The Germany 3D cell culture market is expected to witness a significant growth with the CAGR of 15% during the forecast period. Germany is the global leading medical biotech nation behind the US which makes it a prospering market for the 3D cell culture. The presence of long-established and start-up companies are the other major factor driving the growth for the 3D cell culture market in the region. There are numerous big companies which are participating in the market which have organized themselves within the Association of Research-Based Pharmaceutical Companies (VFA, Verband Forschender Arzneimittelunternehmen).
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The Germany 3D cell culture market is segmented on the basis of method, product type, application and end-user. Based on the method, the market is segmented into Scaffold-Based 3d Cell Culture Method, Forced-Floating Method, Hanging Drop Method, Agitation Based Method, Microfluidics-Based 3d Cell Culture, and Magnetic Levitation & 3d Bioprinting. Out of which scaffold-based 3D cell culture method segment includes hydrogels, other (non-gel polymer), scaffold-free cell culture method. Based on the application, the market is segmented into scaffold-based 3D cell culture, hydrogels/ecm analogs, solid scaffolds, micropatterned surfaces, scaffold-free 3D cell culture, low-adhesion microplates, hanging drop plates, 3D bioreactors, and 3D petri dishes. Based on the application, the market is segmented into cancer and stem cell research, drug discovery, toxicology, and tissue engineering & regenerative medicine. Based on the end-user, the market is segmented into Pharmaceutical & Biotechnology Companies and Research Institutes.
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Germany 3D Cell Culture Market Segmentation
By Method
- Scaffold-Based 3d Cell Culture Method
- Hydrogels
- Other (Non-Gel Polymer)
- Scaffold-Free Cell Culture Method
- Forced-Floating Method
- Hanging Drop Method
- Agitation Based Method
- Microfluidics-Based 3d Cell Culture
- Magnetic Levitation & 3d Bioprinting
By Product Type
- Scaffold-Based 3D Cell Culture
- Hydrogels/Ecm Analogs
- Solid Scaffolds
- Micropatterned Surfaces
- Scaffold-Free 3D Cell Culture
- Low-Adhesion Microplates
- Hanging Drop Plates
- 3D Bioreactors
- 3D Petri Dishes
By Application
- Cancer And Stem Cell Research
- Drug Discovery
- Toxicology
- Tissue Engineering & Regenerative Medicine
By End-User
- Pharmaceutical & Biotechnology Companies
- Research Institutes
(This release has been published on OMR Industry Journal. OMR Industry Journal is not responsible for any content included in this release.)