Jining Medical University Upgrades Research Hardware with Lanende Cell Disruptor

　　Jining Medical University has successfully introduced the Lanende Cell Disruptor, a significant move that marks a solid and important step in the university's scientific research hardware infrastructure. This initiative injects strong momentum into the enhancement of the university's research capabilities and is expected to yield a series of innovative and influential research outcomes across multiple disciplines.

　　Advantages of the Lanende Cell Disruptor

　　High-Efficiency Disruption: Based on the acoustic theory of ultrasonic waves, it generates high-frequency oscillations to rapidly disrupt cells. It can be used for various research experiments such as nucleic acid extraction, protein separation, and enzymatic hydrolysis, thereby improving experimental efficiency.

　　Precise Control: Equipped with an intelligent MCU digital integrated circuit, it supports intermittent/continuous operation modes. Parameters including ultrasound on/off time and total time can be precisely set to 0.1 seconds. Features like automatic horn matching, automatic frequency tracking, and automatic fault alarm (or protection) enable fine control over the disruption process, ensuring the accuracy of experimental results.

　　Rational Design: Features an integrated structure design that saves laboratory space. The 7-inch medical-grade LCD touchscreen offers high resolution, an intuitive interface, and smooth operation. The low-noise metal casing with high-quality sound-insulating material in the interlayer provides effective sound insulation. The device includes a motorized platform lift, an LED illumination system, and UV sterilization functionality. Rear expansion interfaces allow for the connection of optional manual or foot switches, as well as integration with external devices (e.g., constant temperature units, stirrers).

　　Wide Applicability: Suitable for disrupting various animal and plant cells, as well as viral cells. It can also be used for experimental operations such as emulsification, separation, dispersion, homogenization, extraction, degassing, cleaning, and accelerating chemical reactions.

　　Significance for Scientific Research at Jining Medical University

　　Enhanced Research Capability: The instrument provides stronger support for cell-related research, enabling researchers to more efficiently obtain intracellular biomolecules (e.g., proteins, nucleic acids). This facilitates in-depth basic research projects like gene expression analysis and protein structure/function studies, advancing the university's research level in the life sciences.

　　Expanded Research Scope: Leveraging the disruptor's versatility, the university can undertake more research involving cell engineering, drug development, and biotechnology. For instance, in pharmaceutical R&D, it can be used to disrupt cells and tissues during drug preparation to extract active ingredients, providing an experimental foundation for new drug discovery.

　　Promotion of Discipline Development: The introduction of advanced research equipment is crucial for disciplinary development. It helps attract outstanding researchers and students, enhances the university's competitiveness and influence in related fields, and promotes the further advancement and refinement of these disciplines.

　　Facilitation of Collaboration and Exchange: State-of-the-art research facilities provide a better foundation for collaboration and exchange with other domestic and international universities and research institutions. This enables the development of joint research projects, sharing of resources and成果, and elevates the university's research profile and international reputation.

　　With the support of the Lanende Cell Disruptor, it is believed that the scientific research endeavors at Jining Medical University will embrace a brighter future, contributing significantly to the advancement of biology, medicine, and related fields in China.