一般描述
当从微型模具中取出胶凝的琼脂糖后,将其转移到标准12孔或24孔组织培养皿中,并用细胞培养基平衡。
由于琼脂糖是透明的,因此,使用标准倒置显微镜结合相差、明场或荧光显微术,能够轻松观察到在每个琼脂糖微孔底部形成的球状体或微组织。
由于琼脂糖是透明的,因此,使用标准倒置显微镜结合相差、明场或荧光显微术,能够轻松观察到在每个琼脂糖微孔底部形成的球状体或微组织。
- 微型模具最多可重复使用12次,并且可以进行标准蒸汽高压灭菌(30分钟,干循环)
- 微型模具应储存在有盖容器中,以保持无菌并避免在其小部件上积聚灰尘或纤维
- 任何用于细胞观察或成像且具有足够放大倍数和分辨率的显微镜,均适用于3D培养皿产品
Six autoclavable precision micro-molds to cast 3D Petri Dish for forming larger spheroids. 3D Petri Dish for use in 24-well plate. Each micro-mold forms 35 circular recesses in a 5 x 7 array.
- Nominal dimensions of each 3D culture recess: diam. 800 μm x D 800 μm
- Micro-molds also form single chamber for cell seeding
法律信息
3D Petri Dish is a registered trademark of MicroTissues Inc.
MicroTissues is a registered trademark of MicroTissues Inc.
Revital Schick et al.
Investigative ophthalmology & visual science, 61(11), 44-44 (2020-09-30)
Photoreceptor precursor cells (PRPs) differentiated from human embryonic stem cells can serve as a source for cell replacement therapy aimed at vision restoration in patients suffering from degenerative diseases of the outer retina, such as retinitis pigmentosa and AMD. In
Julia Klicks et al.
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Different 3D-cell culture approaches with varying degrees of complexity have been developed to serve as melanoma models for drug testing or mechanistic studies. While these 3D-culture initiatives are already often superior to classical 2D approaches, they are either composed of
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