The electrolyte balance of the human body. Violation of the water-electrolyte balance and methods of its correction Electrolyte disorders

Description:

Hyponatremia - a decrease in the concentration of sodium in the blood to 135 mmol / l and below, with hypoosmolar and isoosmolar hypohydration means a true deficiency of Na in the body. In the case of hypoosmolar overhydration, it may not mean a general sodium deficiency, although in this case it is often observed. (the content of calcium in the blood is above 2.63 mmol / l).
- a decrease in the concentration of potassium in the blood below 3.5 mmol / l.
- an increase in the concentration of potassium above 5.5 mmol / l.
- decrease in the level of magnesium below 0.5 mmol / l.

Symptoms:

IN clinical picture- increased neuromuscular excitability, spastic manifestations of the gastrointestinal tract, coronary vessels.

In acute calcium poisoning (hypercalcemia), it may develop, which manifests itself acute pain in the epigastrium, thirst, nausea, indomitable vomiting, polyuria leading to and then to oligoanuria, hyperthermia, acute circulatory disorders, up to its stop.

The main manifestations of hypokalemia: muscle weakness, which can cause hypoventilation, the development of chronic renal failure, decreased carbohydrate tolerance, dynamic, heart rhythm disturbance (fibrillation is possible). On the ECG, the ST interval decreases, RT lengthens, the T wave flattens. With a decrease in potassium to 1.5 mmol / l, atrioventricular block develops, an increased amplitude of the U wave without QT lengthening. Increased sensitivity to cardiac glycosides.

Main clinical manifestations hyperkalemia: symptoms of neuromuscular damage (weakness, ascending, quadriplegia,), intestinal obstruction.

The danger of hyperkalemia is determined by impaired myocardial function. With hyperkalemia of 5–7 mmol / l, the conduction of impulses in the myocardium is accelerated, at 8 mmol / l life-threatening ones occur. The ECG initially shows a tall, pointed T wave, followed by prolongation of the PQ interval, disappearance of the P wave, and atrial arrest. Possible widening of the QRS complex, the occurrence of ventricular fibrillation with the development of ventricular fibrillation.
(over 0.75-1 mmol / l) and hypermagnesium are observed with a decrease in its excretion by the kidneys, excessive administration, the use of antacids, especially against the background of chronic renal failure.

Clinical manifestations: with magnesium 1.25–2.5 mmol / l, nausea, vomiting, a feeling of heat and thirst occur. When the concentration exceeds 3.5 mmol / l, drowsiness, hyporeflexia appear, and conduction of impulses in the myocardium is disturbed. When the magnesium content exceeds 6 mmol / l - coma, respiratory arrest,.

Causes of occurrence:

The main causes of water and electrolyte balance disorders are external losses of fluids and their pathological redistribution between the main fluid media.
The main causes of hypocalcemia are:
- trauma of the parathyroid glands;
- radioactive iodine therapy;
- removal of the parathyroid glands;
- .

Most common cause hypercalcemia - primary or secondary.

The main causes of hyponatremia include:
- severe debilitating diseases, accompanied by a decrease in diuresis;
- post-traumatic and postoperative conditions;
- extrarenal loss of sodium;
- excessive intake of water in the antidiuretic phase of the post-traumatic or postoperative state;
- uncontrolled use of diuretics.

The causes of hypokalemia are:
- displacement of potassium into the cells;
- the excess of potassium losses over its intake is accompanied by hypokalemia;
- a combination of the above factors;
- alkalosis (respiratory, metabolic);
- aldosteronism;
- periodic hypokalemic paralysis;
- the use of corticosteroids.

The main causes of hyperkalemia are:
- release of potassium from the cell due to its damage;
- potassium retention in the body, most often due to excessive intake of katiton in the patient's body.

Causes of hypomagnesemia can be:

In surgical patients, the main principles of water and electrolyte imbalance are external or internal consumption of water and electrolytes. Internal losses are caused not only by the pathological distribution of fluid between the water sectors, but also by the phenomenon of sequestration into the "third" space (paretically distended stomach, small or large intestine, abdominal cavity). Since in clinical practice, disorders of water-electrolyte metabolism in the extracellular space or in the vascular bed are amenable to diagnosis, two types of dyshydria are distinguished depending on the excess or lack of water - extracellular overhydration and extracellular dehydration.

Classification, pathogenesis:

Before considering various kinds dyshydria, it is necessary to dwell on modern ideas and principles of physiological regulation, as well as on some of the most important and available for research physical and chemical parameters of internal fluids and their clinical significance.

Volemia is the volume of blood in the body. This value is not constant. It depends on:

Deposition of blood;

blood exposure;

transcapillary exchange.

The body's blood volume is divided between two sectors: functioning (heart, veins, arteries, venules, arterioles and 10% of the capillary bed) and non-functioning (90% of the capillary bed). The volume of circulating blood in the body is 7% of body weight. 20% of this volume is in the parenchymal organs, the remaining 80% of the circulating blood volume is in the cardiovascular system. In the depot of the body there is an amount of blood equal in volume to the volume of circulating blood.

Water in the body is located and distributed in three pools and makes up 60% of body weight. Of them:

15% interstitial fluid;

5% volume of circulating blood;

40% tissue fluid.

Given the fact that at the present stage, only the electrolyte composition of the vascular bed is practically amenable to study. The quantitative and qualitative composition of the interstitial and tissue fluid can only be judged indirectly, focusing on the electrolyte and protein composition of the vascular bed. Therefore, in the future we will focus on the quantitative and qualitative composition of electrolytes, proteins in the vascular bed.

Water in the body is only in a bound state. Free water for cells is a poison. It binds to colloidal structures, in particular proteins, fats and carbohydrates. These forms of existence of water in the body are in constant motion and mutual balance. Movement between pools occurs under the influence of three forces: mechanical, chemical and osmotic. The so-called mobile equilibrium is controlled by three stabilizing states: isotonic, isohydric and isoionic.

All sectors and pools containing water are closely interconnected, there are no isolated losses in the body!

An imbalance of water in the body is called dyshydria. Dyshydrias are divided into two large groups: dehydration and hyperhydration. Depending on the predominance of disorders in the extracellular or intracellular space, extracellular and intracellular forms of disorders are distinguished. According to the concentration of plasma electrolytes, hypertonic, isotonic and hypotonic dyshydria are distinguished. The so-called associated dyshydria is a combination of dehydration of one of the water spaces with hyperhydration of another.

Dehydration. Depending on the severity of dehydration, three degrees of dehydration are distinguished: mild, moderate and severe.

Degrees of dehydration:

Mild degree is characterized by a loss of up to 5-6% of the entire body fluid

The average degree corresponds to a deficit of 5-10% fluid (2-4 liters).

Severe degree of dehydration - fluid loss exceeds 10% of all body water resources (over 4-5 liters).

Acute loss of 20% fluid is fatal.

Associated disorders. These disturbances arise in connection with a change in osmolarity and the movement of fluid from one sector to another. As a result, in one sector, for example, intracellular, dehydration can be observed, while in the other - hyperhydration. An example of such a form is hyperosmolar coma.

Hyperhydration. In the practice of treating patients in intensive care units and resuscitation, hyperhydration is as common as dehydration. An example is associated forms of disorders, conditions accompanied by water retention in the body, acute heart and kidney failure, secondary aldosteronism, etc.

Clinical symptoms:

Identifying water and electrolyte imbalances is not always easy. Diagnosis is based on the following clinical symptoms and laboratory data:

Thirst (presence, degree, duration);

The condition of the skin, tongue, mucous membranes (dryness or moisture, elasticity, skin temperature);

Edema (severity, prevalence, latent edema, change in body weight);

General symptoms (lethargy, apathy, adynamia, weakness);

Neurological and mental status (inadequacy, impaired tendon reflexes, impaired consciousness, manic state, coma);

Body temperature (increase due to violations of thermoregulation);

Central (blood pressure, heart rate, central venous pressure) and peripheral (nail bed blood flow, other signs) circulation;

Respiration (respiratory rate, ventilation reserves, hypo- and hyperventilation);

Diuresis (the amount of urine, its density, signs of renal failure);

Plasma electrolytes, hematocrit, acid-base balance, residual nitrogen, osmolarity, total protein concentration, red blood cell count.

Separate forms of violations of water-salt balance:

It is advisable to distinguish six forms of dyshydria, which actually combine all forms of water balance and osmolarity disorders:

Dehydration - hypertonic, isotonic, hypotonic;

Hyperhydration - hypertonic, isotonic, hypotonic.

Hypertensive dehydration. Occurs when the loss of water exceeds the loss of electrolytes. Alimentary restriction of water intake and insufficient replenishment of its losses in coma and other conditions, when the regulation of water metabolism is disturbed, or it is impossible to take water through the mouth, leads to hypertensive dehydration. This form of dehydration occurs when there is a significant loss of fluid through the skin and Airways- with fever, profuse sweating or artificial ventilation of the lungs, which is carried out without sufficient moistening of the respiratory mixture. Water deficiency may result from the use of concentrated electrolyte solutions and parenteral nutrition.

The clinical picture is dominated by symptoms of water deficiency (thirst, reaching an extreme degree of severity), dry skin, tongue and mucous membranes, fever. As a result of an increase in plasma osmolarity, water deficiency develops in the cells, which is manifested by agitation, anxiety, delirious state and coma. The osmolarity of urine increases.

Isotonic dehydration. It is observed with fluid loss, the electrolyte composition of which is close to the composition of plasma and interstitial fluid. The most common cause of isotonic dehydration is fluid loss during vomiting, diarrhea, acute and chronic diseases of the gastrointestinal tract, from gastric and intestinal fistulas. Isotonic losses occur with multiple mechanical trauma, burns, the appointment of diuretics, isosthenuria. Severe dehydration is accompanied by loss of all major electrolytes. The osmolarity of plasma and urine does not change significantly.

General symptoms in isotonic dehydration appear faster than in hypertensive dehydration.

Hypotonic dehydration. Occurs with a true deficiency of sodium and, to a lesser extent, water with fluid losses containing a large amount of electrolytes (for example, from the gastrointestinal tract), salt losses (polyuria, osmotic diuresis, Addison's disease, severe sweating), compensation of isotonic losses with solutions that do not contain electrolytes. As a result of a decrease in the osmolarity of plasma and all extracellular fluid, it is mainly cells that suffer from water deficiency.

The most important clinical symptoms: decreased skin and tissue turgor, mild eyeballs, circulatory disorders, decreased plasma osmolarity, oliguria and azotemia. A rapid decrease in plasma osmolarity (hemodialysis, peritoneal dialysis) can lead to cerebral edema, convulsions and coma.

Hypertonic hyperhydration. It is observed with the introduction of large amounts of hypertonic and isotonic electrolyte solutions (sodium chloride, bicarbonate, etc.), especially in patients with renal insufficiency, as well as in conditions leading to an increase in the production of antidiuretic hormone and aldosterone (stress, adrenal diseases, acute glomerulonephritis, cardio - vascular insufficiency).

With this form of disturbance, general symptoms predominate: thirst, reddening of the skin, increased blood pressure and central venous pressure, fever, neurological and mental disorders, in severe cases - delirium and coma. A characteristic sign is swelling of the body. From the very beginning of the disease, renal failure may occur. The greatest danger is acute heart failure, which can develop suddenly, without prodromal symptoms.

Isotonic hyperhydration. Occurs with infusions of large amounts of isotonic solutions containing sodium and diseases accompanied by edema (cardiovascular insufficiency, toxicosis of pregnancy, Cushing's disease, secondary aldosteronism, etc.). At the same time, the total content of sodium and water in the body is increased, but the concentration of Na + in plasma and interstitial fluid remains normal.

Despite hyperhydration, the body's need for free water is not fully satisfied and thirst arises. Flooding of the body with isotonic fluid can lead to a number of complications: acute cardiovascular failure; acute renal failure, especially in patients with kidney disease; difficult to predict violations of the sectoral distribution between the vascular and interstitial sectors, which largely depends on the colloid osmotic pressure of the plasma.

Hypotonic hyperhydration. Hypotonic hyperhydration is observed with the introduction of very large amounts of demons. saline solutions, with edema associated with circulatory failure, cirrhosis of the liver, acute renal failure and overproduction of antidiuretic hormone. This form of disorders can be observed with prolonged debilitating diseases, leading to a decrease in body weight.

Clinical symptoms of water poisoning develop: vomiting, frequent watery stools, polyuria with low urine density, then anuria. As a result of cell flooding, symptoms associated with damage to the central nervous system appear early: apathy, lethargy, impaired consciousness, convulsions and coma. In the late stage, edema of the body occurs. Blood circulation is not significantly disturbed, since the volume of fluid in the vascular sector does not increase significantly. At the same time, the concentration of sodium and other electrolytes in plasma is reduced.

Violation of water and electrolyte balance - This is a condition that occurs when there is a lack or excess of water and vital electrolytes in the body: potassium, magnesium, sodium, calcium. The main types of pathology: dehydration (dehydration) and hyperhydration (water intoxication).

Causes

A pathological condition develops when the intake of fluid and electrolytes does not meet the needs of the body or the mechanisms of excretion and regulation are violated.

Symptoms

Clinical manifestations and their severity depend on the type of pathology, the rate of development of changes, the depth of disorders.

Dehydration

Dehydration occurs when water loss exceeds water intake. Symptoms of dehydration appear when fluid deficiency reaches 5% of body weight. The condition is almost always accompanied by an imbalance of sodium, and in severe cases, other ions.

With dehydration, blood viscosity increases, and the risk of thrombosis increases.

Hyperhydration

Pathology develops when the intake of water is greater than its output. The fluid does not linger in the blood, but passes into the intercellular space.

Main manifestations:

Dehydration and overhydration are accompanied by various electrolyte disturbances, each of which has its own symptoms.

Potassium and sodium imbalance

Potassium is the main intracellular ion. It is involved in protein synthesis, cell electrical activity, glucose utilization. Sodium is contained in the intercellular space, participates in the work of the nervous, cardiovascular systems s, carbon dioxide exchange.

Hypokalemia and hyponatremia

Symptoms of potassium and sodium deficiency are similar:

Hyperkalemia

• rare pulse, in severe cases, cardiac arrest is possible;
• chest discomfort;
• dizziness;
• weakness.

Hypernatremia

• edema;
• increase in blood pressure.

Calcium imbalance

Ionized calcium is involved in the work of the heart, skeletal muscles, blood coagulation.

hypocalcemia

• convulsions;
• paresthesia - a burning sensation, crawling, tingling of the hands, feet;
• palpitations (paroxysmal tachycardia).

Hypercalcemia

• increased fatigue;
• muscle weakness;
• rare pulse;
• disruption of the digestive system: nausea, constipation, bloating.

Magnesium imbalance

Magnesium has an inhibitory effect on the nervous system, helps cells absorb oxygen.

Hypomagnesemia

hypermagnesemia

• weakness;
• drowsiness;
• rare pulse;
• rare breathing (with a pronounced deviation from the norm).

Methods for restoring water and electrolyte homeostasis

The main condition for restoring the balance of water and electrolytes in the body is to eliminate the cause that provoked the violation: treatment of the underlying disease, correction of the dose of diuretics, adequate infusion therapy after surgical interventions.

Depending on the severity of the symptoms and the severity of the patient's condition, treatment is carried out on an outpatient basis or in a hospital.

Treatment at home

At the initial signs of electrolyte imbalance, tablet preparations containing trace elements are prescribed. A prerequisite is the absence of vomiting and diarrhea.

With vomiting and diarrhea, the fight against dehydration begins with oral rehydration. Its purpose is to restore the lost volume of fluid, providing the body with water and electrolytes.

What drink:

The ratio of electrolyte and salt-free solutions depends on the path of fluid loss:

• vomiting prevails - take salt and salt-free products in a ratio of 1: 2;
• vomiting and diarrhea are expressed equally - 1:1;
• diarrhea prevails - 2:1.

With a timely start and proper implementation, the effectiveness of treatment reaches 85%. Until nausea stops, drink 1-2 sips every 10 minutes. Increase the dose as you feel better.

Treatment in a hospital

If the condition worsens, hospitalization is indicated. In a hospital, a liquid with electrolytes is administered by drip intravenously. To select a solution, volume, rate of its introduction, the amount of sodium, potassium, magnesium, calcium in the blood is determined. Assess the daily amount of urine, pulse, blood pressure, ECG.

• solutions of sodium chloride and glucose of various concentrations;
• Acesol, Disol - contain acetate and sodium chloride;
• Ringer's solution - contains sodium, potassium, chlorine, sodium, calcium ions;
• Laktosol - the composition includes sodium lactate, chlorides of potassium, calcium, magnesium.

With hyperhydration, intravenous diuretics are prescribed: Mannitol and Furosemide.

Prevention

If you suffer from one disease that is accompanied by water and electrolyte imbalances, take preventive measures. Take potassium and magnesium supplements at the same time as diuretics. For intestinal infections, start oral rehydration in a timely manner. Follow the diet and drinking regime for diseases of the kidneys, heart.

prokishechnik.info

What is the water-salt balance?

The water-salt balance is the interaction between the processes of intake and excretion of salts, water into the human body, as well as their distribution in tissues and internal organs.

The basis of the human body is water, the amount of which can be different. Age, number of fat cells and other factors determine this indicator. IN comparative table it can be seen that the body of a newborn child contains the most water. Less water is found in female body This is due to the replacement of fluid by fat cells.

Normally, a balance or balance should be observed in the volumes of fluid received and excreted from the body during the day. The intake of salts and water is associated with food intake, and the excretion is associated with urine, feces, sweat and exhaled air. Numerically, the process looks like this:

• fluid intake - the norm per day is 2.5 liters (of which 2 liters are water and food, the rest is due to metabolic processes in the body);
• excretion - 2.5 liters (1.5 liters excreted by the kidneys, 100 ml - intestines, 900 ml - lungs).

Violation of the water-salt balance

The water-salt balance may be disturbed due to:

1. With the accumulation of a large amount of fluid in the body and its slow excretion.
2. With water deficiency and its excessive allocation.

Both extreme situations are extremely dangerous. In the first case, fluid accumulates in the intercellular space, as a result of which the cells swell. And, if nerve cells are included in the process, then the nerve centers are excited and convulsions occur. The reverse situation provokes blood clotting, increasing the risk of blood clots and disrupting blood flow in tissues and organs. Water deficiency of more than 20% leads to death.

Changes in some indicators may occur for a number of reasons. And if short-term violation balance due to changes in ambient temperature, changes in the level of physical activity or diet can only slightly worsen well-being, then a constant water-salt imbalance is fraught with dangerous consequences.

Why can there be an excess and lack of water in the body?

An excess of water in the body or hydration can be associated with:

• with a malfunction in the hormonal system;
• with a sedentary lifestyle;
• with excess salt in the body.

In addition, insufficient fluid intake can also lead to excess fluid in the body. The lack of fluid intake from the outside provokes an excess of water in the tissues, which leads to edema.

The lack of water in the body is associated with insufficient fluid intake, or with its abundant excretion. The main causes of dehydration are:

• intensive training;
• taking diuretics;
• lack of fluid intake with food;
• varied diets.

Excess and lack of fluid in the body are also directly related to the deficiency or excess of individual ions in the blood plasma.

Sodium

Deficiency or excess of sodium in the body can be true and relative. True deficiency is associated with insufficient intake of salt, increased sweating, intestinal obstruction, extensive burns and other processes. Relative develops as a result of excessive introduction of aqueous solutions into the body at a rate exceeding the excretion of water by the kidneys. True excess is manifested as a result of the introduction of saline solutions or increased consumption of table salt. The cause of the problem can also be a delay in the excretion of sodium by the kidneys. A relative excess occurs when the body is dehydrated.

Potassium

Potassium deficiency is associated with insufficient intake of potassium, liver pathology, corticosteroid therapy, insulin injections, operations on small intestine or hypothyroidism. A decrease in potassium can also result from vomiting and liquid stool, since the component is excreted with the secrets of the gastrointestinal tract. Excess potassium can be the result of starvation, a decrease in circulating blood volume, injuries, excessive administration of potassium solutions.

Magnesium

The lack of an element develops during starvation and a decrease in its absorption. Fistulas, diarrhea, resection of the gastrointestinal tract are also the reasons for the decrease in the concentration of magnesium in the body.

An excess of magnesium is associated with a violation of its secretion by the kidneys, increased cell breakdown in renal failure, hypothyroidism, and diabetes.

Calcium

In addition to excess or lack of water in the body, water-salt imbalance can occur as a result of equal loss of salts and water. The reason for this state of affairs can be acute poisoning, in which electrolytes and fluid are lost with diarrhea and vomiting.

Symptoms of violations

If the water-salt balance is disturbed in a person, the following symptoms appear:

• weight loss;
• dry skin, hair and cornea;
• sunken eyes;
• sharp facial features.

In addition, a person is concerned about low blood pressure, hypofunction of the kidneys, increased and weakened pulse, chills of the extremities, vomiting, diarrhea, and intense thirst. All this leads to a deterioration in overall well-being and a decrease in performance. Progressive pathology can lead to death, so the symptoms should not be left unattended.

As for the imbalance of ions in the blood, here the symptoms may be as follows:

1. Potassium. Deficiency of the element is manifested by intestinal obstruction and renal failure, and excess - by nausea and vomiting.
2. Magnesium. With an excess of magnesium, nausea occurs, reaching vomiting, fever body, slow heart rate. The lack of an element is manifested by apathy and weakness.
3. Calcium. Deficiency is dangerous manifestation of spasms of smooth muscles. For excess, the characters are thirst, vomiting, stomach pain, frequent urination.

How to restore the water-salt balance in the body?

Restoration of water-salt balance can occur in the following areas:

• with the help of medications;
• chemical therapy;
• ambulatory treatment;
• diet compliance.

At the same time, it is rather problematic to independently determine the pathology. Therefore, for any suspicious symptoms, it is better to contact a specialist who will decide for himself how to normalize the water-salt balance.

Taking medications

The therapy consists in taking mineral and vitamin-mineral complexes containing all the elements responsible for the water-salt balance. The treatment lasts a month, then a break is made for several weeks and the restored imbalance is maintained due to another course of taking the drugs. Apart from vitamin complexes the patient is prescribed saline solutions that retain water in the body.

Chemical method of treatment

In this case, the treatment consists in the weekly use of a special saline solution. You can buy packages containing salts at any pharmacy. You need to take them one hour after eating. Moreover, the period between doses should not be less than one and a half hours. During therapy, you need to give up salt.

Saline solutions are very effective in fluid loss in the body. They are used for poisoning and dysentery. Before using the product in order to restore the water-salt balance, you should consult with a specialist. The drug is contraindicated in:

• diabetes mellitus;
• renal failure;
• liver diseases;
• infections of the genitourinary system.

Outpatient method

Another method of treatment is associated with hospitalization of the patient. It is applicable in the case when continuous monitoring of the patient's condition and the introduction of water-salt solutions through droppers is necessary. The patient is also shown a strict drinking regimen and a special diet.

Diet

Not only reception medicines restore the water-salt balance. Nutritional adjustments can help, which involves the consumption of food, taking into account the salt content in it. You need to consume up to 7 grams of salt per day. In addition, the consumption of ordinary clean water at the rate of 2-3 liters per day is shown. In this case, only water is included in the indicated volume. No juices, no tea, no soups are included. You can dilute the water only with salt, ordinary, sea or iodized. But there are restrictions: there should be no more than 1.5 grams of salt per liter of water.

When restoring the water-salt balance, the daily diet should include foods containing the necessary trace elements: potassium, magnesium, calcium, selenium, cycle. They are found in large quantities in dried fruits and apricots.

Some restrictions on water intake are available for patients whose water-salt imbalance has occurred as a result of heart failure. In this case, you can drink no more than one hundred milliliters of water at a time, and you do not need to add salt to it. In addition, it is necessary to take diuretics.

Restoring the water-salt balance with folk remedies

Any pathology can be alleviated or cured with the help of a home first aid kit. Violation of the water-salt balance is no exception. Recovery at home is as follows:

1. Preparation of special cocktails. The following cocktail will help replenish lost electrolytes: mix two bananas, two glasses of strawberries or watermelon pulp, juice of half a lemon and a teaspoon of salt in a blender. We scroll the resulting mass in a blender with a glass of ice.
2. Salt solution at home. For its preparation you will need: a liter of water, a tablespoon of sugar, a teaspoon of salt. For every 15-20 minutes, you need to drink up to two tablespoons of the solution. 200 ml should “run in” per day.
3. Juices, compotes. If there is no time for cooking, grapefruit and orange juices, as well as dried fruit compote, will help.

Summing up

Violation of the water-salt balance should not be ignored. But self-medication is also not worth it. A consultation with a specialist and passing the necessary tests will help you choose the right method of treatment and bring your body into shape without any problems.

sportfito.ru

The role of potassium in the body is multifaceted. It is part of proteins, which leads to an increased need for it during the activation of anabolic processes. Potassium is involved in carbohydrate metabolism - in the synthesis of glycogen; in particular, glucose enters the cells only together with potassium. It is also involved in the synthesis of acetylcholine, as well as in the process of depolarization and repolarization of muscle cells.

Potassium metabolism disorders in the form of hypokalemia or hyperkalemia often accompany diseases of the gastrointestinal tract.

Hypokalemia can be the result of diseases accompanied by vomiting or diarrhea, as well as violations of absorption processes in the intestine. It can occur under the influence of long-term use of glucose, diuretics, cardiac glycosides, adrenolytic drugs and insulin treatment. Insufficient or incorrect preoperative preparation or postoperative management of the patient - poor potassium diet, infusion of solutions that do not contain potassium - can also lead to a decrease in the content of potassium in the body.

Potassium deficiency can be manifested by a feeling of tingling and heaviness in the limbs; patients feel heaviness in the eyelids, muscle weakness and fatigue. They are lethargic, they have a passive position in bed, slow intermittent speech; swallowing disorders, transient paralysis and even disorders of consciousness may appear - from drowsiness and stupor to the development of coma. Changes in the cardiovascular system are characterized by tachycardia, arterial hypotension, an increase in the size of the heart, the appearance of systolic murmur and signs of heart failure, as well as a typical pattern of ECG changes.

Hypokalemia is accompanied by an increase in sensitivity to the action of muscle relaxants and a prolongation of their action time, slower awakening of the patient after surgery, and atony of the gastrointestinal tract. Under these conditions, hypokalemic (extracellular) metabolic alkalosis can also be observed.

Correction of potassium deficiency should be based on an accurate calculation of its deficiency and carried out under the control of potassium content and the dynamics of clinical manifestations.

When carrying out the correction of hypokalemia, it is necessary to take into account the daily need for it, equal to 50-75 mmol (2-3 g). It should be remembered that different potassium salts contain different amounts of it. So, 1 g of potassium is contained in 2 g of potassium chloride, 3.3 g of potassium citrate and 6 g of potassium gluconate.

Potassium preparations are recommended to be administered in the form of a 0.5% solution necessarily with glucose and insulin at a rate not exceeding 25 mmol per hour (1 g of potassium or 2 g of potassium chloride). This requires careful monitoring of the patient's condition, the dynamics of laboratory parameters, as well as the ECG in order to avoid overdose.

At the same time, there are studies clinical observations, showing that in case of severe hypokalemia, parenteral therapy, correctly selected in terms of volume and set of drugs, can and should include a significantly larger amount of potassium preparations. In some cases, the amount of potassium administered was 10 times higher than the doses recommended above; there was no hyperkalemia. However, we believe that potassium overdose and the danger of adverse effects are real. Caution with the introduction of large amounts of potassium is necessary, especially if it is not possible to provide constant laboratory and electrocardiographic monitoring.

Hyperkalemia can be a consequence of renal failure (impaired excretion of potassium ions from the body), massive transfusion of canned donor blood, especially long periods of storage, adrenal insufficiency, increased tissue breakdown during trauma; it may take place in postoperative period, with excessively rapid administration of potassium preparations, as well as with acidosis and intravascular hemolysis.

Clinically, hyperkalemia is manifested by a feeling of "crawling", especially in the extremities. In this case, there are violations of the muscles, a decrease or disappearance of tendon reflexes, disorders of the heart in the form of bradycardia. Typical ECG changes consist in raising and sharpening the T wave, lengthening P-Q interval, the appearance of ventricular arrhythmias, up to cardiac fibrillation.

Therapy for hyperkalemia depends on its severity and cause. With severe hyperkalemia, accompanied by severe cardiac disorders, repeated intravenous administration of calcium chloride is indicated - 10-40 ml of a 10% solution. With moderate hyperkalemia, intravenous glucose with insulin can be used (10-12 units of insulin per 1 liter of a 5% solution or 500 ml of a 10% glucose solution). Glucose promotes the movement of potassium from the extracellular space to the intracellular space. With concomitant renal failure, peritoneal dialysis and hemodialysis are indicated.

Finally, it must be borne in mind that the correction of the concomitant disturbance of the acid-base state - alkalosis in hypokalemia and acidosis in hyperkalemia - also contributes to the elimination of potassium imbalance.

The normal concentration of sodium in the blood plasma is 125-145 mmol / l, and in erythrocytes - 17-20 mmol / l.

The physiological role of sodium lies in its responsibility for maintaining the osmotic pressure of the extracellular fluid and the redistribution of water between the extracellular and intracellular environment.

Sodium deficiency can develop as a result of its loss through gastrointestinal tract- with vomiting, diarrhea, intestinal fistulas, with losses through the kidneys with spontaneous polyuria or forced diuresis, as well as with profuse sweating through the skin. More rarely, this phenomenon may be due to glucocorticoid deficiency or excessive production of antidiuretic hormone.

Hyponatremia can also occur in the absence of external losses - with the development of hypoxia, acidosis and other causes that cause an increase in the permeability of cell membranes. In this case, extracellular sodium moves into the cells, which is accompanied by hyponatremia.

Sodium deficiency causes a redistribution of fluid in the body: the osmotic pressure of blood plasma decreases and intracellular overhydration occurs.

Clinically, hyponatremia manifests itself fatigue, dizziness, nausea, vomiting, lowering blood pressure, convulsions, impaired consciousness. As can be seen, these manifestations are non-specific, and to clarify the nature of electrolyte imbalance and the degree of their severity, it is necessary to determine the sodium content in blood plasma and erythrocytes. This is also necessary for directed quantitative correction.

With a true sodium deficiency, sodium chloride solutions should be used, taking into account the magnitude of the deficiency. In the absence of sodium losses, measures are necessary to eliminate the causes that caused the increase in membrane permeability, correction of acidosis, the use of glucocorticoid hormones, inhibitors of proteolytic enzymes, a mixture of glucose, potassium and novocaine. This mixture improves microcirculation, contributes to the normalization of the permeability of cell membranes, prevents the enhanced transition of sodium ions into the cells and thereby normalizes the sodium balance.

Hypernatremia occurs against the background of oliguria, restriction of fluids administered, with excessive administration of sodium, in the treatment of glucocorticoid hormones and ACTH, as well as in primary hyperaldosteronism and Cushing's syndrome. It is accompanied by a violation of the water balance - extracellular hyperhydration, manifested by thirst, hyperthermia, arterial hypertension, tachycardia. Edema, increased intracranial pressure, and heart failure may develop.

Hypernatremia is eliminated by the appointment of aldosterone inhibitors (veroshpiron), restriction of sodium administration and normalization of water metabolism.

Calcium plays an important role in the normal functioning of the body. It increases the tone of the sympathetic nervous system, thickens tissue membranes, reduces their permeability, and increases blood clotting. Calcium has a desensitizing and anti-inflammatory effect, activates the macrophage system and the phagocytic activity of leukocytes. The normal content of calcium in the blood plasma is 2.25-2.75 mmol / l.

In many diseases of the gastrointestinal tract, disorders of calcium metabolism develop, resulting in either an excess or deficiency of calcium in the blood plasma. So, in acute cholecystitis, acute pancreatitis, pyloroduodenal stenosis, hypocalcemia occurs due to vomiting, calcium fixation in the foci of steatonecrosis, and an increase in glucagon content. Hypocalcemia may occur after massive blood transfusion therapy due to the binding of calcium to citrate; in this case, it can also be of a relative nature due to the intake of significant amounts of potassium contained in canned blood into the body. A decrease in the calcium content can be observed in the postoperative period due to the development of functional hypocorticism, which causes calcium to leave the blood plasma to the bone depots.

Therapy of hypocalcemic conditions and their prevention consist in intravenous administration calcium preparations - chloride or gluconate. The prophylactic dose of calcium chloride is 5-10 ml of a 10% solution, the therapeutic dose can be increased to 40 ml. It is preferable to carry out therapy with weak solutions - not higher than 1% concentration. Otherwise, a sharp increase in the content of calcium in the blood plasma causes the release of calcitonin. thyroid gland, which stimulates its transition to bone depots; while the concentration of calcium in the blood plasma may fall below the original.

Hypercalcemia in diseases of the gastrointestinal tract is much less common, but it can occur with peptic ulcer, stomach cancer and other diseases accompanied by depletion of the function of the adrenal cortex. Hypercalcemia is manifested by muscle weakness, general lethargy of the patient; possible nausea, vomiting. With the penetration of significant amounts of calcium into the cells, damage to the brain, heart, kidneys, and pancreas can develop.

The physiological role of magnesium is to activate the functions of a number of enzyme systems - ATPase, alkaline phosphatase, cholinesterase, etc. It is involved in the implementation of the transmission of nerve impulses, the synthesis of ATP, amino acids. The concentration of magnesium in blood plasma is 0.75-1 mmol / l, and in erythrocytes - 24-28 mmol / l. Magnesium is quite stable in the body, and its losses develop infrequently.

However, hypomagnesemia occurs with prolonged parenteral nutrition and pathological losses through the intestines, since magnesium is absorbed in the small intestine. Therefore, magnesium deficiency can develop after extensive resection of the small intestine, with diarrhea, small intestinal fistulas, and intestinal paresis. The same disorder can occur against the background of hypercalcemia and hypernatremia, in the treatment of cardiac glycosides, in diabetic ketoacidosis. Magnesium deficiency is manifested by an increase in reflex activity, convulsions or muscle weakness, arterial hypotension, tachycardia. Correction is carried out with solutions containing magnesium sulfate (up to 30 mmol / day).

Hypermagnesemia is less common than hypomagnesemia. Its main causes are renal failure and massive tissue destruction leading to the release of intracellular magnesium. Hypermagnesemia can develop against the background of adrenal insufficiency. It is manifested by a decrease in reflexes, hypotension, muscle weakness, impaired consciousness, up to the development of a deep coma. Hypermagnesemia is corrected by elimination of its causes, as well as by peritoneal dialysis or hemodialysis.

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Water-electrolyte balance. Acid-alkaline state.

Claude Bernard in the second half of the 19th century. substantiated the concept of the internal environment of the body. Man and highly organized animals are in the external environment, but they also have their own internal environment, which washes all the cells of the body. Special physiological systems monitor to ensure the constancy of the volume and composition of the fluids of the internal environment. K. Bernard also owns the statement, which has become one of the postulates of modern physiology - "The constancy of the internal environment is the basis of a free life." The constancy of the physicochemical conditions of the liquids of the internal environment of the body is, of course, the determining factor in the effective activity of all organs and systems of the human body. In those clinical situations that are so often encountered by resuscitators, there is a constant need to take into account and use the possibilities of modern physiology and medicine to restore and maintain the basic physicochemical parameters of blood plasma at a constant, standard level, i.e. indicators of the composition and volume of blood, and thus other fluids of the internal environment.

The amount of water in the body and its distribution. The human body is mainly made up of water. Its relative content is highest in newborns - 75% of the total body weight. With age, it gradually decreases and amounts to 65% during the completion of growth, and only 55% in the elderly.

The water contained in the body is distributed among several fluid sectors. In the cells (intracellular space) is 60% of its total; the rest is extracellular water in the intercellular space and blood plasma, as well as in the composition of the so-called transcellular fluid (in the spinal canal, eye chambers, gastrointestinal tract, exocrine glands, renal tubules and urinary tract).

Water balance. The internal exchange of fluid depends on the balance of its intake and excretion from the body at the same time. Typically, a person's daily fluid requirement does not exceed 2.5 liters. This volume is made up of water that is part of food (about 1 l), drink (about 1.5 l) and oxidation water, which is formed during the oxidation of mainly fats (0.3-0.4 l.). "Waste fluid" is excreted through the kidneys (1.5 l), by evaporation with sweat (0.6 l) and exhaled air (0.4 l), with feces (0, 1). The regulation of water and ion exchange is carried out by a complex of neuroendocrine reactions aimed at maintaining the constancy of the volume and osmotic pressure of the extracellular sector and, above all, blood plasma. Both of these parameters are closely interrelated, but the mechanisms for their correction are relatively autonomous.

Water metabolism disorders. All disorders of water metabolism (dyshydria) can be combined into two forms: hyperhydration, characterized by excess fluid in the body, and hypohydration (or dehydration), which consists in a decrease in the total volume of fluid.

Hypohydration. This form of violation occurs due to either a significant decrease in the flow of water into the body, or its excessive loss. The extreme degree of dehydration is called exsicosis.

Isoosmolar hypohydration- a relatively rare variant of the disorder, which is based on a proportional decrease in the volume of fluid and electrolytes, as a rule, in the extracellular sector. Usually this condition occurs immediately after acute blood loss, but it does not last long and is eliminated due to the inclusion of compensatory mechanisms.

Hypoosmolar hypohydration- develops due to loss of fluid enriched with electrolytes. Some conditions that occur with a certain pathology of the kidneys (increased filtration and decreased fluid reabsorption), intestines (diarrhea), pituitary gland (ADH deficiency), adrenal glands (decreased production of aldesterone) are accompanied by polyuria and hypoosmolar hypohydration.

Hyperosmolar hypohydration- develops due to the loss of body fluid, depleted in electrolytes. It can occur due to diarrhea, vomiting, polyuria, profuse sweating. Prolonged hypersalivation or polypnea can lead to hyperosmolar dehydration, as fluid with a low salt content is lost. Particularly noteworthy among the reasons diabetes. Under conditions of hypoinsulinism, osmotic polyuria develops. However, blood glucose levels remain high. It is important that in this case, the state of hypohydration can occur immediately in both the cellular and non-cellular sectors.

Hyperhydration. This form of violation occurs due to either excessive intake of water in the body, or insufficient excretion. In some cases, these two factors act simultaneously.

Isoosmolar hypohydration- can be reproduced by introducing into the body an excess volume of saline, such as sodium chloride. The hyperhydria that develops in this case is temporary and is usually quickly eliminated (provided that the system of regulation of water metabolism is working normally).

Hypoosmolar overhydration is formed simultaneously in the extracellular and cellular sectors, i.e. refers to other forms of dyshydria. Intracellular hypoosmolar hyperhydration is accompanied by gross violations of the ionic and acid-base balance, membrane potentials of cells. With water poisoning, nausea, repeated vomiting, convulsions, coma may develop.

Hyperosmolar overhydration- may occur in the case of forced use of sea water as drinking water. A rapid increase in the level of electrolytes in the extracellular space leads to acute hyperosmia, since the plasmalemma does not let excess ions into the cell. However, it cannot retain water, and some of the cellular water moves into the interstitial space. As a result, extracellular hyperhydration increases, although the degree of hyperosmia decreases. At the same time, tissue dehydration is observed. This type of disorder is accompanied by the development of the same symptoms as in hyperosmolar dehydration.

Edema. Typical pathological process, which is characterized by an increase in the water content in the extravascular space. Its development is based on a violation of the exchange of water between blood plasma and perivascular fluid. Edema is a widespread form of water metabolism disorders in the body.

There are several main pathogenetic factors in the development of edema:

1. Hemodynamic. Edema occurs due to an increase in blood pressure in the venous section of the capillaries. This reduces the amount of fluid reabsorption while continuing to filter it.

2. Oncotic. Edema develops as a result of either a decrease in oncotic pressure of the blood, or its increase in the interstitial fluid. Hypoonkia of the blood is most often due to a decrease in the level of protein and mainly albumin.

Hypoproteinemia can result from:

a) insufficient intake of protein in the body;

b) violations of albumin synthesis;

c) excessive loss of blood plasma proteins in the urine in certain kidney diseases;

3. Osmotic. Edema can also occur due to a decrease in the osmotic pressure of the blood or its increase in the interstitial fluid. Fundamentally, hypoosmia of the blood can occur, but severe homeostasis disorders that quickly form in this case “leave no time” for the development of its pronounced form. Hyperosmia of tissues, as well as their hyperonkia, is often limited.

It may occur due to:

a) impaired leaching of electrolytes and metabolites from tissues in violation of microcirculation;

b) reducing the active transport of ions through cell membranes during tissue hypoxia;

c) massive "leakage" of ions from cells during their alteration;

d) increase in the degree of dissociation of salts in acidosis.

4. Membrane. Edema is formed due to a significant increase in the permeability of the vascular wall.

In a few words, it is necessary to discuss modern ideas about the principles of physiological regulation, in an extremely concise form, to consider the issue of the clinical significance of some physico-chemical indicators of fluids in the internal environment. These include the osmolality of blood plasma, the concentration in it of such ions as sodium, potassium, calcium, magnesium, a complex of indicators of the acid-base state (pH), and finally the volume of blood and extracellular fluid. Studies of the blood serum of healthy individuals, subjects under extreme conditions and patients with various forms of pathology have shown that of all the studied physicochemical parameters, the most strictly maintained, have the lowest coefficient of variation, three - osmolality, concentration of free calcium ions and pH. For osmolality, this value is 1.67%, for free Ca2+ ions it is 1.97%, while for K+ ions it is 6.67%. What has been said can find a simple and clear explanation. The volume of each cell, and therefore the functional state of the cells of all organs and systems, depends on the osmolality of blood plasma. The cell membrane is poorly permeable to most substances, so the volume of the cell will be determined by the osmolality of the extracellular fluid, the concentration inside the cell of substances in its cytoplasm, and the permeability of the membrane to water. Ceteris paribus, an increase in blood osmolality will lead to dehydration, cell shrinkage, and hypoosmia will cause cell swelling. It is hardly necessary to explain to what adverse consequences for the patient both conditions can lead.

The kidneys play the leading role in the regulation of blood plasma osmolality, the intestines and kidneys participate in maintaining the balance of calcium ions, and the bone also takes part in the homeostasis of calcium ions. In other words, the balance of Ca 2+ is determined by the ratio of intake and excretion, and the momentary maintenance of the required level of calcium concentration also depends on the internal depot of Ca 2+ in the body, which is a huge bone surface. The system of regulation of osmolality, the concentration of various ions includes several elements - a sensor, a sensitive element, a receptor, an integrating apparatus (a center in nervous system) and an effector is an organ that implements the response and ensures the restoration of the normal values ​​of this parameter.

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What it is?

Not all people understand what it is. Human electrolytes are salts that are capable of conducting electrical impulses. These substances perform several important functions, among which is the transmission of nerve impulses. In addition, they perform the following functions:

• maintain water-salt balance
• regulate important body systems

Each electrolyte performs its function. There are the following types:

• potassium
• magnesium
• sodium
• calcium

There are norms for the content of electrolytes in the blood. If there is a lack or excess of substances, problems arise with the body. The salts influence each other, thereby creating a balance.

Why are they so important?

In addition to the fact that they affect the transmission of nerve impulses, each electrolyte has an individual function. For example, magnesium helps in the work of the heart muscle and brain. Sodium helps the body's muscles respond to nerve impulses and do your job. The normal amount of chlorine in the body helps digestive system function correctly. Calcium affects the strength of bones and teeth.

Based on this, it becomes clear that electrolytes perform many functions, so it is important to maintain their optimal content in the body. Lack or excess of one of the substances leads to serious pathologies that lead to health problems in the future.

Electrolytes are strongly lost along with the liquid. If a person goes in for sports, he should keep in mind that it will be necessary to replenish not only water, but also salt. There are special drinks that restore the water and electrolyte balance in the human body. They are used to avoid dangerous pathologies due to the loss of a large amount of salts and fluids.

Symptoms of pathology

If there is a deficiency or excess of electrolytes, then this will necessarily affect human health. will arise various symptoms which must be paid attention to. Deficiency occurs due to a large loss of fluids, disease and malnutrition. An excess of substances occurs due to the use of foods that contain salts in large quantities, as well as when certain organs are affected by diseases.

If an electrolyte deficiency occurs, the following symptoms occur:

• weakness
• dizziness
• arrhythmia
• tremor
• drowsiness
• kidney damage

If these symptoms occur, you should consult a doctor. A blood test for electrolytes will help determine the exact cause of their appearance. With its help, the amount of salts that affect the water and electrolyte balance in the body at the time of blood donation is determined.

A high rate of various salts occurs with serious pathologies. An increased amount of one or another element is a sign of a dangerous disease. For example, with kidney damage, the level of potassium increases significantly. It is worth undergoing regular examinations, including donating blood for electrolytes, in order to respond to pathology in time.

Deficiency or excess of electrolytes requires specialized therapy. With small deviations, you will need to adjust your lifestyle. Only a doctor can prescribe proper treatment, therefore, if you feel worse, you need to undergo a diagnosis. Only in the course of a detailed examination will it be possible to accurately say about the current state of the body.

natural loss

A person daily loses a percentage of electrolytes along with sweat. The loss process is the norm. If a person goes in for sports, he loses much more essential substances. It is desirable to provide the body with sufficient amounts of magnesium and potassium salts to prevent dehydration.

It is the loss of electrolytes that is a dangerous pathological condition and main reason symptoms of dehydration. During heavy physical exertion, special water is used, enriched with the main electrolytes: potassium, magnesium and chlorine.

It is also desirable to increase the intake of food that is rich in one or another element. It should be understood that you need to act this way only when playing sports or similar activities. Just because you do not need to increase the intake of food containing magnesium, chlorine or potassium.

What happens when you lose?

With the loss of electrolytes in a natural way, general weakness and a decrease in efficiency occur. It is very difficult to bring the body to complete exhaustion, so there are no dangerous pathologies. To fully recover, it is enough to consume a special drink or food containing nutrients and electrolytes.

Do not constantly disturb the water-electrolyte balance. During the lack of electrolytes, many organs suffer. There is a possibility of wear due to a lack of necessary substances. Only a professional athlete, under the supervision of a sports doctor, performs large volumes of exhausting workouts without consequences. If, when playing sports, the main goal of a person is to maintain health, he must follow the principle - do not train in failure.

An ordinary person should also strive to maintain an ideal water and electrolyte balance. In this state, each organ works efficiently and without wear and tear. When each element is within the normal range, it is considered that the person is in good health. Not all people have the correct ratio of salts in the body. To achieve the norm, you will need to adjust your diet and add more active activities to your life.

Getting rid of the deficit

There are two options for obtaining salts: naturally and with the help of medicines. To do this naturally, you will need to significantly increase the consumption of foods that contain the right salts. Products that contain:

• magnesium
• potassium

Sometimes a person suffers only from a deficiency of one electrolyte, so before a diet it is necessary to take an analysis of electrolytes in the blood. Thus, it becomes clear how to proceed further.

If there is a serious shortage of one or another element, special medicines are prescribed. Pharmacies have drugs with all the necessary elements in a convenient form. They are used when there is a severe deficiency or when you do not want to keep a specialized diet. Eliminating the deficiency naturally is preferable as it helps the person to be disciplined and maintain proper diet on an ongoing basis.

Grocery list

One way or another, electrolytes are present in all food, but there is a list of foods in which their amount rolls over. They will need to be used to eliminate the deficiency of potassium, magnesium, sodium, calcium or chlorine. It is important to cook them properly or consume them raw (if possible) to get the most nutrients:

1. Bean plants. The necessary substances are found in many legumes. People highlight white beans as the richest in electrolytes among legumes. They contain large amounts of potassium.
2. Simple candle. Beets have sodium, which contributes to the functioning of human organs.
3. Nutritious nuts. Sunflower and sesame seeds have magnesium, which promotes heart function. Its deficiency causes serious problems with the cardiovascular system.

It is advisable to choose an individual diet. For some people, it will be better to opt for other products. To understand what exactly to pay attention to, you need to visit a doctor and undergo an examination. The doctor will make a diet taking into account the individual characteristics of the body. If necessary, he will prescribe special drugs that will get rid of a severe deficiency.

Medicines

Severe deficiency requires specialized therapy. The lack of electrolytes manifests itself most different symptoms. It is extremely rare that a cut of all elements is not enough, therefore, after passing the diagnosis, a specific medicine is prescribed to a person.

Pharmacies have a sufficient number of different supplements, so there will be no problems with the choice. It is not necessary to independently assign the reception of one or another element. In addition to the salts themselves, drugs can be prescribed that contribute to better accumulation and use. Such drugs normalize the electrolyte balance. The most common supplement is considered simple magnesium. Asparkam is also often prescribed, which contains magnesium and potassium.

Drugs for treatment are available without a prescription, but it is not recommended to prescribe them yourself. Often they are used by people who do not have any problems with their water and electrolyte balance. Reception in excess of the norm leads to the occurrence side effects, and also becomes the cause of the development of various complications due to an excess of salts in the human body.

Hidden current

Not always a person feels that there is a lack or excess of one or another useful salt in the body. It is advisable to undergo examinations in order to understand the state of the water-electrolyte balance. Monitoring this indicator is as important as a blood test or ultrasound of any organ.

Deficiency or surplus occurs due to improper lifestyle or the development of a disease. All body systems are closely related to each other. If one part fails, it affects the work of another. This means that the lack or excess of one or another element is sometimes a symptom of a dangerous disease. The therapist prescribes a detailed examination if a serious non-compliance with the norms is found.

For ailments, chronic fatigue and apathy, it is advisable to start looking for the cause of these symptoms as early as possible. If this is a violation of the water-electrolyte balance without concomitant diseases, then the person will return to normal quickly. Sometimes they do without taking pharmaceuticals.

Prevention

There are preventive actions that help maintain the water and electrolyte balance within the normal range. Prevention is divided into:

• lungs physical exercise
• proper nutrition
• examinations in medical centers

It is important to find out the current state of the water balance in order to understand how to proceed. The degree of prevention varies greatly. During preventive actions, a person either simply maintains a diet and a proper lifestyle, or passes light treatment with the help of medicines.

The effectiveness of all procedures depends on how seriously a person takes them. For maximum results, you need to support healthy lifestyle life on a permanent basis, this is especially important for people who regularly suffer from electrolyte imbalances. Heart problems in some cases are closely related to the lack of magnesium and other salts. If a person constantly maintains their number in the norm, then even chronic illness retreat.

Prevention includes examinations. Without them, it will not be possible to understand how effective all actions are. With the help of analyzes, a person receives accurate numbers. With the deterioration of the analyzes, it is possible to start acting at a very early stage. It is important to give the body light physical activity. Thus, it improves general state human, as well as the work of all body systems.

Electrolyte balance is an important part of the whole organism. It must be kept up to date. Deviations from the norm mean that a person leads a wrong lifestyle, or there are diseases that require immediate treatment.

It is very simple to find out the indicators of salts in the body, you just need to pass special analysis blood. The indicator can tell a lot about human health. Examinations are carried out as part of a medical examination or when contacting private clinic. Electrolyte testing is very simple and low cost, so anyone can take it.

When doing heavy sports, attention should be paid to electrolytes. You should not use exhausting physical activity if there is no goal to become a professional athlete. Do not neglect the help of a sports doctor.

All water in the body, which makes up about 60% of body weight, is divided into intracellular And extracellular liquid (about 40% and 20% of body weight, respectively). In turn, the extracellular, or extracellular, fluid is divided into interstitial(15% of body weight) and intravascular(about 5% of body weight). Water and electrolyte disturbances in the clinic are common.

The function of the "chemical skeleton" of liquid spaces is performed by electrolytes, which account for 90% of the total amount of substances dissolved in the body. The main cation of the extracellular fluid is sodium - (Na+), the main anion - chlorine (Cl-). The intravascular part of the extracellular fluid differs from the interstitial part in a higher content of proteins (70 g/l). The main cation of the cell is potassium (K+), the main anions are proteins and phosphates.

Water-electrolyte homeostasis is maintained through the participation of many organs and systems, including the lungs, skin, and gastrointestinal tract. The closing organ is the kidneys, which play a decisive role.

Violations of water metabolism can be represented as the following scheme:

1. Dehydration:
   • extracellular
   • cellular
   • general
2. Hyperhydration:
   • extracellular
   • cellular
   • general
3. Extracellular dehydration with cellular overhydration.
4. Extracellular hyperhydration with cellular dehydration.
5. Syndromes of osmotic hyper- and hypotension.

Water and electrolyte disturbances in surgical patients can be observed with stenosis and obstruction of various parts of the digestive tract, peritonitis, fistulas of hollow organs, dysfunction of the adrenal glands and pituitary gland, burns, hepatorenal syndrome, chronic suppurative processes, and prolonged crush syndrome, high fever and some other conditions .

In the vast majority of cases, the surgeon has to deal with such a variety of water-electrolyte disorders as water-salt deficiency. Less commonly, with improper correction of fluid and electrolyte disorders, there may be an excess of water or electrolytes (absolute or relative).

The clinic of water insufficiency (primary or cellular dehydration) differs from that of salt deficiency (extracellular or secondary dehydration). In the first case, the leading signs are thirst, dry mouth, difficulty swallowing, decreased tissue turgor, soft eyeballs, collapsed saphenous veins, darkening of consciousness. When blood tests reveal its thickening - high hematocrit, an increase in hemoglobin and red blood cells, an increase in the concentration of proteins, sodium and chlorine in plasma.

The McClure and Aldrich trial has been expedited. The weight of patients falls, diuresis is sharply reduced.

Correction of cellular dehydration is achieved by the introduction of isotonic glucose solutions, while glucose burns as an energy material, and water replenishes the body's water deficit. The introduction of saline solutions is contraindicated.

Water and electrolyte disturbances in the form of extracellular dehydration (due to sodium and chlorine deficiency), weakness, anorexia, vomiting, convulsions, decreased blood pressure and peripheral circulatory failure are noted. Laboratory research allow to detect a decrease in plasma volume, an increase in blood viscosity with a high hematocrit, an increased content of urea in the blood, but a low concentration of sodium and chlorine. McClure and Aldrich trial delayed. Hyponatriuresis is accompanied by oliguria. The leading symptom is hypovolemia. Treatment is aimed at replenishing extracellular sodium and water by administering isotonic sodium chloride solution.

In the vast majority of cases, surgical patients develop combined water-salt (general) dehydration. The latter is clinically manifested by signs of both water and salt deficiency. With pronounced degrees of dehydration, the same state occurs as with shock. Of the laboratory signs of general dehydration, hypovolemia and an increase in residual nitrogen in the blood are revealed. Oliguria sets in, with almost no sodium in the urine, while potassium continues to be excreted.

Treatment of fluid and electrolyte disorders

Treatment of general dehydration begins with the introduction of glucose solutions until a slight hypotension of the extracellular fluid appears, so that water begins to pass into the cells. The introduction of glucose also contributes to the normalization of potassium metabolism. Subsequently, 0.85% solution of NaCl is added. The introduction of a hypertonic saline solution is strictly contraindicated. In the presence of collaptoid signs, treatment should begin with the introduction of macromolecular compounds.

The clinic of potassium deficiency consists of a symptom complex of changes in the neuromuscular and cardiovascular systems. Patients have a state of drowsiness, discoordination of movements, impaired swallowing, speech becomes intermittent, sometimes aphonia is observed. There is a tremor of the limbs, hyperreflexia, and later areflexia and paralysis. On ECG signs slow conduction and heart failure (increased PQ, ST intervals, high P wave, flattening or perversion of the T wave). On the part of the lungs - atelectasis and pneumonia, as a result of impaired drainage bronchial tree. Paresis of the stomach and intestines develops due to atony of smooth muscles.

In surgical practice, the causes of potassium deficiency can be loss of the contents of the digestive tract during vomiting, aspiration from the stomach, diarrhea, through various fistulas. The general direction of the movement of potassium during the operation and after it is opposite to the movement of sodium:

sodium: Blood -> interstitial fluid -> cell
potassium: Cell -> interstitial fluid -> blood

Laboratory diagnosis of potassium deficiency is difficult because the level of K + in plasma is not an indicator of its level in the body. Only with severe disorders observed hypokalemia.

To correct potassium deficiency, many compensatory solutions have been proposed (Darrow, Randal, Le Quesne, etc.). For this purpose, the following solutions can be recommended:

• for oral administration:
  • glucose solution 12% - 200 ml
  • potassium chloride - 12 g

  1 st. spoon 4-10 times a day

• for intravenous administration:
  • glucose solution 3% - 2000 ml
  • sodium chloride - 4.0
  • potassium chloride - 6.0

Low urine output and impaired renal function are contraindications to parenteral potassium administration.
Fluid and electrolyte disorders that occur in response to surgery (trauma) are:

• urinary retention in the body;
• expansion of the extracellular space;
• retention of sodium in the body while reducing its level in plasma;
• increased excretion of potassium in the urine;
• decrease in urine output.

The volume of the necessary fluid and salts in the treatment of a surgical patient consists of 3 components aimed at compensation:

• existing deficit;
• constant daily needs;
• extrarenal fluid and electrolyte losses.

A number of formulas can be used to calculate fluid deficit (in addition to taking into account anamnestic and clinical data).

With hypertensive dehydration:

Water deficit (in L) = 0.2 W * (1 - 142/sodium patient)

With hypotonic dehydration:

Water deficit (in l) \u003d 0.2 W * (1 - hematocrit of norms / hematocrit of the patient)

where 0.2 W is 20% of body weight, i.e. the volume of extracellular fluid, 142 is the normal concentration of sodium in plasma in mmol / l.

Electrolyte deficiency in the extracellular fluid is calculated by the formula:

Ion deficiency (mmol) = 0.2 W * (K1 - K2),

where K1 is the normal concentration of the electrolyte under study (in mmol/l), K2 is its concentration in this patient.

The constant daily need for water consists of diuresis and imperceptible water losses equal to 1 liter. On average, the body's daily fluid requirement is 40 ml/kg. Calculation of water needs is more expedient to produce on the theoretical weight of the patient, calculated according to Lorentz formula:

Theoretical weight (kg) \u003d height (cm) - 100 - (Height - 150) / 4

An increase in body temperature for every degree above 37 ° C causes an additional loss of 500 ml.

The daily requirement of an adult patient in electrolytes is satisfied by the introduction of approximately 100-120 mmol of sodium and chlorine and 50-60 mmol of potassium (ie, 6-7 g of NaCl and 4-4.5 g of KCl).

When using electrolyte solutions of various concentrations, it is necessary to remember the following numbers for calculating the substances introduced:

• 1 g NaCl contains 17 mmol Na+
• 1 g KCl contains 13.5 mmol K+
• 1 g CaCl2 contains 10 mmol Ca++
• 1 g calcium gluconate - 2.5 mmol Ca ++
• 1 g of soda - 12 mmol Na +

It should be pointed out that the treatment of water and electrolyte disorders requires a lot of time and can last for several days. After the operation, it is necessary to correct the imbalance of these substances caused not only by the operation itself, but also by the previous underlying or concomitant disease. All this leads to the need to individualize the consumption of water and electrolytes depending on the patient's condition, laboratory data, the presence of pathological losses of water and electrolytes, etc.

Electrolytes play an important role in our water balance and metabolism. Especially during sports and during diarrhea, the body loses a lot of fluid and therefore electrolytes, which must be returned to it in order to avoid shortages. Find out which foods contain particles and what they cause here.

A balanced water balance is important to prevent electrolyte depletion.

The human body contains over 60% water. Most of it is found in cells, such as in the blood. There, with the help of electrically charged molecules that are located in cellular fluids, important physiological processes are controlled. Here an important role is played sodium, potassium, chloride, magnesium and calcium. Because of their electrical charge and because they dissolve in the intracellular fluid, they are called electrolytes, which means the same as "electric" and "soluble".

Electrolytes are charged particles that regulate and coordinate important functions in the body. This only works if the fluid balance is correct.

How much water do we need to prevent electrolyte deficiency?

How much fluid a person should take daily is discussed over and over again. The Nutrition Society recommends a daily intake of at least 1.5 liters. In addition, one more liter that we take with us on the road, as well as 350 milliliters (ml) of oxidative water that is formed during the metabolism of food.

However, water in the body is also returned to the environment:

• 150 ml through stool
• 550 ml through the lungs
• 550 ml sweat
• 1600 ml with urine

Excessive sweating, while playing sports or in the sauna, or diarrheal diseases, provide additional fluid loss. Of course, this should be compensated by an increase in fluid intake.

The lack of electrolyte during sports?

With fluid, we also lose the minerals it contains, which play an important role in metabolism as electrolytes. To maintain all bodily functions, these minerals must be returned to the body. This is especially important for athletes, because these substances regulate muscles and nerve cells. is an all-too-familiar symptom. This is why many athletes resort to isotonic drinks.

What role do electrolytes play in diarrhea?

However, a large loss of fluid occurs not only due to sweating, but also during diarrhea. The fluid in the colon is then barely removed from the chyme, a process by which healthy man covers most of its fluid requirement. The risk of diarrhea is high, especially among children, because they make up 70 percent of the water.

Electrolyte losses must be compensated for. One possibility is mineral-fortified drinks. Quick and easy electrolytic solution: Dissolve five teaspoons of glucose and half a teaspoon of table salt in half a liter of water.

What foods contain electrolytes?

Electrolytes come in many forms in many foods and drinks:

sodium and chloride

This duo is better known as table salt. Important: Too much can negatively affect your Featured daily dose at six grams should be increased by increasing perspiration, for example through exercise.

Magnesium

Magnesium can only be taken through effervescent tablets? Wrong! The mineral is present in almost all products. Vegetable juices often contain magnesium as food additive. But also in wholemeal foods, nuts, legumes, and fresh fruits are an energy mineral. often manifested in fatigue.

Potassium

Unlike sodium, potassium is barely lost through sweat. However, potassium should be supplemented for severe fluid loss. Wheat bran is valuable, as well as legumes, dried fruits and nuts.

Sodium and potassium can hardly be separated from each other in terms of behavior. Both play an important role in fluid balance, control muscle contractions, and transmit nerve signals to the muscles.

Calcium

Dairy products, especially parmesan, are the best-known sources of calcium. But lactose intolerant people and vegans can also meet their calcium needs with foods like fortified soy drinks, fruit juices, bottled water, whole grains, almonds, sesame seeds, and green vegetables.

Promotes calcium absorption. The ideal is a combination of fruits and/or vegetables. Calcium, combined with vitamin D, helps build and maintain our bones. In addition, the mineral - just like magnesium - is important for muscle contraction.