Stem Cell Products | Stem Cell Therapy Products | Corning

Introduction

Moving Stem Cell Therapy Research Forward

Moving Stem Cell Therapy Research Forward

The recognition that mesenchymal stem cells can modify immune functions has piqued interest in developing cells to treat a range of musculoskeletal abnormalities, cardiac disease, and some immune abnormalities. The challenges of identifying, isolating, differentiating, and expanding these cells has limited widespread adoption to date. Still, Corning is committed to enabling advancement in this important research area. We offer a wide range of platforms and surface technologies to help drive your stem cell therapy research forward, including:
 

  • Pre-coated, high-density vessels for the reproducible expansion of adherent or suspension-based stem cell cultures
  • Customizable closed system options that eliminate open fluid manipulation
  • Specialized, xeno-free surfaces, media, and reagents to address stem cell research, providing you with a single supplier for your work with MSCs, ESCs, iPSCs, and NSCs
  • Customizable options in vessels, surfaces, and media to meet your requirements

Applications


Stem Cell Therapy Applications

Stem Cell Differentiation

Stem Cell Differentiation

Optimize your cell culture environment to direct cell differentiation and specialization with tools, technologies, and guidance from Corning.

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Stem Cell Expansion

Stem Cell Expansion

Discover novel and scalable environments for stem and primary cell types for cell expansion in basic and clinical research applications.

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Products

Stem Cell Therapy: Featured Products

Featured Technology

Advanced Surfaces at Work

Featured Resources


Stem Cell Therapy Applications and Products

Bench to Bedside: Trends in Regenerative Medicine Whitepaper

Bench to Bedside: Trends in Regenerative Medicine Whitepaper

This whitepaper focuses on four promising approaches: stimulating stem cell homing for in situ repair, transplanting organoids to repair minor tissue injury, tissue engineering, and using interspecies chimerism to produce functional organs for transplantation.

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Whitepaper: Guide to Seeding, Expanding, and Harvesting Stem Cells

Guide to Seeding, Expanding, and Harvesting Stem Cells

This whitepaper leverages Corning’s extensive expertise in seeding, expanding, and harvesting stem cells.

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Guide to Extracellular Vesicles

Guide to Extracellular Vesicles

With more efficient and consistent production methods, researchers will be able to harness the enormous potential of EVs for clinical diagnostics, prognostics, and therapeutics.

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Extracellular Vesicles: From Waste EVictees to Therapeutic Reality

Extracellular Vesicles: From Waste EVictees to Therapeutic Reality

This webinar covers the biology and function of Extracellular Vesicles, where EVs could have a clinical impact, and what methods can be used to produce, characterize and quantify EVs.

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Extracellular Vesicles Infographic

Extracellular Vesicles Infographic

See how the “text messages” of cells could transform advanced therapies.

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Extracellular Vesicles: What They Are, Application Potential, and How to Scale

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Extracellular Vesicles: What They Are, Application Potential, and How to Scale

Mesenchymal stem cells offer promise across various applications in regenerative medicine, but they do have challenges. Can extracellular vesicles (EVs) tap into that promise with lower risk? New research indicates they could.

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Do more with Corning HYPERStack Cell Culture Vessels

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Do more with Corning HYPERStack Cell Culture Vessels

See how this closed system offers more surface area within a compact footprint.

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Adherent vs. Suspension: Which is Right for Your Lab?

Adherent vs. Suspension

Which cell culture method is right for your lab? Use this infographic to help you achieve your goals!

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Human bone marrow-derived MSC yields and viability from Corning HYPERStack 36-layer cell culture vessels. Bars are cell density and dots are viability.

Bone Marrow-derived Human Mesenchymal Stem Cell Production in Corning HYPERStack 36-layer Cell Culture Vessels

Review the demonstration of the utility of the Corning HYPERStack 36-layer cell culture vessel as a tool to meet the growing demand for expanding bone marrow-derived MSCs to relevant scale for clinical application workflows.

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Red and blue stem cells

Human Umbilical Cord-derived Mesenchymal Stem Cell Production in Corning® HYPERStack® 36-layer Cell Culture Vessels

Mesenchymal stem cells (MSCs), which are multipotent stromal cells, have recently attracted significant interest for their possible use in regenerative medicine applications. As a multipotent cell, MSCs have the potential to differentiate into other lineages such as adipocytes, osteocytes, and chondrocytes1.

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Microcarriers

Efficient Expansion of hMSCs on Corning Attachment Microcarriers

Optimize human mesenchymal stem cell culture conditions to enable a uniform cell distribution on microcarriers with minimal shear while allowing sufficient exchange of nutrients and gases.

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red stem cell

PureCoat rLaminin-521 (Human) for Expansion and Differentiation of Human Neural Stem Cells

Corning PureCoat rLaminin-521 cultureware offers an animal-free ready-to-use platform for hNSC expansion and differentiation.

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purple and blue stem cells

Culture Conditions and ECM Surfaces for Stem Cell Differentiation

Discover how the use of ECM molecules and a unique peptide-based hydrogel can provide conditions that enable a variety of stem cell types to execute specific differentiation pathways.

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HYPERFlask

Rapid Expansion of hASCs With HYPERFlask

Using Corning HYPERFlask cell culture vessels, researchers were able to generate a great quantity of mesenchymal stem cells for research, as well as aiming future cellular therapeutic approaches

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HYPERStack

Corning HYPER Technology and hMSC Expansion

The Corning HYPER Technology Platform vessels which include the HYPERFlask and the HYPERStack cell culture vessels, can be successfully utilized to scale-up hMSCs with expected viability, surface markers, and proliferation rates.

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PureCoat Flask

Novel Synthetic, Animal-free Surface Culture of Human Bone Marrow-derived MSCs

Learn how Corning PureCoat ECM and Firbontectin can support cell attachment and growth in MSC culture.

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Support

Field Applications Support