Treatment of acute drug poisoning. General principles for the treatment of patients with acute poisoning

REANIMATION AND
INTENSE
THERAPY FOR ACUTE
POISONING

ACUTE POISONING

1. General principles of rendering
emergency care for acute
poisoning:
Install at the scene:
a). cause of poisoning;
b). type of toxic substance;
in). amount;
G). route of entry;
e). time of poisoning.

ACUTE POISONING

2. Routes of entry of toxic
substances:
a). by mouth (oral poisoning);
b). through the respiratory tract
(inhalation);
in). through the integument (percutaneous);
G). after injections of toxic doses
medicines;
e). when injected into body cavities
(rectum, vagina, urinary
bladder, ear canal).

ACUTE POISONING

3. Periods of clinical manifestations:
a). hidden (until the first signs
poisoning);
b). toxicogenic (specific action
poison);
in). somatogenic (secondary complication
internal organs).
4. Principles of emergency care:
a). removal of poison;
b). antidote (specific) therapy;
in). symptomatic therapy.

ACUTE POISONING

5. Removal of poison that has not entered the blood:
a). if poison is ingested: gastric lavage through
thick probe 12-15 liters of room water
temperature in portions of 300-500 ml. Then through the probe
inject 100-150 ml of 30% sodium sulfate solution or
vaseline oil depending on the solubility of the poison
in water or fats. To adsorb toxic substances
1 tablespoon of activated charcoal is administered before and after
gastric lavage (or 5-10 tablets of carbolen,
polyphepan).
Patients in a coma, the stomach is washed
after tracheal intubation;
b). from the skin: rinse with running water;
in). from the conjunctiva: rinse with a gentle stream of warm water,
enter 1% solution of novocaine or 0.5% solution of dicaine;

ACUTE POISONING

G). from the mucous membranes of the mouth and nasopharynx: multiple
rinsing the mouth and rinsing the nose with warm water,
inhalation with a mixture of novocaine, suprastin,
hydrocortisone 1:1:1.
e). from the cavities: washed with an enema or
douching, give a laxative;
e). in case of inhalation poisoning: remove from
the affected atmosphere, ensure patency
respiratory tract, oxygen inhalation;
and). with snake bites, i / m or s / c administration
toxic doses of drugs: an introduction to
injection site 0.3 ml of 1% adrenaline solution, cold on
6-8 hours and circulation novocaine blockade
above the point of entry of the toxin.

ACUTE POISONING

6. Removing the poison that entered the
blood:
a). forced diuresis;
b). hemodialysis;
in). peritoneal dialysis;
G). hemosorption;
e). replacement blood transfusion;
e). physiotherapy: magnetic,
ultraviolet, laser,
chemotherapy, HBO.

7. Antidote therapy:

Activated carbon
nonspecific sorbent
medications
Ethyl alcohol
methyl alcohol, ethylene glycol
Atropine 0.1% solution
fly agaric, FOS, cardiac glycosides,
prozerin, clonidine
Acetylcysteine 10%
paracetamol, pale grebe
Vikasol 1% solution
indirect anticoagulants
Vitamin "B6" 5% solution
tubazid, ftivazid
Vitamin "C" 5% solution
aniline, potassium permanganate
Heparin
snake bites
sodium bicarbonate
4%
acids
Methylene blue 1%
rr
aniline, hydrocyanic acid, permanganate
potassium.

7. Antidote therapy:

Naloxone 0.5% solution
morphine, heroin, promedol
Prozerin 0.5% solution
atropine, pachycarpine
Protamine sulfate 1%
rr
heparin
Magnesium sulfate 30% barium solution, its salts
Sodium thiosulfate 30%
rr
iodine, copper, mercury, benzene, sublimate, aniline
Unithiol 5% solution
copper, arsenic, phenols
Sodium chloride 2%
silver nitrate.
Calcium chloride 10% solution
ethylene glycol, oxalic acid
Potassium chloride 0.5% solution
cardiac glycosides
Ammonium chloride 3% solution
formalin (gastric lavage)

ACUTE POISONING

8. Symptomatic
therapy:
breathing correction,
cardiovascular
insufficiency,
toxic nephropathy,
hepatopathy, neurological
disorders.

Poisoning by alcohol and its surrogates (cologne, lotion, BF glue)

Symptoms: (history, smell) loss
consciousness, cold clammy skin, hyperemia
faces, transient anisocoria,
horizontal nystagmus, decrease
body temperature, vomiting, involuntary
urination and defecation, breathing
slow, pulse is frequent, weak,
hypotension, sometimes convulsions, hypertonicity
flexors. Possible aspiration of vomit
masses, laryngospasm, respiratory arrest.

Treatment:

Gastric lavage through a tube, saline
laxative, forced diuresis.
Infusion therapy
1)
2000 ml of Ringer's solution, rheopolyglucin, polyglucin, before stabilization
hemodynamics.
2)
Sodium bicarbonate 4% solution up to 1000 ml to alkalinize urine IV
drip.
3)
Sodium hypochlorite 0.06% solution 400 ml IV drip.
4)
Glucose 40% - 20 ml IV.
5)
Caffeine 2 ml, Cordiamin 2 ml IV.
6)
Vitamin "B6" - 5 ml, "B1" - 5 ml IV.
7)
Nicotinic acid 5% solution 1 ml / m, repeatedly.
With aspiration - intubation, mechanical ventilation, sanitation of the TBD.
The lethal dose is 300 ml of 96% alcohol (in chronic
much more alcoholics).

Botulism

Symptoms: history - canned food
home cooking. Incubation
period of 2 hours - 10 days. The onset is acute
headache, nausea, vomiting, pain in
epigastric, thirst, loose stools, then
flatulence, normal temperature, consciousness
clear, blurred vision, diplopia, anisocoria,
ptosis, limited mobility of the eyeballs,
swallowing disorder, slurred speech, aphonia,
dyspnea, bradycardia, blood pressure normal or
increased. ECG shows conduction disturbance.
Death from paralysis of the respiratory muscles.

Treatment:

1.
Rinse the stomach with potassium permanganate or 2%
solution of sodium bicarbonate.
2.
Cleansing, then siphon enema 1-2% solution
soda.
3.
Laxative - 20-30 g of magnesium sulfate.
4.
Antibotulinum serum. Before
establishing the type of toxin, 10,000 IU of the type are administered
A, C, E, and 5,000 IU type B on day 1 IV, then IV.
5.
Prozerin 0.05% solution 1 ml, repeatedly.
6.
Antibiotics (levomycetin, penicillin series).
7.
Infusion therapy, IVL, HBO.
Complications: pneumonia, sepsis, endocarditis.
Lethality -50%.

Methyl alcohol (methanol, wood alcohol)

Symptoms: nausea, vomiting, flies
before the eyes, for 2-3 days blindness.
Pain in the legs, head, thirst. Hyperemia
bluish, pupils
dilated, sweating, tachycardia,
abdominal pain, paresis of the oculomotor
muscles, darkening of consciousness,
respiratory failure, circulatory disorders,
convulsions, death.

Treatment:

1.
Gastric lavage with water, then 2% solution of soda.
2.
Salt laxative - magnesium sulfate 0.5 g / kg.
3.
Forced diuresis with alkalization.
4.
early hemodialysis.
5.
Antidote - ethyl alcohol 5% solution in / in cap. 1 ml/kg/day Or
30% alcohol 100 ml orally, then 50 ml every 2 hours
4-5 times a day.
6.
Prednisolone 30 mg IV.
7.
Glucose 40% - 200 ml and novocaine 0.25% - 200 ml IV
drip.
8.
Vitamins "B1" - 5 ml and "C" -20 ml IV
9.
infusion therapy.
A lethal dose of about 100 ml without prior administration
alcohol.

Morphine (opium, heroin, codeine)

Symptoms: coma
constriction of the pupils with weakening
reactions to light, hyperemia of the skin.
Increased muscle tone, sometimes
tonic or clonic convulsions,
vomiting, shortness of breath. In heavy
cases of asphyxia, cyanosis of mucous membranes,
dilated pupils, bradycardia,
collapse, hypothermia.

Treatment:

1.
Repeated gastric lavage, regardless of
routes of administration.
2.
activated charcoal, saline
laxative.
3.
Antidote - naloxone 3-5 ml 0.5% solution IV,
again.
4.
Sodium hypochlorite 0.06% solution - 400 ml IV drip
5.
Atropine 0.1% solution 1-2 ml i.v., s.c.
6.
Caffeine 10% solution 2 ml IV, cordiamine 2 ml IV.
7.
Vitamin "B1" 5% solution 3 ml IV, repeatedly.
8.
Oxygen inhalation, artificial respiration,
intubation and IVL.

Indian hemp (plan, marijuana, marijuana, hashish)

Symptoms: Poisoning is possible with
smoke inhalation, tobacco smoking along with
these substances, when taken orally
or introduction into the nasal cavity, ear, as well as
with the introduction of a vein of their aqueous solution.
At first, psychomotor
agitation, dilated pupils, noise in
ears, vivid visual hallucinations,
then - general weakness, lethargy, thirst and
long deep sleep with slow heart rate,
drop in temperature.

Treatment:

1.
2.
3.
4.
Gastric lavage with
ingestion of poison
Activated carbon.
Forced diuresis.
Hemosorption.
On sudden arousal
chlorpromazine 2.5% solution -4-5 ml i / m
or haloperidol 2.5% solution 2-3 ml
in / m.

Atropine (henbane, dope, belladonna)

Symptoms: dry mouth and throat,
speech and swallowing disorder
near vision, diplopia, photophobia,
palpitations, shortness of breath, headache. Leather
red, dry. Pulse is fast, pupils are dilated,
do not respond to light. Mental and motor
agitation, visual hallucinations, delusions,
epileptiform seizures followed by
loss of consciousness and development of coma
states. uncontrolled hyperthermia,
respiratory distress, cyanosis, drop in blood pressure,
increased CVP, swelling. Poisoning is harder
runs in children.

Treatment:

1.
Gastric lavage through a tube, plentifully
lubricated with vaseline oil until clean
water.
2.
forced diuresis
3.
Hemosorption.
4.
Sodium hypochlorite 0.06% solution - 400 ml IV drip.
5.
Prozerin 0.05% solution, 1 ml IV or s / c,
again.
6.
When excited - chlorpromazine 2.5% solution 2 ml,
diazepam 1-2 ml IV, IM.
7.
With hyperthermia - amidopyrine 4% solution 10-20 ml,
physical cooling.
Lethal dose for adults over 100 mg

FOS (dichlorvos, karbofos, chlorophos, sarin, soman)

Symptoms: poisoning develops when
ingestion, through the respiratory tract and
skin.
Stage 1: arousal, miosis, salivation,
sweating, chest tightness, shortness of breath,
bronchorrhoea, diarrhea, increased blood pressure.
Stage 2: convulsions join,
hyperthermia, chills, cyanosis. Violation
breathing, coma
Stage 3: paresis, bradycardia, drop in blood pressure,
hypothermia, death from respiratory arrest.

Treatment:

1.
The poison is removed from the skin with a dry swab, then treated
ammonia, the body is washed with warm water and soap or soda.
2.
Eyes in case of damage are washed with water, then atropine 1% is dripped.
3.
Repeated gastric lavages with 2% soda, then inside - sodium sulfate 0.25 - 1.5 g / kg.
4.
Fatty laxative (vaseline oil, etc.), high
siphon enemas after 6-8 hours.
5.
Forced diuresis, early hemodialysis, hemosorption.
6.
Symptomatic therapy.
7.
Antidote therapy:
1 tbsp. - 0.1% atropine 2-3 ml s / c until dry mouth during the day, repeatedly.
2 tbsp. - 0.1% atropine 3 ml IV in 5% glucose solution repeatedly until dry
mucous membranes (25-30 ml). For convulsions - Relanium 2 ml IV. Atropinization in
within 3-4 days.
3 art. - mechanical ventilation, hydrocortisone, antibiotics, treatment are added
toxic shock. Atropinization 5-6 days.
The lethal dose when ingested is about 5 g.

Carbon monoxide

Symptoms: dizziness, chest pain,
lacrimation, vomiting, agitation, skin hyperemia,
tachycardia, increased blood pressure. Further coma, convulsions,
respiratory failure and cerebral circulation.
Treatment:
1.
Remove victim to fresh air
Airways.
2.
Oxygen inhalation, HBO.
3.
With bronchospasm - Eufillin 2.4% solution - 10 ml, prednisolone
30 mg IV.
4.
Vitamin "C" 5% solution - 10-20 ml IV.
5.
For convulsions - Relanium 2 ml IV, IM.
6.
Glucose-novocaine mixture in/in cap.
7.
With convulsions, impaired breathing, consciousness - IVL.

Hydrocyanic acid and other cyanides

Symptoms: vomiting, abdominal pain, shortness of breath, convulsions,
loss of consciousness, cyanosis of mucous membranes, hyperemia of the skin,
acute cardiovascular failure, stop
breathing.
Treatment:
1.
Gastric lavage through a tube with 0.1% solution of permanganate
potassium or 0.5% solution of sodium thiosulfate.
2.
Activated charcoal inside.
3.
Antidote: sodium nitrite 1% solution - 10 ml IV slowly every 10
minutes (2-3 times). Sodium thiosulfate 30% solution 50 ml,
methylene blue 1% solution 50 ml IV.
4.
Glucose 40% solution - 20-40 ml IV repeatedly.
5.
Vitamin "B12" - 1000 mcg IV, IM.
6.
Vitamin "C" 5% solution - 20 ml IV.
The lethal dose is 0.05 g.

Barbiturates

Symptoms:
1 st. - prolonged sleep, pupils are narrow, hypersalivation,
unrelated speech
2 tbsp. - superficial coma, cyanosis of mucous membranes, blood pressure is reduced,
shallow breathing, pain sensitivity is preserved.
Grade 3 - coma, breathing is rare, shallow, pulse is weak, pupils
do not react to light, cyanosis.
4 tbsp. - deep coma, asphyxia, pupils are wide, pulmonary edema.
Treatment:
1.
Rinse the stomach again if the victim is in a coma, after
intubation.
2.
Activated carbon.
3.
Forced diuresis.
4.
Antidote - Bemegride 0.5% solution - 10 ml IV, repeatedly 5-7 times a day.
5.
Sodium hypochlorite 0.06% solution - 400 ml IV drip.
6.
IVL, symptomatic therapy.

Mushrooms are poisonous

Pale grebe (hepato-, nephro-,
enterotoxicity).
Symptoms: develop after 5-24
hours. Sudden sharp pains
in the abdomen, vomiting, profuse diarrhea with
blood, convulsions, hypotension,
hypothermia. On the 2nd day
dehydration, jaundice,
anuria, collapse. Then builds up
renal liver failure,
coma.

Treatment:

1.
Gastric lavage through a thick tube with warm water 10-12
liters.
2.
Activated charcoal inside.
3.
Forced diuresis.
4.
Plasmapheresis, hemosorption on the 1st day.
5.
Penicillin 40 million units per day of continuous infusion (as a competitor for the transport protein).
6.
Prednisolone 30 mg IV 4 times a day.
7.
Lipoic acid 2 g/day IV.
8.
Kontrykal 10-20 thousand units 2-3 r / day in / in.
9.
Acetylcysteine 1% solution 100 ml orally.
10.
Infusion of saline solutions 2-4 l / day.
11.
Symptomatic therapy.
Lethality up to 90%, 1 mushroom per family.

Mushrooms are poisonous

Fly agaric (neurotoxic effect).
Symptoms develop in 0.5-5 hours. Vomiting, pain in
stomach, diarrhea, sweating, hypersalivation, bronchorrhea, narrow
pupils, shortness of breath, hallucinations, delirium, convulsions, bradycardia,
hypotension.
Treatment:
1.
Gastric lavage, activated charcoal, saline
laxative.
2.
Atropine 0.1% solution repeatedly 1-2 ml until reduction
salivation.
3.
Relanium 2 ml i / m.
4.
Prednisolone 30 mg 3 times a day IV.
5.
Infusion therapy 2-4 l / day.

Mushrooms are poisonous

Morels, lines (hemolytic,
enterotoxicity).
Symptoms develop after 6-10 hours. Pain occurs in
stomach, vomiting. Jaundice, red urine appears quickly
(hemoglobinuria), convulsions, diarrhea, renal and hepatic
failure.
Treatment:
1.
Rinse the stomach, intestines, give a saline laxative, polyphepam, activated charcoal.
2.
Forced diuresis.
3.
Penicillin 40 million units per day. IV continuous infusion.
Lipoic acid 2 g IV, bolus.
4.
Sodium bicarbonate 4% solution - 1000 ml IV drip.
5.
Vitamin "B6" - 5 ml IV.
6.
Prednisolone 30 mg 4 times / in.
7.
Infusion therapy 2-4 l / day.

Indications for hospitalization patients with acute poisoning in the ICU are lack of consciousness, severe convulsive syndrome, ARF (PaCO2 more than 45 mm Hg, PaO2 less than 50 mm Hg against the background of spontaneous breathing with atmospheric air), arterial hypotension (systolic blood pressure below 80- 90 mm Hg), tachycardia over 125 per minute, QRS complex prolongation up to 0.12 s.

General principles for the treatment of acute poisoning.

Gastric lavage. After inserting the probe into the stomach (tracheal intubation is mandatory in unconscious patients), the stomach is washed by fractional administration of 300-400 ml of warm water until the liquid flowing from the probe becomes clear. Usually 6-10 liters of water are required. Gastric lavage on the first day after severe poisoning is carried out 3-4 times.

Invoking Vomit. Induction of vomiting by irritation of the posterior pharyngeal wall or enteral ingestion of the maximum possible amount of water by the patient is permissible only in patients who are conscious. In case of poisoning with caustic substances and severe arterial hypertension, this method is contraindicated.

After gastric lavage to reduce absorption and accelerate the passage of a toxic substance through the intestines, the use of adsorbents and laxatives is recommended.

As an adsorbent, most effective during the first hour of poisoning, activated charcoal is used, which is administered through a tube at an initial dose of 1 g / kg of body weight, and then 50 g every 4 hours until it appears in the excrement. Activated charcoal well adsorbs benzodiazepines, hypnotics, cardiac glycosides, antihistamines, antidepressants. In case of poisoning with alcohol, acids, alkalis, iron preparations, organophosphorus compounds, the effectiveness of coal is much lower.

For laxatives used for poisoning includes a 25% solution of magnesium sulfate, used in a volume of 100-150 ml and vaseline oil (150 ml), which, without being absorbed in the gastrointestinal tract, actively binds fat-soluble toxic substances.
Along with laxatives in case of poisoning, siphon enemas are used.

efficient, but much more labor-intensive is the treatment of the gastrointestinal tract by the method of intestinal lavage. To perform this procedure, under the control of a fibrogastroscope, a double-lumen probe is inserted 50 cm behind the ligament of Treitz. A saline solution heated to 40 ° C is injected into one lumen of the probe, containing 2.5 g of monosubstituted sodium phosphate, 3.4 g of sodium chloride, 2.9 g of sodium acetate, and 2 g of potassium chloride per 1000 ml of water, as well as 150 ml 25% magnesium sulfate solution. The solution is infused at a rate of 100 ml into the mouth. After some time from the beginning of the infusion, intestinal contents begin to drain through the second lumen of the probe, and after 60-90 minutes, the patient develops loose stools. For a complete cleansing of the intestines, the introduction of 25-30 liters of saline solution (400-450 ml / kg) is required.

To enhance the elimination of poison from the body, especially in case of poisoning with water-soluble drugs, the method of forced diuresis is very effective. The technique for performing forced diuresis is described in Chapter IV. The method is used for almost all types of poisoning, but is especially effective for exogenous intoxication with barbiturates, opioids, organophosphorus compounds, salts of heavy metals.

In some cases, quite effective is antidote therapy. Toxic substances and antidotes to them are presented in the table.
The most common efferent therapy methods acute poisonings are hemodialysis and hemosorption.

Hemodialysis indicated for poisoning with medicinal substances with a small molecular weight, low protein binding and fat solubility: barbiturates, salts of heavy metals, arsenic, organophosphorus compounds, quinine, methanol, salicylates. Hemodialysis showed good efficiency in case of poisoning with aniline, atropine, anti-tuberculosis drugs, vinegar essence.

Hemosorption(1.5-2.0 BCC), performed in the first 10 hours after poisoning, effectively relieves exogenous intoxication with barbiturates, pachycarpine, quinine, organophosphorus compounds, aminophylline.

Lecture number 34.

Basic principles of treatment of acute drug poisoning.

Therapeutic measures aimed at stopping the effects of toxic substances and removing them from the body in the toxicogenic phase of acute poisoning are divided into the following groups: methods of enhancing natural cleansing processes, methods of artificial detoxification and methods of antidote detoxification

The main methods of detoxifying the body.

1. Methods to enhance the natural detoxification of the body:

Gastric lavage;

Purgation;

forced diuresis;

Therapeutic hyperventilation.

2. Methods of artificial detoxification of the body

· intracorporeal:

peritoneal dialysis;

Intestinal Dialysis;

Gastrointestinal sorption.

· extracorporeal:

Hemodialysis;

hemosorption;

Plasmasorption;

Lymphorrhea and lymphosorption;

Blood replacement;

Plasmapheresis.

3. Methods of antidote detoxification:

· chemical antidotes:

contact action;

Parenteral action;

· biochemical:

pharmacological antagonists.

Methods for enhancing the natural detoxification of the body.

Cleansing the gastrointestinal tract. The occurrence of vomiting in some types of acute poisoning can be considered as a protective reaction of the body aimed at removing a toxic substance. This process of natural detoxification of the body can be artificially enhanced by the use of emetics, as well as gastric lavage through a tube. None of these methods has met with serious objections in cases of oral poisoning since ancient times. However, there are situations that present known limitations in emergency gastric emptying methods.

In case of poisoning with caustic fluids, a spontaneous or artificially induced act of vomiting is undesirable, since the repeated passage of acid or alkali through the esophagus can increase the degree of its burn. There is another danger, which is to increase the likelihood of aspiration of caustic fluid and the development of a severe burn of the respiratory tract. In a state of coma, the possibility of aspiration of gastric contents during vomiting also increases significantly.

These complications can be avoided by gastric lavage. In coma, gastric lavage should be performed after tracheal intubation, which completely prevents aspiration of vomit. The danger of introducing a probe for gastric lavage in case of poisoning with caustic liquids is greatly exaggerated.

In some cases, gastric lavage is refused if a lot of time has passed since the poison was taken. However, if the stomach was not washed, then at autopsy, even after a long time after poisoning (2-3 days), a significant amount of poison is found in the intestine. In case of severe poisoning with narcotic poisons, when patients are unconscious for several days, it is recommended to wash the stomach every 4-6 hours. The need for this procedure is explained by the re-entry of the toxic substance into the stomach from the intestines as a result of reverse peristalsis and pylorus paresis.

The value of the method is very great, especially in the treatment of acute oral poisoning with highly toxic compounds such as chlorinated hydrocarbons (FOS). In severe poisoning with these drugs, there are practically no contraindications for emergency gastric lavage by the probe method, and it should be repeated every 3-4 hours until the stomach is completely cleansed of poisons. The latter can be established using a consistent laboratory-chemical analysis of the washing liquid. In case of poisoning with sleeping pills, if tracheal intubation at the prehospital stage is impossible for any reason, gastric lavage should be postponed to the hospital, where both measures can be performed.

After gastric lavage, it is recommended to administer various adsorbent or laxative agents orally to speed up the passage of the toxic substance through the gastrointestinal tract. There are no fundamental objections to the use of sorbents; activated carbon (50-80 g) is usually used together with water (100-150 ml) in the form of a liquid suspension. Any other drugs should not be used together with coal, as they will be sorbed and inactivate each other. The use of laxatives is often questionable because they do not act quickly enough to prevent much of the poison from being absorbed. In addition, in case of poisoning with narcotic drugs, due to a significant decrease in intestinal motility, laxatives do not give the desired result. More favorable is the use of vaseline oil (100-150 ml) as a laxative, which is not absorbed in the intestine and actively binds fat-soluble toxic substances, such as dichloroethane.

Thus, the use of laxatives has no independent value as a method of accelerated detoxification of the body.

A more reliable way to cleanse the intestines from toxic substances is to wash it with direct probing and introduce special solutions (intestinal lavage). This procedure can be used as an initial step for subsequent intestinal dialysis. In this method of detoxification, the intestinal mucosa plays the role of a natural dialysis membrane. Many methods of dialysis through the digestive tract have been proposed, including gastric dialysis (constant gastric lavage through a double-lumen tube), dialysis through the rectum, etc.

forced diuresis method . In 1948, the Danish physician Olsson proposed a method for the treatment of acute poisoning with sleeping pills by injecting large amounts of isotonic solutions intravenously simultaneously with mercury diuretics. There was an increase in diuresis up to 5 liters per day and a decrease in the duration of the coma. The method has become widespread in clinical practice since the late 1950s. Alkalinization of the blood also increases the excretion of barbiturates from the body. A slight shift in the pH of arterial blood to the alkaline side increases the content of barbiturates in plasma and somewhat reduces their concentration in tissues. These phenomena are due to the ionization of barbiturate molecules, which causes a decrease in their permeability through cell membranes according to the law of "nonionic diffusion". In clinical practice, alkalinization of urine is created by intravenous administration of sodium bicarbonate, sodium lactate, or trisamine.

The therapeutic effect of water load and alkalization of urine in severe poisoning is significantly reduced due to insufficient diuresis rate due to increased secretion of antidiuretic hormone, hypovolemia and hypotension. Additional administration of diuretics, more active and safe than mercury ones, is required in order to reduce reabsorption, i.e., to promote faster passage of the filtrate through the nephron and thereby increase diuresis and elimination of toxic substances from the body. These goals are best met by osmotic diuretics.

The effectiveness of the diuretic action of the drug furosemide (lasix), belonging to the group of saluretics and used at a dose of 100-150 mg, is comparable to the effect of osmotic diuretics, however, with repeated administration, more significant losses of electrolytes, especially potassium, are possible.

The method of forced diuresis is a fairly universal method of accelerated excretion from the body of various toxic substances excreted from the body with urine. However, the effectiveness of ongoing diuretic therapy is reduced due to the strong connection of many chemicals with proteins and blood lipids.

Any method of forced diuresis involves three main stages:

pre-water load,

Rapid administration of a diuretic

Replacement infusion of electrolyte solutions.

The peculiarity of the method is that when using the same dose of diuretics, a higher rate of diuresis (up to 20-30 ml/min) is achieved due to more intensive fluid administration during the period of the highest concentration of diuretics in the blood.

The high speed and large volume of forced diuresis, reaching 10-20 liters of urine per day, are fraught with the potential danger of rapid “washout” of plasma electrolytes from the body.

It should be noted that strict accounting of the injected and excreted fluid, determination of hematocrit and central venous pressure make it easy to control the body's water balance during treatment, despite the high rate of diuresis. Complications of the forced diuresis method (hyperhydration, hypokalemia, hypochloremia) are associated only with a violation of the technique of its use. With prolonged use (more than 2 days), in order to avoid thrombophlebitis of a punctured or catheterized vessel, the use of a subclavian vein is recommended.

The method of forced diuresis is contraindicated in case of intoxications complicated by acute cardiovascular insufficiency (persistent collapse, circulatory disorders II-III degree), as well as in violation of kidney function (oliguria, azotemia, increased blood creatinine), which is associated with a low filtration volume. In patients older than 50 years, the effectiveness of the forced diuresis method is markedly reduced for the same reason.

The methods of enhancing the body's natural detoxification processes include therapeutic hyperventilation, which can be caused by inhalation of carbogen or by connecting the patient to an artificial respiration apparatus. The method is considered effective in acute poisoning with toxic substances, which are largely removed from the body through the lungs.

In clinical conditions, the effectiveness of this method of detoxification has been proven in acute carbon disulfide poisoning (up to 70% of which is excreted through the lungs), chlorinated hydrocarbons, and carbon monoxide. However, its use is significantly limited by the fact that prolonged hyperventilation is impossible due to the development of a violation of the gas composition of the blood (hypocapnia) and acid-base balance (respiratory alkalosis).

Methods of artificial detoxification of the body.

Among the methods of artificial detoxification of the body, three fundamental phenomena can be distinguished on which they are based: dialysis, sorption and substitution.

Dialysis (from the Greek dialysis - decomposition, separation) - the removal of low molecular weight substances from solutions of colloidal and high molecular weight substances, based on the property of semipermeable membranes to pass low molecular weight substances and ions corresponding in size to their pores (up to 50 nm) and retain colloidal particles and macromolecules. The dialyzed fluid must be separated from the pure solvent (dialysis solution) by an appropriate membrane, through which small molecules and ions diffuse into the solvent according to the laws of general diffusion and, with a fairly frequent change of it, are almost completely removed from the dialyzed fluid.

As semi-permeable membranes, natural membranes (serous membranes) and artificial synthetic membranes (cellophane, kuprofan, etc.) are used. The ability of various substances to penetrate through the pores of these membranes is called dialysability.

Sorption (from Latin sorbeo - I absorb) - the absorption of molecules of gases, vapors or solutions by the surface of a solid or liquid. The body, on the surface of which sorption occurs, is called an adsorbent (sorbent), adsorbed substances - an adsorbate (adsorbate).

Basically, physical adsorption is observed, in which the molecules of the substance - the adsorbate retain their structure. During chemical adsorption, a new surface chemical compound is formed. Adsorption occurs under the influence of various forces: van der Waals, hydrogen, ionic, chelate. The type of bond formed and its energy determine the dissociation constant of the entire complex.

The main process of adsorption in blood plasma is carried out by van der Waals forces, which are devoid of specificity. Therefore, proteins with the largest total surface area of the total phase separation area - 8200 μm 2 in 1 μm 3 of blood have the greatest sorption properties.

There are biological, vegetable and artificial sorbents. Almost exclusive monopoly in the processes of biological sorption belongs to albumin.

substitution - the process of replacing a biological fluid containing toxic substances with another similar biological fluid or artificial environment in order to remove toxic substances from the body.

Bloodletting, known from time immemorial as a means of reducing the concentration of toxic substances in the body, with subsequent replacement of the lost volume with donor blood (blood replacement operation), has become most widespread. In recent years, there has been increased interest in excretion from the body in order to detoxify the lymph (lymphorrhea), followed by the introduction of electrolyte and protein solutions to compensate for their inevitable losses.

Among the many methods of extrarenal cleansing of the body peritoneal dialysis considered the simplest and most widely available. Back in 1924, Gunther proved the possibility of removing toxic substances from the blood by washing the abdominal cavity. Soon the method was applied in the clinic. However, the danger of developing peritonitis, noted by many researchers, for a long time prevented the widespread use of this method of detoxifying the body.

There are two types of peritoneal dialysis - continuous and intermittent. The mechanisms of diffusion exchange in both methods are the same, they differ only in the technique of execution. Continuous dialysis is performed through two catheters inserted into the abdominal cavity. Fluid is injected through one catheter and removed through the other. The intermittent method consists in periodically filling the abdominal cavity with a special solution with a volume of about 2 liters, which is removed after exposure. The dialysis method is based on the fact that the peritoneum has a sufficiently large surface (about 20,000 cm 2), which is a semipermeable membrane.

The highest clearance of toxic substances is obtained in hypertonic dialysis solutions (350-850 mosm / l) due to the ultrafiltration created by them with the direction of the liquid flow (5-15 ml / min) towards the peritoneal cavity (“osmotic trap”). According to histological data, these hypertonic solutions do not lead to hydropia of the peritoneum and do not disturb the microcirculation processes taking place in it.

In case of poisoning with barbiturates and other toxic substances that have the properties of acids, a hypertonic dialysis solution (350-850 mosm / l) with an alkaline pH (7.5-8.4) is optimal.

To remove chlorpromazine and other toxic substances that have the properties of a weak base from the body, it is better to use dialysis solutions with an increased osmotic pressure (350-750 mosm / l) at a slightly acidic pH (7.1-7.25), which also creates the effect of "ionic traps."

When albumin is added to the dialysis solution, the clearance of barbiturates and chlorpromazine increases in proportion to the coefficients of binding of these substances to blood proteins. This is due to the formation of large molecular protein complexes. The effect of such a "molecular trap" is created by the introduction into the abdominal cavity of oil solutions that bind fat-soluble poisons (lipid dialysis).

In clinical practice, peritoneal dialysis is performed as an emergency detoxification measure for any type of acute "exogenous" poisoning, if reliable laboratory confirmation of the presence of a toxic concentration of a chemical in the body is obtained.

Hemodialysis , carried out in the early toxicogenic phase of acute poisoning in order to remove toxic substances that caused poisoning from the body, was called "early hemodialysis". Its effectiveness is primarily due to the ability of the toxic substance to freely pass from the blood through the pores of the cellophane membrane of the dialyzer into the dialysis fluid.

Currently, early hemodialysis is widely used for severe poisoning with barbiturates, heavy metal compounds, dichloroethane, methyl alcohol, ethylene glycol, FOS, quinine and a number of other toxic substances. At the same time, there is a significant decrease in the concentration of toxic substances in the blood, exceeding that in conservative therapy, and an improvement in the clinical condition of patients. This prevents the development of many severe complications, which are the most common cause of death.

It is possible to use single-use dialyzers that require a minimum amount of time to prepare them for work (practically during the time of sewing in an arteriovenous shunt, such devices are always ready for use).

The device is connected in patients with acute poisoning by the artery-vein method using a pre-sewn arteriovenous shunt in the lower third of one of the forearms.

A contraindication to the operation of early hemodialysis using these devices "artificial kidney" is a persistent drop in blood pressure below 80-90 mm Hg. Art.

In clinical practice, the operation of early hemodialysis has been most widely used for barbiturate poisoning: for 1 hour of hemodialysis, the same amount of barbiturates is excreted from the body as it is independently excreted in the urine in 25-30 hours.

In the 70s, another promising method of extracorporeal artificial detoxification was developed - adsorption foreign substances of the blood on the surface of the solid phase. This method is, as it were, an artificial analogue and addition to the process of adsorption of toxic substances, which proceeds on the macromolecules of the body. Ion-exchange resins (ion exchangers) and activated carbons have found practical use.

The adsorbent surface is very large, usually reaching 1000 cm 2 /g. The degree of sorbability is determined by two factors: the polarizability of the molecule and its geometric characteristics.

The method of hemosorption for the treatment of poisoning in the clinic was used by the Greek doctors Yatsidisidr in 1965. They showed that columns filled with active carbon absorbed a significant amount of barbiturates during blood perfusion, which made it possible to bring patients out of a coma. As an adverse effect of hemosorption, a decrease in the number of platelets, increased bleeding, chills with hyperthermia and a decrease in blood pressure in the first minutes from the start of the operation were noted.

In our country, a series of experimental studies has also been carried out to study the sorption properties, selection and selective synthesis of activated carbons of domestic brands. To the greatest extent, granular coals of the SKT-6a and IGI grades with a special coating with the patient's blood proteins, which is done immediately before the operation, as well as the synthetic sorbent SKN, satisfy the optimal requirements to the greatest extent.

The operation of hemosorption is carried out using a detoxifier of various designs, which is a portable mobile device with a blood pump and a set of columns with a capacity of 50 to 300 cm 3 (Fig. 16). The device is connected to the patient's bloodstream through an arteriovenous shunt. The effectiveness of the operation is assessed by the dynamics of the clinical condition of the patient and the data of laboratory and toxicological studies.

The method of detoxification hemosorption has a number of advantages in comparison with the methods of hemo- and peritoneal dialysis. This is primarily technical ease of implementation and high speed of detoxification. In addition, an important advantage of the method is its non-specificity, i.e., the possibility of effective use in case of poisoning with drugs that are poorly or practically not dialyzed in the “artificial kidney” apparatus (short-acting barbiturates, phenothiazines, benzdiazepines, etc.).

In acute poisoning since the 40s, on the initiative of prof. O. S. Glozman (Alma-Ata) has become widely used blood replacement surgery (BSO). It was the first method of active artificial detoxification in wide clinical practice. It has been established that 10-15 liters are needed to completely replace the recipient's blood with the donor's blood, i.e., an amount 2-3 times greater than the volume of circulating blood, since part of the transfused blood is constantly removed from the body during simultaneous bloodletting. Taking into account the difficulties in obtaining a large amount of blood necessary for the operation and the risk of immunological conflict, OZK is used in clinical practice in much smaller volumes (1500-2500 ml). With the distribution of a toxic substance in the extracellular sector of the body (14 l), an OZK carried out in such a volume will be able to remove no more than 10-15% of the poison, and if it is distributed throughout the entire water sector (42 l) - no more than 5-7%.

For OZK, one-group, Rh-compatible donor or cadaveric (fibrinolysis) blood of various storage periods is used within the limits established by the instructions. In the clinic, OZK was used in patients with severe poisoning with toxic substances of more than 30 items. The operation is carried out simultaneously by a continuous jet method using veno-venous or veno-arterial routes by catheterization of blood vessels.

Of the complications of OZK, temporary hypotension, post-transfusion reactions and moderate anemia in the postoperative period are noted. Complications during the operation are largely determined by the clinical condition of the patients at the time of the operation. In the absence of pronounced hemodynamic initial disorders and a technically correct operation, the level of blood pressure remains stable. Technical errors (disproportions in the volume of injected and output blood) lead to temporary fluctuations in blood pressure within 15-20 mm Hg. Art. and are easily corrected when the disturbed balance is restored. Severe hemodynamic disorders are noted during OZK in patients against the background of exotoxic shock.

Post-transfusion reactions (chills, urticarial rash, hyperthermia) are more often observed during transfusion of long-term stored blood (more than 10 days), which corresponds to a period of high reactogenicity of canned blood. The reason for the development of anemia is probably the homologous blood syndrome of an immunobiological nature, which is associated with transfusion of blood from various donors.

It is advisable to single out absolute indications for OZK operation, when it is evaluated as a pathogenetic treatment and has advantages over other methods, and relative indications that may be dictated by specific conditions when it is impossible to use more effective detoxification methods (hemodialysis, peritoneal dialysis).

Absolute indications for OZK are poisoning with substances that have a direct toxic effect on the blood, causing severe methemoglobinemia, increasing massive hemolysis (aniline, nitrobenzene, nitrites, arsenic hydrogen) and changes in blood enzymatic activity (FOI). The essential advantages of OZK are the comparative simplicity of the method, which does not require special equipment, and the possibility of its application in any hospital. Contraindications to the use of OZK are severe hemodynamic disorders (collapse, pulmonary edema), as well as complicated heart defects, deep vein thrombophlebitis of the extremities.

One of the new methods of artificial detoxification of the body, introduced into clinical practice recently, is the possibility of removing a large amount of lymph from the body, followed by compensation for the loss of extracellular fluid - detoxification lymphorrhea . Lymph is removed by catheterization of the thoracic lymphatic duct in the neck (lymphatic drainage). Compensation for the loss of lymph, which in some cases reaches 3-5 liters per day, is carried out with the help of intravenous administration of an appropriate amount of plasma-substituting solutions. The results of using this method in case of poisoning with sleeping pills do not have advantages over other methods of accelerated detoxification of the body (forced diuresis, hemodialysis, etc.), since no more than 5-7 % of total toxic substances dissolved in total the volume of fluid in the body (42 l), which approximately corresponds to the rate of natural detoxification of the body in this pathology. A more intense outflow of lymph is usually not achieved due to the instability of hemodynamic parameters, low levels of central venous pressure and the effects of cardiovascular insufficiency. There is a possibility of re-introduction into the body of lymph, purified from toxic substances, using dialysis with an "artificial kidney" apparatus or by lymphosorption. This may be helpful in compensating for possible loss of proteins, lipids, and electrolytes.

Thus, the clinical effectiveness of the detoxification lymphorrhea method is limited by the small volume of lymph excreted from the body. The method does not yet have independent clinical significance for emergency detoxification in case of acute exogenous poisoning, but it can be used in combination with other methods, especially if it is possible to provide "lymphodilysis" or "lymphosorption". More promising is the use of this method in endotoxicosis accompanying acute hepatic-renal failure.

The most effective in terms of clearance of most toxic substances are surgical methods of artificial detoxification (hemo- and peritoneal dialysis operations, detoxification hemosorption using active carbons). The main obstacle to the successful application of these methods is the development of exotoxic shock, which puts forward a number of additional conditions for the method of detoxification. These conditions require a comprehensive consideration of the capabilities of each surgical method in terms of the amount of clearance obtained and the impact (positive or negative) on hemodynamic parameters.

The methods of extracorporeal blood purification are characterized by the most noticeable decrease in blood pressure at the beginning of the operation due to an increase in the total volume of the bloodstream and intensive redistribution of blood, which occurs according to the type of "centralization" of blood circulation with the movement of blood into the small circle.

Antidote detox.

Already at the turn of the 18th-19th centuries, the development of chemistry and biology made it possible to offer a number of chemical preparations for medicinal purposes, the antidote effect of which was associated with the neutralization of toxic substances of the inorganic series (acids, alkalis, oxides, etc.) by means of a chemical neutralization reaction and their transformation into insoluble salt, and organic substances (alkaloids, protein toxins, etc.) - through the process of adsorption on vegetable charcoal.

The therapeutic efficacy of these methods was strictly limited by the possibility of influencing the toxic substance in the gastrointestinal tract. Only relatively recently, 20-30 years ago, the possibility of using new biochemical antidotes was discovered that can affect a toxic substance that is in the internal environment of the body: in the blood, parenchymal organs, etc.

A detailed study of the processes of toxicokinetics of chemicals in the body, the ways of their biochemical transformations and the implementation of the toxic effect now makes it possible to more realistically assess the possibilities of antidote therapy and determine its significance in various periods of acute diseases of chemical etiology.

1. Antidote therapy retains its effectiveness only in the early toxicogenic phase of acute poisoning, the duration of which is different and depends on the toxicokinetic characteristics of the given toxic substance. The longest duration of this phase and, consequently, the duration of antidote therapy is observed in case of poisoning with heavy metal compounds (8-12 days), the shortest - when exposed to the body of highly toxic and rapidly metabolized compounds (cyanides, chlorinated hydrocarbons, etc.).

2. Antidote therapy is highly specific and therefore can be used only if there is a reliable clinical and laboratory diagnosis of this type of acute intoxication. Otherwise, if an antidote is erroneously administered in a large dose, its toxic effect on the body may appear.

3. The effectiveness of antidote therapy is significantly reduced in the terminal stage of acute poisoning with the development of severe disorders of the circulatory system and gas exchange, which requires the simultaneous implementation of the necessary resuscitation measures.

4. Antidote therapy plays a significant role in the prevention of conditions of irreversibility in acute poisoning, but does not have a therapeutic effect in their development, especially in the somatogenic phase of diseases.

Among the numerous drugs proposed at different times and by different authors as specific antidotes (antidotes) for acute poisoning with various toxic substances, 4 main groups can be distinguished.

1. Drugs,affecting the physico-chemical state of a toxic substance in the gastrointestinal tract (chemical antidotes of contact action). Numerous chemical antivenoms have now practically lost their value due to a sharp change in the "nomenclature" of chemicals that cause poisoning, and significant competition from methods of accelerated evacuation of poisons from the stomach using gastric lavage. Gastric lavage is the simplest, always available and reliable way to reduce the resorption of toxic substances in the oral route of their intake. The use of activated carbon as a non-specific sorbent retains its importance, 1 g of which absorbs up to 800 mg of morphine, 700 mg of barbital, 300-350 mg of other barbiturates and alcohol. In general, this method of treating poisoning is currently classified as a group of artificial detoxification methods called "gastrointestinal sorption".

2. Drugs that have a specific physical and chemical effect on toxic substances in the humoral environment of the body (chemical antidotes of parenteral action). These drugs include thiol compounds (unithiol, mecaptide) used to treat acute poisoning with heavy metals and arsenic compounds, and chelating agents (EDTA salts, tetacin) used to form non-toxic compounds (chelates) in the body with salts of certain metals (lead, cobalt, cadmium, etc.).

3. Drugs that provide a beneficial change in the metabolism of toxic substances in the body or the direction of biochemical reactions in which they participate. These drugs do not affect the physicochemical state of the toxic substance itself. This most extensive group is called “biochemical antidotes”, among which cholinesterase reactivators (oximes) are currently most clinically used for poisoning with FOS, methylene blue for poisoning with methemoglobin formers, ethyl alcohol for poisoning with methyl alcohol and ethylene glycol, nalorphine for poisoning opium preparations, antioxidants - in case of carbon tetrachloride poisoning.

4. Drugs that have a therapeutic effect due to pharmacological antagonism with the action of toxic substances on the same functional systems of the body (pharmacological antidotes). In clinical toxicology, the most widely used pharmacological antagonism is between atropine and acetylcholine in case of FOS poisoning, between prozerin and pachycarpine, potassium chloride and cardiac glycosides. This allows you to stop many of the dangerous symptoms of poisoning with these drugs, but rarely leads to the elimination of the entire clinical picture of intoxication, since the indicated antagonism is usually incomplete. In addition, drugs - pharmacological antagonists, due to their competitive action, must be used in large enough doses to exceed the concentration in the body of a toxic substance.

Biochemical and pharmacological antidotes do not change the physicochemical state of the toxic substance and do not come into contact with it. However, the specific nature of their pathogenetic therapeutic effect brings them closer to the group of chemical antidotes, which makes it possible to use them in a complex called “specific antidote therapy”.

Application detoxification methods for chronic poisoning has its own characteristics, which depend on the peculiar conditions for the formation of chronic diseases in this pathology.

First, since the deposition of toxic substances is usually observed in chronic poisoning, i.e., their strong connection with organic or inorganic structures of cells and tissues, their removal from the body is extremely difficult. At the same time, the most common methods of accelerated cleansing of the body, such as hemodialysis and hemosorption, are ineffective.

Secondly, the main place in the treatment of chronic poisoning is occupied by the use of drugs that affect the xenobiotic that has entered the body and its metabolic products, that is, a kind of chemotherapy that has a toxic agent as its main object of action. As part of this therapy, two main groups should be distinguished: specific antidote detoxification agents and drugs for nonspecific, pathogenetic and symptomatic therapy.

The first group includes complexing compounds - salts of aminoalkylpolycarboxylic acids (tetacin and pentacin), effective in poisoning with lead, manganese, nickel, cadmium, and salts of aminoalkylpolyphosphonic acids (phosphycin and pentafoscin), accelerating the excretion of beryllium, uranium, lead. In addition, dithiols (unithiol, succimer, penicillamine) show their protective properties in chronic poisoning with mercury, arsenic, lead, cadmium.

In the action of all complexing compounds there is much in common, associated with their selective ability to chelate (capture) and remove many toxic metals and metalloids in a bound form with urine. To do this, they are used for a long time (1-2 months) in repeated courses, which leads to a decrease in the content of these substances in the body and, as a result, symptoms of poisoning.

The second group includes numerous drugs that are widely used for general detoxification therapy for various diseases. So, courses of treatment with ascorbic acid reduce the manifestation of the toxic effects of certain metals - lead, chromium, vanadium; B vitamins with glucose - chlorinated hydrocarbons, etc. In case of manganese intoxication with parkinsonism syndrome, L-dopa is successfully used, as a result of which the formation of norepinephrine increases in patients, muscle tone, gait, and speech improve.

A feature of the clinical use of these drugs is the need for their long-term use in repeated courses.

100 r first order bonus

Choose the type of work Graduation work Term paper Abstract Master's thesis Report on practice Article Report Review Test work Monograph Problem solving Business plan Answers to questions Creative work Essay Drawing Compositions Translation Presentations Typing Other Increasing the uniqueness of the text Candidate's thesis Laboratory work Help on-line

Ask for a price

The main methods of detoxifying the body.

1. Methods to enhance the natural detoxification of the body:

Gastric lavage;

Purgation;

forced diuresis;

Therapeutic hyperventilation.

2. Methods of artificial detoxification of the body

intracorporeal:

peritoneal dialysis;

Intestinal Dialysis;

Gastrointestinal sorption.

extracorporeal:

Hemodialysis;

hemosorption;

Plasmasorption;

Lymphorrhea and lymphosorption;

Blood replacement;

Plasmapheresis.

3. Methods of antidote detoxification:

chemical antidotes:

contact action;

Parenteral action;

biochemical:

pharmacological antagonists.

Methods for enhancing the natural detoxification of the body.

In case of poisoning with caustic liquids, a spontaneous or artificially induced act of vomiting is undesirable, since the repeated passage of acid or alkali through the esophagus can increase the degree of its burn. There is another danger, which is to increase the likelihood of aspiration of caustic fluid and the development of a severe burn of the respiratory tract. In a state of coma, the possibility of aspiration of gastric contents during vomiting also increases significantly.

In some cases, gastric lavage is refused if a lot of time has passed since the poison was taken. However, if the stomach was not washed, then at autopsy, even after a long time after poisoning (2-3 days), a significant amount of poison is found in the intestine. In case of severe poisoning by narcotic poisons, when patients are unconscious for several days, it is recommended to wash the stomach every 4-6 hours.

The value of the method is very great, especially in the treatment of acute oral poisoning with highly toxic compounds such as chlorinated hydrocarbons (FOS). In severe poisoning with these drugs, there are practically no contraindications for emergency gastric lavage by the probe method, and it should be repeated every 3-4 hours until the stomach is completely cleansed of poisons. The latter can be established using a consistent laboratory-chemical analysis of the washing liquid. In case of poisoning with sleeping pills, if tracheal intubation at the prehospital stage is impossible for any reason, gastric lavage should be postponed until the hospital, where both measures can be performed.

Thus, the use of laxatives has no independent value as a method of accelerated detoxification of the body.

Any method of forced diuresis involves three main stages:

pre-water load,

Rapid administration of a diuretic

Replacement infusion of electrolyte solutions.

The peculiarity of the method is that when using the same dose of diuretics, a high diuresis rate (up to 20-30 ml / min) is achieved due to more intensive fluid administration during the period of the highest concentration of diuretics in the blood.

The high speed and large volume of forced diuresis, reaching 10-20 liters of urine per day, are fraught with the potential danger of rapid “washout” of plasma electrolytes from the body.

The method of forced diuresis is contraindicated in case of intoxication complicated by acute cardiovascular insufficiency (persistent collapse, circulatory disorders II-III degree), as well as in violation of kidney function (oliguria, azotemia, increased blood creatinine), which is associated with a low filtration volume. In patients older than 50 years, the effectiveness of the forced diuresis method is markedly reduced for the same reason.

Methods of artificial detoxification of the body.

Among the methods of artificial detoxification of the body, three fundamental phenomena can be distinguished on which they are based: dialysis, sorption and substitution.

The main process of adsorption in blood plasma is carried out by van der Waals forces, which are devoid of specificity. Therefore, the greatest sorption properties are possessed by proteins that have the largest total surface area of the total phase separation area - 8200 μm2 in 1 μm3 of blood.

There are biological, vegetable and artificial sorbents. Almost exclusive monopoly in the processes of biological sorption belongs to albumin.

The highest clearance of toxic substances is obtained in hypertonic dialysis solutions (350–850 mosm/l) due to the ultrafiltration created by them with the direction of the liquid flow (5–15 ml/min) towards the peritoneal cavity (“osmotic trap”). According to histological data, these hypertonic solutions do not lead to hydropia of the peritoneum and do not disturb the microcirculation processes taking place in it.

In case of poisoning with barbiturates and other toxic substances that have the properties of acids, a hypertonic dialysis solution (350-850 mosm / l) with an alkaline pH (7.5-8.4) is optimal.

It is possible to use disposable dialyzers that require a minimum amount of time to prepare them for work (practically during the time of sewing in an arteriovenous shunt, such devices are always ready for use).

The device is connected in patients with acute poisoning by the artery-vein method using a pre-sewn arteriovenous shunt in the lower third of one of the forearms.

A contraindication to the operation of early hemodialysis using these devices "artificial kidney" is a persistent drop in blood pressure below 80-90 mm Hg. Art.

In clinical practice, the operation of early hemodialysis has been most widely used for barbiturate poisoning: in 1 hour of hemodialysis, the same amount of barbiturates is excreted from the body as it is independently excreted in the urine in 25-30 hours.

The adsorbent surface is very large, usually reaching 1000 cm2/g. The degree of sorbability is determined by two factors: the polarizability of the molecule and its geometric characteristics.

The operation of hemosorption is carried out using a detoxifier of various designs, which is a portable mobile device with a blood pump and a set of columns with a capacity of 50 to 300 cm3 (Fig. 16). The device is connected to the patient's bloodstream through an arteriovenous shunt. The effectiveness of the operation is assessed by the dynamics of the clinical condition of the patient and the data of laboratory and toxicological studies.

In acute poisoning since the 40s, on the initiative of prof. O. S. Glozman (Alma-Ata) has become widely used blood replacement surgery (BSO). It was the first method of active artificial detoxification in wide clinical practice. It has been established that to completely replace the recipient's blood with the donor's blood, 10-15 liters are needed, i.e., an amount 2-3 times greater than the volume of circulating blood, since part of the transfused blood is constantly removed from the body during simultaneous bloodletting. Taking into account the difficulties in obtaining a large amount of blood necessary for the operation and the danger of an immunological conflict, OZK is used in clinical practice in much smaller volumes (1500-2500 ml). With the distribution of a toxic substance in the extracellular sector of the body (14 l), an OZK carried out in such a volume can remove no more than 10–15% of the poison, and with its distribution throughout the entire water sector (42 l), no more than 5–7%.

Antidote detox.

The therapeutic efficacy of these methods was strictly limited by the possibility of influencing the toxic substance in the gastrointestinal tract. Only relatively recently, 20-30 years ago, the possibility of using new biochemical antidotes, capable of influencing a toxic substance that is in the internal environment of the body: in the blood, parenchymal organs, etc., was discovered.

1. Antidote therapy retains its effectiveness only in the early toxicogenic phase of acute poisoning, the duration of which is different and depends on the toxicokinetic characteristics of the given toxic substance. The longest duration of this phase and, consequently, the duration of antidote therapy is observed in case of poisoning with heavy metal compounds (8-12 days), the shortest - when exposed to highly toxic and rapidly metabolized compounds (cyanides, chlorinated hydrocarbons, etc.).

Among the numerous drugs proposed at different times and by different authors as specific antidotes (antidotes) for acute poisoning with various toxic substances, 4 main groups can be distinguished.

1. Drugs that affect the physicochemical state of a toxic substance in the gastrointestinal tract (chemical antidotes of contact action). Numerous chemical antivenoms have now practically lost their value due to a sharp change in the "nomenclature" of chemicals that cause poisoning, and significant competition from methods of accelerated evacuation of poisons from the stomach using gastric lavage. Gastric lavage is the simplest, always available and reliable way to reduce the resorption of toxic substances in the oral route of their intake. The use of activated carbon as a non-specific sorbent, 1 g of which absorbs up to 800 mg of morphine, 700 mg of barbital, 300-350 mg of other barbiturates and alcohol, retains its importance. In general, this method of treating poisoning is currently classified as a group of artificial detoxification methods called "gastrointestinal sorption".

3. Drugs that provide a beneficial change in the metabolism of toxic substances in the body or the direction of biochemical reactions in which they participate. These drugs do not affect the physicochemical state of the toxic substance itself. This most extensive group is called “biochemical antidotes”, among which cholinesterase reactivators (oximes) are currently most clinically used in case of poisoning with FOS, methylene blue in case of poisoning with methemoglobin formers, ethyl alcohol in case of poisoning with methyl alcohol and ethylene glycol, narorphine in case of poisoning. opium preparations, antioxidants - in case of carbon tetrachloride poisoning.

Application detoxification methods for chronic poisoning has its own characteristics, which depend on the peculiar conditions for the formation of chronic diseases in this pathology.

In the action of all complexing compounds there is much in common, associated with their selective ability to chelate (capture) and remove many toxic metals and metalloids in a bound form with urine. To do this, they are used for a long time (1-2 months) with repeated courses, which leads to a decrease in the content of these substances in the body and, as a result, symptoms of poisoning.

The second group includes numerous drugs that are widely used for general detoxification therapy for various diseases. So, courses of treatment with ascorbic acid reduce the manifestation of the toxic effects of certain metals - lead, chromium, vanadium; B vitamins with glucose - chlorinated hydrocarbons, etc. In manganese intoxication with parkinsonism syndrome, L-dopa is successfully used, as a result of which the formation of norepinephrine increases in patients, muscle tone, gait, and speech improve.

A feature of the clinical use of these drugs is the need for their long-term use in repeated courses.

LIST OF ABBREVIATIONS.

AB - antibiotic

BP - blood pressure

ADP - adenosine diphosphate

AMP - adenosine monophosphate

ACE - angiotensin converting enzyme

ASA - acetylsalicylic acid

ATP - angiotensin receptors

ATP - adenosine triphosphoric acid

AH - acetylcholine

AChE - acetylcholinesterase

BA - bronchial asthma

b R - pain receptor

in / in - intravenously

i / m - intramuscularly

GNI - higher nervous activity

ANS - autonomic nervous system

GABA - γ - aminobutyric acid

GB - hypertension

GED - pigeon unit of action

BBB - blood-brain barrier

DHFK - dihydrofolic acid

DVP - duodenum

DNA - deoxyribonucleic acid

DOXA - dosoxycorticosterone acetate

DOPA - dopamine

EDRF - endothelial relaxing factor

GIT - gastrointestinal tract

IHD - ischemic heart disease

IVL - artificial lung ventilation

MI - myocardial infarction

KED - feline unit of action

KOS - acid-base state

PV - medicinal substance

ICE - frog action unit

LP - drug

HDL - high density lipoproteins

LDL - low density lipoproteins

VLDL - very low density lipoproteins

LDLP - intermediate density lipoproteins

LS - medicine

MAO - monoamine oxidase

MDP - manic-depressive psychosis

MPD - minimum pyrogenic dose

NA - narcotic analgesic

NNA - non-narcotic analgesics

NOC - nitroxoline

NSAIDs - non-steroidal anti-inflammatory drugs

OZK - blood replacement surgery

SARS - acute viral respiratory infection

BCC - volume of circulating blood

PABA - para-aminobenzoic acid

PAS - antiarrhythmic drugs

PASK - para-aminosalicylic acid

LPO - lipid peroxidation

POS - anticancer drugs

PSNS - parasympathetic nervous system

RNA - ribonucleic acid

t-RNA - transport ribonucleic acid

i-RNA - informational ribonucleic acid

SAA - sulfanilamide

SNS - sympathetic nervous system

SPVS - steroidal anti-inflammatory drugs

AIDS - Acquired Immune Deficiency Syndrome

CCC - force of heart contractions

CFS - Chronic Fatigue Syndrome

TAD - tricyclic antidepressants

THFA - tetrahydrofolic acid

TMP - trimethoprim

PDE - phosphodiesterase

FOS - organophosphorus compounds

CRF - chronic renal failure

CHF - chronic heart failure

cAMP - cyclic adenosine monophosphate

CNS - central nervous system

COX - cyclooxygenase

NPV - frequency of respiratory movements

HR - heart rate

EDTA - ethylenediaminetetraacetic acid

EPS - electrical conduction of the heart

EEG - electroencephalogram

GU - gastric ulcer

Chapter V. DISEASES ASSOCIATED WITH THE EXPOSURE OF SOME FACTORS

Basic principles and methods of treatment of acute poisoning

The number of substances that can cause acute poisoning is incredibly large. These include industrial poisons and poisons used in agriculture (for example, insecticides, fungicides, etc.), household substances, medicines, and many others. In connection with the rapid development of chemistry, the number of toxic compounds is constantly growing, and at the same time the number of cases of acute poisoning is increasing.

Despite the variety of toxic substances and the difference in their effect on the body, it is possible to outline general principles for the treatment of acute poisoning. The importance of knowledge of these principles is especially great in the treatment of poisoning by an unknown poison.

The general principles of the treatment of acute poisoning provide for the impact on the body, taking into account the etiological, pathogenetic and symptomatic therapy. Based on this, the following goals are envisaged in the treatment of acute poisoning:

The fastest removal of poison from the body.
Neutralization of poison or products of its transformation in the body. antidote therapy.
Elimination of individual pathological phenomena caused by poison:
- restoration and maintenance of vital body functions - central nervous system, blood circulation, respiration;
- restoration and maintenance of the constancy of the internal environment of the body;
- prevention and treatment of lesions of individual organs and systems;
- elimination of individual syndromes caused by the action of the poison.
Prevention and treatment of complications.

The implementation of the entire complex of these measures in case of poisoning gives the best therapeutic effect. However, it should be borne in mind that in each individual case the significance of each principle in the treatment of intoxication is not the same. In some cases, the main event (and sometimes it may be the only one) is the removal of poison from the body, in others - antidote therapy, in the third - maintaining the vital functions of the body. The choice of the main direction in treatment largely determines the outcome of intoxication. It is determined by many factors. What matters here is the nature of the poison itself and the time elapsed from the moment of poisoning to the provision of assistance, the state of the poisoned person, and much more. In addition, it is necessary to pay attention to a number of features in the treatment of intoxication, depending on the ways in which the poison enters the body. A significant impact on the outcome of intoxication is also provided by the timely prevention and treatment of complications that often occur in case of poisoning.

General measures for the intake of poison through the mouth

In the complex treatment of oral poisoning, great importance is attached to the removal of poison from the body. Schematically, it can be divided into:

removal of unabsorbed poison from the body (removal from the gastrointestinal tract) and
removal of absorbed poison from the body (removal of poison from the blood and tissues).

Removal of unabsorbed poison from the body. Removal of poison from the stomach is achieved by gastric lavage (probe and tubeless methods) and induction of vomiting. Gastric lavage is a simple and at the same time highly effective medical procedure. In the early stages of poisoning, gastric lavage can remove most of the poison taken and thus prevent the development of severe intoxication. The outcome of poisoning often depends not so much on the toxicity and amount of poison taken, but on how timely and fully the gastric lavage was carried out. Gastric lavage is usually carried out using systems: gastric tube - funnel or gastric tube (2), funnel (1), connecting rubber (3) and glass (4) tubes (Fig. 16, a and b). The procedure is based on the siphon principle. Wash water flows out of the stomach only if the funnel with liquid is located below its location. With the help of these systems, washing is carried out quite easily if there are no food residues and mucus in the stomach.

Otherwise, when they enter the probe, they close its lumen in the form of a plug or valve. To restore the lumen in the probe, an additional introduction of fluid into the stomach is required. This greatly lengthens the procedure time and often leads to overflow of the stomach with water and vomiting. If the poisoned person is unconscious, the wash water can be aspirated and cause serious complications. We (E.A. Moshkin) proposed the third version of the system for gastric lavage, as well as the device for gastric lavage. In the system (Fig. 16, c), instead of a glass connecting tube, a tee (4) is included, on the free end of which an elastic rubber pear (5) is put on. If during the procedure a "plug" is formed in the system, then it is easily removed. It is enough just to pinch the tube (3) with the fingers of one hand, and with the other to squeeze and unclench the rubber bulb (5). In this case, additional positive and negative pressure is created and, together with the water jet, the "plug" is removed from the system. The device of our design for gastric lavage is used in stationary conditions. The principle of operation of the device is based on the active suction of gastric contents and lavage water using a vacuum pump.

Warm water is used to wash the stomach. In some cases, solutions of potassium permanganate (0.01-0.1%), solutions of weak acids and alkalis, etc. are also used.

Washing should be plentiful (8-20 liters or more). It stops as clean washing water appears and the smell of poison disappears. Gastric lavage is especially effective if carried out in the first hours after poisoning. However, it is advisable to carry it out at a later date (6-12 and even 24 hours).

When gastric lavage, a patient in a coma should be aware of the possibility of aspiration of lavage water and the introduction of a probe into the respiratory tract.

To avoid these complications, the poisoned person should be in a position on his side; the probe is inserted through the lower nasal passage or through the mouth. Before introducing liquid into the stomach, it is necessary to make sure that the probe is inserted correctly (when it is inserted into the airways, breathing noises are heard at the outer opening of the probe).

With a sharp weakening of external respiration, it is advisable to intubate the poisoned person before the procedure.

Tubeless gastric lavage is less effective. It can be used in self-help and in case of simultaneous poisoning of a large group of people. The victim drinks 1-2-3 glasses of warm water, causing vomiting.

Removal of poison from the intestines is achieved by the introduction of saline laxatives - sulfate salts of sodium and magnesium (25-30 g in 400-800 ml of water), as well as the appointment of cleansing and high siphon enemas.

Adsorption and neutralization of poison. The best adsorbing agent is activated carbon (carbolene). It well adsorbs alkaloids, glucosides, toxins, bacteria and some poisons. Adsorbing properties (but to a lesser extent than coal) are also white clay and burnt magnesia. Adsorbents are used as a suspension in water (2-4 tablespoons per 200-400 ml of water) immediately after gastric lavage.

Burnt magnesia also has a laxative effect. In addition, it is also used as a neutralizer for acid poisoning.

To remove adsorbed poison from the intestines, a saline laxative is prescribed together with the adsorbent or after its administration.

In order to form sparingly soluble compounds, tannin is prescribed. Its use is indicated for poisoning with alkaloids and some poisons. For gastric lavage, 0.2-0.5% tannin solution is used; inside, a 1-2% solution is applied in a tablespoon after 5-10-15 minutes.

Enveloping substances delay absorption and protect the gastric mucosa from cauterizing and irritating poisons. Egg white, protein water (1-3 egg whites per 7 g - 1 liter of water, milk, mucous decoctions, jelly, liquid starch paste, jelly, vegetable oils) are used as enveloping substances.

Removal of absorbed poison from the body is achieved by using methods that promote the natural removal of poison from the body (by the kidneys, lungs), as well as with the help of some auxiliary methods of extrarenal cleansing of the body (methods of blood replacement, dialysis, etc.).

Acceleration of the excretion of poison by the kidneys is carried out using the method of forced diuresis. The latter can be done with

water load [show] With relatively mild intoxications, drinking alkaline mineral waters, tea, etc. (up to 3-5 liters per day) is prescribed. In severe intoxications, as well as in the presence of poisoned diarrhea and vomiting, parenteral administration of isotonic solutions of glucose and sodium chloride up to 3-5 liters per day is indicated. To maintain electrolyte balance, it is advisable to add 1 g of potassium chloride for each liter of solution.
Water loading gives a relatively small increase in diuresis. To enhance it, diuretics (novurite, lasix, etc.) can be prescribed.
plasma alkalization [show]
Plasma alkalization produced by the introduction into the body of bicarbonate or sodium lactate. Both substances are administered in the form of 3-5% solutions up to 500-1000, sometimes more than ml per day. Sodium bicarbonate can be taken orally 3-5 g every 15 minutes in the first hour and then every 2 hours for 1-2 days or more.
Alkalinization of plasma should be carried out under the control of acid-base balance. Alkaline therapy is especially indicated for intoxications accompanied by acidosis. The most significant acceleration of diuresis is achieved by the use of osmotically active substances.
the appointment of diuretics and substances that cause osmotic diuresis [show]
Osmotic diuresis. The substances of this group include urea, mannitol, etc. Simultaneously, along with these substances, electrolyte solutions are also introduced. They can be of the following composition: sodium bicarbonate - 7.2; sodium chloride - 2.16; potassium chloride - 2.16; glucose - 18.0; distilled water - 1000 ml.
In order to increase diuresis, lyophilized urea is also used - urogluk (30% urea solution in 10% glucose solution). The solution is injected within 15-20 minutes at the rate of 0.5-1.0 g of urea per 1 kg of the patient's weight. Before treatment with urogluc, premedication is carried out (1000-1500 ml of 4% sodium bicarbonate solution is injected within 2 hours). Subsequently, after the introduction of urogluk, an electrolyte solution is prescribed in an amount equal to the excreted urine for the previous hour.
Mannitol is used in the form of a 20% solution, intravenously, up to 100 ml per treatment in combination with the introduction of an electrolyte solution.
Treatment with osmotic active substances is carried out under the control of diuresis, electrolyte balance and acid-base balance.
To accelerate the removal of poison from the body, low molecular weight synthetic drugs can also be used - polyglucin, polyvinol, etc.
The use of the forced diuresis method is contraindicated in heart and kidney failure, pulmonary edema and cerebral edema.

In recent years, methods of extrarenal cleansing have been successfully used to accelerate the removal of poison from the body. These include various types of dialysis: hemodialysis, peritoneal, gastrointestinal, as well as exchange-replacing blood transfusion and the use of ion exchange resins.

The most effective method for removing absorbed poison from the body is hemodialysis, carried out using the "artificial kidney" apparatus. Somewhat inferior to him peritoneal dialysis.

These methods can remove dialyzing poisons from the body (barbiturates, alcohols, chlorinated hydrocarbons, heavy metals, etc.). The earlier the dialysis operation is performed, the more you can count on the best treatment effect.

At a later date, these methods are used in acute renal failure.

Contraindications for the use of "artificial kidney" is cardiovascular insufficiency; for peritoneal - the presence of an infectious focus in the abdominal cavity.

Method gastrointestinal dialysis carried out by irrigation of the mucous membrane of the stomach and large intestine. In their implementation, these methods are simple, but their therapeutic effectiveness is relatively low. They can have a noticeable positive effect on the release of poison from the body only in cases where the poison is actively excreted by the gastric mucosa from the intestines (poisoning with morphine, methanol, etc.). Gastrointestinal dialysis can also be used in acute and chronic renal failure.

Irrigation of the gastric mucosa (gastric irrigation) is carried out either with the help of paired duodenal probes (N. A. Bukatko), a paired duodenal and thin gastric probe, or a single two-channel probe.

To perform the procedure, isotonic solutions of sodium chloride, soda (1-2%), etc. are used.

In many poisonings, especially in case of intoxication with salts of heavy metals, irrigation of the colonic mucosa (intestinal irrigation method) can have a significant effect on the elimination of poison from the body.

To perform this procedure, we (E. A. Moshkin) proposed a special system (Fig. 17). The dialysis fluid enters the large intestine through the tube (1), and exits through the thick gastric tube (2), the tee (3) and the tube (4).

Before intestinal irrigation, a cleansing or siphon enema is given.

Blood replacement operation. May be partial or complete. With a partial exchange transfusion, bloodletting is done in a volume of 500-1000-2000 ml or more. Bloodletting and blood injection can be carried out simultaneously or sequentially.

During the operation of complete blood replacement, 8-10 or more liters of donor blood are required.

The following indications serve for the operation of blood replacement: severe intoxication (the presence in the blood of one or another amount of poison or its transformation products), intravascular hemolysis, acute anuria of nephrogenic origin (poisoning with dichloroethane, carbon tetrachloride, ethylene glycol, sublimate, etc.). To accelerate the excretion of volatile substances from the body, they resort to techniques that enhance ventilation of the lungs (artificial hyperventilation of the lungs, assisted breathing, etc.).

General measures for inhalation poisoning

Poisoning can occur by inhalation of toxic fumes, gases, dust, mist.

Regardless of the inhaled poison, the following measures should be taken in first aid and treatment:

Remove the victim from the poisoned area.
Release from clothing (remember the adsorption of poison by clothing).
In case of possible contact with the poison on the skin, perform partial and then complete sanitization.
In case of irritation of the mucous eyes, wash the eyes with a 2% solution of soda, isotonic sodium chloride solution or water; for pain in the eyes, a 1-2% solution of dicaine or novocaine is injected into the conjunctival sac. Put on goggles.
In case of irritation of the mucous membranes of the respiratory tract with poisons, it is recommended to rinse the nasopharynx with a solution of soda (1-2%) or water, as well as inhalation of an anti-smoke mixture, inhalation with aerosols of novocaine (0.5-2% solution), alkaline steam inhalations. Inside are appointed - codeine, dionin. In case of bronchospasm, antispasmodic substances (eufillin, isadrin, ephedrine, etc.) are added to solutions for aerosol therapy.
In the presence of laryngospasm, atropine (0.1% -0.5-1 ml) is administered subcutaneously, alkaline steam inhalations; in the absence of effect, intubation or tracheotomy is performed.
With a sharp irritation of the mucous membranes of the respiratory tract, drugs (promedol, pantopon, morphine) can be used.
When breathing stops, give artificial respiration.

Neutralization of poison and products of its transformation
Antidote therapy

In some poisonings, a positive therapeutic effect occurs as a result of a specific detoxification effect of medicinal substances. The mechanism of detoxification action of these substances is different. In some cases, detoxification occurs as a result of a physicochemical reaction between the poison and the injected substance (for example, adsorption of the poison by activated carbon), in others - chemical (neutralization of acids with alkalis and, conversely, the translation of the poison into sparingly soluble and low-toxic compounds, etc.), in the third - due to physiological antagonism (for example, in case of poisoning with barbiturates, analeptics are administered, and vice versa).

In the treatment of poisoning, great importance is attached to specific antidotes. Their therapeutic effect is associated with the competing action of the poison in the biochemical systems of the body, the struggle for "points of application of the poison", etc.

In the complex treatment of some poisonings (poisoning with FOS, cyanides, etc.), antidote therapy plays a leading role. Only with its use can one count on a favorable outcome in the treatment of this kind of intoxication.

Recovery and maintenance of vital functions

Respiratory disorders

The pathogenesis of respiratory disorders in intoxication is complex and varied. For this reason, the treatment of these disorders is also different.

Violation of the functions of the respiratory organs can occur as a result of direct or indirect effects of the poison on the nervous system (poisons of depressant action, nerve paralytic, convulsive, etc.), or on the respiratory organs (toxic substances of asphyxiating and irritating action).

When exposed to poisons that depress the nervous system (hypnotics, narcotic poisoning, etc.), respiratory distress is associated with paralysis (paresis) of the respiratory center. In such cases, restoration of breathing with a relatively mild degree of intoxication can be achieved by the following means:

reflex action, by inhaling ammonia vapors, vigorously rubbing the skin, irritating the posterior pharyngeal wall, stretching the tongue;
the use of analeptics - cordiazol, cordiamine, caffeine, lobelin, cytiton, bemegride, etc.

In case of poisoning with sleeping pills, cordiamine, corazole and caffeine are administered in doses exceeding single pharmacopoeial doses by 2-3 times, and daily doses - by 10 or more times. The best effect of treatment is observed with intravenous administration of analeptics. Lobelin and cytiton are administered only intravenously, by jet. It should be borne in mind that the effect of the last two drugs on the body is short, often ineffective, and in some cases not safe (after excitation, paralysis of the respiratory center may occur).

Recently, in case of poisoning with sleeping pills, bemegride has been successfully used, which is administered intravenously, slowly (but not drip) in the form of a 0.5% solution of 10 ml. Injections are repeated (3-6 times) every 3-5 minutes until a positive reaction occurs (improvement of breathing, the appearance of reflexes, and in mild cases of intoxication - until awakening).

It should be noted that analeptics can have a noticeable positive effect only with relatively mild intoxications. In severe forms of poisoning, accompanied by significant inhibition of the respiratory center, their introduction is unsafe (respiratory paralysis may occur). In this case, preference is given to maintenance therapy - mechanical ventilation.

In case of poisoning with morphine and its derivatives, along with the development of a coma, respiratory distress also occurs quite quickly. In the treatment of this group of poisons, the new drug N-allylnormorphine (Anthorfin) is of great importance. It is used intravenously, intramuscularly or subcutaneously at 10 mg.

After the introduction of anthorphine, breathing improves noticeably and consciousness clears up. With insufficient effectiveness - after 10-15 minutes, the dose is repeated. The total dosage should not exceed 40 mg.

Restoration and maintenance of breathing is possible only if sufficient airway patency is maintained. In case of poisoning, impaired patency may be due to retraction of the tongue, accumulation of secretions, laryngo- and bronchospasm, laryngeal edema, as well as aspiration of vomit, foreign bodies, etc.

Impaired airway patency quickly leads to hypoxia, significantly worsens the course of intoxication and can be the direct cause of death. That is why it is necessary to quickly establish the cause of the airway obstruction and eliminate it.

Retraction of the tongue is most often observed in poisoned people who are in a coma. If such a victim tilts his head back as much as possible, then the possibility of falling of the tongue is eliminated and better conditions are created for the patency of the airways. The possibility of falling tongue also decreases with the position of the patient on his side.

The most reliable way to prevent this phenomenon is to use an air duct (oral or nasal). In some cases, it is necessary to use intubation, especially if breathing is sharply weakened and there may be a need for artificial ventilation of the lungs, suction of secretions from the respiratory tract, etc.

The accumulation of secretion in the airways also occurs in coma. This is facilitated by a violation of the drainage function of the tracheobronchial tree and hypersecretion of its glands. Suction is carried out with catheters or special tubes using a vacuum pump. The most perfect suction of mucus is achieved through an endotracheal tube or tracheostomy. If necessary, the procedure is repeated every 30-60 minutes.

Laryngospasm can occur reflexively when exposed to respiratory organs of irritating poisons or mechanical stimuli (foreign bodies, vomit, etc.), with reflex irritation coming from other organs, as well as as a result of disorders of the nervous system (pharmacodynamic laryngospasm and from hypoxia) .

Treatment consists in eliminating the causes of laryngospasm in the blockade of reflexogenic zones (aerosol inhalation of 1-2% novocaine solution), intramuscular injection of atropine (0.1% solution of 0.5-1 ml). With complete and persistent laryngospasm, the use of muscle relaxants, intubation and the transition to artificial respiration are indicated. In some cases, a tracheotomy is performed.

With bronchospasm, antispasmodic substances (eufillin, ephedrine, mezaton, atropine, etc.) are used parenterally or inhaled in the form of aerosols. If bronchospasm is caused by irritating substances, then it is advisable to simultaneously carry out inhalation with novocaine aerosols (0.5-2% solution).

Laryngeal edema occurs either as a result of the direct action of the poison, or as a result of an allergic reaction (idiosyncrasy) to a particular substance (antibiotics, novocaine, protein preparations, etc.). In the first case, most often it is necessary to resort to tracheotomy, in the second - to the introduction of atropine, diphenhydramine subcutaneously and calcium chloride (or calcium gluconate), prednisolone intravenously.

With swelling of the larynx of an infectious nature, antibiotics are additionally prescribed. Inhalation of aerosol solutions of adrenaline (0.1%), ephedrine (5%), or the introduction of these substances intramuscularly may be useful.

With a sharp weakening or cessation of breathing (regardless of the cause that causes it), artificial respiration is performed.

Circulatory disorders

Such disorders appear either in the form of predominantly acute vascular insufficiency (collapse, shock, fainting), or acute heart failure. Assistance is provided according to general principles.

Acute vascular insufficiency most often occurs due to a disorder of the central (rarely peripheral) regulation of vascular tone. Its pathogenesis is based on the discrepancy between the reduced amount of circulating blood and the increased volume of the vascular bed. This leads to a decrease in blood flow to the heart and, accordingly, to a decrease in minute volume.

In severe cases, the so-called capillaropathy, accompanied by an increase in the permeability of the vascular wall, plasmorrhea, stasis and thickening of the blood, joins these mechanisms.

To restore the disturbed balance in the circulatory system, it is necessary to achieve a decrease in the volume of the vascular bed and an increase in the mass of circulating blood. The first is achieved by the use of agents that increase vascular tone, the second - by the introduction of fluids into the vascular bed.

To increase vascular tone, tonic agents (norepinephrine, mezaton and ephedrine) and analeptics (cordiamin, corazole, caffeine, etc.) are used. Recently, steroid hormones have been successfully prescribed (prednisolone 60-120 mg intravenously, hydrocortisone up to 120 mg intramuscularly and intravenously).

To increase the mass of circulating blood, physiological solutions of sodium chloride and glucose, plasma, plasma substitutes, blood, etc. are administered. -40% 20-40 ml). These solutions contribute to the retention of fluids in the bloodstream. Large molecular synthetic plasma substitutes (polyglucin, polyvinyl, etc.) are well retained in the bloodstream.

Ascorbic acid, serotonin, calcium chloride, etc. are used to seal the vascular wall and reduce its permeability.

In case of shock (for example, in case of poisoning with acids, alkalis), in addition to the above measures, treatment should be aimed at lowering the excitation of the central nervous system, eliminating or reducing impulses emanating from damaged areas.

Acute heart failure develops with many poisonings, either as a result of the direct action of the poison on the heart muscle, or indirectly (for example, due to the development of hypoxia). The pathogenesis of heart failure is based on a decrease in myocardial contractility, which leads to a decrease in the minute volume of blood, a slowdown in blood flow, an increase in the mass of circulating blood and the development of hypoxia.

In the treatment of acute heart failure, fast-acting glycosides are of great importance: strophanthin, corglicon. In some cases, rapid diuretics (novuritis, lasix, etc.), bloodletting, etc. can provide significant assistance in heart failure. Oxygen therapy is also widely used.

With metabolic disorders in the heart muscle, cocarboxylase, as well as drugs such as ATP, MAP, etc., can have a beneficial effect.