RU2538612C1 - Method for rosuvastatin correction of bone microcirculation in experimental osteoporosis and accompanying fractures - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves simulating osteoporosis in Wistar female rats by a bilateral ovariectomy and osteoporotic changes and pharmacological correction of pathological conditions with rosuvastatin 0.86 mg/kg intragastrically daily in a single dose once a day.

EFFECT: using the method enables increasing the bone blood supply that promotes delaying osteoporosis and creating the favourable environment for the fracture union.

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Description

The invention relates to medicine, in particular to experimental pharmacology, and can be used to correct microcirculation in bone tissue during experimental osteoporosis and fractures against its background.

According to well-known literature, some drugs - representatives of the group of HMG-CoA reductase inhibitors, are able to have a positive effect on the processes of physiological and pathophysiological remodeling and reparative regeneration of bone tissue (Jadhav SB, Jain GK. Statins and osteoporosis: new role for old drugs. J Pharm Pharmacol 2006 Jan; 58 (1): 3-18). At the same time, similar effects for one of the most modern representatives of statins - rosuvastatin - still remain unstudied.

A known method for the correction of osteoporosis and the prevention of osteoporotic fractures with enalapril (RU 2369390 publ. 10.10.2009), which is characterized by the fact that in female Wistar rats model generalized osteoporosis by performing bilateral ovariectomy. Against the background of modeling the pathology, it is corrected by daily intragastric administration of enalapril at a dose of 0.5 mg / kg for 56 days. Moreover, the degree of development of morphofunctional disorders in osteoporosis and their correction with enalapril is estimated by measuring the level of microcirculation in the bone tissue of the proximal femur metaphysis and histomorphometric studies of this zone.

The main disadvantage of this method is that it does not demonstrate the effect of enalapril on microcirculation in bone marrow with a fracture of the femur.

Closest to the claimed solution is a method for correcting osteoporosis and preventing the occurrence of osteoporotic fractures with losartan (RU 2369391 publ. 10.10.2009), which is characterized by the fact that in female Wistar rats model generalized osteoporosis by performing bilateral ovariectomy. Against the background of modeling the pathology, it is corrected by daily intragastric administration of losartan at a dose of 6 mg / kg for 56 days. Moreover, the degree of development of morphofunctional disorders in osteoporosis and their correction with losartan is assessed by measuring the level of microcirculation in the bone tissue of the proximal femur metaphysis and histomorphometric studies of this zone.

The main disadvantage of this method is that it does not demonstrate the effect of losartan on microcirculation in bone marrow with a fracture of the femur.

The task of the invention is to provide a method for correcting microcirculation disorders in experimental osteoporosis and fractures with rosuvastatin on its background.

The problem is solved using the proposed method, including the introduction of a pharmacological agent to a laboratory animal after modeling osteoporosis using bilateral ovariectomy and osteoporotic femoral fractures in female Wistar rats, and rosuvastatin at a dose of 0.86 mg / kg, which is daily used intragastrically (through a probe) is administered to a laboratory animal once a day against the background of modeling osteoporosis for eight weeks, and in case of fractures against the background of a model osteoporosis - within twelve weeks.

Exogenous administration of the rosuvastatin inhibitor of HMG-CoA reductase leads to the prevention of negative dynamics of microcirculation in bone tissue in osteoporosis and in bone marrow in osteoporotic fractures.

The main advantage of the proposed method is its effectiveness against impaired blood supply to bone tissue with osteoporosis and fractures against its background.

The method is carried out as follows.

The experiments were performed on female Wistar rats weighing 200-250 g. An ovariectomy is performed under anesthesia (an aqueous solution of chloral hydrate intraperitoneally at a dose of 300 mg / kg). The introduction of rosuvastatin (intragastric dose of 0.86 mg / kg) begins the day after surgery and is carried out once a day for eight weeks (56 days). On day 57, the rats are divided into two equal in number groups (distribution by random sampling). In the first group (after anesthesia with a solution of chloral hydrate intraperitoneally at a dose of 300 mg / kg), a closed fracture of the proximal metaphysis of the femur with fixation with the Kirpscher spoke is modeled and therapy with rosuvastatin at a dose of 0.86 mg / kg is continued until 12 weeks after the start of the experiment. In the second group under the same anesthesia, surgical access to the proximal hip metaphysis and microcirculation measurement are performed. The microcirculation level is measured using Biopac systems equipment: MP150 polygraph with LDF100C laser Doppler flowmeter module and TSD144 invasive sensor, and AcqKnowledge software version 3.9. 12 weeks after the start of the experiment, in rats that had a hip fracture modeled, the microcirculation level is estimated using the described technique in the tissue of emerging bone marrow.

The obtained values are compared with intact animals (false ovariectomy operation), as well as control animals, in which generalized osteoporosis and femoral fractures were simulated by bilateral oophorectomy against its background.

When statistical data processing is calculated, the average value, the standard error value. Differences are considered statistically significant at p <0.05.

EXAMPLE OF SPECIFIC PERFORMANCE

The average level of microcirculation in the proximal hip metaphysis in intact (falsely operated) animals was 100.5 ± 4.4 perfusion units (PE). Bilateral oophorectomy eight weeks after the start of the experiment in control animals led to a significant decrease in the average level of microcirculation compared with intact rats to a value of 61.5 ± 3.7 PE. The discovered fact of a decrease in blood supply in bone tissue is an additional factor in the development of osteoporosis with a hypoestrogenic state, which subsequently leads to the occurrence of osteoporotic fractures. In the group of animals that received eight6 mg / kg rosuvastatin intragastrically once a day for eight weeks after ovariectomy, there was a significant increase in the average level of microcirculation in the proximal femur metaphysis compared to the control group to 106.6 ± 5.2 PE .

In intact rats with hip fractures, the average level of microcirculation in bone marrow tissue 12 weeks after the start of the experiment was 87.6 ± 6.3 PE. In animals with fractures of the proximal femoral metaphysis against experimental osteoporosis, the average level of microcirculation was statistically significantly lower and amounted to 69.7 ± 5.9 PE. In the group of animals in which a hip fracture was simulated against the background of osteoporosis and who received a dose of 0.86 mg / kg intragastrically once a day for 12 weeks after ovariectomy, there was a significant excess of the average level of microcirculation in bone marrow over the control group - 102.4 ± 3.5 PE.

Thus, the use of rosuvastatin at a dose of 0.86 mg / kg against the background of osteoporosis caused by bilateral ovariectomy and osteoporotic fractures effectively prevents a drop in the level of microcirculation in the proximal hip metaphysis: both directly in the bone and in bone marrow. Due to the increased blood supply to bone tissue, the development of osteoporosis with a hypoestrogenic state slows down and favorable conditions are created for the successful consolidation of fractures.

Claims (1)

A method for correcting microcirculation in bone tissue during experimental osteoporosis and fractures against it, comprising administering to a laboratory animal a pharmacological agent after modeling osteoporosis using bilateral ovariectomy and osteoporotic femoral fractures in female Wistar rats, characterized in that rosuvastatin is used as such an agent a dose of 0.86 mg / kg, which is administered intragastrically daily to a laboratory animal once a day, against the background of modeling osteoporosis eight weeks, and with fractures on the background of modeling osteoporosis for twelve weeks.