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Rapid and Flexible Automation Workflow Development for qPCR with the Antha Standard Element Set
技术
- 平台即服务 (PaaS) - 数据管理平台
- 应用基础设施与中间件 - 数据交换与集成
适用行业
- 生命科学
- 医疗保健和医院
适用功能
- 产品研发
- 质量保证
用例
- 质量预测分析
- 过程控制与优化
服务
- 软件设计与工程服务
- 系统集成
挑战
Cambridge Consultants, a world leader in disruptive innovation and technology-based consulting, was facing challenges in streamlining their lab operations due to the high turnover of projects. Their labs needed to be flexible and capable of developing and executing robust new protocols quickly. They required a scalable, robust tool that could provide end-to-end connectivity of devices and data to run protocols effectively, particularly complex multi-factorial experiments with many varying conditions. One area where they needed significant improvement was in the rapid and flexible development of liquid handling automation workflows. They needed a solution that could handle high throughput, fast execution speed, custom sample handling steps, robust sample traceability, excellent reproducibility, and minimized execution costs.
关于客户
Cambridge Consultants is a global leader in disruptive innovation and technology-based consulting. Established in 1960, the company has delivered thousands of groundbreaking technology projects to clients worldwide across multiple industry sectors. Today, Cambridge Consultants employs over 800 staff across six sites and manages over 400 projects annually. The company started working with Synthace in 2016, recognizing the need for a scalable, robust tool to streamline their lab operations due to the high turnover of projects. Their labs needed to be flexible and capable of quickly developing and executing robust new protocols.
解决方案
Cambridge Consultants chose Synthace's Antha software to automate their entire qPCR workflow. This included interpretation of a qPCR experimental design input, automated dilutions, plate setup, and execution of the analytical run. The Antha software was used in conjunction with a Gilson PIPETMAX® automated liquid handling platform and an Applied Biosystems QuantStudio 5 instrument. Both devices were controlled by the Antha platform as part of a single workflow. The Antha software provided a high-level abstraction for the user with regards to programming liquid handling automation platforms. It also provided an optional interface for optimizing the resulting workflows with low-level parameter control. The Antha UI allowed for the rapid prototyping of experimental workflows while supporting the flexibility required for downstream optimization of a liquid handling workflow.
运营影响
数量效益
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