通过对细胞进行仿生,麻省理工学院的研究人员设计出超低功耗用于生物医学的电路。
By mimicking cells, MIT researcher designs electronic circuits for ultra-low-power and biomedical applications.
需要对生物医学和干细胞研究进行投入,使我们在预防和治疗方面处于优势地位;
We need to invest in biomedical research and stem cell research, so that we’re at the leading edge of prevention and treatment.
生物医学研究者们越来越认识到在二维培养皿和玻璃载玻片上培养细胞的局限性。
Biomedical researchers have become increasingly aware of the limitations of growing living cells in coated, two-dimensional Petri dishes and glass slides.
本课程将介绍蛋白质,细胞与生物医学材料表面之间的交互作用。
This course gives an introduction to the interactions between proteins, cells and surfaces of bio materials.
对生物细胞介电特性的研究是生物医学物理学公认的前沿重点课题之一。
It is one of the acknowledged frontier research topics in biomedical physics to study the dielectric properties of biological cells.
它是操作微小物体的必备工具,广泛用于细胞级生物医学操作和MEMS器件装配领域。
It is the essential instrument in manipulating micro objects and has been widely used in biology and assembly of MEMS parts.
三维细胞培养技术应用在生物医学、临床应用和生物制药等领域有重要意义,并讨论与其相关技术装备的进展和应用。
Three-dimensional cell culture has been very significant in the fields of biotechnology, clinical medicine. This article is to present the recent characteristics and applications of these instruments.
目的:研究银系纳米材料和稀土纳米材料对体外培养细胞的安全性,为纳米材料抗菌剂在生物医学的合理应用提供了一定的理论依据和实践指导。
Objective To study the security of silver nanomaterial and rare earth nanomaterial to cells in vitro in order to provide the theoretic and practical foundation for the application of nanomaterial.
组织工程研究主要包括支架材料,细胞生物学,生物医学性能与安全性评价等方面的内容。
Tissue engineering research includes tissue engineering bracket material, cell biology, bio-medical evaluation of performance and safety aspects.
目的:建立纳米试管,将提供一个生物医学的有效载荷为特定的细胞类型。
AIM: to develop nano test tubes that will deliver a biomedical payload to a specific cell type.
从此细胞因子成为全球生物医学领域的研究热点。
Henceforth the cell factor becomes the whole world biomedicine domain the research hot spot.
目的:干细胞研究是当今生物医学主要热点之一。
OBJECTIVE: Stem cell research seems now to be one of the main hot points in biomedicine.
哥伦比亚大学研究组由生物学家、生物医学工程学家、生物材料学家、成像学专家和外科医生。实验已经证明,人类骨髓干细胞制造的长效移植物能在老鼠身上存活。
The Columbia team of biologists, biomedical engineers, biomaterial scientists, imaging experts and surgeons has shown that human mesenchymal stem cells can create long-lasting implants in mice.
将神经元培养在半导体传感器芯片表面,构建出能够对细胞电生理特性进行长时程无损测量的神经细胞传感器,具有广阔的生物医学应用前景。
Neural cell based biosensors, with neurons cultured on the semiconductor sensor chip, are suitable for long-term and non-invasive measurement of cell electrophysiological properties.
纳米颗粒已被广泛应用于生物医学的许多领域,将纳米颗粒特异并高效地摄入靶细胞的需求也持续增长。
Nanoparticles have been widely used for a variety of biomedical applications and there is a growing need for highly specific and efficient uptake of the nanoparticles into target cells.
通过对离体培养的心肌细胞特征参数的定量分析,从细胞力学和分子生物学的角度研究药物的作用机理,是目前生物医学工程学科的前沿性课题。
Study of mechanism of medicine actions, by quantitative analysis of cultured cardiac myocyte, is one of the cutting edge researches in myocyte dynamics and molecular biology.
磁性微球是一类新型的功能材料,在生物医学工程、细胞生物学和环境工程具有广泛的应用。
Magnetic microsphere, a novel kind of functional material, was widely applied in the field of biomedical, cell biology and environmental engineering.
生物医学实验验证了该仪器性能稳定、参数调节方便,证实了纳秒脉冲电场能够有效诱导人卵巢腺癌SKOV3细胞凋亡。
The pulse generator was verified that it is easy to adjusted to satisfy the biomedical experiments. And nanosecond pulse electric field can effectively induce apoptosis of SKOV3 cells.
然而,源自人类胚胎的原始多能干细胞则没有这种倾向,也就是说它们是一张白纸,可以用作各种生物医学目的。
Naive pluripotent stem cells derived from human embryos, on the other hand, don't contain these directions, meaning they could potentially offer a clean slate for biomedical therapeutic purposes.
量子点(QD)是一种荧光标记物,其研究领域涉及生物医学成像、疾病诊断和细胞生物学。
Quantum dots(QD)are fluorescence labels, whose research fields involve biomedical imaging, disease diagnosis, and cell biology.
罗彻斯特大学生物医学工程系助教授MichaelKing发明一种装置,能够滤过血液中的癌细胞和干细胞。
Associate Professor Michael King of the University of Rochester Biomedical Engineering Department has invented a device that filters the blood for cancer and stem cells.
罗彻斯特大学生物医学工程系助教授MichaelKing发明一种装置,能够滤过血液中的癌细胞和干细胞。
Associate Professor Michael King of the University of Rochester Biomedical Engineering Department has invented a device that filters the blood for cancer and stem cells.
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