Shifting the size Paradigm

w8

 

The W8 streamlines your daily routine by bringing structural quantification on 3D cell models. Through unique biomarkers for compaction and structure, it offers scientists unparalleled insights into sample quality, diversity, and maturation. The W8 enhaces predictions on treatment effects,  streamlining complex insights into accessible knowledge.

What You Know

Size measuring is an essential daily practice for tracking the progression of our 3D cultures. It is the primary approach to monitor growth and uniformity. However, focusing on size overlooks a critical aspect: Organoids are  Three-dimensional.

What You Are Missing

Beyond size, 3D cultures have a complex balance of cells, proteins, and architectures, each playing a pivotal role in their functionality. Including routinary biomarkers to gather structural perspectives changes the paradigm, revealing the full potential of 3D cultures.

What You Know

Size measuring is an essential daily practice for tracking the progression of our 3D cultures. It is the primary approach to monitor growth and uniformity. However, focusing on size overlooks a critical aspect: Organoids are  Three-dimensional.

What You Are Missing

Beyond size, 3D cultures have a complex balance of cells, proteins, and architectures, each playing a pivotal role in their functionality. Including routinary biomarkers to gather structural perspectives changes the paradigm, revealing the full potential of 3D cultures.

Specifications

OUTPUTS

Size (µm)

Mass Density (fg/µm3)

Weigth (ng)

Troughput

15 organoids / hour

RECOVERING BY

Size (µm)

Mass Density (fg/µm3)

SUITABLE FOR SAMPLES

100 - 600 (µm)

SAMPLE QUALITY

Sterile

Viable

Label free

DATA

Easy Data Elaboration

W8  in the World 

GAIN INSIGHT ON

Understanding Mass Density reveals the intricacies of structural complexity in 3D cell cultures, exposing the delicate balance among cell density, ECM composition, and cavity formation.

Cell Density

The mass density of an organoid is heavily contingent upon the number of cells per unit of volume. Often, an increase in cell number results in a corresponding increase in Mass Density.

Extracellular Matrix

Mass Density variations are  influenced by extracellular matrix (ECM) components. Greater ECM concentration can lead to increased Mass Density, as it adds non-cellular mass to the organoid.

Cavities

The Mass Density of an organoid can be substantially affected by the presence or absence of cavities. Within similar sizes, the larger the cavities the lower the Mass Density

ElevatE
your work

Incorporating Mass Density quantification into your daily routine unlocks extraordinary insights into organoid maturation, compound permeability, cell migration, and co-culture interactions.
Streamline your workflows, reduce guesswork, and drive forward with confidence.

Applications

Quantifying Structural Variation in Daily Operations: A QC Assay

This study introduces a novel, non-disruptive, and label-free approach to quantify heterogeneity in 3D cell cultures, aiming to provide quantitative insights into structural characteristics of the 3D models. This approach promises to enhance the utility of 3D cell cultures in disease modeling, drug testing, and tissue engineering by providing valuable quantitative data on the heterogeneity within the culture.

Improving Sample Selection in Deep Imaging with Mass Density

Confocal imaging is crucial yet challenging in 3D cell culture, marked by high costs and complexity. The risk of selecting non-representative samples further complicates research. Emphasizing proper sample selection is vital for overcoming these obstacles and streamlining research outcomes.

Mass Density as Non-Invasive Biomarker for Organoid Maturation

Explore the innovative approach to follow organoids maturation through non-invasive biomarker analysis
Uncovering the synergy between mass density and key biomarkers related to organoid differentiation, evolves the workflows to monitor maturation phases effortlessly.

A Predictive Biomarker for Cell Permeationin Cancer Immunotherapy

This study explores the interaction between natural killer cells and colorectal cancer spheroids in a 3D environment, emphasizing how spheroid biophysical properties affect immune cell infiltration and cytotoxicity.

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CONTACTS

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