Background:

Sunshine Pharmaceutical is deeply rooted in Jiangsu. As a leading innovative enterprise in the industry, it has been highly focused on the field of medical research, especially achieving remarkable results in the research, development, and production of innovative drugs. In cutting – edge medical research projects, for experimental procedures such as cell culture, exploration of drug action mechanisms, and construction of disease models, the precise regulation of the acidity and alkalinity of the reaction system or culture environment has become a crucial factor determining the success or failure of the research. Each study requires precise control of the pH of the experimental environment to ensure the normal growth of cells, the effective exertion of drug activity, and the reliability of experimental results.

Measurement Requirements:

During the process of cell culture, cells are extremely sensitive to the pH value of the growth environment. The volume of the culture vessel usually ranges from 500 to 800 liters. During the culture process, due to cell metabolic activities and various chemical reactions, the temperature of the culture medium fluctuates between 35°C and 39°C. At the same time, affected by factors such as gas exchange, certain pressure changes also occur within the system. In the research experiments on the interaction between drugs and cells, the pH value of the reaction system has a profound impact on the stability, activity of the drug, and its binding ability to cells. The scientific research team of Sunshine Pharmaceutical urgently needs a device that can measure the pH value of the solution in real – time and accurately in such a complex and changeable experimental environment to meet the high – standard scientific research quality requirements.

Solution:

To overcome this challenge, Sunshine Pharmaceutical has introduced a new intelligent pH water quality sensor. This sensor is specifically designed for complex medical research scenarios and has excellent high – temperature resistance, high – pressure resistance, and chemical corrosion resistance. Its core adopts advanced ion – selective electrode technology, which can quickly and accurately detect the hydrogen ion concentration in the solution, and then obtain a highly accurate pH value.

This pH water quality sensor is equipped with an intelligent data processing module that can analyze measurement data in real – time, automatically calibrate, and effectively eliminate errors caused by environmental interferences such as temperature and pressure fluctuations.

Considering the laboratory space layout and aseptic requirements, the sensor is installed in an immersion – type manner. By directly immersing it into the culture vessel or reaction system, rapid and accurate measurement can be achieved. Its shell is made of special antibacterial and corrosion – resistant materials. When in contact with the experimental solution, it will not be corroded nor contaminate the experimental system. The cable is also specially treated, with excellent flexibility and corrosion resistance, which is convenient for arrangement in different containers and can adapt to temperature changes. It is small in size, does not take up space, does not interfere with operations, has a smooth surface and is easy to clean. After the experiment, it can be easily taken out for cleaning and disinfection to ensure stable operation in an aseptic environment.

After the installation of the sensor, the scientific research team of Sunshine Pharmaceutical and the technical experts of the supplier worked hand in hand to carry out comprehensive and in – depth debugging and verification work. By comparing data with high – precision pH measurement standard equipment in the laboratory and continuously tracking and monitoring the pH value changes of multiple groups of experimental samples at different stages, the accuracy and stability of the measurement results of this pH water quality sensor were comprehensively ensured.

Conclusion:

With the help of the new intelligent pH water quality sensor, the medical research team of Sunshine Pharmaceutical has successfully broken through the limitations of traditional pH measurement tools in complex experimental environments. The new system has greatly improved the accuracy of pH value measurement and effectively reduced the impact of human measurement errors on experimental results. At the same time, its stable and reliable performance ensures the continuity and accuracy of pH monitoring during the experimental process. This not only significantly improves the efficiency of medical research, enabling scientific research projects to proceed more smoothly, but also significantly strengthens the quality control of experimental data, further enhancing the transparency and traceability of the entire research process, laying a solid foundation for the continuous innovation and breakthroughs of Sunshine Pharmaceutical in the field of medical research.