blood glucose, blood urea nitrogen, hematocrit, and hemoglobin), and enzyme-linked immunosorbent assay kits (calcium, magnesium, creatinine, aspartate aminotransferase, alanine aminotransferase, bilirubin, and albumin). Similar trends were found for the parameters of biochemistries, electrolytes, and blood gas, and they revealed no significant changes after blood withdrawal-induced hemorrhagic shock. However, the TBS group showed more effective ability to correct metabolic acidosis than the NS and RS groups. TBS was a feasible and safe resuscitation solution in this study and may be an alternative to NS and RS for resuscitation in hemorrhagic shock patients without liver damage.]]>
Acidosis ; Alanine Transaminase ; Animals ; Aspartate Aminotransferases ; Bilirubin ; Blood Glucose ; Blood Urea Nitrogen ; Carbon Dioxide ; Creatinine ; Electrolytes ; Enzyme-Linked Immunosorbent Assay ; Hematocrit ; Hemodynamics ; Humans ; Hydrogen-Ion Concentration ; Liver ; Magnesium ; Male ; Oxygen ; Potassium ; Rats ; Resuscitation ; Shock, Hemorrhagic ; Sodium

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: The possible impact of hemodilution during acute normovolemic hemodilution (ANH) using hydroxyethyl starch (HES) on intraoperative serum concentration of creatinine (s-Cr) has not been well investigated. METHODS: Patients undergoing cardiac surgery were randomly allocated into Group-ANH (n = 15) or Group-C (control; n = 17). In Group-ANH, 5 ml/kg whole blood was collected, and they were administered 5 ml/kg of HES 130/0.4 after anesthesia induction and before initiating cardiopulmonary bypass (CPB). In both groups, moderate hypothermic CPB was initiated using 1,600–1,800 ml of bloodless priming solution. The changes of s-Cr, blood urea nitrogen, hematocrit (Hct), electrolytes, and osmolality were determined before ANH administration (T1), after administering ANH 5 ml/kg (T2), 30 and 60 s after the initiation of CPB (T3, T4), and at the end of surgery (T5). RESULTS: In Group-ANH, the s-Cr values at T2 (median [IQR25–75%], 0.83 [0.71–1.00] mg/dl) were not significantly different compared to those at T1 (0.84 [0.64–1.00] mg/dl), while those at T3 and T4 (0.68 [0.61–0.80] and 0.76 [0.59–0.92] mg/dl, respectively) were significantly lower than those at T2 (0.83 [0.71–1.00] mg/dl, P < 0.001). Hct at T3, T4 and T5 were significantly lower than those of T1 in both groups, and those at T2 and T4 of Group-ANH were significantly lower than those of Group-C (P < 0.001). There was no significant inter-group difference in all other parameters. CONCLUSIONS: Intraoperative s-Cr was not affected by the administration of ANH 5 ml/kg, although it reduced transiently at the beginning of CPB. Further study is needed to determine the clinical relevancy of our results.
Anesthesia ; Blood Urea Nitrogen ; Cardiopulmonary Bypass ; Creatinine ; Electrolytes ; Hematocrit ; Hemodilution* ; Humans ; Osmolar Concentration ; Starch ; Thoracic Surgery*

PURPOSE: The results of arterial blood gas analysis using conventional liquid sodium heparin syringes are inaccurate due to the dilution effect, chelation of heparin and the electrolyte, and interference of the heparin electrolyte measurement. This study compared the accuracy of using heparin with a liquid sodium heparin syringe (LHs) and balanced lithium/zinc heparin syringe (BHs). METHODS: This study evaluated 6,778 cases who underwent an arterial blood gas test, serum electrolytes test, and complete blood count test among patients aged 18 years or older who visited the emergency room from November 1, 2016 to March 3, 2017. Finally, there were 2,383 cases using LHs and 2,584 cases using BHs. The results were compared between the groups using the LHs and BHs for sodium, potassium, and hemoglobin, and the agreement was compared using the Bland-Altman plot. RESULTS: Sodium difference value was the 5.714±5.696 mmol/L in the LHs group, -1.549±3.339 mmol/L in the BHs group. The potassium difference value was -0.650±0.494 mmol/L (LHs group) and -0.257±0.367 mmol/L (BHs group). The hemoglobin difference values were -0.556±1.116 g/dL (LHs group) and -0.170±1.062 g/dL (BHs group). The results showed that the BHs group was improved compared to the LHs group (p<0.001). CONCLUSION: The results of arterial blood gas analysis of sodium, potassium, and hemoglobin were more accurate for the BHs group than the LHs group based on the serum electrolytes and complete blood counts.
Blood Cell Count ; Blood Gas Analysis* ; Electrolytes* ; Emergency Service, Hospital ; Heparin* ; Humans ; Potassium ; Sodium ; Syringes*

BACKGROUND: Diabetic ketoacidosis (DKA) is characterized by a biochemical triad of hyperglycemia, acidosis, and ketonemia. This condition is life-threatening despite improvements in diabetic care. The purpose of this study was to evaluate the clinical and biochemical prognostic markers of DKA. We assessed correlations in prognostic markers with DKA-associated morbidity and mortality. METHODS: Two hundred and seventy patients that were hospitalized with DKA over a period of 2 years were evaluated clinically and by laboratory tests. Serial assays of serum electrolytes, glucose, and blood pH were performed, and clinical outcome was noted as either discharged to home or death. RESULTS: The analysis indicated that significant predictors included sex, history of type 1 diabetes mellitus or type 2 diabetes mellitus, systolic blood pressure, diastolic blood pressure, total leukocyte count, Acute Physiology and Chronic Health Evaluation II (APACHE II) score, blood urea nitrogen, serum creatinine, serum magnesium, serum phosphate, serum osmolality, serum glutamic oxaloacetic transaminases, serum glutamic pyruvic transaminases, serum albumin, which were further regressed and subjected to multivariate logistic regression (MLR) analysis. The MLR analysis indicated that males were 7.93 times more likely to have favorable outcome compared with female patients (odds ratio, 7.93; 95% confidence interval, 3.99 to 13.51), while decreases in mean APACHE II score (14.83) and serum phosphate (4.38) at presentation may lead to 2.86- and 2.71-fold better outcomes, respectively, compared with higher levels (APACHE II score, 25.00; serum phosphate, 6.04). CONCLUSION: Sex, baseline biochemical parameters such as APACHE II score, and phosphate level were important predictors of the DKA-associated mortality.
Acidosis ; APACHE ; Blood Pressure ; Blood Urea Nitrogen ; Creatinine ; Diabetes Mellitus, Type 1 ; Diabetes Mellitus, Type 2 ; Diabetic Ketoacidosis* ; Electrolytes ; Female ; Glucose ; Humans ; Hydrogen-Ion Concentration ; Hyperglycemia ; Hyperglycemic Hyperosmolar Nonketotic Coma ; Ketosis ; Leukocyte Count ; Logistic Models ; Magnesium ; Male ; Mortality ; Osmolar Concentration ; Serum Albumin ; Transaminases

Pesticide formulation includes solvents (methanol and xylene) and antifreeze (ethylene glycol) whose metabolites are anions such as formic acid, hippuric acid, and oxalate. However, the effect of the anion gap on clinical outcome in acute pesticide intoxication requires clarification. In this prospective study, we compared the anion gap and other parameters between surviving versus deceased patients with acute pesticide intoxication. The following parameters were assessed in 1,058 patients with acute pesticide intoxication: blood chemistry (blood urea nitrogen, creatinine, glucose, lactic acid, liver enzymes, albumin, globulin, and urate), urinalysis (ketone bodies), arterial blood gas analysis, electrolytes (Na+, K+, Cl- HCO3 -, Ca++), pesticide field of use, class, and ingestion amount, clinical outcome (death rate, length of hospital stay, length of intensive care unit stay, and seriousness of toxic symptoms), and the calculated anion gap. Among the 481 patients with a high anion gap, 52.2% had a blood pH in the physiologic range, 35.8% had metabolic acidosis, and 12.1% had acidemia. Age, anion gap, pesticide field of use, pesticide class, seriousness of symptoms (all P < 0.001), and time lag after ingestion (P = 0.048) were significant risk factors for death in univariate analyses. Among these, age, anion gap, and pesticide class were significant risk factors for death in a multiple logistic regression analysis (P < 0.001). In conclusions, high anion gap is a significant risk factor for death, regardless of the accompanying acid-base balance status in patients with acute pesticide intoxication.
Acid-Base Equilibrium ; Acidosis/etiology ; Adolescent ; Adult ; Aged ; Aged, 80 and over ; Anions/*chemistry/metabolism ; Biomarkers/*chemistry/metabolism ; Blood Gas Analysis ; Chemically-Induced Disorders/mortality/pathology ; Electrolytes/analysis ; Female ; Humans ; Intensive Care Units ; Logistic Models ; Male ; Middle Aged ; Odds Ratio ; Pesticides/*poisoning ; Prospective Studies ; Risk Factors ; Survival Analysis ; Urinalysis ; Young Adult

BACKGROUND: Hydroxyethyl starch (HES) solutions are used as plasma expanders for correcting hypovolemia, but can lead to impaired coagulation. We evaluated the changes in hematological and hemostatic profiles with three types of HES. METHODS: Patients were randomized to receive volume replacement with 10% pentastarch 260/0.45 in 0.9% saline (Group-PEN, n = 25), 6% tetrastarch 130/0.4 in 0.9% saline (Group-TET(S), n = 25), or 6% tetrastarch 130/0.4 in a balanced electrolyte solution (Group-TET(B), n = 25). Coagulation was assessed using rotational thromboelastometry (ROTEM(R)) and other laboratory tests were performed, including measurements of hematological and hemostatic parameters and electrolytes. RESULTS: Post-operative ROTEM(R) parameters changed toward hypocoagulable states in all groups. The post-operative parameters of EXTEM and FIBTEM were more impaired in Group-PEN than in Group-TET(B). The percentage change in INTEM clot formation time (P = 0.004) and alpha-angle (P = 0.003) were smaller in Group-TET(S) and Group-TET(B) than in Group-PEN. The percentage change in the FIBTEM maximum clot firmness was greatest in Group-PEN (P = 0.011). The international normalized ratio of prothrombin time (P < 0.001) and the activated partial thromboplastin time (P < 0.001) were significantly prolonged in Group-PEN compared to those of Group-TET(B). CONCLUSIONS: The 6% HES 130/0.4 in a balanced electrolyte solution seemed to have less of an impact on blood coagulation than the 10% HES 260/0.45. No differences in hemostatic profile were observed between the balanced electrolyte and saline-based 6% HES 130/0.4.
Arthroplasty, Replacement, Hip* ; Blood Coagulation* ; Colloids* ; Electrolytes ; Humans ; Hydroxyethyl Starch Derivatives* ; Hypovolemia ; International Normalized Ratio ; Partial Thromboplastin Time ; Plasma ; Prothrombin Time ; Starch ; Thrombelastography

Glucocorticoids are the most common cause of drug-induced diabetes mellitus or hyperglycemia. Hyperglycemic hyperosmolar syndrome (HHS) secondary to glucocorticoid treatment in patients with glomerular disease has rarely been reported in Korea. This paper describes a case of HHS after corticosteroid administration for the treatment of immunoglobulin A (IgA) nephropathy. A 56-year-old nondiabetic male with biopsy-proven IgA nephropathy was started on a combination therapy of an angiotensin converting enzyme inhibitor and oral prednisolone (60 mg, 0.8 mg/kg/day). Eight weeks after the initiation of steroid therapy, he was admitted with a one-week history of polydipsia, polyuria and general weakness. His laboratory tests revealed a serum creatinine level of 2.7 mg/dL, elevated blood glucose (1,221 mg/dL) and an increase in serum osmolarity (347 mOsm/kg H2O). Urinalysis showed 4+ sugars, 2+ proteins, and negative ketones. Prednisolone was tapered and he was administered with intravenous fluids, insulin and electrolytes. The patient was discharged with normoglycemia without the use of antidiabetic medications on the 18th hospital day. Patients who are taking corticosteroids for the treatment of primary glomerulopathy should be investigated for HHS promptly if they present with dehydration, general weakness and weight loss.
Adrenal Cortex Hormones ; Blood Glucose ; Carbohydrates ; Creatinine ; Dehydration ; Diabetes Mellitus ; Electrolytes ; Glomerulonephritis, IGA* ; Glucocorticoids ; Humans ; Hyperglycemia ; Immunoglobulin A* ; Insulin ; Ketones ; Korea ; Male ; Middle Aged ; Osmolar Concentration ; Peptidyl-Dipeptidase A ; Polydipsia ; Polyuria ; Prednisolone ; Steroids ; Urinalysis ; Weight Loss

The drug inducing tubulointerstitial nephritis is a crucial cause of acute kidney injury. Use of herbal plants in disease treatment is generally practiced in Korea. Although there are a small number of case reports, tubulointerstitial nephritis caused by taking Atractylodes macrocephala Koidzumi in human has never been reported. A 62-year-old man visited our hospital with symptoms of systemic edema accompanied by reduced urine volume and dyspnea after taking herbal plant 1 week ago. Chest radiographs showed both sided pleural effusion. Blood test results showed elevation of serum blood urea nitrogen and creatinine level and urine test results showed hematuria and proteinuria. Renal biopsy result showed evidence of tubulointerstitial nephritis by tubulitis and inflammatory cell expansion in the interstitium was observed. The patient's renal function recovered after administration of active renal replacement treatment and conservative therapy such as supplementation of fluid and electrolytes, and there was no disease recurrence for 1 year. Therefore, this case proved that Atractylodes macrocephala Koidzumi could cause acute kidney injury by the drug induced tubulointerstitial nephritis in human.
Acute Kidney Injury* ; Atractylodes* ; Biopsy ; Blood Urea Nitrogen ; Creatinine ; Dyspnea ; Edema ; Electrolytes ; Hematologic Tests ; Hematuria ; Herbal Medicine ; Humans ; Korea ; Middle Aged ; Nephritis ; Nephritis, Interstitial ; Plants ; Pleural Effusion ; Proteinuria ; Radiography, Thoracic ; Recurrence ; Renal Dialysis

BACKGROUND: Therapeutic plasma exchange (TPE) is an effective and practical treatment for separation and removal of harmful antibodies or pathogenic substances from the blood. The volume of plasma removed must be replaced by a replacement fluid such as 4~5% albumin solution or Fresh frozen plasma (FFP). We conducted a study of coagulopathy using albumin solution and checked the chemical composition of fresh frozen plasma. METHODS: We measured pre- and post-TPE PT/aPTT for evaluation of the effect of albumin replacement on coagulation from 192 TPE sessions of 19 patients. We also investigated routine chemistry test items including glucose and electrolytes from 10 randomly selected FFP. RESULTS: The post PT and aPTT within four hours after TPE were prolonged due to a transient decrease in coagulation factors, but were normalized within 2 days after TPE. All coagulation time was corrected to the level of the pre-TPE status within four hours before the next TPE except the patients who received TPE 6 times or more. FFP showed higher level in glucose, sodium and inorganic phosphate. CONCLUSION: Albumin exchange produces temporary coagulation factor deficiency. However, this transient factor deficiency rarely causes clinical problems and the factors are rapidly corrected by redistribution and resynthesis. We should be careful about hypocalcemia, hyperglycemia, and hypernatremia when using FFP replacement.
Antibodies ; Blood Coagulation Factors ; Chemistry ; Electrolytes ; Glucose ; Humans ; Hyperglycemia ; Hypernatremia ; Hypocalcemia ; Plasma ; Plasma Exchange* ; Sodium