结论:HHKAT是一种具有良好生物相容性的医用生物材料。
CONCLUSION: HHKAT material is a medical biomaterial with good biocompatibility.
人工晶状体作为植入性医用生物材料,植入眼内后会引起一系列生物相容性反应。
As implantable biomaterial, the implantation of the intraocular lens (IOL) will inevitably lead to a series of biocompatibility responses.
本文除对医用生物材料作了简要叙述外,还详述了一些被成功运用于临床的医疗装备及其制造材料。
Medical biomaterials introduced in this paper, some medical equipments applied to clinical operations and their primary materials are also discussed.
该膜作为一种潜在的生物医用材料,将具有较广阔的应用前景。
As a kind of potential biomedical material, chitosan films could be widely used in the future.
生物医用材料领域中,细胞与材料间的相互作用是研究的主要课题。
The study of material-cell interactions is the major subject in the field of biomedical materials.
所以生物医用植入钛及钛合金已成为外科植入件优选的替代材料。
Therefore pure titanium and titanium alloys are the optimum replacement materials for the surgical implants.
对静电纺丝技术的一些重要特性和当前在生物医用材料领域中的应用进行综述。
The article introduces some major properties of the electrospinning technique and recently experimental progress in the biomedical materials field.
目的:本课题尝试评价9.9999K金丝的生物相容性,探讨其作为医用美容材料的可行性。
Objective: the research tried to assess the biocompatibility of the 9.9999k spun gold and tried to find out the feasibility of using it as a medical cosmetic material.
这表明壳聚糖共混膜在生物医用膜材料和组织工程载体支架方面具有广阔的应用前景。
The results indicate that chitosan blended membranes have potentially broad application in the fields of biomedical membranes and carrier scaffolds in tissue engineering.
羟基磷灰石(HA)生物陶瓷涂层被认为是目前最好的用于替代人体硬组织的一种生物医用材料,具有很高的外科应用价值。
Hydroxyapatite (ha) coating is considered as the best type of biomedical material for replacing hard tissues of human body so far, and has high value on clinical application.
展望了生物医用高分子材料的发展趋势。
The trend of biomedical polymer materials in the future is also prospected.
在生物医用材料方面的应用主要包括抗肿瘤药物、DNA荧光探针和荧光分子开关;
The applications in the biomedical materials included mainly anticancer drugs, DNA fluorescence probe and fluorescence molecular switch.
等离子喷涂是一种常用的生物医用材料表面改性技术,被广泛应用于钛等金属人工骨的表面改性。
Plasma spraying technology is widely used to modify the surface of biomedical materials, such as titanium and its alloys.
简介了新型生物医用功能材料用钛及钛合金的研制历史、生产、标准和应用。
This paper briefly introduces the history, production, standards and application of new functional material of titanium and titanium alloy for medicine.
主要介绍了目前国内外医用聚酯纤维生物相容性研究的进展,并介绍了评价材料血液相容性的方法。
The latest antithrombogenic developments of polyester fiber used in biomedical materials were summarized and some methods for testing the biocompatibility of the biomedical materials were introduced.
重点突破生物医用材料及器械的优化设计和评测等关键技术。
Breakthroughs in biomedical materials and equipment to optimize the design and evaluation of key technologies.
生物医用金属材料表面处理是医用材料工作者研究的主要领域。
Surface modification of biomedical metal materials is one of main research fields for biomedical researchers.
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。
The recent advances in biodegradable polymers for medical applications were reviewed according chemical synthetic, biosynthetic and natural polymers respectively.
本文综述了甲壳质及其衍生物在医药领域的应用,包括在医用敷料、眼科材料及药物制剂方面的应用。
This paper reviews the application of chitin and its derivatives in medicine, including medical dressing, ophthalmic materials and pharmaceutical preparations.
目的探索医用几丁糖生物材料在整形外科中的潜在应用。
Objective to explore the potential application of medical chitosan biomaterial in the field of orthopaedics.
生物相容性是高分子材料在临床上用作医用装置的基本要求,改变高分子材料的表面化学组成是提高其生物相容性的重要途径。
Biocompatibility is the basic requirement for polymers used as medical device in clinic, and it's a crucial pathway changing surface chemical composition to improve the biocompatibility of polymers.
公司生产的微创手术耗材主要以记忆合金及医用生物降解材料为原料,适用于腹腔镜手术、胆道镜手术、消化内镜手术、肾镜手术、介入手术等手术。
Our mini-invasive surgery products are made of SMA and biodegradable material, and can be used in laparoscopy, choledochoscopy, digestive endoscopy, nephroscopy, intervention surgery and etc.
对生物医用钛及其合金材料的最新开发应用进展与市场状况进行了综述;
Market condition and recent progress in developing biomedical use titanium and its alloys were summarized.
应用纳米羟基磷灰石(nHA)、聚酰胺66(PA66)和高密度聚乙烯(HDPE)制备了生物医用复合材料。
Nano-hydroxyapatite slurry (n-HA) was used to make composite with medical grade polyamide 66 (PA66) and high-density polyethylene (HDPE).
生物相容性是钛基生物医用材料研究中应首先考虑的重要问题之一。
Biocompatibility is one of the most considerable problems in the study of ti matrix biomedical material.
药物的控制释放体系是生物医用材料研究领域的重要课题,其支撑点是要有性能良好的高分子药物载体。
The controlled drug release systems are an important research field in biomedical materials applications. Its effectiveness largely depends on the good properties of drug carriers.
本文综述了目前多孔生物医用高分子复合材料的制备技术,并比较了其优缺点。
This paper described the prevailing techniques of porous biomedical materials preparation and compared their merits and demerits.
羟基磷灰石常用作医用生物陶瓷材料。
Hydroxyapatite (HA) was commonly used as medical bioceramic materials.
羟基磷灰石常用作医用生物陶瓷材料。
Hydroxyapatite (HA) was commonly used as medical bioceramic materials.
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