RU2292925C2 - Method for treating stenosing diseases of peripheral blood vessels - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves treating injured blood vessel projections with infrared laser radiation. The tissues supplied with blood by the blood vessels and hemopoietic organs are additionally exposed to remote or contact action of infrared laser radiation. Spongious bones of the sternum, iliac bones, sacral and vertebral column bones are used as the hemopoietic organs subjected to the action after having finished blood-supplied tissue treatment irrespective of injured peripheral blood vessels disposition. Only those spongious cerebral bones or middle metacarpal bones are treated, which are located in the injured peripheral blood vessels zone. They are treated concurrently with the blood-supplied tissue treatment. Injured blood vessel projections are treated in remote or contact mode over the 10-50 cm long segment at the points 0.5-1 cm distant from each other with exposure time of 1-4 s in each point. The tissues supplied with blood by the blood vessels are treated during 2-7 min in each area. Each hemopoietic organ is treated during 2-4 min in remote mode. Treatment in contact mode is applied to hemopoietic organs is concentrated in points being 1 cm far from each other, each area being treated during 2-5 min. Laser radiation of 5-10 W and 0.4-0.5 W are used in performing remote and contact treatment, respectively. The number of sessions is equal to 5-14.

EFFECT: enhanced effectiveness of treatment.

Description

The invention relates to medicine, more specifically to laser therapy and can be widely used in the treatment of stenotic diseases of peripheral vessels.

A known method of treating chronic arterial insufficiency of the lower extremities using low-intensity laser radiation (Krivikhin V.T., Osokin V.V. Laser therapy in the complex treatment of patients with thrombobliterative diseases of the vessels of the lower extremities. Actual issues of laser medicine and surgical endoscopy: Materials of the Third International Conference. Moscow-Vidnoe, May 30 - June 1, 1994, pp. 65-66), which consists in percutaneous irradiation with a semiconductor laser "Pattern" of biologically active points on the lower limbs with a capacity of 7 mW for each point with a frequency of 150 Hz, the duration of the session is 2 minutes, the treatment course is an average of 12 sessions.

However, the method is not effective enough, because clinical improvement mainly relates to general well-being, sleep, and pain reduction, and in patients with aortic-iliac segment occlusions, the clinical effect is insignificant or absent. Therefore, the use of the above method in patients with HANK is limited.

A known method of treating patients with obliterating diseases of the vessels of the lower extremities, which consists in daily exposure to low-intensity infrared laser radiation transcutaneous on the vascular bundle, femoral, popliteal arteries, autonomic ganglia of the lumbosacral, on the distal extremities in the presence of trophic ulcers or gangrene. The course of treatment lasts 15 days, and with III - IV degree of ischemia (according to the classification of A.V. Pokrovsky, 1976) - up to 30 days (article of the authors Tsyb A.F., Kaplan N.N. et al. In the journal “ Bulletin of the Russian Academy of Medical Sciences, 2003, (12), pp. 45-52). In this method, the ELAT semiconductor arsenide-galium laser therapeutic apparatus with pulsed injection of radiation is used as a source of infrared laser radiation. Its technical characteristics: wavelength 0.890 ± 0.2 μm, pulse duration not less than 50 ns, maximum pulse number not less than 5 W.

During laser therapy, along with the positive dynamics of clinical symptoms during ultrasound in the B-scan mode, a decrease in the size of atherosclerotic plaques, an increase in the lumen of the vessels, and an improvement in the state of vascular intima were observed. Dopplerograms showed a significant increase in the maximum BFV in the main vessels, an increase in the blood flow power, an increase in the systological peak with a clear differentiation of the component, and an increase in the Dopplerographic “window”.

However, the known method does not have any proper effect on the general metabolism, which reduces the effectiveness of the treatment. In addition, the laser radiation used in the known method allows it to penetrate into the tissues to a shallow depth, and an insignificant volume of these tissues is exposed, which does not provide proper stimulation of microcirculation and, as a result, the treatment efficiency is reduced.

Thus, the technical result, the solution of which the invention is directed, is to increase the effectiveness of the treatment of stenosing diseases of the peripheral vessels.

The specified technical result is achieved by the fact that in the known method for the treatment of stenosing diseases of peripheral vessels, which consists in exposure to laser radiation in the infrared wavelength range on the projection of the affected vessels, according to the invention, additionally, during the same session, remote or contact exposure to laser radiation in the infrared range is carried out waves on the tissues and blood-forming organs supplied to them by blood, some of the spongy bones are used as blood-forming organs, of which the spongy bones of the sternum, ilium, bones of the sacrum and spine are affected regardless of the location of the affected peripheral vessels and after exposure to the blood supply tissues, and the spongy bones of the skull, metacarpal bones and foot bones affect only those located in the affected area of the peripheral vessels, and the impact on them is carried out simultaneously with the impact on the blood supply tissue, the impact on the projection the infected vessels are carried out remotely or contact for 10-50 cm at points located 0.5-1.0 cm apart, with an exposure of 1-4 seconds per point, the blood supply to the tissue is carried out for 2-7 minutes for each area, the exposure time for each of the hematopoietic organs with remote exposure is 2-4 minutes, the contact effect on the hematopoietic organs is carried out at points located 1 cm apart, the exposure time for each area is 2-5 minutes , P For remote and contact exposure using laser radiation with a power of 5-10 W and 0.4-0.5 W, respectively, and the number of sessions in this case is 5-14.

It has been experimentally established that an additional remote or contact laser irradiation in the infrared wavelength range on the blood supply to the affected vessels of the tissue, as well as an additional remote or contact laser irradiation on the blood-forming organs: spongy bones of the sternum, ilium, bones of the sacrum and spine, as well as spongy bones located in the area of affected peripheral vessels: skull bones, or metacarpals, or bones of the foot, allows significantly vysit effectiveness of treatment of stenotic peripheral vascular disease.

According to the authors, it is the involvement of additional tissues and organs in the process of influence, and it is the claimed tissues and organs that provide a significant improvement in microcirculation, including in the walls of the affected vessels and, as a result, the improvement of metabolic processes.

The authors experimentally established that the additional laser irradiation of the claimed hematopoietic organs stimulates the release of stem cells from the bone marrow into the peripheral bloodstream and, thereby, significantly improves the reparative processes in the affected tissues. This is because stem cells are able to replace defects in damaged tissue, to differentiate to cells of this tissue, in addition, they serve as a source of a complex of biologically active substances.

Using the effects of laser radiation of the claimed modes on the claimed additional areas contributes to the involvement in the process of irradiation of tissues located at a greater than in the known method, depth and, as a result, a larger volume of these tissues, which ultimately contributes to an even greater degree to improve blood supply to the affected vessels, their microcirculation.

The authors experimentally established that it is the claimed laser radiation that improves blood flow, and this in turn provides additional oxygen to the tissues and, thereby, normalizes the flow of metabolic processes, reduces ischemia, and leads to the restoration of damaged vessels.

Moreover, it is the use of the inventive laser radiation and the impact on the claimed area allows you to achieve a persistent therapeutic effect that exceeds all known methods several times.

The inventive method is as follows.

Depending on the location of the irradiated areas, the patient is laid on his back or abdomen. In the supine position, the patient is given remote or contact exposure to laser radiation in the infrared wavelength range on the projection of the affected vessels and remote or contact exposure to laser radiation in the infrared wavelength range on the tissues and blood-forming organs supplied to them by blood.

Regardless of the location of the affected peripheral vessels, laser radiation is applied to the hematopoietic organs: spongy bones of the sternum, ilium, bones of the sacrum and spine.

Depending on the location of the affected peripheral vessels, they affect the blood-forming organs located in the area of the affected vessel, in particular the bones of the skull, or metacarpals, or bones of the foot.

The impact on the hematopoietic organs - the spongy bones of the sternum, the ilium, the bones of the sacrum and spine, is carried out in one session after exposure to the blood-supplying tissues, that is, during the first session blood-supplying tissues and then the blood-forming organs are exposed.

Impact on the blood-forming organs: spongy bones of the skull, metacarpal bones and bones of the foot, carry out simultaneously with the impact on the blood supply tissue.

The impact on the projection of the affected vessels is carried out remotely or contact. Contact (point) effect on the projection of the affected vessels is carried out by laser radiation in the infrared wavelength range with a power of 0.4-0.5 W for 1-4 seconds per point, over 10-50 cm, depending on the anthropometric parameters of the patient’s body and length affected vessels. The points that are affected are located at a distance of 0.5-1.0 cm from each other.

Remotely or contactly process blood-supplying tissue zones (soft tissues of limbs, muscles, subcutaneous fat, skin). In case of damage to the vessels of the lower extremities, blood-supplying tissues of the lower extremities are processed; in case of damage to the vessels of the upper body: upper limbs or skull, blood-supplying tissues of the upper limbs or skull are processed.

On the blood supply to these vessels, tissues are exposed for 2-7 minutes to each area.

Remote influence on hematopoietic organs is carried out from a distance of 1.0-40 cm from the skin surface with a fiber speed of 1.0-2.0 cm / s, while the total exposure time in each area is 2-4 minutes. The movement of the fiber during remote exposure is carried out either along the irradiated region, or in a zigzag fashion.

Contact action on the blood-forming organs is carried out at points located at a distance of 1-2 cm from each other, the exposure time at each point is 1-2 seconds, the total exposure time on each area is 2-5 minutes.

The power of laser radiation with remote exposure is 5-10 watts, with contact - 0.4-0.5 watts.

The impact of laser radiation on the spongy bones - sternum, ilium, metacarpal bones - is carried out with the patient on the back. On the trabecular bones: the spine, sacrum, calcaneus - in the position of the patient on the stomach. The number of sessions is 5-14.

The inventive method is confirmed by examples of specific performance.

Example 1. Patient G., 63 years old. Diagnosis: atherosclerosis obliterans. Stenosis of the branches of the aortic arch of the II degree.

Received with complaints of dizziness, headaches, increased blood pressure 190/105 mm Hg

The patient was treated with the claimed method.

In the supine position, laser radiation was applied in the infrared wavelength range:

1) contact on the projection of the carotid arteries on both sides for 12 cm at points with 1 cm increments by radiation with a power of 0.4 W in constant mode for 4 seconds per point.

2) contact on the blood supply to these arteries of the tissue to the points on the surface of the skull and simultaneously the spongy bones of the skull with laser radiation in the infrared wavelength range with a radiation power of 0.5 W for 2 seconds per point.

The total exposure time to the surface of the skull is 5 minutes.

3) remotely from a distance of 2 cm from the skin surface to the end of the fiber onto the projection of the sternum with a radiation power of 7 W in a constant mode by gradually moving the fiber from bottom to top, and then from top to bottom with a speed of 1 cm / sec for 2 minutes;

4) contact on the projection of the iliac bones on the points, laser radiation with a power of 0.5 W for 2 seconds per point. The exposure time to the irradiated area is 5 minutes.

In the supine position with laser radiation in the infrared wavelength range:

5) contact on the projection of the spongy bones of the sacrum, spine (from bottom to top) to the points with a laser radiation power of 0.5 W for 2 seconds for each point. The exposure time for each of the irradiated areas is 5 minutes.

The course of treatment is 10 sessions.

At discharge: no complaints. HELL 130/90 mm Hg

According to the USGD, a 5% improvement in blood flow through the carotid arteries was recorded.

Example 2. Patient X., 67 years old. Diagnosis: atherosclerosis obliterans. Stenosis of the branches of the aortic arch of the 1st art. Stenosis of the iliac arteries. Occlusion of the right femoral artery. Chronic ischemia II B Art. according to Fontaine. Diabetic angiopathy Type II diabetes mellitus.

Received with complaints of pain in the legs while walking 100 m in a calm step.

The patient was treated by the claimed method.

In the supine position with laser radiation in the infrared wavelength range:

1) contact (point) impact on the projection of the femoral vessels by radiation with a power of 0.5 W in a constant mode for 2 seconds per point for 25 cm on each side (total exposure length - 50 cm);

2) remotely from a distance of 1.5 cm with a radiation power of 6 W in a pulsed mode to the blood supply tissues of the foot from the back surface and simultaneously to the spongy bones of the foot for 2 minutes each in the direction from the fingers to the heel in zigzag movements with the speed of the fiber 1.5 cm / sec;

3) the contact effect on the sternum with a radiation power of 0.5 W at points located after 1 cm for 1 second for each point. The total time of exposure to the sternum is 2 minutes;

4) the contact effect on the iliac bones with a radiation power of 0.5 W at points located after 1 cm for 1 second for each point. The total time of exposure to the ilium is 2 minutes.

In the patient’s position on the abdomen, they were exposed to laser radiation in the infrared wavelength range:

5) remotely to the blood supply to the affected vessels of the tissue — the calf muscles — with a radiation power of 10 W in constant mode with zigzag movements of the fiber from the bottom up with a fiber speed of 1 cm / sec from a distance of 3 cm for 3 minutes;

6) the contact effect on the sacrum and spine (from bottom to top) with a radiation power of 0.4 W at points located after 1 cm for 1 second for each point. The exposure time for each of the irradiated areas is 2 minutes.

The course of treatment is 14 sessions.

Upon discharge, the distance of painless walking increased to 400 m with a calm step.

According to USGD, the improvement of blood flow in the iliac and femoral arteries is 5-7%.

Example 3. Patient W., 70 years old. Diagnosis: atherosclerosis obliterans. Stenosis of the subclavian artery on the right.

Received complaints of periodic cooling of the right hand, its chilliness.

The patient was treated with the claimed method.

In the supine position with laser radiation in the infrared wavelength range:

1) contact (point) on the projection of the subclavian, axillary, brachial arteries for 50 cm to the right, from a distance of 1 cm at points located at a distance of 0.5 cm with a radiation power of 0.4 W in a pulsed mode for 3 seconds per point;

2) on blood-supplying tissues: remotely from a distance of 1 cm from the skin surface to the end of the light guide onto the hand on the right side of the palmar surface and simultaneously on the spongy bones of the hand (metacarpal bones) with 5 W radiation in a continuous mode in the direction from the fingers to the wrist in zigzag movements with fiber travel speed of 1 cm / sec for 2 minutes;

3) remotely to the sternum from a distance of 2 cm by radiation with a power of 7 W for 2 minutes from bottom to top and then from top to bottom with a fiber speed of 1 cm / sec;

4) remotely on the ilium from a distance of 2 cm by 7 W radiation for 4 minutes from the bottom up and then from top to bottom with a fiber travel speed of 1 cm / sec.

In the supine position, exposure to laser radiation in the infrared wavelength range:

5) remotely on the spongy bones of the sacrum and spine from a distance of 2 cm by radiation with a power of 7 W for 4 minutes from top to bottom, bottom to top with a fiber speed of 1 cm / sec.

The course of treatment is 5 sessions.

When extracting signs of cooling, there is no chilliness of the right hand.

Example 4. Patient E. Age 49 years. Diagnosis: atherosclerosis obliterans. Stenosis of the arterial aortic arch I degree. Stenosis of the iliac arteries. Occlusion of the left femoral artery.

Received with complaints of pain in the legs while walking 150 m in a calm step.

The treatment of the claimed method.

In the supine position with laser radiation in the infrared wavelength range:

1) the contact effect on the projection of the femoral vessels with radiation power of 0.4 W in a constant mode for 2 seconds for each point for 20 cm on each side;

2) remotely from a distance of 1.0 cm by 7 W radiation in a pulsed mode to the blood supplying tissues of the foot from the back surface of the left limb and simultaneously to the spongy bones of the foot for 4 minutes to the irradiated area in the direction from the fingers to the heel in zigzag movements with a speed of movement optical fiber 1.5 cm / sec;

3) the contact effect on the sternum with 0.5 W radiation at points located after 1 cm for 1 second for each point. The total time of exposure to the sternum is 3 minutes;

4) the contact effect on the ilium by radiation with a power of 0.5 W at points located after 1.0 cm for 1 sec each point. The total exposure time is 2 minutes.

In the position of the patient lying on his stomach affected by laser radiation in the infrared wavelength range:

5) remotely to the blood supply to the affected vessels of the tissue — the calf muscle — by 7 W radiation in constant mode with zigzag movements of the fiber from the bottom up with a fiber speed of 1 cm / sec from a distance of 3 cm for 7 minutes;

6) the contact effect on the spongy bones of the sacrum and spine with 0.5 W radiation at points located after 1 cm for 1 second for each point. The exposure time for each of the irradiated areas is 3 minutes.

The course of treatment is 8 sessions.

Upon discharge, the distance of painless walking increased to 700 m with a calm step.

According to USGD, an improvement in blood flow in the iliac and femoral arteries by 10%.

Claims (1)

A method of treating stenosing diseases of peripheral vessels, which consists in irradiating laser radiation in the infrared wavelength range on the projection of the affected vessels, characterized in that they additionally carry out remote or contact laser radiation in the infrared wavelength range on the tissues and blood-forming blood supplying them during the same session organs, as hemopoietic organs, use part of the spongy bones, of which on the spongy bones of the sternum, ilium, bones of the arm tsza and a backbone influence irrespective of finding the location of the affected peripheral vessels and after effecting on blood-supplying tissues, and on the spongy bones of the skull, or metacarpals, or bones of the foot, they affect only those that are in the area of the affected peripheral vessels , while the effect on them is carried out simultaneously with the effect on the blood-supplying tissues, the effect on the projection of the affected vessels is carried out remotely or contact and over 10-50 cm at points located 0.5-1 cm apart from each other with an exposure of 1-4 s per point, the tissues supplied to them by blood are exposed for 2-7 minutes to each area, the exposure time is each of the hematopoietic organs with a remote action is 2-4 minutes, the contact effect on the hematopoietic organs is carried out at points located at a distance of 1 cm from each other, the exposure time for each area is 2-5 minutes, with remote and contact exposure using a laser of radiation power of 5-10 and 0.4-0.5 W, respectively, and the number of sessions in this case is 5-14.