Accelerating Drug Discovery with Human-Accurate Models

From groundbreaking research to life-saving therapies, explore how Gelomics is transforming drug development with LunaGel’s 3D cell culture technology (download white papers).

What is 3D Cell Culture?

Revolutionizing Cell Research with 3D Cell Culture

3D cell culture is an advanced technique in cell biology that allows cells to grow in an environment that closely mimics their natural state in the body. Unlike traditional 2D cell culture, where cells are grown in flat, rigid surfaces like plastic dishes, 3D cell culture enables cells to grow in three-dimensional structures, providing a more physiologically relevant model of how cells behave in vivo.

3D, 2D & In Vitro

Clinical Relevance of In Vitro Model Systems

Compared to traditional 2D cultures, which grow cells in flat monolayers with limited spatial context, 3D cultures more closely mimic the physiological conditions of human tissues. They recreate essential factors such as hypoxia, natural stiffness, and acidic microenvironments, enabling more accurate modeling of complex biological interactions, including immune responses and tumor microenvironments. This enhanced physiological relevance bridges the gap between in vitro studies and human biology, improving the predictive value of preclinical research.

Why Does 3D Cell Culture Matter?

3D cell culture has revolutionized biological research by bridging the gap between traditional cell culture and actual biological systems. By replicating tissue-like structures, it enables:

3D cell culture is not just a method; it’s a paradigm shift in how we study and understand biological systems. By providing a more accurate representation of in vivo environments, it has the potential to accelerate scientific discoveries and improve healthcare outcomes.

Area Of 3D Tissue Culture

Embrace the Power of 3D Cell Culture Approaches

 

• Drug Discovery: Expedite the discovery of drug candidates by leveraging high-throughput biofabrication to create more physiologically relevant and biomimetic models.
• Personalized Medicine: 3D bioprinting enables the creation of patient-specific models using cell-friendly biofabrication techniques, driving a transformative shift in healthcare.
• Disease Modelling: Our 3D cell culture advances disease modeling by replicating complex tissue environments for more accurate research.
• Bio Printing: Bioprinting revolutionizes disease modeling by creating realistic tissue structures for more accurate insights and therapies.

 

How Does LunaGel™ Work?

In 4 Simple Steps...

 

Watch the Video: Create 3D Cell Culture Models in 15 minutes

A Full Comparison

LunaGel is so much better!

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Download the latest white papers

 

Find Your Products

Because accurate research needs tissues, not just cells.

LunaCrosslinker™ – Visible Light Crosslinking

LunaGel™ Cell Recovery Kit – Ready To Use Solution

LunaGel™ Porcine Skin – Photocrosslinkable Extracellular Matrix

LunaGel™ Cold Water Fish Skin – Photocrosslinkable Extracellular Matrix

LunaGel™ Bovine Skin – Photocrosslinkable Extracellular Matrix

LunaGel™ Bovine Bone – Photocrosslinkable Extracellular Matrix

LunaGel™ Ultrapure GelMA – Photocrosslinkable Extracellular Matrix

Gelatin Methacryloyl (GelMA) – Bovine Bone

Gelatin Methacryloyl (GelMA) – Bovine Skin

Gelatin Methacryloyl (GelMA) – Cold Water Fish Skin

Gelatin Methacryloyl (GelMA) – Porcine Skin

Visible Light Photoinitiator

 

Learn more about Gelomics today!