Organoid culture

Immunotherapy

Stem cell therapy

Evaluation

Primary cell count

Primary cell count

In the workflow of primary cell culture, Newton's optical cell counter plays a crucial role, especially in ensuring the stability of experiments and the reproducibility of results. The following is the application of Newton's optical cell counter in primary cell culture, and how it meets the user's needs for stability and repeatability.


1. Cell count and vitality assessment:
In primary cell culture, researchers need to accurately calculate the number of cells and evaluate cell viability in order to perform appropriate passaging and maintain the healthy state of cells. The Newtonian optical cell counter uses high pixel industrial grade CMOS sensors and self-developed artificial intelligence algorithms, which can provide consistent cell counting and vitality analysis results at different time points. This high degree of consistency is crucial for long-term cultivation and continuous monitoring of cell status.


2. High throughput screening and data collection:
When conducting drug screening or other biological experiments, researchers need to handle a large number of samples. The design of Newton's optical cell counter can complete the counting and analysis of a large number of samples in a short period of time, while maintaining a high degree of consistency in the results. This high-throughput screening capability ensures the coherence of the experiment and reduces data variation caused by inconsistent operations.


3. Automation and integrated operation:
The automation and integrated design of Newton's optical cell counter reduces human interference, thereby improving the stability of the experiment. The device is easy to operate, and users only need to load samples. The device will automatically complete image acquisition, analysis, and result output. This automated process reduces the possibility of operational errors and ensures the repeatability of each experiment.


4. Accurate sample localization and processing:
The Newton optical cell counter adopts a precise control system, including a stepper motor and a control lever, to ensure accurate positioning and processing of the sample. This precise control reduces the differences between samples and improves the consistency and repeatability of the results.


5. Long term stability and reliability:
The design of Newton's optical cell counter considers long-term stability and reliability. The durable materials and precision engineering of the equipment ensure consistent performance even in frequent use and long-term operation. This is particularly important for primary cell research that requires long-term cultivation and continuous data collection.


6. Software support and data management:
The software equipped with Newton's optical cell counter provides detailed data analysis and reporting functions, allowing users to easily export and archive results. The stability of the software and its powerful data management capabilities ensure the integrity and traceability of data, further enhancing the repeatability of experimental results.


In summary, the Newton optical cell counter provides efficient, accurate, and repeatable cell counting and viability analysis in the primary cell culture workflow. Its stability and consistency of results provide strong experimental support for users, ensuring the quality and reliability of research data.