Regional activation of cellular repair systems, including local application of hyaluronic acid, is a promising direction for the sanogenesis of muscle injuries.
Purpose: to identify the sanogenetic and pharmacological effects of local application of hyaluronic acid in experimental soft tissue compression trauma. Compression injury was simulated by mechanical compression of the right pelvic limb of a rat at the level of the lower leg for 7 hours with a pressure force of 10-12 kg/cm2. Further, the animals were divided into 2 groups: 3 hours after decompression, animals in the main group were injected with 3.5% hyaluronic acid (the drug «Hyalift 3.5») by fan-pricking with a sterile disposable syringe at 5-6 points to a depth of 0.5-0.8 cm in a volume of up to 0.1 ml at each point; rats in the control group were given a similar method and an equivalent volume of 0.9% sodium chloride solution. The level of myoglobin in the blood, microcirculation, histomorphological and immuno- histochemical characteristics of tissues in the compression area were studied. A comprehensive analysis of the results of the study allowed us to establish that early local administration of 3.5% hyaluronic acid to the area of compression damage of soft tissues (3 hours after decompression) has a muscle-protecting effect, activates the repair system of damaged skeletal muscles. It is concluded that the sanogenetic effect of hyaluronic acid is mediated by the mecha- nisms of its pharmacological action: activation of angiogenesis, improvement of in situ efficiency of microcirculation and metabolism, reduction of the severity of primary and secondary necrosis and about traumatic disorders, activation of regeneration of damaged muscle fibers with the formation of muscle tissue. Hyaluronic acid is an active stimulant of reparative processes in the perspective of pharmacotherapy and may be a promising component in the local correction of extensive traumatic injuries.
Local Soft Tissue Compression Enhances Fracture Healing in a Rabbit Fibula
