This study evaluates the efficacy and safety of Rheosorbilact®, solution for infusion ("Yuria-Pharm" LLC), in comparison with Ringer's Lactate, solution for infusion, in a complex therapy of burns. Half of participants will receive Rheosorbilact® in complex therapy, while the other half will receive Ringer's Lactate in complex therapy.
Rheosorbilact® has rheological, anti-shock, detoxification, and alkalizing effects. Sorbitol and sodium lactate are the major pharmacologically active ingredients. In the liver, sorbitol is first converted into fructose, which is then converted into glucose, and then into glycogen. Part of sorbitol is used for urgent energy needs, while the other part is kept as a reserve in the form of glycogen. Isotonic sorbitol solution has a disaggregating effect and, therefore, improves microcirculation and tissue perfusion. The management of metabolic acidosis with sodium lactate goes more slowly compared to bicarbonate solution, as far as sodium lactate enters the metabolic process; however the latter does not cause swings in pH values. The effect of sodium lactate is typically seen 20 to 30 minutes after administration. Sodium chloride is a plasma-substituting agent that exhibits a detoxification and rehydration effect. It replenishes the deficiency of sodium and chlorine ions in various pathological conditions. Calcium chloride replenishes deficiency of calcium ions. Calcium ions are essential in the transmission of nerve impulses, contraction of skeletal and smooth muscles, myocardial activity, bone tissue formation, and blood clotting. It reduces the permeability of cells and vascular walls, prevents the development of inflammatory reactions, enhances the resistance of the body to infections and can significantly boost phagocytosis. Potassium chloride restores the water-electrolyte balance. It exhibits a negative chrono- and bathmotropic action and, when administered in high doses, has a negative ino- and dromotropic and moderate diuretic effect. It is involved in the process of nerve impulse conduction, increases the content of acetylcholine and causes excitation of the sympathetic segment of the autonomic nervous system and improves the contraction of skeletal muscles in subjects with muscular dystrophy or myasthenia. Rheosorbilact® is administered to improve capillary blood flow for the prevention and treatment of traumatic, surgical, hemolytic, toxic and burn shock, acute blood loss, and burn disease; infectious diseases accompanied by intoxication, exacerbation of chronic hepatitis; sepsis, pre- and postoperative period to improve arterial and venous circulation for the prevention and treatment of thrombosis, thrombophlebitis, endarteritis, and Raynaud's disease. Ringer's Lactate, solution for infusion will be used as a comparator. As a rehydrating agent, Ringer's Lactate has a detoxification effect, replenishes the deficiency of circulating blood volume, and stabilizes the water and electrolyte composition of blood. Ringer's Lactate normalizes the acid-base balance. Lactate is metabolized in the body to bicarbonate, so the solution has an alkalizing effect. With osmolarity at 273 mOsm/l, Ringer's Lactate is close to isotonic solution and is indicated for hypovolemia, isotonic dehydration, and metabolic alkalosis.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
118
Administered intravenously (with speed 40-60 drip per minute) at a dose of 600 to 1,000 ml (10 to 15 ml/kg body weight per 24 hours) for 3 days.
Administered intravenously (with speed 40-60 drip per minute) at a dose of 1,000 to 2,500 ml (15 to 40 ml/kg body weight per 24 hours) for 3 days.
Karaganda State Medical University; Regional Center of Traumatology and Orthopedics named after Professor H.Zh.Makazhanov
Karaganda, Kazakhstan
Republic Clinical Hospital of Traumatology and Orthopedy
Chisinau, Moldova
Kyiv City Clinical Hospital №2; Shupyk National Medical Academy of Postgraduate Education
Kyiv, Ukraine
Vinnytska Pyrohov's State Clinical Hospital
Vinnytsia, Ukraine
A change in the total SOFA score vs. baseline score upon admission
Sequential Organ Failure Assessment (SOFA) score is composed of scores of six organ systems: R-respiratory, C-cardiovascular, H-hepatic, Co-coagulation, Re-renal, and N-neurological graded from 0 to 4 according to the degree of dysfunction or failure. The SOFA score ranges from 0 to 24 points. We evaluate initial SOFA score and differences between subsequent scores (Δ-SOFA scores).
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
A change in the total APACHE II score vs. baseline score upon admission
Acute physiology and chronic health evaluation(APACHE) II score is calculated from a patient's age (0-6 points) and 12 physiological parameters (each item 0-4 points): AaDO2 or PaO2 (depending on FiO2), Temperature (rectal), Mean arterial pressure, pH arterial, Heart rate, Respiratory rate, Sodium (serum), Potassium (serum), Creatinine, Hematocrit, White blood cell count, Glasgow Coma Scale and chronic disease health status (0-5 points). The APACHE II score ranges from 0 to 71 points. We evaluate initial APACHE II score and differences between subsequent scores (Δ-APACHE II scores).
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
A change in the total SAPS II score on day 3 vs. baseline score upon admission
The SAPS II score is made of 17 variables: 12 physiology variables, age, type of admission (scheduled surgical, unscheduled surgical, or medical), and three underlying disease variables (acquired immunodeficiency syndrome, metastatic cancer, and hematologic malignancy). The SAPS II score ranges from 0 to 160 points. We evaluate initial SAPS II score and differences between subsequent scores (Δ-SAPS II scores).
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
A change in the total Spronk score on day 3 vs. baseline score upon admission
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Republic Scientific Center of Ambulance
Tashkent, Uzbekistan
Spronck score is made of 5 main parameters: hemodynamic state (2 points), peripheral circulation (2 points), microvascular variables (1 point), systemic markers of tissue oxygenation (1 point), signs of organ dysfunction (2 points). Spronk score ranges from 0 to 8 points. A score \> 2 indicates the presence of shock. We evaluate initial Spronk score and differences between subsequent scores (Δ-Spronk scores).
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of glucose
Concentration of glucose (mmol/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of lactate.
Concentration of lactate (mmol/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of pyruvate.
Concentration of pyruvate (mmol/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of urea.
Concentration of urea (mmol/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of creatinine.
Concentration of creatinine (µmol/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of bilirubin.
Concentration of bilirubin (µmol/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of alanine aminotransferase.
Concentration of alanine aminotransferase (U/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of aspartate aminotransferase.
Concentration of aspartate aminotransferase (U/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of lactate dehydrogenase.
Concentration of lactate dehydrogenase (U/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of alkaline phosphatase.
Concentration of alkaline phosphatase (U/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of creatine kinase.
Concentration of creatine kinase (U/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of γ-Glutamyltransferase.
Concentration of γ-Glutamyltransferase (U/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of low-molecular-weight adiponectin (LMW).
Concentration of low-molecular-weight adiponectin (U/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of middle-molecular-weight adiponectin (MMW).
Concentration of middle-molecular-weight adiponectin (U/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of albumin.
Concentration of albumin in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Procalcitonin level.
Concentration of procalcitonin level (µg/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
White blood cells (WBC) count level.
White blood cells (billion/L) count level in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Lymphocyte count level.
Lymphocyte count (%) level in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Platelet count level.
Platelet count level (billion/L) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Calculation of Nuclear index of intoxication (NII)
Calculated by dividing the number of myelocytes, young and stab neutrophils by number of segmented neutrophils.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Calculation of Leukocyte index of intoxication (LII).
Calculated by the formula of Kalf-Kalifa: correlation between the level of neutrophils and the content of other cells in the blood leukocytic composition.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of C-reactive protein (CRP).
Concentration of C-reactive protein (CRP) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Level of circulating immune complexes (CIC).
Level of Circulating immune complexes (CIC) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of Interleukin-1 and 2.
Concentration of Interleukin-1 (pg/ml) and Interleukin-2 (pg/ml) in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Calculation of neutrophil-to-lymphocyte ratio (NLR).
Calculated by dividing the number of neutrophils (%) by number of lymphocytes (%).
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of immunoglobulins.
Concentration of Ig A, Ig M and Ig G in blood serum after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Concentration of complements.
Concentration of complements (C3, C4) in blood sample after 8-hour fasting.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Assessment of central hemodynamics.
Measurement of central venous pressure (mmh2o) in the central vein.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
A change in the total Glasgow Coma Scale (GCS) score vs. baseline score upon admission
The GCS is composed of 3 components: ocular response (assessment 1-4 points), motor response (assessment 1-6 points) verbal response (evaluation of 1-5 points). Scores for each component are added together to get the total that will range between a minimum of 3 points (which corresponds to a patient who does not open his eyes and no motor response to stimulation or verbal response) and a maximum value of 15 points (corresponding to a patient with open eyes, obeying orders and maintaining a consistent language).
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Measurement of 12-lead electrocardiogram (ECG).
Measurement of 12-lead ECG with further evaluation and interpretation whether the ECG waves, intervals, durations and rhythm are normal.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Number of participants with Presence of clinical signs.
Number of participants with presence of clinical signs such as adynamia, weakness, memory impairment, sleep disorder, irritability, evaluated according to patient's subjective complaints.
Time frame: Will be evaluated for the duration of Intensive Care Unit (ICU) stay, at screening (Day 0) and Visit 3 (Day 3) of ICU stay.
Incidence of Treatment-Emergent Adverse events
All types of adverse events
Time frame: Patients will be followed during 14 days.
Incidence of multiple organ failure
Incidence of multiple organ failure
Time frame: Patients will be followed during 14 days.
Overall survival (%) at follow-up visit.
Overall survival (%) at follow-up visit.
Time frame: Follow-up visit (Day 14±1)