Background This study explored the application effect of information technology in optimizing the patient identification process. Methods The method for optimizing the identification process involved in drawing blood among outpatients using information technology was executed from July 2020. In this paper, 959 patients who had blood drawn from January to June 2020 were included as the pre-optimization group, and 1011 patients who had blood drawn from July to December 2019 were included as the post-optimization group. The correct rate of patient identification, waiting time, and patient satisfaction before and after the optimization were statistically analyzed. The changes in these three indexes before and after the optimization implementation, as well as the application effects, were compared. Results The correct rate of patient identification after optimization (99.80%) was higher than before optimization (98.02%) (X2 = 13.120; P < 0.001), and the waiting time for having blood drawn was also significantly shortened (t = 8.046; P < 0.001). The satisfaction of patients was also significantly improved (X2 = 20.973; P < 0.001). Conclusions By combining information technology with the characteristics of blood collection in our hospital, using the call system to obtain patient information, then scan the QR code of the guide sheet for automatic verification, and finally manually reconfirm patient information, which can significantly reduce the occurrence of identification errors, improve work efficiency and improve patients' satisfaction.
BACKGROUND: The ABO blood group is closely related to clinical blood transfusion, transplantation, and neonatal hemolytic disease. It is also the most clinically significant blood group system in clinical blood transfusion. OBJECTIVE: The purpose of this paper is to review and analyze the clinical application of the ABO blood group. METHODS: The most common ABO blood group typing methods in clinical laboratories are hemagglutination test and microcolumn gel test, while genotype detection is mainly adopted in clinical identification of suspicious blood types. However, in some cases, the expression variation or absence of blood type antigens or antibodies, experimental techniques, physiology, disease, and other factors affect the accurate determination of blood types, which may lead to serious transfusion reactions. RESULTS: The mistakes could be reduced or even eliminated by strengthening training, selecting reasonable identification methods, and optimizing processes, thereby improving the overall identification level of the ABO blood group. ABO blood groups are also correlated with many diseases, such as COVID-19 and malignant tumors. Rh blood groups are determined by the RHD and RHCE homologous genes on chromosome 1 and are classified as Rh negative or positive according to the D antigen., the agglutination method is often used in clinical settings, while genetic and sequencing methods are often used in scientific research. CONCLUSION: Accurate ABO blood typing is a critical requirement for the safety and effectiveness of blood transfusion in clinical practice. Most studies were designed for investigating rare Rh blood group family, and there is a lack of research on the relationship between Rh blood groups and common diseases.
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