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HDP1385 Sigma

Perfecta3D® hanging drop plate

size 384 wells , with lid and tray, polystyrene (untreated), sterile

Synonym: 3D Cell Culture, 3D



material   polystyrene (untreated)
sterility   sterile
packaging   pack of 8 ea (individually packaged)
mfr. no.   3D Biomatrix, HDP1384-8
size   384 wells , with lid and tray


General description

Perfecta3D® Hanging Drop Plates facilitate consistent and controllable formation of three-dimensional (3D) spheroids and cell aggregates.

Cells can be mixed prior to seeding in wells for homogeneous co-cultures, or added after spheroids are formed for patterned co-cultures. Stem cell aggregates like embryoid bodies can be cultured and studied without cellular contact with surfaces. Media can be changed easily.

One aggregate forms per well. The 96- and 384-well Perfecta3D® Hanging Drop Plates are compatible with automated liquid handling equipment. Drugs and assay reagents can be added directly to the wells. One spheroid per well and control over spheroid size means consistent data.

• Easy to use
• One spheroid or aggregate per well
• Access cultures from the top of the plate: perform media changes, add compounds, or add cells for co-cultures
• Compatible with liquid handling systems, microplate readers, and manual pipetting

Legal Information

Perfecta3D is a registered trademark of 3D Biomatrix

Safety & Documentation

Safety Information

Safety Information for this product is unavailable at this time.


Certificate of Analysis (COA)

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Protocols & Articles


3D Pluripotent Stem Cells: Simplified Culture and Realistic Differentiation

Introduction Generating Embryoid Bodies Validating Pluripotency Maximizing Differentiation Conclusions Materials References
Keywords: Apoptosis, Cell culture, Gene expression, Growth factors

5 Reasons Cancer Researchers Adopt 3D Cell Culture: A Review of Recent Literature

Summary Introduction Growing Cells in 3D alters proliferation and cell morphology Growing cells in 3D reveals a more realistic drug response Growing cells in 3D captures phenotypic heterogeneity Grow...
Keywords: Adhesion, Angiogenesis, Apoptosis, Cancer, Cell culture, Cell division, Cell proliferation, Clinical, Diagnostic, Gene expression, Genetic, Growth factors, Reductions, Transcription, Transduction

Peer-Reviewed Papers


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