Vi-CELL MetaFLEX

Velocidad, fiabilidad, volumen de muestra bajo

Nuestro nuevo analizador bioanalítico Vi-CELL MetaFLEX™ evalúa el pH, la pO2, la pCO2, la glucosa, el lactato, los electrólitos y mucho más, midiendo muestras de tan solo 65 µl y proporcionando los resultados en únicamente 35 segundos. Con menos mantenimiento, mayor fiabilidad y un volumen sorprendentemente reducido, es una solución de investigación sofisticada que ofrece el perfil de las muestras de prueba de forma rápida, fácil y precisa, manteniendo sus cultivos celulares de prueba en equilibrio, viables y en crecimiento.

Vi-CELL MetaFLEX solo está disponible en determinadas zonas geográficas. Consulte con su representante de Beckman Coulter para conocer la disponibilidad.

Documentación y notas de aplicación

Resources + Tools
21 CFR Part 11 Preguntas frecuentes Características Reactivos Solicitar presupuesto Reactivos
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Características de Vi-CELL MetaFLEX

Funcionamiento

  • Resultados en 35 segundos*
  • Volumen de muestra pequeño (65 μl, todos los parámetros)*
  • Procese 44 muestras por hora*
  • El tiempo de ciclo por muestra es de 1 minuto*
  • Tiempo de actividad medio de 23,5 horas al día**

* Puede variar durante el arranque 
** Puede variar durante el arranque (2,5 min para la calibración del sistema es la actividad más larga)

Gestión de calidad

  • 3 soluciones específicas de control de calidad
  • Detección y resolución de fallos automáticos
  • Comprobaciones de análisis y sistema continuas
  • Bloqueo automático del(de los) parámetro(s) que falla(n) en el CC
  • Programa de CC personalizable

Cumple 21 CFR Parte 11

  • Registro de resultados de las muestras: 2000
  • Registro de actividad: 5000
  • Registro de ajuste de calibración: 1000
  • Datos asegurados mediante protección con contraseña
  • Capacidad de firma electrónica
  • Inicio de sesión de usuario seguro (8 permisos de nivel de usuario)
  • Herramientas de configuración administrativa

Aplicaciones

  • I+D
  • CC
  • Fabricación

Vi-CELL MetaFLEX es ideal para aplicaciones de cultivo celular de microescala a gran escala, y ha sido diseñado para un análisis bioanalítico rápido y preciso. 

Read More about Features

See the Vi-CELL MetaFLEX Bioanalyte Analyzer in action

Procesamiento de una muestra

Content and Resources

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Vi-CELL MetaFLEX Analyzer Brochure

Frequently Asked Questions

At the core of biotechnological manufacturing lies the cultivation of living cells or microorganisms under tightly controlled and reproducible conditions to safeguard cell health, metabolic balance and long-term productivity.

Within a bioprocess, the biological system formed by these cells operates in continuous interaction with its physical and chemical environment, and its metabolic state, activity and productivity are highly sensitive to even subtle environmental perturbations. Nutrients consumed by the cells and metabolites produced during cultivation serve as essential indicators of cellular physiology, providing direct insight into:

  • Cell viability
  • Stress responses
  • Metabolic flux
  • Product formation

Metabolites reflect the physiological state of cultures in real time (or near real time) and their analysis provides important data on:

  • Cell health and viability: Detecting stress and maintaining favorable growth conditions.
  • Metabolic balance: Understanding fluxes to minimize byproduct accumulation.
  • Process consistency: Reducing batch-to-batch variability through informed control.
  • Productivity and quality: Aligning upstream conditions with downstream requirements and critical quality attributes (CQAs).

Across cell culture-based bioprocesses, including microbial and mammalian systems, tight control of key bioanalytes and metabolites is fundamental to maintaining cell health, preserving metabolic balance, ensuring reproducible batch performance, and maximizing yield. Cell growth and productivity are governed by the dynamic consumption of nutrients such as carbon sources, amino acids, vitamins, and trace elements, along with the accumulation of metabolic byproducts including lactate and ammonium, all of which can significantly influence process performance and product quality. Comprehensive metabolite monitoring provides critical insight into intracellular and extracellular environments, enabling informed control strategies during upstream cultivation and media optimization. Beyond cultivation, downstream processing frequently represents a major bottleneck, requiring efficient recovery of target products from complex reaction matrices; here again, detailed bioanalytical monitoring is essential to optimize recovery efficiency, preserve biological activity, and meet stringent regulatory and sustainability requirements. Collectively, analytics across upstream and downstream stages constitute a cornerstone of bioprocess understanding, optimization, quality assurance and consistent manufacturing outcomes [Scheper et al., 1999; Vijayasankaran, 2014].

Regulatory agencies are increasingly setting expectations for real-time monitoring and enhanced process control through the adoption of Process Analytical Technology (PAT) and Quality by Design (QbD) frameworks.

Introduced by the U.S. FDA, PAT promotes real time (or near real time) measurement of critical process parameters and bioanalytes to enable proactive control strategies, moving away from reliance on end product testing. This regulatory shift reflects a broader transition toward manufacturing approaches that emphasize process understanding, transparency and lifecycle management.

As biologic drugs continue to expand in complexity and clinical importance, regulators now expect manufacturers to demonstrate robust control strategies supported by timely, high-quality process data to ensure consistent product safety, efficacy and quality throughout commercial production [FDA, 2004; Rathore & Winkle, 2009].

The complex interplay between cells, environment, and metabolite dynamics ultimately determines batch consistency, yield and product quality, making comprehensive monitoring and control indispensable for steering biochemical reaction networks toward desired outcomes [Scheper et al., 1999].

These considerations are especially critical in the production of biotherapeutics that are used for treating a wide range of medical conditions, including:

  • Cancers
  • Cardiovascular diseases
  • Organ transplant rejection
  • Respiratory diseases
  • Autoimmune diseases
  • Neurological diseases

The steadily increasing number of approved biotherapeutic products reflects both their clinical importance and the pharmaceutical industry’s progress in developing robust, scalable bioproduction processes, particularly for complex modalities such as monoclonal antibodies [Coulet et al., 2022].

A rapid and accurate bioanalyte analyzer designed for applications across R&D, quality control and manufacturing must prioritize fast, precise measurement of critical culture variables using minimal sample volumes. By providing multiparameter readouts from small samples, such systems deliver actionable insights closer to the time of sampling, enabling earlier detection of metabolic shifts and more consistent control of the cell culture environment. This tight integration of rapid measurement with existing workflows: [Michelle et al. 2023]

  • Supports timely decision-making
  • Enhances process robustness
  • Improves alignment with PAT and QbD principles
  • Contributes to more reliable and efficient bioprocess development and manufacturing 

An example of this class of solutions is the Vi-CELL MetaFLEX Analyzer, which illustrates how advances in sensor miniaturization, automation and integrated quality management can be applied to routine bioanalyte monitoring in mammalian and insect cell culture processes [Michelle et al.]. The system includes automated quality checks and continuous performance monitoring, with features such as air detection and configurable QC routines to help ensure reliable measurements and maintain data integrity during routine operation.

Documentos técnicos

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