BACKGROUND: Red-cell transfusion is critical for surgery during the peri-operative period; however, the transfusion threshold remains controversial mainly owing to the diversity among patients. The patient's medical status should be evaluated before making a transfusion decision. Herein, we developed an individualized transfusion strategy using the West-China-Liu's Score based on the physiology of oxygen delivery/consumption balance and designed an open-label, multicenter, randomized clinical trial to verify whether it reduced red cell requirement as compared with that associated with restrictive and liberal strategies safely and effectively, providing valid evidence for peri-operative transfusion. METHODS: Patients aged >14 years undergoing elective non-cardiac surgery with estimated blood loss > 1000 mL or 20% blood volume and hemoglobin concentration <10 g/dL were randomly assigned to an individualized strategy, a restrictive strategy following China's guideline or a liberal strategy with a transfusion threshold of hemoglobin concentration <9.5 g/dL. We evaluated two primary outcomes: the proportion of patients who received red blood cells (superiority test) and a composite of in-hospital complications and all-cause mortality by day 30 (non-inferiority test). RESULTS: We enrolled 1182 patients: 379, 419, and 384 received individualized, restrictive, and liberal strategies, respectively. Approximately 30.6% (116/379) of patients in the individualized strategy received a red-cell transfusion, less than 62.5% (262/419) in the restrictive strategy (absolute risk difference, 31.92%; 97.5% confidence interval [CI]: 24.42-39.42%; odds ratio, 3.78%; 97.5% CI: 2.70-5.30%; P <0.001), and 89.8% (345/384) in the liberal strategy (absolute risk difference, 59.24%; 97.5% CI: 52.91-65.57%; odds ratio, 20.06; 97.5% CI: 12.74-31.57; P <0.001). No statistically significant differences were found in the composite of in-hospital complications and mortality by day 30 among the three strategies. CONCLUSION: The individualized red-cell transfusion strategy using the West-China-Liu's Score reduced red-cell transfusion without increasing in-hospital complications and mortality by day 30 when compared with restrictive and liberal strategies in elective non-cardiac surgeries. TRIAL REGISTRATION ClinicalTrials.gov, NCT01597232.
Humans ; Adult ; Postoperative Complications ; Erythrocyte Transfusion/adverse effects* ; Blood Transfusion ; Hospitals ; Hemoglobins/analysis*

OBJECTIVE: To establish the diagnostic process of low titer blood group antibody in the occurrence of adverse reactions of hemolytic transfusion. METHODS: Acid elusion test, enzyme method and PEG method were used for antibody identification. Combined with the patient's clinical symptoms and relevant inspection indexes, the irregular antibodies leading to hemolysis were detected. RESULTS: The patient's irregular antibody screening was positive, and it was determined that there was anti-Le^a antibody in the serum. After the transfusion reaction, the low titer anti-E antibody was detected by enhanced test. The patient's Rh typing was Ccee, while the transfused red blood cells were ccEE. The new and old samples of the patient were matched with the transfused red blood cells by PEG method, and the major were incompatible. The evidence of hemolytic transfusion reaction was found. CONCLUSION Antibodies with low titer in serum are not easy to be detected, which often lead to severe hemolytic transfusion reaction.
Humans ; Blood Transfusion ; Transfusion Reaction/prevention & control* ; Hemolysis ; Blood Group Antigens ; Erythrocyte Transfusion ; Antibodies ; Isoantibodies ; Blood Group Incompatibility

OBJECTIVE: To analyze and evaluate the efficacy of Rh phenotype matched blood transfusion. METHODS: The increasing of hemoglobin (Hb) and hemolysis tests in the patients treated by Rh matched red blood cells or not, as well as the first time unmatched transfusions and the unmatched transfusions happened again after a period (≥10 d) were retrospectively analyzed. RESULTS: A total of 674 times transfusions in 120 patients were evaluated. The increasing of Hb in each unit was higher in the patients treated by Rh matched blood transfusion (vs unmatched) [(33.397±1.475) g/U vs (29.951±1.304) g/U, P=0.033], while the increasing of Hb at first time unmatched transfusion and the second time unmatched transfusion was not statistically different[ (28.942±2.083) g/U vs (30.686±1.737) g/U, P=0.589]. The level of lactate dehydrogenase were related to erythrocyte washing, irradiation, period of validity and the second time unmatched transtusion (all P<0.05); the levels of total bilirubin (TBil), direct bilirubin (DBil) and indirect bilirubin (IBil) between the first time unmatched transfusion and the second time unmatched transfusion were statistically different (all P<0.05). CONCLUSION For the patients need multiple blood transfusions, Rh phenotype matched blood transfusion can reduce the exposure to Rh allogenic antigens, improve the efficacy and ensure the safety of blood transfusion.
Bilirubin ; Blood Transfusion ; Erythrocyte Transfusion/adverse effects* ; Hemoglobins/analysis* ; Humans ; Phenotype ; Retrospective Studies

Child ; Consensus ; Critical Care ; Critical Illness ; Erythrocyte Transfusion ; Humans

OBJECTIVE: To evaluate the efficacy and safety of different types of red blood cell (RBC) transfusion and hormone therapy in patients with autoimmune hemolytic anemia (AIHA). METHODS: The clinical data and serological characteristics of 40 patients with AIHA treated in our hospital from 2014 to 2018 were collected and analyzed retrospectively. The efficacy and safety of different type of RBC transfusion and hormone therapy were evaluated according to the principle of minimally incompatible RBC transfusion after cross-matching. RESULTS: Among 40 patients with AIHA, the female cases were more than the male cases, the cases of secondary AIHA was more than cases of primary AIHA, and the warm autoantibodies were in the majority. 11 cases of AIHA underwent 26 times minimally incompatible red blood cell transfusions. The total effective rate was 46.2%, the partial efficiency was 23.1%, and total inefficiency was 30.8%. Among them, the same type of non-washing red blood cell group showed efficiency of 42.1%, partial effective rate of 21.1%, and inefficiency of 36.8%; the same type of washed red blood cell group showed efficiency of 57.1%, partial effective rate of 28.6%, and inefficiency of 14.3%. the infusion effects was not significanly different between the two groups, and no hemolytic transfusion reaction occurred. In the hormone-treated group, the complete remission rate was 15.2%, the partial remission rate was 63.6%, and the ineffective rate was 21.2%. Among them, the side effects appeared in 2 patients after using hormones. CONCLUSION When AIHA patients need blood transfusion, use the same type of non-washed red blood cells or homologous washed cells is relatively safe, and the difference in efficacy is not significant. The partial remission of patients received hormone therapy is much higher than that of red blood cell transfusion, but the side effects easily happen.
Anemia, Hemolytic, Autoimmune ; Autoantibodies ; Blood Transfusion ; Erythrocyte Transfusion ; Erythrocytes ; Female ; Humans ; Male ; Retrospective Studies

OBJECTIVE: To explore the blood transfusion data of emergency hemorrhage patients, so as to provide the basis for improving the quality of emergency blood transfusion and guiding clinic rational blood transfusion. METHODS: one thousand emergency blood loss patients once transfused RBC suspension were collected by Recipient Epidemiology and Donor Evaluation Study-III internationals Site range from November 2012 to November 2015. The clinical data including age, sex, clinical diagnosis etc were analyzed retrospectively. According to the quantity of blood transfusion the 1 000 patients were divided into 3 groups: low transfusion volume group(834),moderate transfusion volume group(116) and high transfusion volume group(50), difference was compared among the 3 groups，the transfusion predicting index and risk factor were analyzed by unvariate and multivoriate analyses using SPSS 23.0 software. RESULTS: High volume transfusion group was different from moderate and low volume transfusion in sex, pathogenesis, systolic pressure, hemoglobin level, with or without surgical operation, infusion volume of blood products, the retention time of ICU, total hospitalzed stay and mortality(P＜0.05), but there were no differences in age, respiration frequency, temperature before transfusion and creatinine level. The multivarate analysis showed that with or without surgical operation(OR=7.515，95% CI: 3.289-17.174, P=0.000), bleeding volume in surgery(OR=2.626, 95% CI: 1.428-4.828, P=0.043), the amount of transfused red blood cells(OR=2.574, 95% CI: 1.306-5.073, P=0.015), plasma transfusion or no(OR=2.118, 95% CI: 1.184-3.789, P=0.011), cryoprecipitate transfusion or no(OR=5.296, 95% CI: 2.164-12.960, P=0.000) were the independent risk factors for death resulted from emergency blood loss. CONCLUSION The probability of massive transfusion in the trauma patients is higher，and the massive transfusion associates with increased mortality in the emergency blood loss patients. Surgery operation, bleeding volume in operation, amount of transfused red blood cells, plasma transfusion and cryoprecipitate transfusion may predict the mortality of patients with blood transfusion.
Blood Transfusion ; Erythrocyte Transfusion ; Hemorrhage ; Humans ; Platelet Transfusion ; Retrospective Studies

Perioperative restrictive red blood cell(RBC)transfusion strategy,in which a trigger of hemoglobin(Hb)<7 g/dl is used,is of great benefits to save blood storage and reduce transfusion-related adverse events including infections,immunologic risks,and circulatory overload.Human body can display a series of compensatory mechanisms to acute anemia,including increased cardiac output,favored oxyhemoglobin dissociation,and lung vascular dilation.Therefore,moderate Hb decrease does not necessarily lead to hypoxemia.Patients undergoing hip surgery or suffering from septic shock and/or upper gastrointestinal bleeding can benefit from restrictive RBC transfusion;however,restrictive transfusion may be associated with adverse outcomes in patients with coronary heart disease or undergoing cardiac surgery.Restrictive RBC transfusion strategies have been included in described in many different guidelines.Most of them recommended Hb<7 g/dl to be a trigger for allogeneic RBC transfusion.For patients with an Hb of 7-10 g/dl,the application of restrictive RBC transfusion should be based on the expected blood loss,compensatory ability,and metabolic rate.
Erythrocyte Transfusion ; Hemoglobins ; analysis ; Humans ; Perioperative Care ; Practice Guidelines as Topic ; Surgical Procedures, Operative ; adverse effects

BACKGROUND: Considering the functional role of red blood cells (RBC) in maintaining oxygen supply to tissues, RBC transfusion can be a life-saving intervention in situations of severe bleeding or anemia. RBC transfusion is often inevitable to address intraoperative massive bleeding; it is a key component in safe perioperative patient management. Unlike general medical resources, packed RBCs (pRBCs) have limited availability because their supply relies entirely on voluntary donations. Additionally, excessive utilization of pRBCs may aggravate prognosis or increase the risk of developing infectious diseases. Appropriate perioperative RBC transfusion is, therefore, crucial for the management of patient safety and medical resource conservation. These concerns motivated us to develop the present clinical practice guideline for evidence-based efficient and safe perioperative RBC transfusion management considering the current clinical landscape. METHODS: This guideline was obtained after the revision and refinement of exemplary clinical practice guidelines developed in advanced countries. This was followed by rigorous evidence-based reassessment considering the healthcare environment of the country. RESULTS: This guideline covers all important aspects of perioperative RBC transfusion, such as preoperative anemia management, appropriate RBC storage period, and leukoreduction (removal of white blood cells using filters), reversal of perioperative bleeding tendency, strategies for perioperative RBC transfusion, appropriate blood management protocols, efforts to reduce blood transfusion requirements, and patient monitoring during a perioperative transfusion. CONCLUSIONS: This guideline will aid decisions related to RBC transfusion in healthcare settings and minimize patient risk associated with unnecessary pRBC transfusion.
Anemia ; Blood Transfusion ; Communicable Diseases ; Delivery of Health Care ; Erythrocyte Transfusion ; Erythrocytes ; Hemorrhage ; Humans ; Leukocytes ; Monitoring, Physiologic ; Oxygen ; Patient Safety ; Prognosis

PURPOSE: Spontaneously ruptured hepatocellular carcinoma (srHCC) is known to be a life-threatening complication with poor prognosis. Although there are various treatment modalities, there is no definite treatment guideline. The purpose of this study was to review the surgical outcome and prognosis of srHCC treated with intraoperative radiofrequency ablation (RFA) and distilled water peritoneal lavage (DWPL). METHODS: From March 2012 to October 2018, 9 patients with srHCC who underwent emergent surgery were reviewed. After hematoma removal, intraoperative RFA and DWPL were applied to all patients. Hepatectomy was performed if necessary. Patients with multiple tumors, distant metastasis, and vascular tumor involvement in radiologic imaging were excluded. RESULTS: Six of 9 patients with diameters less than 7 cm were able to obtain hemostasis using RFA alone (RFA group). However, 3 patients with a tumor size of more than 10 cm underwent liver resection because they could not obtain hemostasis with RFA (hepatectomy only group). The RFA group had shorter operation time (148.3 ± 31.7 minutes vs. 251.7 ± 20.2 minutes, P < 0.05) and less red blood cell transfusion (5.8 ± 2.5 packs vs. 24.0 ± 11.5 packs, P < 0.05) than the hepatectomy only group. There was no peritoneal metastasis at long-term follow-up in the RFA group. Five-year recurrence-free survival rate was 0% in both groups. However, 5-year overall survival rate was better in the RFA group (83.3% vs. 0%, P < 0.05). CONCLUSION: Intraoperative RFA and DWPL are easy to perform and theoretically the best methods for managing relatively small srHCC.
Carcinoma, Hepatocellular ; Catheter Ablation ; Erythrocyte Transfusion ; Follow-Up Studies ; Hematoma ; Hemostasis ; Hepatectomy ; Humans ; Liver ; Neoplasm Metastasis ; Peritoneal Lavage ; Prognosis ; Rupture ; Survival Rate ; Water

BACKGROUND: Transfusion in neonates and infants can be performed using an electromechanical infusion system that has appropriate accuracy in terms of flow rate, volume, and bolus. However, there are no infusion systems approved for transfusion in Korea. In this study, we evaluate the performance of two electromechanical infusion systems for transfusion in pediatric patients. METHODS: We tested two systems, Baxter and Terumo, using 9 units of leukocyte-filtered red blood cells. The blood samples were delivered through the systems at constant speeds of 10, 30, and 100 mL/hr, and the accuracy in terms of the delivered volume was estimated. Before and after infusion, hemoglobin, hematocrit, plasma hemoglobin, potassium, and lactate dehydrogenase levels were measured in each sample. The percentage of hemolysis (%Hemolysis) was calculated to evaluate the safety of the infusion systems. RESULTS: For Terumo, the mean error rate of the infused volume was less than 5%. We expect that Terumo can transfuse blood at a volume close to the set volume. Further, both infusion systems showed acceptable %Hemolysis levels (mean±standard deviation: Terumo, 0.14±0.04; Baxter, 0.17±0.06). CONCLUSIONS: Both infusion systems can be used safely for transfusion in pediatric patients.
Erythrocyte Transfusion ; Erythrocytes ; Hematocrit ; Hemolysis ; Humans ; Infant ; Infant, Newborn ; Korea ; L-Lactate Dehydrogenase ; Plasma ; Potassium