RU2423983C1 - Method of osteoporosis correction in treating ununited fractures and false joints - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: invention refers to medicine, namely to traumatology and orthopaedics, and can be used for osteoporosis correction in treating ununited fractures and false joints. That is ensured by preacribing osteogenone daily from the 21st postoperative day according to the schedule: 6 tablets a day for three months. Then for the following three months, 3 tablets a day are taken. ^ EFFECT: method is easy to implement, provides reducing total length of treatment, prevents further on-therapy bone loss in an operated extremity, thereafter increasing mineral density enabling osteoporosis regression is observed. ^ 2 ex, 2 tbl, 4 dwg

Description

The invention relates to traumatology and orthopedics and can be used in the surgical treatment of non-congested fractures and false joints against the background of post-traumatic regional osteoporosis.

The long-existing non-union of limb bones in the vast majority of cases (90.4%) is accompanied by post-traumatic regional osteoporosis [1], which causes delayed fusion of bone fragments, loosening of implants, therefore the use of therapy after surgery to reduce the severity of osteoporosis and shorten the time of bone consolidation fragments, is important.

It is known to use pharmacological preparations used for this purpose, which favorably affect the mechanisms of bone remodeling and contribute to an increase in bone mass and increase its density [2].

There is a method of increasing the mass of bone tissue in case of fractures on the background of various metabolic osteopathies [3], with the use of drugs from the group of bisphosphonates and osteogenon for 1-6 months. Use the combined introduction of bisphosphonates (for example, xidiphon) according to certain schemes: oral, electrophoretic and application with daily oral administration of osteogenon throughout the course of the course.

However, the treatment method is quite complicated, it involves the use of several drugs, their combined administration according to different schemes with different treatment courses is necessary: oral, application, electrophoretic, as well as daily intake of two drugs orally. The method is aimed at increasing bone tissue in case of fractures against the background of osteoporosis.

The task is to simplify the method of correction of osteoporosis and reduce the treatment time for non-healing fractures and false joints.

In the method for the correction of osteoporosis in the treatment of non-consolidated fractures and false joints, including drug therapy using osteogenon, according to the technical solution, osteogenon is prescribed daily from 21 days after surgery according to the scheme: three months, 6 tablets per day, then three months, 3 tablets per day.

The choice of ostegenone (ossein-hydroxyapatite compound) for drug therapy is due to its ability to have a double effect on bone metabolism: a stimulating effect on bone-forming cells (osteoblasts) and an inhibitory effect on cells that regulate bone resorption (osteoclasts). Osteogenon activates the process of bone formation, which prevents bone loss and has a positive effect on bone mass in osteoporosis, and in addition, it practically does not cause side effects, it is recommended for children, pregnant and lactating women [2].

An essential sign is the term of treatment and its duration, namely, a course of drug therapy for non-consolidated fractures and false joints is carried out after surgery (for example, transosseous osteosynthesis) and it begins from 21 days after it, when the patient levels out the stress response to the operation. The dosage regimen was developed by the authors and its effectiveness has been clinically confirmed specifically for the treatment of overgrown fractures and false joints. For this, patients with hypoplastic false joints of the femur and lower leg with post-traumatic regional osteoporosis were divided into two groups: control - 19 people and the main - 15 people who received treatment by the proposed method. To ensure the reliability of the results obtained, all patients had a densitometric study (X-ray bone densitometer QDR series, registration certificate FS No. 2005/61, manufactured by Hologic Inc., USA), which showed that the average parameters of bone mineral density (BMD) of the proximal section were performed. the hips of the affected limb in patients with pseudoarthrosis of the thigh and lower leg in both groups did not practically differ before surgery (p> 0.05) (tables 1, 2). It has been clinically proven that the use of the proposed method in the treatment of patients with pseudoarthrosis of the femur and lower leg against the background of post-traumatic regional osteoporosis has reduced the consolidation time and the total duration of treatment of these patients by an average of 30% (tables 1, 2).

Table 1 BMD (baseline) and the timing of consolidation of the hypoplastic false joints of the thigh against the background of post-traumatic regional osteoporosis Group n Total hip, g / cm ² Consolidation period, days Control 5 0.678 ± 0.09 326 ± 58 Main 6 0.632 ± 0.08 214 ± 42 * * p <0.05 compared with the control group

table 2 MPC (baseline) and the timing of consolidation of the hypoplastic false joints of the lower leg bones against the background of regional osteoporosis Group n Total hip, g / cm ² Consolidation period, days Control fourteen 0.710 ± 0.12 280 ± 45 Main 9 0.719 ± 0.07 200 ± 44 * * p <0.05 compared with the control group

Densitometric control of bone mineral density of the affected limb revealed a decrease in BMD in patients of the control group by the time of fusion by 6.1% (p = 0.034), while in patients treated with the proposed method using osteogenon, there was no loss of bone mass. Upon further observation, a year after the consolidation of the pseudoarthrosis was achieved, under conditions of full functional load in patients of the control group, BMD only reached preoperative values, remaining at the same level 1.5 years after the fusion of pseudarthrosis. Only in patients treated with the proposed method, after 4-6 months after completion of treatment, an increase in BMD was noted by 5.5% (p = 0.011), and after 1.5 years the mineral density in the affected limb increased by 9 compared to preoperative values, 7% (p = 0,000). Thus, the proposed method is quite simple to implement and can reduce the time of consolidation, the total duration of treatment of patients with non-fused fractures and false joints, as well as increase bone mass, providing regression of osteoporosis.

The method is as follows.

After surgery, for example, transosseous osteosynthesis, patients with nonunion bones and pseudoarthrosis are given a course of drug therapy from day 21. A daily intake of osteogenon is prescribed according to the scheme: three months, 2 tablets three times a day, then in the next three months, 1 tablet three times a day.

Clinical example 1 (control group). Patient Z., 28 years old, IB 94261, disabled person of group II. An open transosseous osteosynthesis with Ilizarov apparatus was performed at the place of residence regarding an open fracture of the bones of the right lower leg (road injury). Due to the lack of fusion, after 11 months the patient entered the institute.

On the radiograph - hypoplastic pseudoarthrosis of the right tibia, severe sclerosis of the ends of the fragments on the background of osteoporosis, improperly healed fracture of the fibula (Figure 1, A - radiographs of the lower leg before treatment). A densitometric examination revealed a decrease in BMD in the proximal thigh of the affected limb (total hip): the Z-criterion was 2.6 SD (BMD 0.766 g / cm ² ), and in the thigh of a healthy limb and in the lumbar spine, bone mineral density corresponded age norm.

Diagnosis: hypoplastic pseudoarthrosis of the right tibia, incorrectly fused fracture of the right fibula. Post-traumatic regional osteoporosis of the right lower limb.

Performed open transosseous osteosynthesis of the right tibia with the Ilizarov apparatus, partial resection of the fibula (Figure 1, B - after surgery). Fixation by the apparatus continued until fusion for 263 days (Figure 1, B - fusion of the bones of the lower leg 8.5 months after surgery; the apparatus was dismantled). Correction of osteoporosis by the proposed method was not used. The result of treatment: the axis of the lower leg is correct, the movements in the ankle joint correspond to the movements in a healthy ankle joint, the limb support ability is restored. On radiographs 2 years after the operation (Figure 1, D), a strong fusion in the area of the former junction of the fragments. According to densitometric examination (Figure 2) at the time of fusion, a progressive decrease in BMD in the injured limb was noted. One year after the consolidation of the false joint, under conditions of full functional load, the BMD only reached preoperative values, still consistent with osteoporosis, and remained at the same level 1.5 years after the elimination of the false joint Figure 2 - dynamics of BMD of the injured limb (BMD , total hip) of patient Z. during treatment and after achieving fusion.

Clinical example 2 (main group). Patient K., 26 years old, IB 102597, a disabled person of group II, after a road injury due to a double fracture of the lower leg bones, was treated conservatively at the place of residence. After 12 months, a consolidation of the fracture of the upper third of the tibia occurred, in the middle third a false joint of both lower leg bones was formed.

Upon admission to the institute on a radiograph - a hypoplastic false joint of the middle third of the left tibia, false joint of the left fibula, severe sclerosis of the ends of the fragments, osteoporosis of the distal fragment and foot, fused fracture of the left tibia in the upper third of the diaphysis (Figure 3, A - radiographs shins before treatment). A densitometric examination revealed a decrease in BMD in the proximal femur of the affected limb (total hip): the Z-criterion was -2.9 SD (BMD 0.717 g / cm ² ), and in the thigh of a healthy limb and in the lumbar spine, bone mineral density corresponded age norm.

Diagnosis: hypoplastic false joint of the left tibia in the middle third of the diaphysis. False joint of the left fibula in the middle third of the diaphysis. Post-traumatic regional osteoporosis of the left lower limb.

Performed open transosseous osteosynthesis of the left tibia with the Ilizarov apparatus, partial resection of the left fibula (Figure 3, B - after surgery). From 21 days a course of osteogenon was prescribed according to the developed scheme. The fixation by the apparatus continued until the fusion of fragments of the tibia for 163 days (Figure 3, B - fusion 5.5 months after surgery, the apparatus was dismantled). The result of the treatment: the axis of the lower leg is correct, the movements in the ankle joint in full, the support ability of the limb is restored. On radiographs 2 years after the operation (Figure 3, D), a strong fusion in the area of the former junction of the fragments. By the time of fusion of the pseudoarthrosis, the BMD in the damaged limb (total hip) remained at the same level. Subsequent follow-up within 1.5 years after consolidation of the pseudoarthrosis showed an increase in mineral density (Fig. 4. dynamics of BMD of the injured limb (BMD, total hip)) of patient K. during treatment and after joint fusion.

Thus, in the surgical treatment of non-consolidated fractures and false joints, the medical correction of osteoporosis, using osteogenon according to the developed scheme, can reduce the overall treatment time, prevent further loss of bone mass in the operated limb and increase the bone mineral density in it, providing regression of osteoporosis.

Used Books

1. Gulnazarova S.V., Kuznetsova O.A. Assessment of the mineral density of bone tissue in case of pseudoarthrosis and non-healed bone fractures of the lower extremities. // The genius of orthopedics. - 2002. - No. 1, p. 161-162.

2. Shevtsov V.I., Sveshnikov A.A., Smotrova L.A. et al. Therapy of osteoporosis. // The genius of orthopedics. - 2002. - No. 1, p.146-159.

3. RF patent 2155588. A method for increasing bone mass in fractures. / Application No. 98118897 of 16.10.1998, publ. 09/10/2000.

Claims (1)

A method for the correction of osteoporosis in the treatment of non-consolidated fractures and false joints, including drug therapy using osteogenon, characterized in that osteogenon is prescribed daily from 21 days after surgery according to the scheme: three months, 6 tablets per day, then the next three months, 3 tablets per day .

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