RU2486929C1 - Method for reducing blood loss - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, specifically to physiotherapy, surgery, and traumatology. The method involves placing a pair of oppositely charged electrodes on the patient's body If observing an arterial bleeding, the electrodes are placed above a damage area in a projection of the artery causing bleeding in the specified area. The positive and negative electrodes are placed on the right and left from the blood flow direction in this artery respectively. If observing a venous bleeding, the electrodes are placed below the damage area in a projection of the vain causing bleeding in the specified area. The positive and negative electrodes are placed on the right and left from the blood flow direction in this vein respectively. A mixed bleeding requires the positive electrode to be placed above the damage area in a projection of the artery causing bleeding in the specified area, and a negative electrode to be placed below the damage area in a projection of the vein causing bleeding in the specified area.

EFFECT: method simplifies a bleeding reduction procedure.

3 ex

Description

The invention relates to medicine, namely to traumatology and surgery, and can be used to reduce blood loss in case of damage to the biological tissues of the patient due to trauma or surgery.

To reduce blood loss in clinical practice, methods are widely used based on the mechanical closure of damaged vessels, in particular by applying ligatures and flashing vessels [see, for example, RU 2317029], as well as methods based on placing hemostatic agents in the bleeding zone, in particular hemostatic sponges or napkins [see, for example, RU 2355342, RU 2336642].

However, methods based on the mechanical closure of blood vessels can be accompanied by traumatic tissue damage, and methods based on the use of hemostatic agents can cause allergic reactions.

Known methods for reducing blood loss, based on the impact on the hemostatic system of physical factors, in particular an electromagnetic field.

So, there is a method of reducing blood loss [RU 2434656], selected as the closest analogue.

The method under consideration includes creating an electromagnetic field near the zone of damage to biological tissues, in particular, using an electrode located at a distance of 1-2 mm from the bleeding zone included in the electric circuit, when an electric current flows through which a barrier discharge of a nonequilibrium plasma with temperature less than 45 ° C, amplitude 15-20 kV, frequency 5-10 kHz. Due to exposure to the bleeding zone with active chemicals, such as O ₃ , HO, H ₂ O ₂ , resulting from the barrier discharge of low-temperature plasma, the bleeding stops.

However, the considered method requires complex hardware design, providing the required parameters of the electric field.

The task of the invention is to simplify the method of reducing blood loss.

The essence of the claimed invention lies in the fact that in the method of reducing blood loss, including the creation of an electromagnetic field near the zone of damage to biological tissues, according to the invention, an electromagnetic field is created using a pair of oppositely charged electrodes that are placed on the patient’s body, while in case of arterial bleeding, the electrodes are higher damage zones in the projection of the artery causing bleeding in the specified zone, with positively and negatively charged electrodes They are placed respectively on the right and left relative to the direction of blood flow in the specified artery, in case of venous bleeding, the electrodes are located below the damage zone in the projection of the vein causing bleeding in the specified area, with positive and negatively charged electrodes placed respectively on the right and left relative to the direction of blood flow in the specified vein, in case of mixed bleeding, a positively charged electrode is located above the damage zone in the projection of the artery causing the bleeding in said zone, and a negatively charged electrode is located below the damaged area in the vein of the projection, causes bleeding in said zone.

In the particular case of carrying out the invention, the temperature of the electrodes is maintained in the range from -5 to + 15 ° C.

In the course of experimental studies, the author of the claimed invention found that with the above types of bleeding when applying oppositely charged electrodes on the surface of the patient’s body near the zone of damage to biological tissues, the bleeding caused by damage to biological tissues due to injury or surgery is minimized in the manner described above.

The effect of minimizing bleeding during the implementation of the proposed method may be due to the stabilizing effect on the hemostasis system of an electromagnetic field created using oppositely charged electrodes forming a galvanic pair.

As pairs of oppositely charged electrodes, for example, a molybdenum-based electrode and a magnesium-based electrode, a copper-based electrode and a magnesium-based electrode, a copper-based electrode and a zinc-based electrode and other pairs of electrodes can be used.

In particular, a pair of electrodes can be used, the first of which is made of copper-based material, and the second is made of zinc-based material. For example, electrodes described in RU 2160582 can be used, the first of which is made in the form of a hollow cylinder made of a material with a copper content of at least 99.7% filled with coal, and the second is made in the form of a hollow cylinder made of a zinc-containing alloy with a content of zinc of 95%, aluminum 4%, copper 1%, filled with magnetic iron ore.

As experiments have shown, when implementing the proposed method, in addition to minimizing bleeding, an analgesic effect is also achieved.

The advantage of the proposed method is the simplicity of its hardware design and the absence of complex manipulations during its implementation. Moreover, the method is atraumatic.

Thus, the technical result achieved by the implementation of the claimed invention is to simplify the method of reducing blood loss.

In the case when during the implementation of the proposed method maintain the temperature of the electrodes in the range from -5 to + 15 ° C, the effect of minimizing blood loss is manifested to a greater extent.

The method is as follows.

To implement the method using two oppositely charged electrodes. In particular, a pair of electrodes described in RU 2160582 can be used, the positively charged of which is made of copper-based material, and the negatively charged one is made of zinc-based material.

Pairs of oppositely charged electrodes are placed on the patient’s body as follows.

In case of arterial bleeding, the electrodes are located above the damage zone in the projection of the artery causing the bleeding in the specified zone, the positive and negatively charged electrodes being located on the right and left, respectively, with respect to the direction of blood flow in the specified artery.

In the case of venous bleeding, the electrodes are located below the damage zone in the projection of the vein causing bleeding in the specified zone, with positive and negatively charged electrodes located respectively on the right and left relative to the direction of blood flow in the specified vein.

In the case of mixed bleeding, a positively charged electrode is placed above the damage zone in the projection of the artery causing the bleeding in the specified zone, and a negatively charged electrode is placed below the damage zone in the projection of the vein causing the bleeding in the specified zone.

To maintain the selected position of the electrodes, they are fixed on the patient’s body, in particular, by hemming them under the skin.

To enhance the effect of minimizing bleeding, it is advisable to maintain the temperature of the electrodes in the range from -5 to + 15 ° C, in particular, by cooling them with ice.

The time spent by the electrodes on the patient’s body in the case of surgical intervention corresponds to the time of the operation, and in case of injury, the electrodes are left on the patient’s body until the bleeding stops.

It is advisable in the case of a planned surgical intervention in the framework of the preoperative preparation of the patient to impose a pair of oppositely charged electrodes near the proposed area of surgical intervention for 24 hours before the operation.

It is also advisable after the operation to move the electrodes and place them along the wound on its different sides. In this position, it is advisable to leave the electrodes for 6-48 hours.

The possibility of implementing the method is shown by examples of specific performance.

Example 1

Patient B., 65 years old, diagnosis: incised patchwork wound of the middle third of the left forearm with damage to the tendon-muscle part of the superficial and deep flexors from the second to fifth fingers, the long flexor of the first finger, ulnar and radial flexors of the hand, ulnar artery, ulnar nerve.

Used electrodes described in RU 2160582.

In order to stop arterial bleeding, two electrodes were placed in the projection of the ulnar artery above the damage zone, while in the direction of blood flow in the indicated artery, a positively charged copper-based electrode was placed on the right, and a negatively charged zinc-based electrode was placed on the left.

The electrodes were fixed in the indicated position by hemming them under the skin. The temperature of the electrodes was maintained in the range from -2 to -3 ° C.

A surgical operation was performed, during which the identified damaged structures were confirmed visually. Damaged structures are highlighted and stitched. No bleeding was noted during the operation.

At the end of the operation, these electrodes were moved without changing their relative left and right positions, placing them along the wound on both sides of it

The electrodes were fixed in the indicated position.

Leave the electrodes for 10 hours.

The temperature of the electrodes was maintained at about 0 ° C.

During treatment, healing was observed by primary intention without complications.

Example 2

Patient V., 23 years old, diagnosis: stab wound of the rear foot of the right foot, venous bleeding.

Used electrodes described in RU 2160582.

In order to stop venous bleeding, two electrodes were placed in the projection of the dorsal superficial vein of the foot below the damage zone, while in the direction of blood flow in the specified vein, a positively charged copper-based electrode was placed on the right, and a negatively charged zinc-based electrode was placed on the left.

After application of the electrodes, a stop of bleeding was observed.

A surgical operation was performed, during which the identified damaged structures were confirmed visually. Damaged structures are highlighted and stitched. No bleeding was noted during the operation.

At the end of the operation, these electrodes were moved without changing their relative left and right positions, placing them along the wound on both sides of it.

The electrodes were fixed in the indicated position.

Leave the electrodes for 6 hours.

The temperature of the electrodes was maintained at about 0 ° C.

During treatment, healing was observed by primary intention without complications.

Example 3

Patient K., 22 years old.

Diagnosis - comminuted fracture of the lower third of the left thigh with displacement.

Mixed (arterial-venous) bleeding.

Used electrodes described in RU 2160582.

In order to stop the bleeding, a positively charged electrode was placed in the projection of the femoral artery above the damage zone, and a negatively charged electrode was placed in the projection of the femoral vein below the damage zone.

After application of the electrodes, a stop of bleeding was observed.

A surgical operation was performed, during which the identified damaged structures were confirmed visually. Damaged structures are highlighted and stitched. No bleeding was noted during the operation.

At the end of the operation, these electrodes were placed along the wound on both sides of it so that, relative to the direction of blood flow into the arteries, a copper-based electrode was placed on the right, and a zinc-based electrode was placed on the left of the wound.

The electrodes were fixed in the indicated position and left them for 48 hours.

The temperature of the electrodes was maintained at about 0 ° C.

During treatment, healing was observed by primary intention without complications.

Claims (1)

A method of reducing blood loss, characterized in that a pair of oppositely charged electrodes are placed on the patient’s body, in the case of arterial bleeding, the electrodes are located above the damage zone in the projection of the artery causing the bleeding in the specified zone, the positive and negative electrodes being located respectively to the right and left blood flow directions in the specified artery; in case of venous bleeding, the electrodes are located below the damage zone in the projection of the vein causing the bleeding in the specified zone, the positive and negatively charged electrodes being located on the right and left, respectively, relative to the direction of blood flow in the specified vein; in the case of mixed bleeding, a positively charged electrode is placed above the damage zone in the projection of the artery causing bleeding in the specified zone, and a negatively charged electrode is placed below the damage zone in the projection of the vein that causes bleeding in the specified zone.