RU2139054C1 - Formulation optimizing course of hemodialysis in renal insufficiency patients - Google Patents

Abstract

FIELD: urology. SUBSTANCE: formulation contains 10-20 mg of relanium and 10-20 ml of sodium hydroxybutyrate (2-4 g). Instead of relanium (Polish production), its pharmacological analogs such as seduxen (Hungary) or sibason (Russia) can be utilized. Single dose of relanium and its pharmacological analogs varies within therapeutic range from 5 to 20 mg. EFFECT: prevented development of hemodialysis adverse effects and complications or reduced their intensity owing to stress-protection, decongestant, and antihypoxic activity of formulation components. 3 tbl

Description

 The invention relates to the field of medicine.

 Impairment of kidney activity can occur due to their disease, injury or poisoning with nephrotoxic poisons (7, 9, 11, 12, 18). Reversible, rapidly developing impaired renal function is called acute renal failure (ARF), irreversible, which forms gradually over the course of months and years - chronic renal failure (CRF), and in the last stage - terminal uremia (7, 8, 12).

 With acute renal failure and chronic renal failure, the elimination of water, nitrogenous slag, acids and electrolytes from the body, which accumulate in the blood and body tissues, causing intoxication, fluid overload and impaired functions of vital organs, pulmonary edema and cerebral edema, anemia, hypertension, stops heart failure up to cardiac arrest (7, 8, 11, 12). Life expectancy with fully inactive kidneys is 6-8 days (12).

 The only effective treatment for renal failure is hemodialysis (blood purification) using the "Artificial kidney" apparatus. Hemodialysis is carried out in 4-6-hour sessions daily or every other day until the restoration of kidney function in acute renal failure and for life or until transplantation of a donor kidney in terminal uremia (7, 8, 11, 12,). Hemodialysis is a biochemical operation. Blood is purified from excess fluid, nitrogenous slags, acids and electrolytes by ultrafiltration, diffusion and osmosis through a semipermeable membrane of cellulose acetate, cuprofan, polyacrylmethacrylate or other materials into a dialysis (cleansing) solution, similar in its electrolyte and acid-base composition to blood plasma healthy person. A device in which the blood purification process itself takes place is called a dialyzer (7). The clearance (cleansing ability) and ultrafiltration (liquid removal ability) of the dialyzer depend on the type of semipermeable membrane, its area, thickness, the number of pores per unit surface, as well as on the regimen of the session, that is, on the speed of blood flow through the dialyzer, on the magnitude of the negative transmembrane pressure applied to the membrane with a special vacuum pump and from the time of hemodialysis (2, 7).

One of the main tasks of the hemodialysis doctor is to select the dialyser necessary for the given patient in terms of clearance and ultrafiltration coefficient and prescribe the appropriate regimen for the procedure, thereby ensuring that the patient is cleansed of nitrogenous slags and excess fluid as much as possible for the patient. In practice, this means a decrease in the concentration of urea and creatinine in blood plasma to subnormal values, normalization of plasma potassium and calcium levels and removal of 1-6 liters of fluid in a 4-6 hour session. Fulfillment of these conditions systematically from dialysis to dialysis allows the elimination of life-threatening disorders in acute renal failure and a decrease in the clinical manifestations of uremia in chronic renal failure. However, the following side effects and complications of hemodialysis inhibit this task:
- disturbed equilibrium syndrome (dysequilibrimn-syndrome) developing due to sharp metabolic changes during hemodialysis - the rate of removal of urea from the blood into the dialysis solution exceeds the rate of its entry from the brain into the blood due to poor permeability of the blood-brain barrier to urea; as a result, the concentration of urea in the brain can exceed its concentration in the blood, which creates an osmotic gradient and causes fluid to move to the brain, swelling and swelling of the brain, which is manifested by clinically non-drug-resistant headaches, vomiting, convulsions, disorientation, and acute psychosis (4, 7, 14 , 21);
- hemodynamic disorders in the form of
decrease in systemic blood pressure up to collapse due to a sharp emptying of the vascular bed with fluid removal;
increase in systemic blood pressure up to a hypertensive crisis due to a sharp spasm of blood vessels in response to fluid removal and electrolyte shifts;
increased symptoms of heart failure in the form of dyspnea at rest, cyanosis, increased heart rate and cardiac arrhythmias with the possible development of cardiac pulmonary edema (4, 5, 7, 10, 20, 23);
- increased arterial hypoxemia and general hypoxia of the body due to a violation of ventilation-perfusion relations in the lungs due to hemodynamic disorders during hemodialysis and diffusion of blood gases into the dialysis solution (1, 6, 10, 15).

 To prevent possible complications or relief of those who have developed, a reduction in dialysis time and a decrease in intensity are used, which automatically reduces its effectiveness, the introduction of hypertonic solutions of glucose, calcium gluconate, blood and blood substitutes, cardiotonic and antihypertensive drugs, oxygen inhalation or blood oxygenation during dialysis, and also hyperbaric oxygenation immediately after its completion (4, 5, 6, 10, 14, 15).

 It must be emphasized that for a patient with chronic kidney disease, the development of terminal uremia and the need for hemodialysis are an absolute traumatic factor (12, 17, 22, 25). Forced cessation of professional activity, violation of life plans, the appearance of domestic problems and constant dependence on the "Artificial kidney" apparatus become causes of deep depression in 50-60% of dialysis patients (17, 22). The specific setting of the dialysis room is added to it, negative information from patients who have poor dialysis tolerance or undergoing unsuccessful kidney transplantation. The result is a persistent sense of the futility of the treatment, the intense expectation of the worst and the refusal to cooperate with the doctor. Sustainable adaptation to the hemodialysis procedure occurs after 2-4 months of treatment in only 23% of patients, the rest during and immediately after dialysis complain of unexplained discomfort, sometimes reaching psycho-emotional and psychomotor agitation, palpitations and interruptions in heart activity, feeling of lack of air, increased sweating, migraine-like headaches, despite the fact that there is no objective symptomatology (an increase or decrease in blood pressure, a decrease in the contractility of the myocardium or signs of its ischemia) t (17). Experience shows that such a subjective hyperreactivity, without appropriate medication correction, by the middle of the session passes into a reliable objective reaction to dialysis up to a hypertensive crisis, cardiac asthma, and unoccupied headaches that cause the session to be terminated prematurely (17, 22, 25). Of the drugs in such situations, sedatives and tranquilizers are recommended (13).

 Meanwhile, the main task of programmed hemodialysis is the elimination of the clinical manifestations of uremia, compensation for the patient’s condition, the abolition of dietary restrictions, transferring the patient to an outpatient treatment option and returning him to work capacity — is achievable only if the duration and intensity of blood purification is sufficient for the patient. The implementation of this task means for the patient an unconditional increase in the "quality of life" with a return to the familiar micro-social environment, and often a return to professional activity.

 The relevance and significance of this development are determined by the significant influence on the quality of hemodialysis of such side effects of the procedure as disacilibrium syndrome, hemodynamic reactions, increased hypoxia and stress, the severity of which is determined by the intensity and duration of treatment. The lack of clear recommendations makes it difficult to prevent and correct the above side effects of dialysis.

 The aim of the invention is the practical use of a pharmacological agent that prevents the development of side effects of hemodialysis, or reduces their intensity. This goal is achieved by joint ingestion of Relanium with sodium oxybutyrate before starting the hemodialysis procedure. In the proposed drug, hereinafter referred to as "RON formulation", instead of relanium (Poland), its pharmacological analogs, in particular seduxen (Hungary) or sibazon (Russia) can be used.

 The tool was used in the form of premedication before hemodialysis in the treatment of 10 patients with chronic renal failure (table 1) and 6 patients with acute renal failure (table 2). Patients with chronic renal failure 20 minutes before connecting to the Artificial Kidney device received 1-2 ml of Relanium (5-10 mg) by mouth with 5-10 ml of 20% sodium hydroxybutyrate (1-2 g) in 50 ml of distilled water . Patients with acute renal failure 2-4 ml of Relanium (10-20 mg) and 10-20 ml of 20% sodium oxybutyrate (2-4 g) were injected intravenously in 400 ml of physiological solution of sodium chloride.

 Observations were carried out for 2 months. For 5 patients with chronic renal failure, this was the period of introduction to program hemodialysis, the remaining treatment duration was 22-46 months, but due to neglect of the underlying disease, there was circulatory failure, uncontrolled hypertension, continuously recurring pyelonephritis, which made adaptation to dialysis difficult. A total of 85 hemodialysis was performed with RED premedication (group II). Control - 90 dialysis without premedication to the same patients (group I).

 The results of the work are presented in Table 3. The total dialysis time, the amount of ultrafiltration, and the blood flow velocity were measured automatically by the "Artificial kidney" apparatus; the urea, creatinine, phosphate, and cyanobalamin clearance were determined from the passport nomogram of the dialyzer used in accordance with the established blood flow velocity. All data were processed statistically using Student's t-test and X-squared.

 It turned out that the hemodialysis time in group II was statistically significant by 26.2%, and the volume of the removed ultrafiltrate was 23.8% more than in group I. Moreover, in group II throughout the entire session, the blood flow velocity and clearance of urea, creatinine, phosphates and cyanocobalamin were significantly higher than in group I, on average, by 24-25%. Despite the more intensive regimen and longer time of the hemodialysis procedure in group II, cardiac asthma, chills, and pain were significantly less frequently recorded, fluctuations in blood pressure were significantly more often controlled, and the initial hemodynamics remained in half of the dialyses. There were no cases of collapse or hypertensive crisis, psychoemotional disorders, and premature termination of the session in group II.

Thus, the use of premedication with the RON formulation ensures hemodialysis in the regimen necessary for this patient with minimal risk of complications and side effects, apparently due to such well-known properties of the formulation components as the stress-protective effect, decongestant, and antihypoxic effect (3, 16 , 19). The obtained results allow us to recommend premedication of RON before the start of hemodialysis for the following groups of patients:
-all emotionally labile patients for the prevention and treatment of psycho-emotional disorders;
- patients with acute renal failure who have life-threatening disorders of homeostasis and therefore require intensive daily hemodialysis;
- Patients with chronic renal failure who are on program hemodialysis with decompensation of uremia, the development of its complications (pericarditis, uncontrolled hypertension, heart failure) or concomitant diseases that worsen hemodialysis tolerance.

 Economic efficiency. In group I without RED premedication, the total time of one hemodialysis session was 26.2% less. Prematurely discontinued dialysis in group I was 37%, in the second there were no such dialyses (table 3). The cost of 4-hour hemodialysis for a patient with chronic renal failure is $ 100, the termination of such dialysis an hour earlier than the required procedure time means a loss of $ 25. Per month, one patient with chronic renal failure requires 12 dialysis, per year - 150. Thus, if 4 dialysis (37% of 12) prematurely ceases during the month, and 55 (37% of 150) per year, then 100 patients are lost, respectively dollars a month and 1375 dollars a year.

 The cost of one hemodialysis for a patient with acute renal failure is $ 135; a 25% reduction in time means a loss of $ 34. On average, 1 patient with acute renal failure before recovering the function of his own kidneys receives 4.6 ± 0.42 dialysis (AI Dubrov, “Hyperbaric oxygenation in the complex treatment of acute renal failure in surgical patients”. Thesis for the degree of candidate of medical sciences, Yaroslavl , 1992, 139 p.). Premature termination of 1.7 of them (37% of 4.6) means a loss of $ 58 per patient with acute renal failure.

Literature
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Claims (1)

 A tool that optimizes hemodialysis for renal failure, which is a combination of relanium or one of its pharmacoanalogs with sodium hydroxybutyrate in therapeutic doses at a ratio of 1: 200.

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