microneedle
英
美
微针状体;显微针
双语例句
- The microneedle arrays were made from a polymer material, poly-vinyl pyrrolidone, that has been shown to be safe for use in the body.
微针系列用聚合材料聚醋酸乙烯吡咯烷酮制造,已有证据显示本研究中使用该材料是安全的。 - MEMS In-Plane Metallic Microneedle for Drug Delivery
用于药物传输的MEMS平面金属微针 - Design and Fabrication of Microneedle Array Based on Moving LIGA Technology
基于移动LIGA工艺的微针阵列的设计与制作 - Out-of-Plane Hollow Metallic Microneedle Based on MEMS Technology
基于MEMS技术的异平面空心金属微针 - If new microneedle technology is successful, we may soon have needles that inject medicine without your even knowing it.
如果新的显微针技术成功了的话,我们将很快享受甚至你都不能意识到的药物注射。 - Details of the dissolving microneedle patches and immunization benefits observed in experimental mice were reported July18th in the advance online publication of the journal Nature Medicine.
有关可降解微针帖片的详情以及小鼠实验中所观察到的帖片免疫接种的优势已于7月18日发表于NatureMedicine。(《自然医学杂志》)在线预览版。 - Applied easily to the skin, the microneedle patches could allow self-administration of vaccine during pandemics and simplify large-scale immunization programs in developing nations.
微针贴片帖上皮肤十分容易,允许在流感期间个人自我完成“注射”过程,大大简化了发展中国家大规模的免疫接种计划。 - Microneedle is an acicular structure usually made through microfabrication process, of which the diameter is around 30 to 80 μ rn and the length is above 100 μ m. The material of microneedles could be silicon, polymer, metal and etc.
微针头(Microneedles)一般指通过微细加工工艺制作的,尺寸在微米级,直径在30&80μm,长度100μm以上呈针状的结构,材料可以为硅、聚合物、金属等。 - Research on a SU-8 Microneedle Actuator
SU-8微针执行器的研究 - Transdermal Drug Delivery Using Stainless Steel Microneedle Array
不锈钢微针经皮给药的研究 - This article mainly introduced the fabrication approach for microneedles including the mechanism of percutaneous microneedle insertion especially for, the application in transdermal drug delivery.
本文主要介绍微针的制备方法,插入皮肤的机制,微针给药的特点以及微针的应用,详细介绍了微针在经皮给药中的应用。 - Fabrication of microneedle array for drug delivery systems
一种用于药物释控系统的微针阵列及其制作方法的研究 - Based on the MEMS technology, a microneedle manufacturing proccess on the flexible substrate is presented. This is a modern biotechnology drug delivery system with high efficiency, safety and painless ―― microneedle array.
提出了一种基于MEMS技术在柔性基底上制造微针的工艺技术,这是一种高效、安全和无痛的全新给药方式――微针阵列。 - Research of Microneedle Actuator Based on SU-8 Photoresist
基于SU-8胶的微针执行器的研制 - The microneedle is fabricated by MEMS technology with SU-8, and the permanent magnet array is fabricated by electroplating technology. Processes of these two technologies are introduced in detail.
作者利用MEMS技术,以SU&8胶为材料制作了微针结构,利用电镀工艺制作永磁阵列,并研制出雏形器件。 - Biochemical microsystem is one of the most important focuses of MEMS, and micro-sampling and measuring is the crucial process of analysis. Therefore, emphases have been paid on microneedle actuator.
生化微系统是MEMS的重要方向之一,而生化样品的微量取样和计量是生化分析过程的重要环节,微针执行器的研究因此受到关注。 - Flexible Microneedle Array for Drug Delivery System
用于药物释放系统的柔性微针研制 - Research on MEMS microneedle
MEMS微针研究 - Microneedle array can prick mouse 'skin so that there were apertures about fifth micrometers in mouse' epidermis and these apertures provided passages through which compound can penetrate cuticle.
微针阵列可刺入小鼠活体皮肤,并在皮肤表皮层产生几十微米的孔洞,提供了复合物穿透角质层的通道。 - Microneedle pretreatment can improve the permeation of DTX loaded elastic liposomes, so as to further improve skin delivery of DTX.
微针作用可促进载有DTX的弹性脂质体的经皮传递,从而进一步改善DTX的经皮渗透。 - Microneedle is a miniature product that plays a very important role in the field of medical development to the world. It is mainly used to give patients injection for biological analysis and draw blood from patients for testing.
微针是一种对全世界医疗领域的发展起着举足轻重作用的微型产品,其主要用于给病人注射药物和为生物分析而从病人身上抽取血液两种应用目的。 - The effect and mechanism of improvement of skin drug delivery by combining elastic liposomes with microneedle skin drug delivery system were studied for the first time.
首次将弹性脂质体和微针经皮给药技术结合以改善药物的经皮渗透性,并对其促渗机理进行了探讨。 - The results above showed that combining DTX elastic liposomes with microneedle pretreatment significantly improved the skin delivery of DTX, and showed great potential application value.
上述研究结果表明DTX弹性脂质体微针给药系统在改善DTX经皮渗透性上具有显著优势,具有潜在应用价值。 - Using the hepatitis DNA vaccine as model drug, to investigate the immunity effect of mouse in vivo after giving the compound of cationic polymer and DNA vaccine by transdermal application of microneedle.
以乙肝DNA疫苗为模型药物,考察了阳离子聚合物/DNA疫苗复合物微针透皮给药后的小鼠体内免疫效果。 - The polymer materials used for fabrication of microneedle are the mixtures of PVA and Dextran, which are safe and biocompatible.
本课题选用的制备水凝胶微针的材料为PVA和Dextran,两者都是生物相容性很好的材料。 - A needling unit of microneedle arrays for certain pressure and time control was designed and fabricated by ourselves.
本文自行设计制作了微针进针装置,方便体外透皮实验控制进针的时间及压力。 - The pharmacokinetic behavior and antitumor effect of DTX elastic liposomes-microneedle combination system in mice were preliminarily studied.
初步研究了DTX弹性脂质体微针给药系统在小鼠体内药动学行为及抗肿瘤活性。 - Peaks microneedle structure greatly reduces the production costs of the dry electrode, Barb-type micro-needle and flexible structure of dry electrodes can prevent dry electrode from leaving the skin in the process of using.
山峰型微针结构大大降低了干电极的制作成本,倒钩型微针和柔性结构干电极可以防止干电极在使用过程中从皮肤上脱落从而提高了信号的信噪比。 - Microneedle arrays and PDMS with channel-chamber package together to form the front of the transdermal drug delivery device to drug delivery.
将带通道的微针阵列与PDMS腔室封装在一起形成了经皮给药前端装置。