RU2305573C2 - Method for stimulating stem cells exit from bone marrow into peripheral blood bed - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves applying multiple irradiation in infrared wavelength bandwidth with irradiation energy density equal to 15-40 J/cm² to spongious bones projection.

EFFECT: provided effective stem cells concentration within prolonged time interval.

4 cl

Description

The invention relates to medicine, in particular to hematology, and can find wide application in the normalization of metabolic processes.

Known substances that stimulate the migration of bone marrow stem cells into the bloodstream, such as choriogonin (see ed. St. USSR No. 799764, Mcl A61K 37/38, publ. 30.01.81), antitumor drugs (Muller-Nubling I. et all. Blut, B38, s. 175-179, 1979), polyanions, in particular dextran sulfate (Nothdurft W., The Hemopoietic stem cell. Universitats verlag Ulm, GmbH, 1990, s. 82-3 )

However, the use of these substances is quite harmful, since they violate the endoecology of the body, the consequences of which are not fully understood. In addition, these substances are quite toxic.

There is a method of blood enrichment with stem hematopoietic cells, selected as the closest analogue, which consists in a single exposure to the body in the form of mechanical microvibration with a continuously and smoothly changing frequency in the sound range of 0.03-18 kHz with a frequency variation period of 120 ± 40 s and an amplitude of 9 ± 3 μm, acting simultaneously and equally effectively for 10-15 minutes at 8-10 points along the center line of the spine, the last 4-6 minutes being carried out with frequency modulation with a period of 0.9 ± 0.4 s, and after 3- 4 hours blood is considered enriched with hematopoietic stem cells (see patent RU No. 2166924, IPC A61H 23/00, publ. 05.20.2001).

This method allows to reduce the toxic effect on the body due to non-invasive effects on it.

However, this method is not without drawbacks: in particular, it is quite complicated in execution, since it requires the simultaneous application of vibration immediately at 8-10 points.

In addition, this method is not effective enough, since, as noted by the developers themselves, with a single exposure in a known manner, the percentage of DM 34+ cells increases with a significant excess of the initial values by about 3 times 3-4 hours after exposure, and their further increase not marked.

Thus, the technical result, the solution of which the invention is directed, is to simplify the method and increase its efficiency.

The specified technical result is achieved by the fact that in the known method of stimulating the release of stem cells from the bone marrow into the peripheral bloodstream, which consists in exposing the projection of spongy bones containing red bone marrow by a physical factor, according to the invention, multiple infrared laser radiation is used as a physical exposure factor wavelength range with an energy density of irradiation of 15-40 J / cm ² .

In this case, laser radiation is applied to the sternum, sacroiliac region, ilium and sacrum, and bones of the vertebral region.

The number of laser exposure sessions is from 5 to 14.

And the impact is carried out contact or remotely.

The authors experimentally established that the use of precisely laser radiation in the claimed modes and in the claimed area, as well as during the claimed number of sessions, allows to achieve the claimed technical result.

The authors experimentally revealed a significant excess of the initial values of the cells of DM 34+ after the first exposure session.

According to the authors of the proposed method, this is due to the fact that under the influence of laser radiation on the claimed area - the projection of the spongy bones containing red bone marrow, mast cells are degranulated in it, the activity of neutrophils and macrophages increases, and as a result, the concentration of a number of biologically active substances increases (BAS), in particular, enzymes of the 9th form matrix metalloproteinases, which facilitates the migration of stem cells into the blood and increases the level of granulocyte-monocytic co oniestimuliruschego factor (GM-CSF), which in turn increases the number of stem cells themselves - number of GM progenitor and mature neutrophils and monocytes. And the increase in the number of mature neutrophils and monocytes is the beginning of the next cycle of the formation of new stem cells.

The authors experimentally established that there is a gradual increase in the percentage of CD 34+ cells with a significant excess of the initial values 3-6 times after the first exposure session. The difference indicator with the control group by t-student test - P <0.05.

At the same time, the authors experimentally established that it is the repeated application of laser radiation to the claimed areas that allows for maintaining for a long time an effective concentration of stem cells in the blood, which could not be achieved by known methods.

Due to the achievement of precisely these results - a significant increase in the efficiency of stem cell output into the peripheral bloodstream and maintaining an effective concentration of the number of stem cells for a long time - this method can be used not only in the treatment of diseases associated with impaired blood formation, but also in a number of other diseases, such as diseases of the cardiovascular system and pathologies of the musculoskeletal system. In addition, it became possible to widely use this method to obtain stem cells from bone marrow donors, and for a longer period of time, which also could not be achieved by known methods.

The inventive method is as follows.

In a patient, before exposure to laser radiation, the level of CD 34+ cells in peripheral blood is determined by flow cytometry.

After the study, the patient in a supine position is exposed to laser radiation in the infrared wavelength range with a radiation energy density of 15-40 J / cm ² on the projection of the sternum and iliac crests.

After processing these areas, the patient is turned into a position on the abdomen and laser radiation is applied to the bones of the sacroiliac and vertebral regions, including the sacrum, by the above-mentioned regimes. The time of one session is 10-20 minutes. The number of sessions depends on the nature of the disease and is 2-14.

The impact is carried out by slow movement of the fiber along the processed projection of a particular bone.

Patients in whom subcutaneous fat is significantly expressed are exposed to laser radiation by contact, and patients with mild or unexpressed subcutaneous fat are remotely exposed.

The method was used to stimulate the release of stem cells in relatively healthy people selected as bone marrow donors and for the treatment of patients with diseases of the cardiovascular system and pathologies of the musculoskeletal system.

The content of cells with a specific marker of CD 34+, which are blood stem cells (CCMs), was determined in the total fraction of isolated mononuclear cells using monoclonal antibodies to CD 34+ FITC-labeled cells (IOTest) by flow cytometry using computer-aided processing of the results using CITO STAT. Their number was expressed as a percentage. The ratio of the number of CD 34+ cells before and after each of the impacts on the claimed areas was judged on the multiplicity of enrichment of blood with stem cells (CCM) in the corresponding time intervals. The difference indicator with the control group by t-student test - P <0.05.

At the same time, it was found that other blood parameters are practically unchanged.

The method is illustrated by examples of specific performance.

Example 1. Patient R., 32 years old, is relatively healthy. The level of CD 34+ cells was 0.03%. Subcutaneous fat is poorly expressed. Remote exposure to laser radiation in the infrared wavelength range with a radiation energy density of 15 J / cm ² on the sternum, spine, and ilium was performed. The number of sessions is 3.

The level of CD 34+ one hour after the first exposure was 0.09%, after the third session, the level of CD 34+ was 0.18%.

The multiplicity of increase in CD 34+ cells 1 hour after exposure is 3, after the third treatment session - 6.

Example 2. Patient X., 48 years old. Relatively healthy. The CD level of 34+ cells before exposure was 0.02%. Subcutaneous fat is not expressed.

A remote exposure to laser radiation in the infrared wavelength range with a radiation energy density of 40 J / cm ² on the sternum, spine, and ilium was performed. The number of sessions is 2.

The CD level of 34+ cells one hour after the first exposure was 0.12%. The CD level of 34+ cells after the second session was 0.10%.

The multiplicity of increasing CD 34+ cells one hour after the first exposure was 6, after the second - 5.

Example 3. Sick E., 59 years old. The diagnosis of deforming osteoarthrosis of the bone joints of the second century. Aggravation. Subcutaneous fat is significantly pronounced.

Against the background of conservative therapy with non-steroidal anti-inflammatory drugs, chondroprotectors and vitamin therapy, contact exposure to laser radiation was carried out in the infrared wavelength range with a radiation energy density of 25 J / cm ² in one session. The number of sessions is 5. The patient was exposed for the first three days daily, and then after one day.

According to flow cytometry, the content of CD 34+ cells in peripheral blood before exposure to laser radiation was 0.35%. After the third treatment session, the level of CD 34+ cells was 1.05%. The multiplicity of increasing CD 34+ cells after the third session of exposure was 3.

The patient was discharged with clinical recovery: the pain was gone, joint mobility was restored in full.

Over the next 6 months - clinical remission.

Example 4. Patient G. - 76 years. Diagnosis: atherosclerosis obliterans. Carotid stenosis of the II degree. Condition after stenting of the left subclavian artery. Chronic lower limb ischemia of the first degree according to Fontaine.

Against the background of conservative therapy with statics, angioprotectors, antioxidants, the patient was treated with the claimed method. Due to the fact that the patient has moderate subcutaneous fat, remote exposure to laser radiation in the infrared wavelength range on the sternum, iliac crests, sacroiliac region, and vertebral region was performed. The radiation energy density was 15 J / cm ² . The number of sessions is 14.

The first seven days the patient was exposed to laser radiation daily, and then every other day.

After the treatment according to flow cytometry, the content of CD 34+ cells in peripheral blood with a content of 0.2% after three sessions reached 0.61%.

The patient was discharged with an improvement in well-being, pain and chills in the legs went away.

Over the next 12 months - clinical remission.

Claims (4)

1. A method of stimulating the release of stem cells from the bone marrow into the peripheral bloodstream, which consists in exposing the projection of spongy bones containing red bone marrow by a physical factor, characterized in that multiple exposure to laser radiation in the infrared wavelength range using the radiation energy density of 15-40 J / cm ² . 2. The method according to claim 1, characterized in that the laser radiation is applied to the sternum, sacroiliac region, ilium, sacrum, vertebral region. 3. The method according to claim 1 or 2, characterized in that the number of sessions is 2-14. 4. The method according to claim 1, or 2, or 3, characterized in that the effect is carried out contact or remotely.