For quality control of raw materials, semi-finished products and finished products in the pharmaceutical process:
1、Raw material testing: Ensure the purity of pharmaceutical raw materials and prevent the introduction of harmful elements and impurities.
2、Process control: By establishing a complete quality control system, combined with the real-time monitoring and analysis capabilities of TXRF technology, deviations and deficiencies in the production process can be discovered and corrected in a timely manner. The process can be continuously improved and optimized, and product quality stability can be improved.
3、Finished product inspection: In the pharmaceutical process, finished product inspection is a key link to ensure drug quality. TXRF technology can be used to strictly test and control finished drugs to ensure stable and consistent product quality.
The detection and analysis of trace elements and metal impurities in drugs are of great significance in ensuring the safety and effectiveness of drugs, improving drug quality control, promoting the progress of medical science and technology, and meeting legal and regulatory requirements. LANScientific’s TXRF is widely used Drug , and its common applications include:
1. Harmful metal detection: Detect harmful metal elements such as lead, cadmium, arsenic, mercury, etc. in drugs to ensure that their content is within a safe range.
2. Active ingredient analysis: Determine the precise content of key active ingredients in drugs to ensure accurate dosage. For example, Pt element is widely found in chemotherapy drugs, anti-cancer drugs and cardiovascular drugs.
3. Impurity analysis: Analyze trace impurities in drugs to help optimize the production process and improve product purity.
1、Blood and urine analysis: Detecting trace elements and heavy metals in blood and urine provide important data for disease diagnosis and health monitoring. For example, excessive levels of heavy metals such as lead and mercury in the blood may indicate the risk of environmental pollution or occupational exposure, while abnormalities in certain trace elements in urine may be associated with specific health problems. This analysis not only helps detect potential health problems early, but also provides scientific basis for disease prevention and treatment.
2、Tissue sample analys: Analyze the element content in human tissues to help study disease mechanisms and treatments.
3、Cell research: Detect trace elements and metal ions in cell culture to ensure the stability and reproducibility of experimental conditions.
