Cellevate纳米纤维支架3D培养板,Cellevate纳米纤维支架3D培养碟皿*
Cellevate 3D™ Petri Dish
Standard petri dish with Cellevate 3D™ fiber scaffold insert. Available in various formats.
Product Details
- Petri dish culture plate with removable fiber insert.
- Available as 35, 60 and 100 mm petri dishes.
- Polycaprolcatone (PCL) nanofiber scaffold.
- Randomly oriented (mimics native decellularized tissue) or aligned fibers (mimics white matter of the brain).
- True 3D micro-environments.
- Compatible with standard analytical methods. Minimal protocol adaptation needed.
- Excellent batch-to-batch consistency
- Xeno-free.
Product Description
Cellevate 3D Cell Culture Plates consists of highly porous and consistent networks of biocompatible nanofibers. The fibers provide an environment which mimic the complex surroundings cells experience in their native tissues. Cells in these networks are allowed to proliferate and interact with other cells in three dimensions (3D), in contrast to the monolayer cultures seen on conventional two dimensional (2D) surfaces. This provides life science researchers with more realistic in-vitro models, which can help reduce the number of drug failures in clinical trials and allows for more relevant data and successful research.
The Cellevate nanofiber scaffolds are integrated in standard polystyrene petri dishes and are available in both random- and aligned fiber orientation. Random fiber alignment mimics native decellularized tissue. The aligned fibers provides the cells with a physical structure that resembles the tissue in the central nervous system and heart and skeletal muscle, where cellular orientation can have impact on respective tissue functions.
- True 3D micro-environments, not a rugged 2D surface.
- Compatible with standard light/fluorescent microscopy and optically transparent.
- Designed for compatibility with standard and high-throughput lab equipment.
- No special media or reagents are needed.
- Cells are easily removed using Trypsin-EDTA, or other standard procedures.
- The fibers are made of polycaprolactone (PCL), a biomimetic polymer already FDA approved for certain applications in-vivo.
- The approximate diameter of the nanofiber polymers is 700nm.
- The thickness of the fiber layer is ~100 microns.
- Scaffolds porosity is greater than 90%.
- Extracellular matrix protein coatings of the fiber networks using for example laminin, collagen, fibronectin, poly L-Lysine, ligands, etc. is possible using standard lab protocols.
- All products are xeno-free.
- Each plate is shipped sterile and ready to use.
Compatible Assays & Analytical Methods
- Proliferation: AlamarBlue, MTT, MTS, WST-1, CellTiter.
- Microscopy: Fluorescence, Confocal, Optical, SEM, TEM, Phase holographic.
- Protein/RNA Extraction: RIPA, RNeasy kit.
- Immunohistochemistry.
- Cryosectioning.
- Protocols for seeding, imaging and other assays can be found under protocols.
Properties
- Material: medical-grade Polycaprolactone (PCL), FDA-approved for certain applications in-vivo.
- Scaffold thickness: 100 μm.
- Fibre diameter: 700 nm.
- Pore size: 15-30 μm2.
- Overall porosity: app. 90%.
- Non-biodegradable in in vitro applications.
- Supplied with lid.
Cellevate 3D™ 4-Well Plate
4-well plate with removable inserts which allows them to be taken out for easy imaging purposes.
Product Details
- 4-Well Culture Plate with removable inserts.
- Polycaprolcatone (PCL) nanofiber scaffold.
- Randomly oriented (mimics native decellularized tissue) or aligned fibers (mimics white matter of the brain).
- True 3D micro-environments.
- Compatible with standard analytical methods. Minimal protocol adaptation needed.
- Excellent batch-to-batch consistency
- Xeno-free.
Product Description
Cellevate 3D Cell Culture Plates consists of highly porous and consistent networks of biocompatible nanofibers. The fibers provide an environment which mimic the complex surroundings cells experience in their native tissues. Cells in these networks are allowed to proliferate and interact with other cells in three dimensions (3D), in contrast to the monolayer cultures seen on conventional two dimensional (2D) surfaces. This provides life science researchers with more realistic in-vitro models, which can help reduce the number of drug failures in clinical trials and allows for more relevant data and successful research.
The Cellevate nanofiber scaffolds are integrated in standard multi-well plate frame and are available in both random- and aligned fiber orientation. Random fiber alignment mimics native decellularized tissue. The aligned fibers provides the cells with a physical structure that resembles the tissue in the central nervous system and heart and skeletal muscle, where cellular orientation can have impact on respective tissue functions.
- True 3D micro-environments, not a rugged 2D surface.
- Compatible with standard light/fluorescent microscopy and optically transparent.
- Designed for compatibility with standard and high-throughput lab equipment.
- No special media or reagents are needed.
- Cells are easily removed using Trypsin-EDTA, or other standard procedures.
- The fibers are made of polycaprolactone (PCL), a biomimetic polymer already FDA approved for certain applications in-vivo.
- The approximate diameter of the nanofiber polymers is 700nm.
- The thickness of the fiber layer is ~100 microns.
- Scaffolds porosity is greater than 90%.
- Extracellular matrix protein coatings of the fiber networks using for example laminin, collagen, fibronectin, poly L-Lysine, ligands, etc. is possible using standard lab protocols.
- All products are xeno-free.
- Each plate is shipped sterile and ready to use.
Compatible Assays & Analytical Methods
- Proliferation: AlamarBlue, MTT, MTS, WST-1, CellTiter.
- Microscopy: Fluorescence, Confocal, Optical, SEM, TEM, Phase holographic.
- Protein/RNA Extraction: RIPA, RNeasy kit.
- Immunohistochemistry.
- Cryosectioning.
- Protocols for seeding, imaging and other assays can be found under protocols.
Properties
- Material: medical-grade Polycaprolactone (PCL), FDA-approved for certain applications in-vivo.
- Scaffold thickness: 100 μm.
- Fibre diameter: 700 nm.
- Pore size: 15-30 μm2.
- Overall porosity: app. 90%.
- Non-biodegradable in in vitro applications.
- Supplied with lid.
Cellevate 3D™ 6-Well Plate
6-well plate with removable inserts which allows them to be taken out for easy imaging purposes.
Product Details
- 6-Well Culture Plate with removable inserts.
- Polycaprolcatone (PCL) nanofiber scaffold.
- Randomly oriented (mimics native decellularized tissue) or aligned fibers (mimics white matter of the brain).
- True 3D micro-environments.
- Compatible with standard analytical methods. Minimal protocol adaptation needed.
- Excellent batch-to-batch consistency
- Xeno-free.
Product Description
Cellevate 3D Cell Culture Plates consists of highly porous and consistent networks of biocompatible nanofibers. The fibers provide an environment which mimic the complex surroundings cells experience in their native tissues. Cells in these networks are allowed to proliferate and interact with other cells in three dimensions (3D), in contrast to the monolayer cultures seen on conventional two dimensional (2D) surfaces. This provides life science researchers with more realistic in-vitro models, which can help reduce the number of drug failures in clinical trials and allows for more relevant data and successful research.
The Cellevate nanofiber scaffolds are integrated in standard multi-well plate frame and are available in both random- and aligned fiber orientation. Random fiber alignment mimics native decellularized tissue. The aligned fibers provides the cells with a physical structure that resembles the tissue in the central nervous system and heart and skeletal muscle, where cellular orientation can have impact on respective tissue functions.
- True 3D micro-environments, not a rugged 2D surface.
- Compatible with standard light/fluorescent microscopy and optically transparent.
- Designed for compatibility with standard and high-throughput lab equipment.
- No special media or reagents are needed.
- Cells are easily removed using Trypsin-EDTA, or other standard procedures.
- The fibers are made of polycaprolactone (PCL), a biomimetic polymer already FDA approved for certain applications in-vivo.
- The approximate diameter of the nanofiber polymers is 700nm.
- The thickness of the fiber layer is ~100 microns.
- Scaffolds porosity is greater than 90%.
- Extracellular matrix protein coatings of the fiber networks using for example laminin, collagen, fibronectin, poly L-Lysine, ligands, etc. is possible using standard lab protocols.
- All products are xeno-free.
- Each plate is shipped sterile and ready to use.
Compatible Assays & Analytical Methods
- Proliferation: AlamarBlue, MTT, MTS, WST-1, CellTiter.
- Microscopy: Fluorescence, Confocal, Optical, SEM, TEM, Phase holographic.
- Protein/RNA Extraction: RIPA, RNeasy kit.
- Immunohistochemistry.
- Cryosectioning.
- Protocols for seeding, imaging and other assays can be found under protocols.
Properties
- Material: medical-grade Polycaprolactone (PCL), FDA-approved for certain applications in-vivo.
- Scaffold thickness: 100 μm.
- Fibre diameter: 700 nm.
- Pore size: 15-30 μm2.
- Overall porosity: app. 90%.
- Non-biodegradable in in vitro applications.
- Supplied with lid.
Cellevate 3D™ 12-Well Plate
Cellevate 3D™ 12-Well Plate
12-well plate with removable inserts which allows them to be taken out for easy imaging purposes.
Product Details
- 12-Well Culture Plate with removable inserts.
- Polycaprolcatone (PCL) nanofiber scaffold.
- Randomly oriented (mimics native decellularized tissue) or aligned fibers (mimics white matter of the brain).
- True 3D micro-environments.
- Compatible with standard analytical methods. Minimal protocol adaptation needed.
- Excellent batch-to-batch consistency
- Xeno-free.
Product Description
Cellevate 3D Cell Culture Plates consists of highly porous and consistent networks of biocompatible nanofibers. The fibers provide an environment which mimic the complex surroundings cells experience in their native tissues. Cells in these networks are allowed to proliferate and interact with other cells in three dimensions (3D), in contrast to the monolayer cultures seen on conventional two dimensional (2D) surfaces. This provides life science researchers with more realistic in-vitro models, which can help reduce the number of drug failures in clinical trials and allows for more relevant data and successful research.
The Cellevate nanofiber scaffolds are integrated in standard multi-well plate frame and are available in both random- and aligned fiber orientation. Random fiber alignment mimics native decellularized tissue. The aligned fibers provides the cells with a physical structure that resembles the tissue in the central nervous system and heart and skeletal muscle, where cellular orientation can have impact on respective tissue functions.
- True 3D micro-environments, not a rugged 2D surface.
- Compatible with standard light/fluorescent microscopy and optically transparent.
- Designed for compatibility with standard and high-throughput lab equipment.
- No special media or reagents are needed.
- Cells are easily removed using Trypsin-EDTA, or other standard procedures.
- The fibers are made of polycaprolactone (PCL), a biomimetic polymer already FDA approved for certain applications in-vivo.
- The approximate diameter of the nanofiber polymers is 700nm.
- The thickness of the fiber layer is ~100 microns.
- Scaffolds porosity is greater than 90%.
- Extracellular matrix protein coatings of the fiber networks using for example laminin, collagen, fibronectin, poly L-Lysine, ligands, etc. is possible using standard lab protocols.
- All products are xeno-free.
- Each plate is shipped sterile and ready to use.
Compatible Assays & Analytical Methods
- Proliferation: AlamarBlue, MTT, MTS, WST-1, CellTiter.
- Microscopy: Fluorescence, Confocal, Optical, SEM, TEM, Phase holographic.
- Protein/RNA Extraction: RIPA, RNeasy kit.
- Immunohistochemistry.
- Cryosectioning.
- Protocols for seeding, imaging and other assays can be found under protocols.
Properties
- Material: medical-grade Polycaprolactone (PCL), FDA-approved for certain applications in-vivo.
- Scaffold thickness: 100 μm.
- Fibre diameter: 700 nm.
- Pore size: 15-30 μm2.
- Overall porosity: app. 90%.
- Non-biodegradable in in vitro applications.
- Supplied with lid.
Cellevate 3D™ 24-Well Plate
Cellevate 3D™ 24-Well Plate
24-well plate with removable inserts which allows them to be taken out for easy imaging purposes.
Product Details
- 24-Well Culture Plate with removable inserts.
- Polycaprolcatone (PCL) nanofiber scaffold.
- Randomly oriented (mimics native decellularized tissue) or aligned fibers (mimics white matter of the brain).
- True 3D micro-environments.
- Compatible with standard analytical methods. Minimal protocol adaptation needed.
- Excellent batch-to-batch consistency
- Xeno-free.
Product Description
Cellevate 3D Cell Culture Plates consists of highly porous and consistent networks of biocompatible nanofibers. The fibers provide an environment which mimic the complex surroundings cells experience in their native tissues. Cells in these networks are allowed to proliferate and interact with other cells in three dimensions (3D), in contrast to the monolayer cultures seen on conventional two dimensional (2D) surfaces. This provides life science researchers with more realistic in-vitro models, which can help reduce the number of drug failures in clinical trials and allows for more relevant data and successful research.
The Cellevate nanofiber scaffolds are integrated in standard multi-well plate frame and are available in both random- and aligned fiber orientation. Random fiber alignment mimics native decellularized tissue. The aligned fibers provides the cells with a physical structure that resembles the tissue in the central nervous system and heart and skeletal muscle, where cellular orientation can have impact on respective tissue functions.
- True 3D micro-environments, not a rugged 2D surface.
- Compatible with standard light/fluorescent microscopy and optically transparent.
- Designed for compatibility with standard and high-throughput lab equipment.
- No special media or reagents are needed.
- Cells are easily removed using Trypsin-EDTA, or other standard procedures.
- The fibers are made of polycaprolactone (PCL), a biomimetic polymer already FDA approved for certain applications in-vivo.
- The approximate diameter of the nanofiber polymers is 700nm.
- The thickness of the fiber layer is ~100 microns.
- Scaffolds porosity is greater than 90%.
- Extracellular matrix protein coatings of the fiber networks using for example laminin, collagen, fibronectin, poly L-Lysine, ligands, etc. is possible using standard lab protocols.
- All products are xeno-free.
- Each plate is shipped sterile and ready to use.
Compatible Assays & Analytical Methods
- Proliferation: AlamarBlue, MTT, MTS, WST-1, CellTiter.
- Microscopy: Fluorescence, Confocal, Optical, SEM, TEM, Phase holographic.
- Protein/RNA Extraction: RIPA, RNeasy kit.
- Immunohistochemistry.
- Cryosectioning.
- Protocols for seeding, imaging and other assays can be found under protocols.
Properties
- Material: medical-grade Polycaprolactone (PCL), FDA-approved for certain applications in-vivo.
- Scaffold thickness: 100 μm.
- Fibre diameter: 700 nm.
- Pore size: 15-30 μm2.
- Overall porosity: app. 90%.
- Non-biodegradable in in vitro applications.
- Supplied with lid.
Cellevate 3D™ 48-Well Plate
48-well plate with nanofiber scaffolds for larger screenings. Available in various formats.
Product Details
- 48-Well Culture Plate for large screenings.
- Polycaprolcatone (PCL) nanofiber scaffold.
- Randomly oriented (mimics native decellularized tissue) or aligned fibers (mimics white matter of the brain).
- True 3D micro-environments.
- Compatible with standard analytical methods. Minimal protocol adaptation needed.
- Excellent batch-to-batch consistency
- Scaffolds are fused to the frame without the use of glue.
- Xeno-free.
Product Description
Cellevate 3D Cell Culture Plates consists of highly porous and consistent networks of biocompatible nanofibers. The fibers provide an environment which mimic the complex surroundings cells experience in their native tissues. Cells in these networks are allowed to proliferate and interact with other cells in three dimensions (3D), in contrast to the monolayer cultures seen on conventional two dimensional (2D) surfaces. This provides life science researchers with more realistic in-vitro models, which can help reduce the number of drug failures in clinical trials and allows for more relevant data and successful research.
The Cellevate nanofiber scaffolds are integrated in standard multi-well plate frame and are available in both random- and aligned fiber orientation. Random fiber alignment mimics native decellularized tissue. The aligned fibers provides the cells with a physical structure that resembles the tissue in the central nervous system and heart and skeletal muscle, where cellular orientation can have impact on respective tissue functions.
- True 3D micro-environments, not a rugged 2D surface.
- Compatible with standard light/fluorescent microscopy and optically transparent.
- Designed for compatibility with standard and high-throughput lab equipment.
- No special media or reagents are needed.
- Cells are easily removed using Trypsin-EDTA, or other standard procedures.
- The fibers are made of polycaprolactone (PCL), a biomimetic polymer already FDA approved for certain applications in-vivo.
- The approximate diameter of the nanofiber polymers is 700nm.
- The thickness of the fiber layer is ~100 microns.
- Scaffolds porosity is greater than 90%.
- Extracellular matrix protein coatings of the fiber networks using for example laminin, collagen, fibronectin, poly L-Lysine, ligands, etc. is possible using standard lab protocols.
- All products are xeno-free.
- Each plate is shipped sterile and ready to use.
Compatible Assays & Analytical Methods
- Proliferation: AlamarBlue, MTT, MTS, WST-1, CellTiter.
- Microscopy: Fluorescence, Confocal, Optical, SEM, TEM, Phase holographic.
- Protein/RNA Extraction: RIPA, RNeasy kit.
- Immunohistochemistry.
- Cryosectioning.
- Protocols for seeding, imaging and other assays can be found under protocols.
Properties
- Material: medical-grade Polycaprolactone (PCL), FDA-approved for certain applications in-vivo.
- Scaffold thickness: 100 μm.
- Fibre diameter: 700 nm.
- Pore size: 15-30 μm2.
- Overall porosity: app. 90%.
- Non-biodegradable in in vitro applications.
- Supplied with lid.