RU2408351C1 - Method of intravascular thrombocyte activity correction in children with scoliosis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to haematology, and orthopaedics. The intravascular thrombocyte activity correction in children with scoliosis requires the prescription for at least 6 months of a therapeutic complex which involves daily therapeutic physical training, two courses of massage and daily swimming for at least 20 minutes a day.

EFFECT: method allows to normalise intravascular thrombocyte activity in children aged 8-12 with scoliosis, to improve tissue microcirculation considerably, to optimise growth and development of skeleton and internals.

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Description

The invention relates to medicine, namely to hematology, and orthopedics.

Analogues of the proposed method for normalizing intravascular platelet activity (BAT) in children 8-12 years old with scoliosis do not exist.

There are recommendations for the appointment of children with scoliosis physical therapy (exercise therapy), massage and swimming.

However, never before has a treatment complex consisting of daily exercise therapy, two courses of massage and daily swimming for at least 20 minutes a day been used in children 8-12 years old with scoliosis in order to normalize BAT.

The aim of the invention is to increase the efficiency of correction of BAT activation in children with scoliosis.

The essence of the proposed method lies in the fact that for the correction of BAT children of 8-12 years old with scoliosis are prescribed daily exercise therapy, two courses of massage and daily swimming for at least 20 minutes a day.

The method allows to normalize BAT in children 8-12 years old with scoliosis within 24 weeks, translating it to the level characteristic of healthy children. Subject to the subsequent recommendations of the proposed method, it is possible to maintain their BAT in the optimal mode of operation, which will significantly improve microcirculation of tissues, accelerating growth and development, improving the health of the child and contributing to the full deployment of the program for its growth and development.

Evaluation of BAT is carried out in the following way (A. Shitikova et al. Method for determining the intravascular activity of platelets and its significance in clinical practice. // Clinical Laboratory Diagnostics, 1997, No. 2. - P.23-35). From a needle inserted into the ulnar vein, 2-3 ml of blood is drained onto cotton and the next 2 ml is poured into a silicone centrifuge tube with 8 ml of a solution of 0.125% glutaraldehyde. This tube is filled first to all other samples recruited to study the hemostatic system. The resulting blood is immediately centrifuged for 6 minutes at 1000 rpm. In the case of incomplete deposition of red blood cells (pink supernatant), 2 ml of supernatant are collected in another tube and centrifuged in the same mode for 1 minute. The supernatant was diluted four times with a solution of glutaraldehyde (0.1 ml + 0.3 ml of solution), mixed with a pipette 5 times and filled the Goryaev chamber, which was placed for 20 min in a humidified Petri dish.

In order to determine the absolute platelet content in 10 ⁹ / l of blood in the filled Goryaev’s chamber, the number of all single blood platelets, regardless of their shape, is counted in five large squares. The obtained value for calculating the platelet content in 10 ⁹ / l of blood must be multiplied by 5 × 4 × 10 × 5 × 10 ⁶ = 1 × 10 ⁹ , where the first two digits are the corrections made during the dilution of blood, the second two digits are the corrections associated with the height of Goryaev’s chamber (0.1 mm) and the area on which blood plates were counted (5 large squares = 1/5 mm ² ), 10 ⁶ - conversion factor 1 mm ³ into 1 liter. Having determined the absolute platelet content in the test blood, the relative values of the individual platelet forms (in%) are converted to their absolute content in 10 ⁹ / l of blood. Absolute values in pathology can more adequately reflect changes in the determined distribution of forms.

In the same preparation, the number of aggregates of different sizes (i.e., containing 2, 3, 4, 5, etc. blood plates) per 500 free platelets is counted. The result is evaluated by the distribution of aggregates of different sizes per 100 free platelets. To facilitate the analysis of the distribution aggregatogram, the results can be summarized in the form of two quantities: 1) the number of small aggregates containing 2-3 platelets, and 2) the number of medium and large aggregates containing 4 or more platelets. A change in these values under pathological conditions more clearly reveals an increase in the process of intravascular activation of blood platelets.

The degree of aggregation is also assessed by the relative number of all platelets involved in the aggregation reaction. The latter can be detected by the percentage of the number of aggregated platelets to their total number in the preparation (i.e., to the sum of free-lying cells and involved in aggregation) according to the formula:

where x, y, z, etc. - the number of aggregates of the appropriate size per 500 free platelets. This formula cannot be applied if the preparation contains irreversible, optically homogeneous aggregates or so large that it is impossible to calculate the number of cells in them. In this case, they are limited to data on the distribution of aggregates of different sizes. The inventive method is as follows.

The limits of normal fluctuations in BAT values and their average values in healthy children are presented in table 1.

Table 1 The limits of normal fluctuations and average values of BAT in healthy children 8-12 years old Indicators The limits of normal fluctuations and the average value The number of platelets in the venous blood - 10 ⁹ / l 142.7-223.7-324.7 Different platelet forts: Discocytes,% 81.5-86.6-91.6 Disco-echinocytes,% 5.4-9.8-14.2 Spherocytes,% 0.5-1.7-3.0 Sphero-echinocytes,% 0-1.3-2.6 Bipolar forms,% 0-0.3-2.0 The sum of the active forms of platelets,% 7.9-12.8-17.7 The number of platelets involved in aggregates,% 6.1-6.8-7.4 The number of small aggregates (2-3 platelets per 100 free platelets) 2.81-3.16-3.51 The number of medium and large aggregates (4 platelets or more per 100 free platelets) 0.03-0.13-0.23

When registering elevated BAT values, children with scoliosis are assigned a developed correction method.

The first component of the method is recommended physical exercises below.

The complex consists of several parts: warm-up (exercise 1), exercises lying on your back, lying on your stomach, and standing. Rest between exercises is performed in the initial position (i.e. if the exercise is lying on your back, we also rest in this position, you do not need to get up or sit down).

1. Unloading the spine. All exercise therapy exercises traditionally begin with exercises to unload the spine. The classic exercise is walking on all fours. Duration 2-3 minutes. We lay down on the litter on his back. Exercises on the back are designed primarily to strengthen the abdominal muscles.

2. "Traction" of the spine. Lying on your back, with your heels stretch "down", with your crown - "up". We perform 3-4 "traction" for 10-15 seconds.

3. The bike. Lying on your back, arms behind your head or along the torso, make movements with your feet that mimic a bike ride. Important: most of the amplitude of leg movements should be “lower” than the body, you don’t need to dabble over your stomach, it is necessary that the straightened leg alternately passes close to the floor. The pace is medium. We perform 2-3 sets of 30-40 seconds.

4. Scissors. Lying on your back, arms behind your head or along the torso, perform the neighboring horizontal and vertical swings with your feet. Important: gorintolnye swing is desirable to produce closer to the floor. The pace is medium. We perform 2-3 sets of 30-40 seconds. Now we turn over to the stomach. Exercises on the abdomen are mainly intended to strengthen various muscles of the back.

5. Traction. It is carried out similarly to exercise 2, only on a stomach.

6. Swimming. The starting position is lying on the stomach, legs are straight, the head rests on the back of the palms. We bend in the lower back (head, upper body, arms and legs are raised, fulcrum is the stomach). Holding this position, we perform movements simulating swimming breaststroke:

arms forward, legs apart

arms to the sides, legs to connect

arms to shoulders, legs still together

We perform 2-3 sets of 10-15 repetitions with a short rest between sets (5-10 seconds).

7. Scissors. Lying on his stomach, legs are straight, his head rests on the back of his hands. Raise your legs and perform the surrounding horizontal and vertical swing legs. Important: when performing this exercise, the hips must be torn off the floor. The pace is medium. We carry out 2-3 approaches for 30-40 seconds.

8. Retention. Lying on his stomach, legs are straight, his head rests on the back of his hands. Raise the legs and upper body, caving in the lower back (head, upper body, arms and legs raised, fulcrum - stomach). Legs together, arms to the sides, palms turned up. Statically freeze in this position for 10-15 seconds. Important: it is advisable not to hold your breath, while performing this exercise, the hips must be torn off the floor. Perform 3-4 repetitions with a short rest between repetitions (5-10 seconds).

Then the baby gets up.

9. Rotation by hand. Exercise for scapula fixators. Standing in front of the mirror (controlling posture), elbows to the side, fingers to shoulders. Perform the rotation of the hands back (clockwise). Important: this exercise does not need a large range of motion, on the contrary, the elbows should make a small circle when rotating. The pace of execution is slow. We perform 2-3 sets of 20-30 seconds with a short rest between sets.

10. Squats. Posture exercise. Standing in front of the mirror (controlling posture), arms to the side, palms turned up. In this position, while maintaining a beautiful posture, we stand on the toes, then squat, again on the toes and in the starting position. We carry out 5-10 such squats with short rest. The pace of the exercise is slow.

The second component of the claimed method is to conduct two courses of massage.

A massage session begins from the back, from the side of the curvature, then the neck, lower back, and pectoral muscles are massaged.

The following techniques are applied: stroking of all kinds, rubbing, squeezing, kneading and vibration. Massage techniques for scoliosis are used depending on muscle tone. The duration and rhythm of their implementation should be the same in each massaged area until the muscles are completely relaxed. Massage techniques alternate with stroking and shaking. Subsequent massage sessions help strengthen muscles and increase their tone.

The back is massaged in the supine position, under the abdomen and under the ankle joints, rollers or small pillows are laid, hands are lowered along the body, the head is turned to the side opposite to scoliosis. Optimal for massage of the chest and abdomen is the supine position, and it is better to put soft ridges under the head and knees. Hands the patient stretches along the body. Massage of the lateral surfaces of the body is carried out in the position of the child lying on his side, opposite to the curvature of the spine. The duration of the massage procedure is 30-40 minutes daily, the course of treatment consists of 20-25 sessions, during six months massage courses are carried out twice - at the beginning of treatment and 3 months after the end of the first course.

During a massage session, the patient’s position is lying on his stomach (the masseur is standing on the right), lying on his back (the masseur is on the patient’s left) or lying on the opposite side of chest scoliosis (the masseur is behind him — behind).

A child with scoliosis lies on his stomach, a massage therapist stands on the side of chest scoliosis. First, general strokes of the entire surface of the back are performed (planar, grasping, rake-shaped, ironing), then a sedative, relaxing effect on the upper part of the trapezius muscle is performed (stroking, rubbing with fingers - circular, continuous labile vibration), rubbing, kneading, vibration at elevation in elevation areas of thoracic scoliosis (comb-like rubbing, striking, chopping, kneading forceps along the long muscles of the back); all techniques for toning, stimulation to be carried out locally. After this, the area of lumbar concavity is massaged (all techniques for relaxing, stretching, acting sedatively - stroking, rubbing, vibration only labile, continuous).

The child turns on his left side. In this position, methods of pulling the right iliac crest are used. After that, the child lies on his stomach. Continue massage of the scoliosis region in the lumbar region, in the area of bulge (all methods of stimulation, toning - kneading, intermittent vibration, all varieties to strengthen the muscular cushion). Then, the subscapular region (left shoulder blade) is relaxed and stretched, paying attention to the intercostal space (rake stroking, rubbing, labile vibration), pulling the left corner of the shoulder blade from the concavity of the spine, stimulating and toning the shoulder girdle, muscles above the left shoulder blade, upper trapezius muscle (grinding kneading, intermittent vibration, as well as shock techniques).

The child rolls onto his back. In this position, massage the front surface of the chest.

In the subclavian and supraclavicular regions, as well as in the area of the pectoral muscles on the left, all techniques are used to stimulate, strengthen the muscular corset (rubbing, kneading, intermittent vibration, shock techniques). In the area of the anterior rib hump (bulging), receptions are performed with pressure on this area with backward movements, alignments; massage manipulations with the aim of stimulation, toning. On the front abdominal wall, abdominal press, all methods of stimulation, toning are performed (rubbing comb-like, kneading, intermittent vibration, shock). On the upper part of the pectoral muscles on the right, they do all the techniques for relaxing and pulling the shoulder back, leveling the plane of the shoulders. The massage is completed by general stroking of the entire back, shoulders.

The third component of the claimed method is the daily swimming of the child in the sea, river or pool for at least 20 minutes a day.

Example 1. In a child B., 9 years old, with scoliosis of the first degree, BAT activation was detected during examination: discocytes 55%, disco-echinocytes 25%, spherocytes 13%, sphero-echinocytes 5%, bipolar forms 1%, platelet count in aggregates 13%, the number of small aggregates 14 per 100 free platelets, medium and large aggregates 7 per 100 free platelets. The child was assigned daily exercise therapy. The child was regularly examined after the start of treatment. Simultaneously with the examination, a hematological examination of the blood was performed.

By the 24th week of treatment, the child's signs of scoliosis decreased slightly. The intravascular activity of platelets changed little: discocytes 58%, disco-echinocytes 22%, spherocytes 13%, sphero-echinocytes 5%, bipolar forms 2%, the number of platelets in aggregates 9%, the number of small aggregates 9 per 100 free platelets, the number of medium and large aggregates of 5 per 100 free-lying platelets.

Parents of the child were invited to use the child in subsequent treatment according to the claimed method.

Example 2. In a child Zh., 11 years old, with scoliosis of the II degree, BAT activation was detected during examination: discocytes 56%, disco-echinocytes 26%, spherocytes 11%, sphero-echinocytes 5%, bipolar forms 1%, platelet count in aggregates of 14%, the number of small aggregates of 14 per 100 free platelets, medium and large aggregates of 8 per 100 free platelets. Two courses of massage were prescribed for the child within six months. The child was regularly examined after the start of treatment. Simultaneously with the examination, a hematological examination of the blood was performed.

By the 24th week of treatment, the child's signs of scoliosis decreased. At the same time, the intravascular activity of platelets changed little: discocytes 61%, disco-echinocytes 24%, spherocytes 9%, sphero-echinocytes 4%, bipolar forms 2%, the number of platelets in aggregates 10%, the number of small aggregates 9 per 100 free platelets, the number of medium and large aggregates is 7 per 100 free-lying platelets.

Parents of the child were asked to apply treatment to the child according to the claimed method.

Example 3. In a child I., 8 years old, with scoliosis of the II degree, BAT activation was detected during examination: discocytes 58%, disco-echinocytes 25%, spherocytes 11%, sphero-echinocytes 4%, bipolar forms 2%, platelet count aggregates 14%, the number of small aggregates 18 per 100 free platelets, medium and large aggregates 7 per 100 free platelets. The child was assigned daily swimming in the pool for at least 20 minutes a day. The child was regularly examined after the start of treatment. Simultaneously with the examination, a hematological examination of the blood was performed.

By the 24th week of treatment, the child's signs of scoliosis and the severity of intravascular platelet activity decreased slightly: discocytes 63%, disco-echinocytes 23%, spherocytes 9%, sphero-echinocytes 3%, bipolar forms 2%, platelet count in aggregates 11%, the number of small aggregates of 14 per 100 free platelets, the number of medium and large aggregates of 6 per 100 free platelets.

Parents of the child were asked to observe the correction scheme according to the claimed method in the treatment of the child.

Example 4. In a child K., 12 years old, with scoliosis of the II degree, BAT activation was detected during examination: discocytes 57%, disco-echinocytes 21%, spherocytes 13%, sphero-echinocytes 8%, bipolar forms 1%, platelet count in aggregates 13%, the number of small aggregates 19 per 100 free platelets, medium and large aggregates 7 per 100 free platelets. The child was assigned daily exercise therapy and two courses of massage. The child was regularly examined after the start of treatment. Simultaneously with the examination, a hematological examination of the blood was performed.

By the 24th week of treatment, the child's signs of scoliosis decreased, the severity of intravascular platelet activity decreased: discocytes 66%, disco-echinocytes 20%, spherocytes 8%, sphero-echinocytes 5%, bipolar forms 1%, the number of platelets in aggregates 8%, the number of small aggregates 5 per 100 free platelets, the number of medium and large aggregates 4 per 100 free platelets.

Parents of the child were invited to adhere to the recommendations in the treatment of the child according to the claimed method.

Example 5. In a child M., 10 years old, with degree I scoliosis during the examination, BAT activation was detected: discocytes 55%, disco-echinocytes 25%, spherocytes 13%, sphero-echinocytes 6%, bipolar forms 1%, platelet count in aggregates 12%, the number of small aggregates 15 per 100 free platelets, medium and large aggregates 6 per 100 free platelets. The child was assigned daily exercise therapy and daily swimming in the pool for at least 20 minutes a day. The child was regularly examined after the start of treatment. Simultaneously with the examination, a hematological examination of the blood was performed.

By the 24th week of treatment, the severity of signs of scoliosis decreased in the child. The intravascular activity of platelets was optimized: discocytes 67%, disco-echinocytes 19%, spherocytes 7%, sphero-echinocytes 5%, bipolar forms 2%, the number of platelets in aggregates 7%, the number of small aggregates 6 per 100 free platelets, the number of medium and large aggregates of 5 per 100 free platelets.

Parents of the child were subsequently invited to follow the recommendations in the treatment of the child according to the claimed method.

Example 6. In a child L., 9 years old, with scoliosis of the second degree, BAT activation was detected during examination: 54% discocytes, 24% disco-echinocytes, 14% spherocytes, 7% sphero-echinocytes, 2% bipolar forms, platelet count aggregates 14%, the number of small aggregates 14 per 100 free platelets, medium and large aggregates 7 per 100 free platelets. The child was prescribed two courses of massage and daily swimming in the pool for at least 20 minutes a day. The child was regularly examined after the start of treatment. Simultaneously with the examination, a hematological examination of the blood was performed.

By the 24th week of treatment, the child's signs of scoliosis decreased, the intravascular activity of platelets decreased: discocytes 66%, disco-echinocytes 20%, spherocytes 8%, sphero-echinocytes 5%, bipolar forms 1%, platelet count in aggregates 10%, the number of small aggregates 5 per 100 free platelets, the number of medium and large aggregates 6 per 100 free platelets.

Parents of the child were asked to follow the recommendations for the treatment of the child according to the claimed method.

Example 7. In child A., 8 years old, with scoliosis of the first degree, BAT activation was detected during examination: discocytes 56%, disco-echinocytes 24%, spherocytes 12%, sphero-echinocytes 6%, bipolar forms 1%, platelet count in aggregates 12%, the number of small aggregates 15 per 100 free platelets, medium and large aggregates 6 per 100 free platelets. The child was assigned daily exercise therapy, two courses of massage and daily swimming in the pool for at least 20 minutes a day. The child was regularly examined after the start of treatment. Simultaneously with the examination, a hematological examination of the blood was performed.

By the 24th week of treatment, the signs of scoliosis were leveled in the child. The intravascular activity of platelets was optimized: discocytes 82%, disco-echinocytes 11%, spherocytes 4%, sphero-echinocytes 2%, bipolar forms 1%, platelet counts in aggregates 5%, number of small aggregates 2 per 100 free platelets, number of medium and large aggregates of 0.05 per 100 free platelets.

Parents of the child were invited to follow the recommendations given to the child in the future.

Using the proposed correction method for BAT in hematology and orthopedics will help not only to level the signs of scoliosis in a child, but also to optimize his microcirculation, improve it, and optimize the growth and development of the skeleton and internal organs.

Claims (1)

A method for the correction of intravascular platelet activity in children with scoliosis, including the appointment for at least 6 months of daily physical therapy, two courses of massage and daily swimming for at least 20 minutes per day.