科学网—刊·见|影响因子8.1!聚焦递药领域,从靶向设计到临床转化全解析-Taylor&Francis学术服务的博文
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2026-4-27 11:25
| 个人分类: 医药健康 | 系统分类: 科研笔记
本期 【刊•见】 介绍一本聚焦于药学领域的开放获取期刊— Drug Delivery 。除了对关键指标进行详尽解读外,还向您推荐刊内近三年高被引文章,以及近一年高阅读量文章:
基于纳米技术的白藜芦醇递送载体研究最新进展
基于纳米载体药物递送系统的肿瘤靶向研究深度解析
阿霉素载入植物源纳米囊泡:过程监测与活性评价
Print ISSN: 1071-7544 Online ISSN: 1521-0464
Drug Delivery 是一本开放获取、综合性同行评审学术期刊,致力于发表关于分子、细胞及更高层次药物递送与靶向技术的开发及应用原理的研究论文。该期刊旨在搭建学术界与产业界的桥梁,现广泛接收涵盖以下主题的研究成果:
药物递送系统的设计与工程化各方面(涵盖口服、肺部、鼻腔、肠胃外及经皮等主要给药途径);
制剂相关各方面(如控释系统、3D 打印剂型);
纳米药物与靶向递送(包括脂质 / 聚合物纳米颗粒、大分子偶联物、抗体、核酸递送及基因编辑系统);
新型材料开发(重点关注生物制剂递送相关材料);
药物递送系统的仿生设计策略;
个性化与递药优化;
诊疗一体化;
药物递送系统及纳米药物与生物系统的体内外相互作用基础研究;
药物递送与靶向的系统学方法;
药物递送系统的毒理学与安全性;
药物递送及制剂工程中的人工智能、机器学习与数学计算分析;
兽用控释给药;
药物递送替代动物实验方法;
产业及监管问题。
该期刊已被SCIE、Scopus、EMBASE和DOAJ等核心数据库收录。
影响因子
根据JCR显示, Drug Delivery
在药理、药剂学排名 17/352
Scopus
根据Scopus显示, Drug Delivery
2024年CiteScore为 16.4
2025年CiteScore Tracker为 20.2
在药理学、毒理学与药物制剂学·药学科学领域排名 7/185
中国科学院文献情报中心期刊分区表
根据2025年3月20日发布的中国科学院文献情报中心期刊分区表显示, Drug Delivery
大类及分区: 医学2区
小类及分区: 药学1区
作者须知 接收文章类型
Drug Delivery 期刊发表综合性和前沿研究论文,同时也会考虑综述评论(Critical reviews)、系统综述(Systematic reviews)、简报(Brief reports,即聚焦药物递送领域广泛关注的重大进展的前沿短篇论文)、病例报告(Case report)、论述(Discussion,观点类)、数据笔记(Data note)及社论(Editorials)。其中,观点类文章(Perspectives)和社论仅限应邀投稿。
文章出版费(APC)
请访问期刊主页或Taylor & Francis Open Access APC Cost Finder查找适用于作者所在国家及不同文章类型的费用情况。若您所在的机构或相关资助者与我们签有开放获取出版协议,您可能有资格获得APC支持,请访问我们的作者服务网站以了解更多!
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编辑团队 Drug Delivery 主编由纽卡斯尔大学Moein Moghimi教授担任,编委团队汇聚全球多学科专家,涵盖药物递送领域的多个前沿方向。
主编
Moein Moghim
Moein Moghimi,英国纽卡斯尔大学药学院纳米医学与药剂学教授,研究纳米颗粒与免疫系统的相互作用机制,开发用于癌症、神经退行性疾病(如阿尔茨海默病)的靶向递送系统。他的团队设计了基于脂质和聚合物的纳米载体,通过表面工程实现精准递送。
中国副主编
周迎
周迎,香港科技大学化学及生物工程学系教授、香港科技大学全球健康技术学生创新中心主任。研究方向为眼部疾病与免疫疗法的药物递送,探索自组装纳米结构(如聚合物 - 生物分子复合物)在眼科疾病(如青光眼、黄斑变性)中的应用。她还关注机器学习在优化纳米载体设计中的应用,以提升药物穿透血眼屏障的效率。
编委会中国成员(部分)
吴伟
吴伟, 复旦大学药学院教授。研究方向:药物载体给药系统体内时空命运、口服给药系统、药物新剂型与新技术。
熊燃华
熊燃华, 南京林业大学教授、博士生导师。长期从事响应高分子材料及其生物医药应用研究。
作者分布 根据JCR显示,近三年在 Drug Delivery 发文的国家/地区中,发文数量排名前三的有:
中国
埃及
沙特阿拉伯
近三年,在 Drug Delivery 发文的全球高校和科研机构中,发文数量排名前三的有:
埃及知识库
阿卜杜勒阿齐兹国王大学
烟台大学
近三年内高被引文章 
Recent progress in nanotechnology-based drug carriers for resveratrol delivery
基于纳米技术的白藜芦醇递送载体研究最新进展
作者: Chunhong Li et al.
文章摘要:
Resveratrol is a polyphenol with diverse pharmacological activities, but its clinical efficacy is limited due to low solubility/permeability, light-induced isomerization, auto-oxidation, and rapid metabolism. Nanodelivery systems, such as liposomes, polymeric nanoparticles, lipid nanocarriers, micelles, nanocrystals, inorganic nanoparticles, nanoemulsions, protein-based nanoparticles, exosomes, macrophages, and red blood cells (RBCs) have shown great potential for improving the solubility, biocompatibility, and therapeutic efficacy of resveratrol. This review comprehensively summarizes the recent advances in resveratrol nanoencapsulation and describes potential strategies to improve the pharmacokinetics of existing nanoformulations, enhance targeting, reduce toxicity, and increase drug release and encapsulation efficiency. The article also suggests that in order to avoid potential safety issues, resveratrol nanoformulations must be tested in vivo in a wide range of diseases.
Figure 1. Configuration of (a) trans- and (b) cis-RES.
A detailed insight of the tumor targeting using nanocarrier drug delivery system
基于纳米载体药物递送系统的肿瘤靶向研究深度解析
作者: Sibgha Batool et al.
文章摘要:
Human struggle against the deadly disease conditions is continued since ages. The contribution of science and technology in fighting against these diseases cannot be ignored exclusively due to the invention of novel procedure and products, extending their size ranges from micro to nano. Recently nanotechnology has been gaining more consideration for its ability to diagnose and treat different cancers. Different nanoparticles have been used to evade the issues related with conservative anticancer delivery systems, including their nonspecificity, adverse effects and burst release. These nanocarriers including, solid lipid nanoparticles (SLNs), liposomes, nano lipid carriers (NLCs), nano micelles, nanocomposites, polymeric and magnetic nanocarriers, have brought revolutions in antitumor drug delivery. Nanocarriers improved the therapeutic efficacy of anticancer drugs with better accumulation at the specific site with sustained release, improved bioavailability and apoptosis of the cancer cells while bypassing the normal cells. In this review, the cancer targeting techniques and surface modification on nanoparticles are discussed briefly with possible challenges and opportunities. It can be concluded that understanding the role of nanomedicine in tumor treatment is significant, and therefore, the modern progressions in this arena is essential to be considered for a prosperous today and an affluent future of tumor patients.
近一年内高阅读量文章 
Incorporation of doxorubicin into plant-derived nanovesicles: process monitoring and activity assessment
阿霉素载入植物源纳米囊泡:过程监测与活性评价
作者: Aleksandra Steć et al.
文章摘要:
Extracellular vesicles (EVs) are an experimental class of drug carriers. Alternative sources of EVs are currently being explored to overcome limitations related to their manufacturing from mesenchymal stem cells. In this work, Citrus limon-derived EVs were tested as carriers for the widely used chemotherapeutic drug – doxorubicin (DOX). Capillary electrophoresis (CE) and nanoplasmonic sensing (NPS) were developed for the quality control of DOX–EV preparations. It was found that the CE method enables simultaneous detection of free and incorporated DOX and allows assessing the stability of the preparations and the drug leakage. NPS, on the other hand, demonstrated that DOX is accumulated in the interfacial region of the carrier. The activity of DOX-loaded EVs was tested on HeLa (cervical cancer cells) and HEK293T (human embryonic kidney cells) cell lines. It was found that DOX incorporation into plant-derived EVs virtually does not affect the drug’s cytotoxicity to HeLa cells but significantly decreases DOX activity against HEK293T cell line.
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