OBJECTIVE: To evaluate the efficacy and safety of local application of tranexamic acid (TXA) in reducing perioperative blood loss in total hip arthroplasty via direct anterior approach (DAA). METHODS: From July 2013 to September 2018, 46 patients with avascular necrosis of the femoral head were divided into tranexamic acid group ( RESULTS: The incision healed well and no obvious complications occurred in the two groups. All patients were followed up for 12 to 59 months(averaged 31.11 months). No hip pain was found in the follow-up patients. Hip joint function was improved effectively and no prosthesis loosening occurred. The total perioperative blood loss in tranexamic acid group and normal saline group was(740.09±77.14) ml and (1 069.07±113.53) ml respectively, 24 hours after operation, the drainage volume was (87.61±9.28) ml, (233.83±25.62) ml, the hidden blood loss was (409.65±38.01) ml and (588.33±57.16) ml. the difference of hemoglobin before and after operation was (24.78±2.19) g / L and (33.57±2.95) g / L, the difference was statistically significant ( CONCLUSION local application of tranexamic acid in total hip arthroplasty through direct anterior approach can safely and effectively reduce perioperative blood loss, and does not increase the risk of thrombosis, and does not affect the normal recovery of joint function.
Aged ; Antifibrinolytic Agents/therapeutic use* ; Antiviral Agents ; Arthroplasty, Replacement, Hip/adverse effects* ; Blood Loss, Surgical/prevention & control* ; Female ; Hepatitis C, Chronic ; Humans ; Male ; Middle Aged ; Safety ; Tranexamic Acid/therapeutic use* ; Treatment Outcome

BACKGROUND: Information on biochemical changes following rapid transfusion of blood mixtures in liver transplantation patients is limited. METHODS: A blood mixture composed of red blood cells, fresh frozen plasma, and 0.9% saline was prepared in a ratio of 1 unit:1 unit:250 ml. During massive hemorrhage, 300 ml of the blood mixture was repeatedly transfused. A blood mixture sample as well as pre- and post-transfusion arterial blood samples were collected at the first, third, fifth, and seventh bolus transfusions. Changes in pH, hematocrit, electrolytes, and glucose were measured with a point-of-care analyzer. The biochemical changes were described, and the factors driving the changes were sought through linear mixed effects analysis. RESULTS: A total of 120 blood samples from 10 recipients were examined. Potassium and sodium levels became normalized during preservation. Biochemical changes in the blood mixture were significantly related to the duration of blood bank storage and reservoir preservation (average R2 = 0.41). Acute acidosis and hypocalcemia requiring immediate correction occurred with each transfusion. Both the pre-transfusion value of the patient and the blood mixture value were significant predictors of post-transfusion changes in the body (average R2 = 0.87); however, the former was more crucial. CONCLUSIONS: Rapid infusion of blood mixture is relatively safe because favorable biochemical changes occur during storage in the reservoir, and the composition of the blood mixture has little effect on the body during rapid transfusion in liver recipients. However, acute hypocalcemia and acidosis requiring immediate correction occurred frequently due to limited citrate metabolism in the liver recipients.
Acidosis ; Blood Banks ; Blood Safety ; Blood Transfusion ; Citric Acid ; Electrolytes ; Erythrocytes ; Glucose ; Hematocrit ; Hemorrhage ; Humans ; Hydrogen-Ion Concentration ; Hypocalcemia ; Liver Transplantation* ; Liver* ; Metabolism ; Plasma ; Point-of-Care Systems ; Potassium ; Sodium

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

BACKGROUND: The risk of transfusion-transmissible infections (TTIs) of HBV, HCV, and HIV in Korea has been reduced significantly by strengthening the blood safety policies. On the other hand, the risk of TTI still exists due to the diagnostic window period or viral variants. METHODS: The residual risks of TTI of HBV, HCV, and HIV were calculated from July 1, 2012 to June 30, 2018 by dividing the data into two year sets. The residual risk was conducted by separating the donors who donated only once and those who donated more than once during each period. RESULTS: In the first two years, the residual risks of HBV, HCV, and HIV were calculated to be 17.54/106, 0.42/106, and 0.30/106 respectively. The residual risk of HBV and HCV over the last two years was calculated to be 9.41/106 and 0.27/106, showing a tendency to decrease with time. On the other hand, the residual risk of HIV over the last two years was calculated to be 0.29/106, showing no significant difference. The residual risk in the donors who donated only once was higher than that in the donors who donated more than once during each period. CONCLUSION: The real transfusion-transmitted infection can be different from the estimated residual risk in this study because this study was based on the thesis that all NAT-reactive blood components cause infection. Because the residual risk of HBV is higher than HCV and HIV, it was considered that the safety measures for the HBV need to be improved continuously.
Blood Safety ; Hand ; HIV ; Humans ; Korea ; Tissue Donors

OBJECTIVE: Patients are often transported within the hospital, especially in cases of critical illness for which computed tomography (CT) is performed. Since increased transport time increases the risks of complications, reducing transport time is important for patient safety. This study aimed to evaluate the ability of our newly invented device, the Easy Tube Arrange Device (ETAD), to reduce transport time for CT evaluation in cases of critical illness. METHODS: This prospective randomized control study included 60 volunteers. Each participant arranged five or six intravenous fluid lines, monitoring lines (noninvasive blood pressure, electrocardiography, central venous pressure, arterial catheter), and therapeutic equipment (O2 supply device, Foley catheter) on a Resusci Anne mannequin. We measured transport time for the CT evaluation by using conventional and ETAD method. RESULTS: The median transport time for CT evaluation was 488.50 seconds (95% confidence interval [CI], 462.75 to 514.75) and, 503.50 seconds (95% CI, 489.50 to 526.75) with 5 and 6 fluid lines using the conventional method and 364.50 seconds (95% CI, 335.00 to 388.75), and 363.50 seconds (95% CI, 331.75 to 377.75) with ETAD (all P < 0.001). The time differences were 131.50 (95% CI, 89.25 to 174.50) and 148.00 (95% CI, 116.00 to 177.75) (all P < 0.001). CONCLUSION: The transport time for CT evaluation was reduced using the ETAD, which would be expected to reduce the complications that may occur during transport in cases of critical illness.
Blood Pressure ; Central Venous Pressure ; Critical Illness* ; Electrocardiography ; Humans ; Manikins ; Methods ; Patient Safety ; Prospective Studies ; Transportation ; Volunteers

BACKGROUND: A hemovigilance system is essential to detect and analyze adverse transfusion reactions to various blood components. A blood bank physician has the role of discriminating the adverse transfusion reactions based on the hemovigilance criteria. This study investigated the incidence of adverse transfusion reactions per transfused case and the incidence of adverse transfusion reactions according to the various blood components in recipients. METHODS: From January 2016 to February 2017, 38,689 blood component units were transfused into 3,768 patients. A total of 11,170 transfused cases were reported. The patients’ signs or symptoms were monitored and reported by nurses using an electronic reporting system. A blood bank physician classified the adverse transfusion reactions according to the Korean hemovigilance reporting definitions. RESULTS: The frequency of all transfusion-related events was 469 according to the nursing record. Out of 469 events, 175 (37.3%) were classified as adverse transfusion reactions. The incidence of a febrile nonhemolytic transfusion reaction according to the blood component was highest for red blood cells (1.3%), followed by a platelets (0.8%) and fresh frozen plasma (0.3%). The incidence of allergic reactions was 1.0% (platelets), 0.8% (fresh frozen plasma), and 0.3% (red blood cells). The incidence of febrile nonhemolytic transfusion reactions was lowered significantly by leukocyte-reduction. CONCLUSION: The incidence of adverse transfusion reactions was 37.3% of the transfusion-related events. Therefore, close monitoring by the blood bank physician is essential for safe transfusion. The use of leukocyte-reduced blood components could reduce the incidence of febrile nonhemolytic transfusion reactions.
Blood Banks ; Blood Safety* ; Erythrocytes ; Humans ; Hypersensitivity ; Incidence* ; Nursing Records ; Plasma ; Transfusion Reaction*

BACKGROUND: If donors who were deferred due to the reactivity or grey zone in HBV surface antigen (HBsAg) assay want to donate blood again, they need to pass reentry tests. On the other hand, approximately half of the donors who are subject to the reentry tests cannot be reentered. This study examined the association between the sample to cutoff (S/Co) value of the HBsAg assay and the final results of the reentry test. METHODS: This study analyzed the S/Co values of the HBsAg assay and the final results of the reentry tests for the 3,947 donors from January 2008 to December 2017 using the database of Blood Information Management System of the Korean Red Cross. RESULTS: 1,767 donors (44.8%) were not reentered among 3,947 deferred donors. Among 1,585 donors showing ≥10 of the S/Co value in the HBsAg screening test, 1,542 donors (97.3%) were not reentered. The additional reentry tests were performed on 120 donors who were not reentered in the first reentry test; 98 donors (81.7%) were still not reentered. Overall, 4.6% of the donors showing a grey zone in the HBsAg assay were not reentered. CONCLUSION: The reentry test needs to be restricted for the deferred donors showing a more than 10 S/Co value. The application of the grey zone of current HBsAg assay will need to be continued to enhance the HBV-related blood safety.
Antigens, Surface* ; Blood Safety ; Hand ; Hepatitis B Surface Antigens ; Humans ; Immunoassay* ; Information Management ; Mass Screening ; Red Cross ; Tissue Donors*

PURPOSE: In Korea, the EMS system is a municipal governmental fire-based system. Since 2012, an EMS medical director has been appointed in all fire stations by legislation. This study examined the direct medical oversight (DMO) clinically in a Korean metropolitan city. METHODS: This is a descriptive analysis of the fire-based centralized DMO in a metropolitan city. The current status of the ambulance crew of a fire station including certification, EMS experience, the number of requested DMO, and the statistics of DMO, and the DMO physicians of a fire department dispatch center, was studied. The ambulance run sheets of a fire station were reviewed to survey the assessment and intervention of ambulance-receiving DMO. RESULTS: Although it is increasing every year, the ratio of ambulance runs receiving DMO was 2.5–11.1% in a fire station. The fire station has 45 ambulance crew, half of which were level 1 emergency medical technicians and registered nurses. In a fire department dispatch center, most (70%) of the DMO physicians were emergency physicians. The ratio of prehospital assessment, including consciousness (100%), full vital sign (78.8–91.2%), oxygen saturation (86.5–100%), blood sugar test (31.3–94.4%), and ECG (16.7–48.5%), was higher than the ratio of prehospital intervention, including advanced airway (1.9–21.15), bag mask ventilation (3.0–63.2%), IV dextrose water (55.6%), nitroglycerin subligual (42.9%), cervical immobilization (57.7%), and wound dressing (53.85) in an ambulance run receiving DMO in a fire station. CONCLUSION: The ratio of patients transported by ambulance receiving DMO is still low in a metropolitan city. The DMO should be strengthened to improve the patient safety and quality of EMS in Korea.
Ambulances ; Bandages ; Blood Glucose ; Certification ; Consciousness ; Electrocardiography ; Emergencies ; Emergency Medical Service Communication Systems ; Emergency Medical Services ; Emergency Medical Technicians ; Fires ; Glucose ; Humans ; Immobilization ; Korea ; Local Government ; Masks ; Nitroglycerin ; Nurses ; Oxygen ; Patient Safety ; Physician Executives ; Ventilation ; Vital Signs ; Water ; Wounds and Injuries

The Korean government previously established a national blood policy and national blood system based on basic and essential legislation. This achievement was the result of collaborative efforts between the Korean Centers for Disease Control and Prevention, the Korean Society of Blood Transfusion, the Korean Society for Laboratory Medicine, the Laboratory Medicine Foundation, and/or the Korean Association of External Quality Assessment Service. To ensure a safe and effective transfusion, a comprehensive quality assurance (QA) system to assess every process from donor selection to transfusion is mandatory. From a blood safety perspective, selection of appropriate donor blood screening tests for transfusion-transmissible infections (TTI) and the QA program is of great importance. In this article, we review legislation regarding the national blood policy and national blood system as well as the selection logic regarding diagnostic immunologic tests for TTI and quality assurance efforts for TTI of each blood center.
Blood Safety ; Blood Transfusion ; Centers for Disease Control and Prevention (U.S.) ; Donor Selection ; Humans ; Immunologic Tests* ; Logic ; Mass Screening* ; Quality Control ; Tissue Donors

BACKGROUND: Blood transfusions are complicated procedures, and are highly sensitive to mistakes that could seriously endanger the life of patients. The failure mode and effect analysis (FMEA) can be used to inspect and improve high risk processes. Here, we aimed to identify the risk factors of a blood transfusion process and to improve its safety by optimizing the process. METHODS: We conducted a weekly meeting from March to April 2014. We investigated the frequency of events for 2013 (before FMEA) and 2015 (after FMEA). The FMEA process was performed in eight steps and the improvement priorities were determined in accordance with the magnitude of calculated fatalities (multiplied by severity, occurrence, and detection scores). RESULTS: The whole process of blood transfusion was analyzed by detailed steps: Decision of blood transfusion, blood transfusion request, pre-transfusion test, blood product discharge, delivery, and administration process. Then, we identified the types of failures and likelihood of occurrence, discovery, and severity. Based on the calculated risk priority number, strategies to improve the highest failure modes were developed. Eleven transfusion-related events occurred before FMEA, and three events occurred after FMEA. CONCLUSION: In this study, we analyzed the failure modes that may occur during a transfusion procedure. The FMEA was a useful tool for analyzing and reducing the risks associated with a blood transfusion procedure. Continuous efforts to improve the failure modes would be helpful to further improve the safety of patients undergoing blood transfusion.
Blood Transfusion ; Healthcare Failure Mode and Effect Analysis* ; Hematologic Tests ; Humans ; Patient Safety ; Risk Factors ; Transfusion Medicine*