Life Sciences, Diagnostics and Analytical Instruments
Smart sensor solutions are developing rapidly. They play a key role in the development of the life science, diagnostics and analytical instrument markets, and lead to more cost-efficient systems and processes.
The automation and optimization of processes and devices is enabled by smarter systems, machine learning and ever-increasing amounts of data. These developments are partly driven by leaps in sensor technology, which, for example, enable online liquid flow measurements down to single nanoliters per minute. With Sensirion's sensor solutions, real-time data on environmental and flow conditions can be used as the basis for optimization. This creates more robust systems and processes, enabling applications to be managed by a broader range of professionals.
In addition, specific therapies are made possible by the interaction of several modern technological developments. One such example is how quality of life can be drastically improved by personalized medicine. Sensirion offers solutions for monitoring processes in a myriad applications including DNA sequencing, flow cytometry, in vitro diagnostics (IVD), blood screening, liquid and gas chromatography, mass spectrometry and thermal analysis.
- Flow cytometry: In these devices, cells flow past an analysis unit (e.g. voltage or fluorescence read-out) at high velocity. The recorded voltage or light signal depends on the shape, structure, size and/or color of the cells. This way, cells with the desired properties can be identified and isolated using cell sorting technology. With Sensirion's liquid flow sensors, the process flow rates can be monitored in real time.
- DNA sequencing: The DNA sequence can yield information about genetically determined diseases, enabling a specific prognosis on disease progression and assisting with appropriate therapy design. The high accuracy required in DNA sequencing can be achieved by monitoring the instrument with Sensirion's sensor solutions.
- Chromatography: This method allows complex mixtures of substances to be separated. Chromatography is used in the production, quality control and development of substances for applications in forensics, the pharmaceutical industry and food production, for example. Sensirion's gas flow controllers allow for the precise monitoring and control of gas flows present in these systems.
SLF3x - Made to Measure
The SLF3x series is the next generation of Sensirion's liquid flow sensors. It provides maximum safety, stability and long-term reliability for a wide range of applications, including the fields of diagnostics, analytical instruments and life sciences. Its compact form factor and cost-effective design permit system designs with one or more sensors that were previously unfeasible. Read more.
How developments in the automotive industry can predict the future of chromatography
Since the invention of the car in 1885, leaps in sensor technology, safety and automation have limited the technical interaction of the driver with the car. A similar trend is revolutionizing chromatography applications. Smarter systems, machine learning and ever-increasing amounts of data create new possibilities to automate, reduce unplanned downtime and predict maintenance schedules, thus widening the customer base to include a wider spectrum of professionals, not just specifically trained scientists.
A large portion of these developments are enabled through smart sensor solutions, where Sensirion is a valued partner for life science, diagnostic and analytical applications. Read the complete specialist article.
Modern medicine has been able to drastically improve the quality of life of the global population. Diseases such as polio, syphilis, tuberculosis or the plague have been almost eradicated and are successfully treatable or curable. The next milestone for modern medicine is personalized medicine. This novel discipline does not target the broad population, but focuses on the individual for the diagnosis and beyond. Personalized medicine takes the individual's disease pattern, the patient's constitution and gender and the resulting implications for the therapies and medicines into account. The overall goal is to create a therapy tailored to the individual that can, if necessary, be adjusted and fine-tuned according to the disease progression. The combination of a plethora of modern technologies is required to enable such specialized treatments. As such, a tailored cancer therapy could be designed using flow cytometers, DNA sequencing and organ-on-a-chip applications. Read the complete specialist article.
Boosting development and manufacturing of modern drugs using sensors. Lessons learnt from COVID-19.
In this webinar, our expert Gina Greco, Market Manager for Life Science, Diagnostics and Analytical, talks about the trends and challenges in precise analysis and manufacturing that became evident during Covid pandemic. We discuss how sensors can help accelerating development and manufacturing while maintaining quality requirements.
What can you learn from this webinar?
- Learn more trends and challenges in the life science, diagnostics and analytical market around precise analysis and manufacturing, the current effects of the Covid-19 pandemic and how sensors add value to such applications
- Get a deeper insight into typical applications of this market, e.g. flow cytometry, DNA sequencing, chromatography
High-precision fluidics for high-end diagnostics: a deep look into a flow cytometer
In this webinar, our expert Gina Greco, Market Manager for Life Science, Diagnostics and Analytical Instruments, talks about flow cytometry and the improvement of the precision and reliability of such systems thanks to Sensirion’s sensor portfolio.
What can you learn from this webinar?
- Learn more about flow cytometry and how to expand the capability to improve the precision and reliability of flow cytometers
- Find out why accurate sensor technology is needed for this Purpose
- Find such sensors in Sensirion’s product Portfolio
Our Expertise - Your Benefit
Response times are a decisive performance factor in the medical sector. Our unique CMOSens® Technology allows your applications to be controlled with shorter response times than with conventional systems. The response time of a CMOSens® mass flow meter, for example, is less than 1 millisecond, which can be a decisive advantage in a variety of medical applications.
No matter what the application, we know where and how to integrate our sensors for the best results. Our experience with a wide variety of applications in the medical field ensures that the sensors will be implemented properly. Tell us what you need, and we will provide you with optimum sensors.
Our many years of experience in the medical sector make us a valuable partner, offering optimum support for every project in all stages – from the initial concept through the design stage to series production – thanks to our sensor expertise. Ideally you involve us in your project right from the start.
Long-Term Stability, Sensitivity, and Reliability
Our sensors achieve long-term stability, precision, and reliability that are unparalleled on the market. These characteristics are crucial in medical applications, and are fundamental to your and your products’ success.
Economy of Scale
As a standard process for semiconductor manufacturing, CMOS has been optimized for reliable mass production. Through their high-volume production, sensors using CMOSens® Technology based on this standard process enable optimum cost-effectiveness – naturally without compromising reliability nor precision.