Incubadoras con agitación orbital
Minitron
Incubadoras con agitación orbital
Minitron
Aproveche al máximo el espacio de su laboratorio de investigación con este agitador incubador compacto y rentable
Con todas las capacidades del agitador Multitron en un diseño que ahorra espacio, el Minitron maneja una variedad de aplicaciones, desde microorganismos estándar hasta cultivos celulares complejos, mientras se adapta a los laboratorios más pequeños.
Ventajas
Maximice la oxigenación y obtenga resultados comparables en una variedad de recipientes, desde placas de microtitulación hasta frascos de agitación de 5 litros con órbitas de agitación de 25 o 50 mm y altas velocidades de agitación de hasta 400 rpm.
La unidad motriz es potente pero silenciosa y confiable para cada carga y tiene equilibrio dinámico para ayudar a eliminar errores de manejo, paradas no deseadas y ajustes manuales innecesarios.
Maximice la oxigenación y obtenga resultados comparables en una variedad de recipientes, desde placas de microtitulación hasta frascos de agitación de 5 litros con órbitas de agitación de 25 o 50 mm y altas velocidades de agitación de hasta 400 rpm.
La unidad motriz es potente pero silenciosa y confiable para cada carga y tiene equilibrio dinámico para ayudar a eliminar errores de manejo, paradas no deseadas y ajustes manuales innecesarios.
Especificaciones del producto
- Huella compacta con opción de apilamiento simple o doble. Dimensiones (ancho [W] x profundidad [D] x altura [H]): Unidad singular: 800 x 625 x 700 mm, unidad apilada doble: 800 x 625 x 1490 mm)
- Órbita de agitación de 25 o 50 mm para adaptarse al tamaño del frasco y a las necesidades de aplicación
- Condiciones óptimas para células de mamíferos e insectos con control activo de CO2, humidificación higiénica con vapor directo que limita los efectos de la evaporación y carcasa altamente sellada que garantiza un bajo consumo de CO2.
Descargas de productos
Publicaciones relacionadas
Todas las publicacionesResearchers from the University of São Paulo have developed an innovative two-stage anaerobic digestion process that enhances methane production from sugarcane vinasse. Their approach, which integrates a fermentative-sulfidogenic stage, boosts biogas quality, lowers costs, and eliminates the need for chemical additives. This promising solution could revolutionize bioenergy recovery in sugarcane biorefineries.
Researchers from the Institute of Bioprocess Engineering and Pharmaceutical Technology at the University of Applied Sciences Mittelhessen have made strides in chemoorganotrophic electrofermentation using Cupriavidus necator. By experimenting with different redox mediators, they identified ferricyanide as a key player in enhancing anodic respiration. With the INFORS HT Multitron providing precise environmental control, the team achieved remarkable current densities, offering a promising solution to the challenges of oxygen-driven fermentation systems.
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 São Paulo have developed an innovative two-stage anaerobic digestion process that enhances methane production from sugarcane vinasse. Their approach, which integrates a fermentative-sulfidogenic stage, boosts biogas quality, lowers costs, and eliminates the need for chemical additives. This promising solution could revolutionize bioenergy recovery in sugarcane biorefineries.
Researchers from the Institute of Bioprocess Engineering and Pharmaceutical Technology at the University of Applied Sciences Mittelhessen have made strides in chemoorganotrophic electrofermentation using Cupriavidus necator. By experimenting with different redox mediators, they identified ferricyanide as a key player in enhancing anodic respiration. With the INFORS HT Multitron providing precise environmental control, the team achieved remarkable current densities, offering a promising solution to the challenges of oxygen-driven fermentation systems.
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.
Testimonio de cliente
Manfred Sander, Dipl.-Ing. (FH)Departamento especializado en gestión de equipos, Universitätsklinikum Erlangen
Artículos relacionados
BlogContamination in incubator shakers can lead to compromised cultures, experimental setbacks, and costly operational downtime. Ensuring a sterile environment is important for maintaining reliable and reproducible results. In this fifth installment of our Back to Basics series, we explore the best practices for preventing contamination in your incubator shaker and highlight how the new HEPA filtration feature in the Multitron Incubator Shaker provides active and continuous protection.
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.
Contamination in incubator shakers can lead to compromised cultures, experimental setbacks, and costly operational downtime. Ensuring a sterile environment is important for maintaining reliable and reproducible results. In this fifth installment of our Back to Basics series, we explore the best practices for preventing contamination in your incubator shaker and highlight how the new HEPA filtration feature in the Multitron Incubator Shaker provides active and continuous protection.
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.
Ofertas ideales para optimizar aún más su flujo de trabajo de bioprocesos
Aumente el rendimiento de su agitador, minimice el tiempo de inactividad y maximice la seguridad.
Mejore su agitador de laboratorio con una amplia gama de bandejas, soportes y tapetes adhesivos.
Minimice las interrupciones y garantice una productividad óptima en cada paso de su bioproceso.
Aumente el rendimiento de su agitador, minimice el tiempo de inactividad y maximice la seguridad.
Mejore su agitador de laboratorio con una amplia gama de bandejas, soportes y tapetes adhesivos.
Minimice las interrupciones y garantice una productividad óptima en cada paso de su bioproceso.