Magnetic Resonance Imaging (MRI) Equipment: In MRI equipment, turbo molecular pumps are used to maintain the low-temperature vacuum environment required for superconducting magnets, preventing the evaporation loss of cooling media like liquid helium, thereby improving the stability and efficiency of the equipment's operation.

Proton Therapy Accelerator: In proton therapy devices, turbo molecular pumps provide a high vacuum environment, ensuring stable operation of the particle accelerator and enhancing the precision and safety of treatments.

Mass Spectrometry Instruments: In hospitals and research institutions, mass spectrometers (such as Gas Chromatography-Mass Spectrometry (GC-MS)) use turbo molecular pumps to remove residual gases from the system, providing a high vacuum environment and enhancing the accuracy of drug metabolism and pathogen analysis.

Electron Microscopes: Scanning Electron Microscopes (SEM) and Transmission Electron Microscopes (TEM) used in medical research rely on turbo molecular pumps to provide a high vacuum environment for observing the structures of pathogens, tissue sections, and the microscopic morphology of biological samples.

Vaccine and Biopharmaceutical Production: Turbo molecular pumps maintain a high-purity vacuum environment in the production of vaccines, antibody drugs, and gene therapy vectors, ensuring the stability of reaction conditions and preventing contaminants from affecting product quality.

Freeze-Drying Technology: During pharmaceutical freeze-drying processes, turbo molecular pumps are used to extract moisture from the drying chamber, helping drugs achieve rapid dehydration without damaging their active ingredients. This is particularly crucial in the preparation of vaccines, antibiotics, and anticancer drugs.

Pharmaceutical Testing and Analysis: In drug development, turbo molecular pumps are integrated into High-Performance Liquid Chromatography-Mass Spectrometry (LC-MS) and other analytical instruments to detect the composition, purity, and metabolites of drugs.

High-Energy Physics Medical Technology - Cancer Radiotherapy: Turbo molecular pumps maintain the high vacuum environment required for radiotherapy equipment (such as linear accelerators), ensuring stable radiation energy and improving treatment effectiveness.

Organ-on-a-Chip and Tissue Engineering: In the research of organ-on-a-chip and 3D-printed biological tissues, turbo molecular pumps provide a high-purity vacuum environment to assist in the preparation of finely structured biomaterials and complex tissue models.

Gene Editing and Cell Therapy: In gene editing technologies (such as CRISPR) and cell therapy research, turbo molecular pumps maintain the vacuum environment of experimental equipment, ensuring a contamination-free environment for sample manipulation.

Waste Gas and Pollutant Control: In medical waste gas treatment systems (such as anesthesia gases or harmful laboratory gases), turbo molecular pumps are used to extract and separate gases, ensuring safe disposal and compliance with emission standards.

Waste Incineration and Recycling: Turbo molecular pumps are used in the vacuum control of medical waste incinerators to reduce toxic gas emissions and optimize incineration efficiency.