产品名称
Lena Biosciences SeedEZ™ 3D Cell Culture System, sheet size 5 cm × 10 cm
sterility
sterile
packaging
sheet of 1 ea
manufacturer/tradename
Lena Biosciences SC-S510-0001
parameter
80 °C max. temp.
sheet size
5 cm × 10 cm
thickness
400 μm , dry state
color
white to off-white
pore size
~90 % porosity
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General description
SeedEZ is an absorbent 3D cell culture substrate suitable for culturing most cell types. It is compatible with most cell culture reagents, coatings, gels, and extracellular matrices. Please continue to use protocols and readouts you normally use. SeedEZ lets you reveal higher content information from cell cultures without sacrificing throughput.
SeedEZ provides for native tissue-like 3D cell environment, and in vivo like round cell morphology. This is vital for physiologically closer cell function, and cell network formation.
SeedEZ requires no special skills or prior experience with 3D cell cultures to homogeneously and reproducibly organize and culture cells in 3D. SeedEZ makes reproducible and consistent 3D cultures at seeding, which mature into reproducible and consistent tissue analogs for more conclusive and predictive results in life sciences research and drug discovery.
SeedEZ provides for native tissue-like 3D cell environment, and in vivo like round cell morphology. This is vital for physiologically closer cell function, and cell network formation.
SeedEZ requires no special skills or prior experience with 3D cell cultures to homogeneously and reproducibly organize and culture cells in 3D. SeedEZ makes reproducible and consistent 3D cultures at seeding, which mature into reproducible and consistent tissue analogs for more conclusive and predictive results in life sciences research and drug discovery.
Other Notes
Use or cut to a desired shape and size with sterile scissors.
Legal Information
SeedEZ is a trademark of Lena Biosciences, Inc.
Paula G Miller et al.
Biotechnology and bioengineering, 117(2), 486-497 (2019-10-15)
Efficient and economical delivery of pharmaceuticals to patients is critical for effective therapy. Here we describe a multiorgan (lung, liver, and breast cancer) microphysiological system ("Body-on-a-Chip") designed to mimic both inhalation therapy and/or intravenous therapy using curcumin as a model
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