Biodegradable polymers with functional groups play an important role in tissue engineering.
可生物降解高分子在组织工程中有十分重要的作用。
Some biodegradable polymers such as polyesters hae already been employed as excipients in pharmacology.
一些生物可降解聚合物,例如聚酯,已经作为辅料应用在药理学中。
Some biodegradable polymers such as polyesters have already been employed as excipients in pharmacology.
一些生物可降解聚合物,例如聚酯,已经作为辅料应用在药理学中。
Objective: To introduce biodegradable polymers and their application to nanometer-sized controlled drug delivery systems.
目的:介绍生物可降解聚合物及其在药物纳米控释系统中的应用。
Blending with biodegradable polymers, cross-linking treatment and surface modification are the main methods used currently.
与可生物降解高分子共混、交联处理和表面改性是目前采用的主要方法。
The USES of biodegradable polymers poly-asparagine and its derivatives, as carriers in controlled drug release are reviewed.
综述了可生物降解的高分子材料聚天各酰胺及其衍生物作为载体在药物控制释放中的应用。
Biodegradable polymers, which have many advantages such as biocompatibility and biodegradability, have been focused on as controlled drug materials.
生物降解高分子材料具有良好的生物相容性和生物降解性而成为人们关注的药物控释材料。
Philips has developed a way for drugs to be encapsulated in bubbles made of biodegradable polymers that can be delivered to a tumour like a guided missile.
飞利浦公司已经开发出一种新的药剂,这些药剂被预先封装在可生物降解的聚合物胶囊中,这种胶囊就像制导导弹一样能够直达肿瘤。
The recent advances in biodegradable polymers for medical applications were reviewed according chemical synthetic, biosynthetic and natural polymers respectively.
对目前医用可生物降解高分予材料的研究及应用状况分化学合成、天然和生物技术合成三类作了综述。
Polyanhydrides have been considered to be useful biodegradable polymers as carriers of drugs to various organs of the human body such as brain, bone and blood vessels.
聚酸酐材料是一种良好的生物可降解材料,它可以作为药物载体将药物递送入人体的各个器官,如脑、骨骼、血管等,也可作为基因的载体对患者进行基因治疗。
Layered silicate nanocomposites of biodegradable polymers can greatly increase mechanical properties of the polymers, which have influence on the degradable rates of the polymers.
可生物降解聚合物中的层状硅酸盐纳米复合材料,可极大提高其力学性能,但同时会影响到材料的降解速率。
This class of biodegradable plastics is seen by many to be the answer to making fully biodegradable plastics with property profiles similar to those of commodity polymers such as polyethylene.
这种生物降解塑料类是被许多人是回答使财产概况类似商品,如聚乙烯聚合物的完全生物降解塑料。
Many of these polyesters are blended with starch based polymers for cost competitive biodegradable plastics applications.
许多这些聚酯与淀粉混合应用的成本竞争力的生物降解塑料的聚合物。
RESOMER? Polymers are biodegradable carriers for active pharmaceutical ingredients.
RESOMER聚合物可用作有效药物成分的可生物降解载体。
Over the past decade, considerable efforts have attempted to develop scaffolds for tissue engineering, using biodegradable and biocompatible synthetic or natural polymers.
在过去十年中,相当大的努力,试图开发支架组织工程,利用生物降解和生物相容性合成或天然聚合物。
The main categories of chemical product derived from starch are surfactants, super absorptive polymers, biodegradable plastics, flocculating agents and adhesives.
重点介绍的这类化学品有:表面活性剂、超强吸水剂、可生物降解塑料、絮凝剂和粘结剂等。
The research team chose to study natural polymers because they make excellent drug-carriers; they are non-toxic, biodegradable and biocompatible, therefore the brain will not reject them.
研究小组选择研究天然聚合体,因为它们是最好的药物“输送容器”,而且它们是无毒的、可以进行生物分解的、不会引起排斥反应的,因此大脑不会对它们产生抵制。
The research team chose to study natural polymers because they make excellent drug-carriers; they are non-toxic, biodegradable and biocompatible, therefore the brain will not reject them.
研究小组选择研究天然聚合体,因为它们是最好的药物“输送容器”,而且它们是无毒的、可以进行生物分解的、不会引起排斥反应的,因此大脑不会对它们产生抵制。
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