Axol's biocompatible hydrogel is supplied ready to use in a syringe and mimics the extracellular matrix, supporting cell growth and differentiation with consistent results. Tested applications range from: 3D cell culture and organ-on-a-chip models, through to drug release studies and 3D printing.
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Features & Benefits
Axol’s bio-friendly hydrogel is extracted from birch and sourced from sustainable and responsibly managed forests. The hydrogel supports culture of a variety of cells including iPS, ES, cancer, retinal, neural cells as well as patient derived cells and biopsies and used for 3D organoids and spheroid culture.
Eliminating the need for temperature control on the bench, Axol’s hydrogel is stored, shipped and suitable for use at room temperature, reducing complexity and cost. There is no batch to batch variability making lot reservations a thing of the past.
The hydrogel is not auto fluorescent, is pH neutral and is compatible with automated liquid handling systems, high content imagers and standard microscopes set ups.
Barnawi R, Al-Khaldi S, Colak D, Tulbah A, Al-Tweigeri T, Fallatah M, Monies D, Ghebeh H, Al-Alwan M (2019) -- β1 Integrin is Essential for Fascin-Mediated Breast Cancer Stem Cell Function and Disease Progression. International Journal of Cancer
Nugroho RWN, Harjumäki R et al. (2019) Quantifying the interactions between biomimetic biomaterials – collagen I, collagen IV, laminin 521 and cellulose nanofibrils – by colloidal probe microscopy. Colloids and Surfaces B: Biointerfaces Volume 173, p.571-580
Broguiere et al. (2018), Growth of Epithelial Organoids in a Defined Hydrogel. Adv. Mater., 30, 1801621
O'Donnell et al. (2018) Cellulose-based scaffolds for fluorescence lifetime imaging-assisted tissue engineering. Acta Biomaterialia Volume 80, p.85-96.
Flotow H. Spencer-Fry J. (2018) High Throughput Screening capable assays in 3D. Drug Target review 2018; Issue #1, Assays-In-Depth Focus, p.8-10.
I. Azoidis, J. Metcalfe, J. Reynolds, S. Keeton, S. Hakki, J. Sheard and D. Widera (2017). Three-dimensional cell culture of human mesenchymal stem cells in nanofibrillar cellulose hydrogels. MRS Communications, p. 1-8.
multimodal imaging agent in ionizingradiation-free approach for visualizing hepatocellular carcinoma cells. Sensors and Actuators B: Chemical 245, 683–694.
Axol’s bio-friendly hydrogel is extracted from birch and sourced from sustainable and responsibly managed forests. The hydrogel supports culture of a variety of cells including iPS, ES, cancer, retinal, neural cells as well as patient derived cells and biopsies and used for 3D organoids and spheroid culture.
Eliminating the need for temperature control on the bench, Axol’s hydrogel is stored, shipped and suitable for use at room temperature, reducing complexity and cost. There is no batch to batch variability making lot reservations a thing of the past.
The hydrogel is not auto fluorescent, is pH neutral and is compatible with automated liquid handling systems, high content imagers and standard microscopes set ups.
Read now
Barnawi R, Al-Khaldi S, Colak D, Tulbah A, Al-Tweigeri T, Fallatah M, Monies D, Ghebeh H, Al-Alwan M (2019) -- β1 Integrin is Essential for Fascin-Mediated Breast Cancer Stem Cell Function and Disease Progression. International Journal of Cancer
Read now
Nugroho RWN, Harjumäki R et al. (2019) Quantifying the interactions between biomimetic biomaterials – collagen I, collagen IV, laminin 521 and cellulose nanofibrils – by colloidal probe microscopy. Colloids and Surfaces B: Biointerfaces Volume 173, p.571-580
Read now
Broguiere et al. (2018), Growth of Epithelial Organoids in a Defined Hydrogel. Adv. Mater., 30, 1801621
Read now
O'Donnell et al. (2018) Cellulose-based scaffolds for fluorescence lifetime imaging-assisted tissue engineering. Acta Biomaterialia Volume 80, p.85-96.
Read now
Flotow H. Spencer-Fry J. (2018) High Throughput Screening capable assays in 3D. Drug Target review 2018; Issue #1, Assays-In-Depth Focus, p.8-10.
Read now
I. Azoidis, J. Metcalfe, J. Reynolds, S. Keeton, S. Hakki, J. Sheard and D. Widera (2017). Three-dimensional cell culture of human mesenchymal stem cells in nanofibrillar cellulose hydrogels. MRS Communications, p. 1-8.
Read now
multimodal imaging agent in ionizingradiation-free approach for visualizing hepatocellular carcinoma cells. Sensors and Actuators B: Chemical 245, 683–694.
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