应用最普遍、最活跃。最主要内容是磁场疗法简称磁疗。磁疗是我国的中医学、现代生物医学与现代物理学、生物磁学相结合而发展起来的一种自然疗法。它是针对不同的疾病将不同类型的磁场恒磁场、旋磁场、交变磁场、脉冲磁场、综合磁场等加到患病部位或人体经络系统、穴位上,利用磁场的生物效应治病的一种理疗方法。据《史记》记载:“扁鹊曰:阳石以治阴病,阴石以治阳病。”目前磁疗五行针治病,已有数十项科研实验,1000余例临床观察,2000万户医疗实践证明对各种疾病以及某些…  相似文献   

8.
近40年来,金属纳米材料发展迅猛,因其不同于宏观晶体的特殊性质,逐渐在各行业中起到了不可或缺的作用。当下人类面临资源、环境等日益严重的生态问题,因此金属纳米材料与生物学结合的绿色生态模式是大势所趋。本文重点综述了利用各种植物提取物、微生物以及蛋白质等生物材料作为还原剂,制备金属以及金属氧化物纳米材料的生物化学绿色合成方法。这些方法操作简单,制备的材料形貌尺寸不会产生太大变化。除此之外,生物材料的特定结构与金属纳米材料结合,通常会表现出协同或者新的理化和生理性能,以至于这些金属纳米材料在光热治疗及生物成像、抑菌及康复治愈和生物传感器及检测等生物医学领域产生了重大影响。金属纳米材料的生物化学制备会给未来纳米材料和生物学领域带来更多的交叉,会有更多跨学科工作者对其现存挑战来进行努力工作,并且在未来的医疗领域定会有金属纳米材料不可或缺的身影。  相似文献   

9.
虽然合成生物学还处于早期研究阶段,但最近十年,该领域取得了非常显著的研究进展。合成生物学是以工程学思想为基础,通过人工设计、改造基因线路,从而赋予细胞或生物体新的功能,现已广泛应用于各个领域。随着人们对基因线路设计的深入研究,使得合成生物学研究走向临床应用成为可能。本文将围绕哺乳动物合成生物学在疾病治疗方面的研究进展,介绍基因线路的设计思路和方法、不同诱导因子调控的开环式基因线路以及用于疾病诊疗的闭环式基因环路在生物医学领域的应用。最后对合成生物学走向临床治疗的应用前景和挑战进行展望。  相似文献   

10.
硒是生物体不可缺少的微量元素之一,具有重要的生物学功能,但它在功能性和毒性之间的浓度阈值非常窄.纳米硒由于其良好的性能、独特的生物活性以及在营养补充剂和纳米医学应用中的潜力而备受关注.纳米硒作为一种特殊的硒补充剂,具有良好的生物相容性、低毒性、高生物活性等特征.本文简要综述了纳米硒的制备方法,介绍了纳米硒在抗氧化、抗菌...  相似文献   

11.
    
Phototrophic cell or tissue cultures can produce nanostructured noble metals, oxides and chalcogenides at ambient temperatures and pressures in an aqueous environment and without the need for potentially toxic solvents or the generation of dangerous waste products. These “green” synthesized nanobiomaterials can be used to fabricate biosensors and bio-reporting tools, theranostic vehicles, medical imaging agents, as well as tissue engineering scaffolds and biomaterials. While successful at the lab and experimental scales, significant barriers still inhibit the development of higher capacity processes. While scalability issues in traditional algal bioprocess engineering are well known, such as the controlled delivery of photons and gas-exchange, the large-scale algal synthesis of nanomaterials introduces additional parameters to be understood, i.e., nanoparticle (NP) formation kinetics and mechanisms, biological transport of metal cations and the effect of environmental conditions on the final form of the NPs. Only after a clear understanding of the kinetics and mechanisms can the strain selection, photobioreactor type, medium pH and ionic strength, mean light intensity and other relevant parameters be specified for an optimal bioprocess. To this end, this mini-review will examine the current best practices and understanding of these phenomena to establish a path forward for this technology.  相似文献   

12.
纳米技术在医药学中的应用,已逐渐成为医药学的一个新的分枝。这一新的分枝称之为纳米医药学。纳米医药学中主要应用纳米粒子的三种基本功能:靶向作用、缓控释作用和跨生物屏障作用。目前对纳米技术应用研究较多的医药学领域包括用纳米材料制备人工生物结构、重大疾病的治疗及诊断。本文就有关方面进行最简要的讨论。  相似文献   

13.
Quantum dots (QDs) are nanocrystals of semiconducting material possessing quantum mechanical characteristics with capability to get conjugated with drug moieties. The particle size of QDs varies from 2 to 10 nm and can radiate a wide range of colours depending upon their size. Their wide and diverse usage of QDs across the world is due to their adaptable properties like large quantum yield, photostability, and adjustable emission spectrum. QDs are nanomaterials with inherent electrical characteristics that can be used as drug carrier vehicle and as a diagnostic in the field of nanomedicine. Scientists from various fields are aggressively working for the development of single platform that can sense, can produce a microscopic image and even be used to deliver a therapeutic agent. QDs are the fluorescent nano dots with which the possibilities of the drug delivery to a targeted site and its biomedical imaging can be explored. This review is mainly focused on the different process of synthesis of QDs, their application especially in the areas of malignancies and as a theranostic tool. The attempt is to consolidate the data available for the use of QDs in the biomedical applications.  相似文献   

14.
    
The relatively low success rate of cancer nanomedicines has raised debate on the roles of the enhanced permeability and retention (EPR) effect in enhancing drug delivery to tumors and improving therapeutic efficacy. In this review, we highlight new strategies beyond the EPR effect for enhancing nanoparticle delivery to tumors. We discuss the roles of transcellular extravasation, receptor-mediated pathways, and protein corona interactions on nanoparticle deposition in tumors. We summarize recent progress in platinum-based combination nanomedicines containing multiple chemotherapeutics with synergistic anticancer mechanisms and multiple anticancer therapies with novel mechanisms to enhance drug delivery and antitumor activities. We also highlight future opportunities in platinum-based combination nanomedicines and key hurdles for the translation of these combination nanomedicines into the clinic.  相似文献   

15.
Stimuli-responsive polymer architectures are molecular systems which evolve with an external signal. The observed changes are mainly decomposition, isomerization, polymerization, activation, supramolecular aggregation, and structural modifications of these molecules. The external stimuli, which can be combined in order to provoke these molecular changes, are numerous. In this review, we have chosen to present an overview on different mechanisms to impart responsiveness to dendritic polymers, with the particular aim of delivery and release of bioactive molecules.  相似文献   

16.
Host-guest interactions studied in supramolecular chemistry have been inspired by interactions between enzymes and substrates. Furthermore, most of the interactions involved in the cells are based on non-covalent bonds between two or more molecules. The common aspects between supramolecular chemistry and medicine have led to the development of a “new” area called “supramolecular medicine”, in which non-covalent interactions and self-assembly processes are applied within several medical fields.The object of this Digest is to offer an account of how some macrocyclic hosts (e.g. cucurbiturils, cyclodextrins, pillararenes and calixarenes) are employed in supramolecular medicine creating new supramolecular hydrogels used as biomaterials for human tissue in regenerative medicine, and a diagnostic instrument, in-vitro and in-vivo, for the detection of diseases, as well as for the investigation of cell morphology.  相似文献   

17.
Molecular imaging with nanoparticles: giant roles for dwarf actors   总被引:1,自引:2,他引:1  
Molecular imaging, first developed to localise antigens in light microscopy, now encompasses all imaging modalities including those used in clinical care: optical imaging, nuclear medical imaging, ultrasound imaging, CT, MRI, and photoacoustic imaging. Molecular imaging always requires accumulation of contrast agent in the target site, often achieved most efficiently by steering nanoparticles containing contrast agent into the target. This entails accessing target molecules hidden behind tissue barriers, necessitating the use of targeting groups. For imaging modalities with low sensitivity, nanoparticles bearing multiple contrast groups provide signal amplification. The same nanoparticles can in principle deliver both contrast medium and drug, allowing monitoring of biodistribution and therapeutic activity simultaneously (theranostics). Nanoparticles with multiple bioadhesive sites for target recognition and binding will be larger than 20 nm diameter. They share functionalities with many subcellular organelles (ribosomes, proteasomes, ion channels, and transport vesicles) and are of similar sizes. The materials used to synthesise nanoparticles include natural proteins and polymers, artificial polymers, dendrimers, fullerenes and other carbon-based structures, lipid–water micelles, viral capsids, metals, metal oxides, and ceramics. Signal generators incorporated into nanoparticles include iron oxide, gadolinium, fluorine, iodine, bismuth, radionuclides, quantum dots, and metal nanoclusters. Diagnostic imaging applications, now appearing, include sentinal node localisation and stem cell tracking.  相似文献   

18.
The risk of acquisition of resistance to chemotherapy remains a major hurdle in the management of various types of cancer patients. Several cellular and noncellular mechanisms are involved in developing both intrinsic and acquired resistance in cancer cells toward chemotherapy. This review covers the various multidrug resistance (MDR) mechanisms observed in cancer cells as well as the various strategies developed to overcome these MDR mechanisms. Extensive studies have been conducted during the last several decades to enhance the efficacy of chemotherapy by suppressing or evading these MDR mechanisms including the use of new anticancer drugs that could escape from the efflux reaction, MDR modulators or chemosensitizers, multifunctional nanocarriers, and RNA interference (RNAi) therapy.  相似文献   

19.
    
Escherichia coli infection is considered one of the most economically important multi-systemic diseases in poultry farms. Several nanoparticles such as silver, chitosan, and copper oxide are known to be highly toxic to several microbes. However, there are no data concerning their success against in vivo experimental E. coli infection in broilers. Therefore, the present study was designed to investigate the bactericidal effect of low doses of CuO-NPs (5 mg/kg bwt), Ag-NPs (0.5 mg/kg bwt), and Ch-Ag NPs (0.5 mg/kg bwt) against E. coli experimental infection in broilers. One hundred chicks were divided into five groups as follows: (1) control; (2) E. coli (4 × 108 CFU/ml) challenged; (3) E. coli +CuO-NPs; (4) E. coli +Ag-NPs; (5) E. coli +Ch-Ag NPs. The challenged untreated group, not NPs treated groups, recorded the lowest weight gain as well as the highest bacterial count and lesion score in all examined organs. The highest liver content of silver was observed in Ag-NPs treated group compared with the Ch-Ag NPs treated group. Our results concluded that Ch-Ag NPs not only had the best antibacterial effects but also acted as a growth promoter in broilers without leaving any residues in edible organs. We recommend using Ch-Ag NPs in broiler farms instead of antibiotics or probiotics.  相似文献   

20.
癌症是严重威胁人类生命健康的常见疾病之一。肿瘤细胞中存在一小部分细胞,它们具有自我更新能力,增殖分化潜能,还具有很强的成瘤能力和耐受化疗、放疗的特性,它们被称之为肿瘤干细胞。肿瘤干细胞被认为是肿瘤发生、耐药性和术后复发的根源。因此消灭肿瘤干细胞是治愈肿瘤的关键。针对肿瘤干细胞治疗的纳米药物逐渐引起人们的重视,它们具有可控缓释、靶向、生物相容性高等优点,特别是在纳米药物载体和纳米基因载体方面已经取得了显著的研究成果。然而,这些纳米药物在体内的靶向效率、稳定性、代谢途径和毒性等还需要系统的考察和检验,为其在临床上的应用打下良好的基础。本文主要综述了纳米粒子在肿瘤干细胞治疗方面的应用研究,并对纳米粒子在肿瘤干细胞治疗中存在的问题和未来的研究方向进行了展望。  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号