Cytoo细胞微图案产品包括CytooPLATETM细胞微图案微孔培养板和CYTOOChips细胞微图案芯片：CYTOOPLATETM细胞微图案微孔培养板是一个高清晰度的低荧光硼硅玻璃底细胞光刻微图案，CYTOOChips细胞微图案芯片

可以控制细胞粘附性状、大小、细胞培养分化等，研究细胞取，这种方法可以得到稳定的具有显 著细胞黏附反差的微图案化表面. 利用该图案化表面技术引导细胞黏附后的取向，先在细胞无法贴附的Cytophobic 涂料处理，再以光蚀刻的技术，精准地留下特定的几何形狀，并在这样的几形状上涂上特定的细胞间质蛋白(extracellular matrix , ECM, such as fibronecin, collgene, Laminin, ect ) 。这样的细胞培养工具借由精准的控制细胞贴附的型式，提供了体外培养细胞结构上的引导，使细胞表现出更接近体内生理的表型及框架，这样的工具可以：◆ 提高试验的再现性，灵敏性和归纳量化复杂的生物性狀◆ 进一步分析细胞结构机械性刺激和细胞功能之间的关系◆ 模拟重现细胞在生物体内的环境，并使性狀易于观察分析CYTOO 细胞微图案(CYTOO micropattern) 使体外培养细胞重现体内应有的细胞极性，有组织的整齐排列，细胞移动的限制!

CYTOO 细胞粘附微图案

量化活细胞分析的突破精准的对照条件在CYTOO 阵列上，细胞呈现相同的结构标准的培养皿中的细胞 CYTOO培养产品中的细胞细胞贴附在涂有细胞间质蛋白的微图案（micropattern） 阵列上时，会随着微图案（micropattern） 的引导在不能贴附的材质上张开成特定的几何结构。这样特定形状的贴附接触分布，促使细胞产生固定且再现性极高的极性。细胞位置、细胞形状、细胞极性、以及胞器位置都可标准化。重现体内细胞的物理环境使体外培养细胞的生理性狀更接近体内组织

CYTOOchipTM细胞微图案芯片19.5x19.5 mm 盖玻片，由光刻法在高质低荧光硼硅酸盐玻璃上刻画微图形，用于倒置显微镜，网状结构打印在芯片底部，使用户可以随时找到所需细胞。这些芯片与CYTOOchamber芯片槽结合可实现高分辨率活细胞成像。标准芯片和平板可用于所有一般用途，初始包的设计是用来开发微图形形状和尺寸的，Arena芯片分为不同尺寸的磁盘，客户定制产品可以使您达到最优实验方案。

CYTOOchips细胞微图案芯片客户定制产品包括19.5x19.5 mm 盖玻片，客户可定制微图形，且粘附蛋白可适用于多种应用和实验。定制CYTOOchips最小量为1组18个芯片，且包裹纤连蛋白或活性表面。客户定制范围包括：

CYTOOplates细胞微图案培养板CYTOOplates平板为标准SBS微平板版式，由光刻法在高质低荧光硼硅酸盐玻璃底部刻画微图形，可适用于高内涵筛选，且可适用于所有普通HCS成像平台和实验室自动化仪器。CYTOOplates客户定制产品包括96孔标准SBS版式，客户可定制微图形，且粘附蛋白可适用于多种应用和实验，无论所需的微图形形状、尺寸或96孔布局如何。定制最小量为10个平板，且包裹纤连蛋白或活性表面。客户定制范围包括：

CYTOO chamber芯片槽单孔芯片槽提供了大面积的成像区域，可承装10,000个细胞图形，这款产品尤其适合当您有超过4个不同的几何图形打印在芯片上的时候，以及像是有丝分裂的细胞的特例测量。次产品更适用于高分辨率活细胞成像。4孔芯片槽可提供每孔上千种图形在各情境下的平行免疫荧光实验，Arena芯片和Motility芯片的4象限设计使之适用于4孔芯片槽。优势和主要特征：

CYTOO chamber灌流槽闭合单通道或双通道CYTOOchamber灌流槽用于活细胞成像，使用简单，专门设计用于我们的CYTOOchips芯片。主要部分为透明的丙烯酸材料，底板是黑色的阳极化处理铝合金，部件还包括一圈硅垫。通道尺寸可根据要求定制。优势和主要特征：

Size: ~ 21 mm diameter Our round device version of the standard 150 um microgroove barrier has an approximate diameter of 21 mm, making it compatible with some 35 mm glass bottom dishes that many researchers use in live cell imaging systems. Glass bottom dishes used should have an inner aperture of 21 mm or more to accommodate the device. At least 22 mm is recommended in order to have room to position the device. Larger glass bottom dishes can be used, as well as glass cover slips, if desired. Size: ~ 21 mm diameter Our round device version of the standard 450 um microgroove barrier has an approximate diameter of 21 mm, making it compatible with some 35 mm glass bottom dishes that many researchers use in live cell imaging systems. Glass bottom dishes used should have an inner aperture of 21 mm or more to accommodate the device. At least 22 mm is recommended in order to have room to position the device. Larger glass bottom dishes can be used, as well as glass cover slips, if desired. Size: ~ 21 mm diameter Our round device version of the standard 900 um microgroove barrier has an approximate diameter of 21 mm, making it compatible with some 35 mm glass bottom dishes that many researchers use in live cell imaging systems. Glass bottom dishes used should have an inner aperture of 21 mm or more to accommodate the device. At least 22 mm is recommended in order to have room to position the device. Larger glass bottom dishes can be used, as well as glass cover slips, if desired. Size: ~ 22 mm C ~23mm The 150 um neuron device with its shorter microgroove barrier is suitable for researchers who would like to isolate both axons and dendrites. It is also suitable for certain neuronal cultures that do not grow long processes. Researchers who wish to study the early events of axonal and dendritic growth may also find the 150 um device useful. The 150 um device also offers the benefits of fluidic isolation and culture organization for transport studies. Size: ~ 22 mm C ~23mm The 450 um neuron device is our most popular device. For most applications it is suitable for separating cell bodies from axons. After two weeks, dendrites in E18 rat cortical neurons have typically not crossed the microgroove barrier. The 450 um neuron device also provides the added features of fluidic isolation and culture organization for transport studies. Size: ~ 22 mm C ~23mm The 900 um neuron device, with its wide microgroove barrier, is suitable for researchers who would like to perform long term experiments while ensuring axonal isolation. In some cultures, after two weeks of growth dendrites may cross the 450 um barrier thereby necessitating the use of the 900 um device.It is also suitable for certain neuronal cultures which grow long processes. Researchers who also wish to make sure they are isolating 100% axons only in the distal chamber may also find the 900 um device useful. The 900 um device also offers the benefits of fluidic isolation and culture organization for transport studies.

Triple Chamber Neuron Device (500 um microgroove barrier) Size: ~ 38 mm C ~24mm The TCND500 consists of (2) 500 um microgroove barriers with a 500 um central chamber. This device makes it possible to culture cortical neurons in the left and right chambers while culturing hippocampal neurons, or other combinations of cells, in the middle. The triple chamber is also suitable for transport studies where the researcher wishes to treat the middle of the axon growing in the middle chamber while observing effects at the growth cone or in the somal compartment. Neurons can also be loaded in the central chamber and different treatments applied to the left and right compartments.

Triple Chamber Neuron Device (1000 um microgroove barrier) Size: Size: ~ 38 mm C ~24mm The TCND1000 consists of (2) 500 um microgroove barriers with a 1000 um central chamber. This device makes it possible to culture cortical neurons in the left and right chambers while culturing hippocampal neurons, or other combinations of cells, in the middle. The triple chamber is also suitable for transport studies where the researcher wishes to treat the middle of the axon growing in the middle chamber while observing effects at the growth cone or in the somal compartment. Neurons can also be loaded in the central chamber and different treatments applied to the left and right compartments.

Microfluidic Local Perfusion Device barrier, (50 um microgroove 75 micron perfusion channel, 500 um microgroove barrier) Size: ~ 40 mm C ~24 mm Our Microfluidic Local Perfusion Chamber was first published in Neuron. 2010 Apr 15;66(1):57-68. This device has a 75 micron perfusion chamber with a set of microgrooves on the left 50 um in width and a set of microgrooves on the right 500 um in width. This device, in conjuction with a syringe pump or other suitable equipment, allows the researcher to perfuse selected treatments and compounds across the target area. Syringe pump or other suitable equipment required for proper use. For more indepth information please see Neuron. 2010 Apr 15;66(1):57-68.

北京容圣科技有限公司集欧美日韩高端进口科研仪器代理销售以及实验技术服务于一体的高新技术公司，国外生物力学实验室和3D打印实验室专业联络员。北京容圣科技有限公司与世界各国著名的科研制造单位建立了良好诚信的长期合作关系，正以其不断创新的高科技产品、规模化的营销渠道、高效安全的国际联运系统和极具人性化的服务模式，在欧美各日韩研制厂商的强力支持下，使得经营诚信圈日益牢固而坚不可摧。目前，北京容圣科技有限公司实现了与合作伙伴资源共享，共同发展，前景非常广阔。容圣全体员工，尤其是销售队伍、产品支持队伍和售后服务队伍的员工，全部受过系统的高等教育、严格的技术培训和优良的服务意识灌输。因此，公司的员工能够为客户提供优质的实验室全套解决方案：我们不仅提供售前技术咨询和快速供货售中服务，同时还提供包括安装调试、使用指导、应用指导、维护保养和快速维修在内的整套售后服务。

>>> 更多资讯详情请访问蚂蚁淘商城