INCUBATEUR AGITÉ
Multitron Standard
INCUBATEUR AGITÉ
Multitron Standard
Le choix qui s’impose pour les applications microbiennes
La facilité d'utilisation et la fiabilité des conditions de croissance de l'incubateur agité Multitron Standard sont sans égales. Elles vous permettent de démarrer rapidement vos activités de criblage et de passer à l’échelle supérieure.
Avantages
Ce modèle offre une capacité de plus de 60 litres pour la fermentation microbienne sur moins d’un mètre carré. Il peut également recevoir des fioles d’un volume de 5 litres.
L’incubateur assure une température uniforme sur l’ensemble du plateau, ce qui favorise l’obtention de résultats reproductibles de la première expérience à la dernière.
Nos techniciens expérimentés mettent à votre disposition tous les outils proactifs dont vous avez besoin pour limiter les risques d’arrêts non planifiés et assurer le fonctionnement 24 h sur 24 de votre appareil.
Ce modèle offre une capacité de plus de 60 litres pour la fermentation microbienne sur moins d’un mètre carré. Il peut également recevoir des fioles d’un volume de 5 litres.
L’incubateur assure une température uniforme sur l’ensemble du plateau, ce qui favorise l’obtention de résultats reproductibles de la première expérience à la dernière.
Nos techniciens expérimentés mettent à votre disposition tous les outils proactifs dont vous avez besoin pour limiter les risques d’arrêts non planifiés et assurer le fonctionnement 24 h sur 24 de votre appareil.
Eau pour incubateurs
Eau doublement distillée, stérilisée et filtrée sur filtre 0,1 µm, spécialement formulée pour empêcher la croissance bactérienne, les contaminants organiques et la corrosion à l’intérieur des incubateurs humides.
Caractéristiques
- Disponible en version simple, double ou triple étage, chaque appareil peut être configuré de manière unique.
- Hauteur de travail confortable et faible empreinte au sol : 1070 x 860 x 1710 mm (en version triple étage)
- Vitesse et amplitude d’agitation élevées : de 20 à 400 min-1, 25/50 mm (vitesse max. 350 min-1 pour le module supérieur en version triple étage)
Publications associées
Toutes les publicationsResearchers from the University of Delaware, Departments of Chemical and Biomolecular Engineering and Electrical and Computer Engineering have made strides in enhancing the resilience of Chinese hamster ovary (CHO) cells used in biopharmaceutical production. By employing the INFORS HT Multitron incubator shaker, they exposed CHO cells to stress conditions commonly encountered during manufacturing, such as elevated levels of ammonia, lactate, and osmolality. Through comprehensive transcriptomic analysis, the team identified 199 genes exhibiting bistable expression, with seven emerging as prime candidates for engineering stress-resistant cell lines. This research holds promise for optimizing cell health and boosting productivity in large-scale bioreactor operations.
Researchers from the University of Delaware's Department of Chemical and Biomolecular Engineering have developed a site-specific integration (SSI) system to streamline CHO cell line development for monoclonal antibody (mAb) production. Using the INFORS HT Multitron incubator shaker, they cultivated cells under optimized conditions to evaluate a recombinase-mediated cassette exchange (RMCE) system that enables high-throughput transgene selection without cell sorting. Their approach resulted in a 7- to 11-fold increase in mAb productivity, offering a faster and more reliable method for biopharmaceutical manufacturing.
Researchers from Albert Einstein College of Medicine, Adimab LLC, and the U.S. Army Medical Research Institute of Infectious Diseases explored how combining neutralizing antibodies targeting different parts of the SARS-CoV-2 spike protein can help prevent escape mutants. Using the INFORS HT Multitron incubator shaker, they cultivated cells under controlled conditions to test antibody effectiveness. Their approach could strengthen antibody-based COVID-19 treatments by improving effectiveness and reducing resistance.
Researchers from the University of Delaware, Departments of Chemical and Biomolecular Engineering and Electrical and Computer Engineering have made strides in enhancing the resilience of Chinese hamster ovary (CHO) cells used in biopharmaceutical production. By employing the INFORS HT Multitron incubator shaker, they exposed CHO cells to stress conditions commonly encountered during manufacturing, such as elevated levels of ammonia, lactate, and osmolality. Through comprehensive transcriptomic analysis, the team identified 199 genes exhibiting bistable expression, with seven emerging as prime candidates for engineering stress-resistant cell lines. This research holds promise for optimizing cell health and boosting productivity in large-scale bioreactor operations.
Researchers from the University of Delaware's Department of Chemical and Biomolecular Engineering have developed a site-specific integration (SSI) system to streamline CHO cell line development for monoclonal antibody (mAb) production. Using the INFORS HT Multitron incubator shaker, they cultivated cells under optimized conditions to evaluate a recombinase-mediated cassette exchange (RMCE) system that enables high-throughput transgene selection without cell sorting. Their approach resulted in a 7- to 11-fold increase in mAb productivity, offering a faster and more reliable method for biopharmaceutical manufacturing.
Researchers from Albert Einstein College of Medicine, Adimab LLC, and the U.S. Army Medical Research Institute of Infectious Diseases explored how combining neutralizing antibodies targeting different parts of the SARS-CoV-2 spike protein can help prevent escape mutants. Using the INFORS HT Multitron incubator shaker, they cultivated cells under controlled conditions to test antibody effectiveness. Their approach could strengthen antibody-based COVID-19 treatments by improving effectiveness and reducing resistance.
Documentations
Articles Liés
BlogIn bioprocessing, selecting the right shaker parameters is essential for optimizing the growth and productivity of various organisms, including bacteria, yeast, and mammalian cells. By fine-tuning these parameters, scientists can create ideal environments for cultivation, maximizing process efficiency and reproducibility. In this installment of our Back to Basics blog series, we focus on how INFORS HT incubator shakers enable better control and flexibility to meet diverse cultivation needs.
Gene therapy is a promising approach for treating various genetic disorders and diseases. A critical component of gene therapy is the production of viral vectors, which serve as delivery vehicles for therapeutic genes. Human Embryonic Kidney 293 (HEK293) cells have become a widely used platform for viral vector production due to their efficiency in transfection and ability to support viral replication. However, optimizing HEK293 cell cultures for large-scale production of viral vectors remains a challenge in making gene therapies more accessible and cost-effective.
Selecting the correct orbital throw for your incubator shaker is critical for achieving optimal results in cell culture, bacterial growth, and other bioprocessing applications. In this installment of the Back to Basics series, we will explore what orbital throw is, why it matters, and how to make the best choice for your experiments.
In bioprocessing, selecting the right shaker parameters is essential for optimizing the growth and productivity of various organisms, including bacteria, yeast, and mammalian cells. By fine-tuning these parameters, scientists can create ideal environments for cultivation, maximizing process efficiency and reproducibility. In this installment of our Back to Basics blog series, we focus on how INFORS HT incubator shakers enable better control and flexibility to meet diverse cultivation needs.
Gene therapy is a promising approach for treating various genetic disorders and diseases. A critical component of gene therapy is the production of viral vectors, which serve as delivery vehicles for therapeutic genes. Human Embryonic Kidney 293 (HEK293) cells have become a widely used platform for viral vector production due to their efficiency in transfection and ability to support viral replication. However, optimizing HEK293 cell cultures for large-scale production of viral vectors remains a challenge in making gene therapies more accessible and cost-effective.
Selecting the correct orbital throw for your incubator shaker is critical for achieving optimal results in cell culture, bacterial growth, and other bioprocessing applications. In this installment of the Back to Basics series, we will explore what orbital throw is, why it matters, and how to make the best choice for your experiments.
Offres idéales pour optimiser davantage votre flux de travail de bioprocédés
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.
Moins d’interruptions et une meilleure productivité à chaque étape du bioprocédé
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.
Moins d’interruptions et une meilleure productivité à chaque étape du bioprocédé