產品簡介
在可以從培養皿中取出(不同于Dot-Cult)的載玻片上進行3D細胞培養并安裝在顯微鏡上。
研究人員不僅可以使用Confo-Cult®進行3D細胞培養,還可以使用熒光和共聚焦顯微鏡評估其分化,增殖等性能,而且還沒有任何技術提供這種綜合性能。作為一個熱心的客戶表達了“這是發布Z快的方式"。 我們保證您的研究創新。
世聯博研(北京)科技有限公司 |
—— 銷售熱線 ——
13261877206 |
Confo-Cult®旨在利用熒光和共焦顯微技術研究3D細胞培養下的分化/細胞功能。
在可以從培養皿中取出(不同于Dot-Cult)的載玻片上進行3D細胞培養并安裝在顯微鏡上。
研究人員不僅可以使用Confo-Cult®進行3D細胞培養,還可以使用熒光和共聚焦顯微鏡評估其分化,增殖等性能,而且還沒有任何技術提供這種綜合性能。
作為一個熱心的客戶表達了“這是發布zui快的方式”。 我們保證您的研究創新。
3D Cell Culture for Confocal Microscopy
Confo-Cult® is designed to study differentiation/ cell functionality under 3D Cell Culture using fluorescence and confocal microscopic techniques.
3D cell culture is performed on a slide that can be retrieved (unlike Dot-Cult®) from culture dish and mounted on microscope.
Researchers not only can perform 3D cell culture using Confo-Cult® but also evaluate the performance using fluorescence and confocal microscopy for differentiation, proliferationetc. such integrated performance is not offered by any technology as yet.
As an enthusiastic customer has expressed “it is fastest way to get a publication”. We guarantee an innovative touch to your research.
Please discuss with our experts your unique cell culture requirements and explore options beyond conventional products.
Product Design Concept
Physiological relevance of three dimensional (3D) cell cultures has made it a fundamental research tool in cell biology. 3D cell cultures are used in a broad range of cell biology research, including tumor biology, cell adhesion, cell migration, metastasis, angiogenesis and epithelial morphogenesis. Hydrogels like matrigel and collagen are popular among cell biologists to create 3D tissue model due to their ability to mimic extracellular micro-environment. Porous scaffolds of biodegradable polymers on the other hand, are preferred for tissue engineering research for 3D cell cultures due to robust mechanical properties. 3D cultures expected to decrease laboratory animals in drug screening and toxicity assays.
Analysis of 3D cell culture requires delicate handling of 3D hydrogel from culture plates that may disturb the cellular arrangements. 3D cell culture samples are highly scattering due to thickness (few hundred microns) which is a challenge for microscopic analysis.
Researchers very often prefer to grow cells on cover slips as monolayers for confocal microscopy studies missing the advantages of 3D cell culture. Innovations both in 3D cell culture formats and analysis techniques are essential to exploit the benefits of third dimension in the life sciences. 3D cell culture for advanced microscopy has been made easy and cost effective with Confo-Cult®. ECM Analog® coating of porous scaffold on typical cover slips makes it not only easier to perform 3D cultures but also simplifies confocal microscopic observations and high content analysis.
Highlights