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F417D-250
Feline Osteoblast Differentiation Medium (250ml)
Price: $207.26List Price: $230.29Feline Osteoblast Differentiation Medium Quality Each lot was tested for the ability to support plating, spreading and proliferation Preparation Note contained in protocol -
F417-GS
Feline Osteoblast Growth Supplements (50 ml)
Price: $176.08List Price: $195.64Added to Basal Medium to create Growth Medium Quality Each lot was tested for the ability to support plating, spreading and proliferation Preparation Note contained in protocol -
C-27001
Osteoblast Growth Medium (C15-1346-150)
Price: $369.18List Price: $410.20Osteoblast Growth Medium (Ready-to-use) Application Osteoblast Growth Medium has been optimized for the in vitro cultivation of human osteoblasts. The fetal calf serum in the medium is strictly pretested for optimal performance. -
C-27010
Osteoblast Growth Medium (C15-1346-151)
Price: $274.29List Price: $304.76Osteoblast Basal Medium (supplements sold separately) To form a complete medium, it should be combined with the media supplements: C-39615 Application Osteoblast Growth Medium has been optimized for the in vitro cultivation of human osteoblasts. -
C-27015
Osteoblast Growth Medium (C15-1346-152)
Price: $300.00List Price: $333.33Osteoblast Basal Medium, phenol red-free (supplements sold separately) Application Osteoblast Growth Medium has been optimized for the in vitro cultivation of human osteoblasts. The fetal calf serum in the medium is strictly pretested for optimal -
C-39615
Osteoblast Growth Medium (C15-1346-232)
Price: $295.71List Price: $328.57Osteoblast Growth Medium SupplementMix (basal medium sold separately) To form a complete medium, it should be combined with the basal medium: C-27010 Application Osteoblast Growth Medium has been optimized for the in vitro cultivation of human -
C-27020
Osteoblast Mineralization Medium
Price: $360.00List Price: $400.00Osteoblast Mineralization Medium (Ready-to-use) Application Osteoblast Mineralization Medium has been developed for the efficient induction of strong mineralization in human osteoblast cultures. Extensive extracellular calcium-deposits can be