Celltron
Celltron
L’agitateur idéal pour votre incubateur à CO2
Bénéficiez de tous les avantages d’une technologie d’agitation qui réduit les risques pour les cellules incubées sous CO2. Le Celltron est un agitateur compact, économique et peu énergivore qui trouvera sa place dans votre laboratoire.
Avantages
L’entraînement magnétique à accélération progressive consomme très peu d’énergie, générant ainsi une très faible quantité de chaleur dans l’incubateur statique.
L’entraînement magnétique à accélération progressive consomme très peu d’énergie, générant ainsi une très faible quantité de chaleur dans l’incubateur statique.
Caractéristiques
- Rentre dans un incubateur sous CO2 ; la rotation ne dépasse pas les dimensions de la base (l x P x H) : 450 x 380 x 90 mm
- Panneau de commande externe, qui se fixe magnétiquement sur l'extérieur de l’incubateur, fonctionnement intuitif, surveillance et commande précises des paramètres, alarmes.
- Fixation facile de différents récipients de culture sur le plateau de l’agitateur au moyen du tapis adhésif Sticky Stuff
- Un meilleur transfert de l’oxygène et une homogénéité accrue des nutriments dans le milieu de culture entraînent une croissance bien meilleure que dans un incubateur statique, et modulable selon l’échelle.
Documentations
Publications associées
Toutes les publicationsResearchers from the Laboratory of Process Technology (NeptunLab), Department of Microsystems Engineering (IMTEK), University of Freiburg (Germany) developed a new way to produce bioactive glass microscaffolds for tissue engineering using advanced 3D printing technology. During in vitro mineralization studies, samples were incubated in the INFORS HT Minitron incubator shaker, where the material demonstrated strong bioactivity. The scaffolds were also shown to be compatible with human mesenchymal stromal cells and supported osteogenic differentiation, providing a new platform for studying scaffold design in tissue engineering.
Researchers from the KTH Royal Institute of Technology (Sweden) used enzyme-constrained genome-scale models (ecGEMs) to redesign the anaerobic metabolism of Saccharomyces cerevisiae for the co-production of 2,3-butanediol and glycerol. Seed cultures were prepared using the INFORS HT Minitron incubator shaker before fermentation experiments, enabling validation of model predictions through bioreactor cultivation and proteomic analysis. The study demonstrated that engineered yeast cells could achieve high glucose uptake rates by reallocating cellular resources toward glycolysis, highlighting the potential of ecGEMs as a powerful tool for metabolic engineering and strain development.
Researchers from the Department of Chemical & Biomolecular Engineering and the Department of Electrical and Computer Engineering at the University of Delaware (USA) developed a transcriptomic workflow called MemorySeq to identify stress-responsive biomarkers in Chinese hamster ovary (CHO) cells exposed to manufacturing-related stress conditions. Using the INFORS HT Minitron incubator shaker for controlled CHO cell cultivation, the study identified 199 genes with heritable transcriptional variability linked to stress adaptation, apoptosis regulation, and metabolic pathways. These findings provide new insights into engineering more stress-tolerant CHO cell lines for improved biopharmaceutical manufacturing performance.
Researchers from the Laboratory of Process Technology (NeptunLab), Department of Microsystems Engineering (IMTEK), University of Freiburg (Germany) developed a new way to produce bioactive glass microscaffolds for tissue engineering using advanced 3D printing technology. During in vitro mineralization studies, samples were incubated in the INFORS HT Minitron incubator shaker, where the material demonstrated strong bioactivity. The scaffolds were also shown to be compatible with human mesenchymal stromal cells and supported osteogenic differentiation, providing a new platform for studying scaffold design in tissue engineering.
Researchers from the KTH Royal Institute of Technology (Sweden) used enzyme-constrained genome-scale models (ecGEMs) to redesign the anaerobic metabolism of Saccharomyces cerevisiae for the co-production of 2,3-butanediol and glycerol. Seed cultures were prepared using the INFORS HT Minitron incubator shaker before fermentation experiments, enabling validation of model predictions through bioreactor cultivation and proteomic analysis. The study demonstrated that engineered yeast cells could achieve high glucose uptake rates by reallocating cellular resources toward glycolysis, highlighting the potential of ecGEMs as a powerful tool for metabolic engineering and strain development.
Researchers from the Department of Chemical & Biomolecular Engineering and the Department of Electrical and Computer Engineering at the University of Delaware (USA) developed a transcriptomic workflow called MemorySeq to identify stress-responsive biomarkers in Chinese hamster ovary (CHO) cells exposed to manufacturing-related stress conditions. Using the INFORS HT Minitron incubator shaker for controlled CHO cell cultivation, the study identified 199 genes with heritable transcriptional variability linked to stress adaptation, apoptosis regulation, and metabolic pathways. These findings provide new insights into engineering more stress-tolerant CHO cell lines for improved biopharmaceutical manufacturing performance.
Customer voices
Manfred Sander, Dipl.-Ing. (FH)Département spécialisé de gestion des équipements, Universitätsklinikum Erlangen
Articles Liés
BlogMoving a mammalian cell culture process from shake flask to bioreactor is more than a scale-up exercise. Each transition introduces new challenges in oxygen transfer, pH control, CO₂ management, mixing, and data reproducibility. This practical guide explores the key stages of cell culture process development, explains why process transfer often fails, and shows how integrated bioreactor control and data management help create scalable, reproducible processes from screening through scale-up.
Buying used laboratory equipment can reduce upfront costs and improve short-term flexibility. However, when evaluating a used incubator shaker, laboratories must consider contamination risk, service history, manufacturer support status, and long-term cost of ownership. A structured assessment ensures that short-term savings do not introduce long-term operational instability.
Contamination remains a persistent risk in incubation workflows, with the potential to compromise experimental results, delay timelines, and require costly repeat work. Even brief exposure during routine handling or access can introduce unwanted particles that affect culture integrity and reproducibility. The Multitron Incubator Shaker with the integrated HEPA filtration system is designed to help laboratories maintain consistent air quality throughout incubation. By providing continuous air purification and measurable performance, INFORS HT supports reliable cultivation conditions that reduce the risk of contamination-related interruptions and help keep research on track.
Moving a mammalian cell culture process from shake flask to bioreactor is more than a scale-up exercise. Each transition introduces new challenges in oxygen transfer, pH control, CO₂ management, mixing, and data reproducibility. This practical guide explores the key stages of cell culture process development, explains why process transfer often fails, and shows how integrated bioreactor control and data management help create scalable, reproducible processes from screening through scale-up.
Buying used laboratory equipment can reduce upfront costs and improve short-term flexibility. However, when evaluating a used incubator shaker, laboratories must consider contamination risk, service history, manufacturer support status, and long-term cost of ownership. A structured assessment ensures that short-term savings do not introduce long-term operational instability.
Contamination remains a persistent risk in incubation workflows, with the potential to compromise experimental results, delay timelines, and require costly repeat work. Even brief exposure during routine handling or access can introduce unwanted particles that affect culture integrity and reproducibility. The Multitron Incubator Shaker with the integrated HEPA filtration system is designed to help laboratories maintain consistent air quality throughout incubation. By providing continuous air purification and measurable performance, INFORS HT supports reliable cultivation conditions that reduce the risk of contamination-related interruptions and help keep research on track.
Offres idéales pour optimiser davantage votre flux de travail de bioprocédés
Nos incubateurs de laboratoire se distinguent par leur conception intelligente, leur ergonomie et l’emploi des toutes dernières technologies.
Notre réseau mondial de techniciens expérimentés assure le fonctionnement de vos incubateurs, 24h sur 24.
Enrichissez votre agitateur de laboratoire avec une large gamme de plateaux, de portoirs et de tapis adhésifs.
Nos incubateurs de laboratoire se distinguent par leur conception intelligente, leur ergonomie et l’emploi des toutes dernières technologies.
Notre réseau mondial de techniciens expérimentés assure le fonctionnement de vos incubateurs, 24h sur 24.
Enrichissez votre agitateur de laboratoire avec une large gamme de plateaux, de portoirs et de tapis adhésifs.