Comparative analysis of clinical efficacy of ESWT combined with core decompression and simple ESWT in the treatment of early avascular necrosis of the femoral head

Methods: 60 patients with avascular necrosis of the femoral head in our hospital were randomly divided into control group and observation group, 30 cases in each group. The control group was treated with ESWT alone, while the experimental group was treated with ESWT combined with core decompression. The Harris system score and therapeutic effect were compared between the two groups before and after operation, There was no significant difference (P > 0.05); Harris score of the control group was lower than that of the experimental group at 6 and 12 months after operation, the difference was significant (P < 0.05); the effective rate of the control group (73.3%) was lower than that of the experimental group (93.3%), the difference was significant (P < 0.05)

Treatment of long bone nonunion with high energy extracorporeal shock wave (ESWT)

[Objective] to investigate the effect of high energy extracorporeal shock wave (ESWT) in the treatment of long bone nonunion. [Methods] 20 cases of nonunion after open reduction and internal fixation or plaster external fixation were selected, 2 cases of atrophic type and 18 cases of proliferative type. The shock wave intensity of ulna and radius 24 kV, humerus 26 kV, tibia and femur 28 kV, ulna and radius 1 500 times and humerus 3000 times, respectively, The femur and tibia were followed up for an average of 15.2 months. 8 cases healed after 3 months, 6 cases healed after 4 months, 3 cases healed after 5 months, and 1 case did not heal after 6 months. The average healing time was 3.9 months, [Conclusion] ESWT can be used as an effective treatment for nonunion and delayed union of long bone

Mectone micro current paste

It is mechanical wave and acoustic wave. It needs medium such as water, air and tissue to propagate. Its characteristic is that the pressure rises sharply to the peak value in a few nanoseconds. The extracorporeal shock wave pain diagnosis and treatment system, through the energy generated by the compressor, promotes the "bullet" to move in the "barrel" at a high speed, and impacts the "probe" to generate mechanical waves; then, through the medium such as coupling agent, the energy is transferred to the human body tissue, producing various therapeutic effects. Extracorporeal shock wave therapy (ESWT) has been developed for a long time. In order to study the clinical efficacy of ESWT on its classic indications, experts from various medical departments have carried out a large number of basic and scientific research, and concluded that the clinical biological effects of shock wave are as follows: Energy release of acoustic boundary Cavitation Increase the permeability of cell wall Stimulate microcirculation (blood, lymph) Release of substance P Reduction of non myelinated nerves Release of nitric oxide (vasodilation, increased cell metabolism, angiogenesis, anti-inflammatory effects) Antibacterial effect Stimulating growth factors (angiogenesis, bone, collagen regeneration) Stimulating stem cells

Neck and shoulder pain

Overview of medical shock wave Shock wave is a kind of mechanical pulse pressing strong wave conducted by physical mechanism medium (air or gas). It can convert the impulse sound wave generated by pneumatics into accurate ballistic shock wave. By positioning and moving the therapeutic probe, it can produce good therapeutic effect on the human tissues with extensive pain. Key words: safety, noninvasive, no sequelae, wide indications What is shock wave It is mechanical wave and acoustic wave. It needs medium such as water, air and tissue to propagate. Its characteristic is that the pressure rises sharply to the peak value in a few nanoseconds. The extracorporeal shock wave pain diagnosis and treatment system, through the energy generated by the compressor, promotes the "bullet" to move in the "barrel" at a high speed, and impacts the "probe" to generate mechanical waves; then, through the medium such as coupling agent, the energy is transferred to the human body tissue, producing various therapeutic effects. Extracorporeal shock wave therapy (ESWT) has been developed for a long time. In order to study the clinical efficacy of ESWT on its classic indications, experts from various medical departments have carried out a large number of basic and scientific research, and concluded that the clinical biological effects of shock wave are as follows: Energy release of acoustic boundary Cavitation Increase the permeability of cell wall Stimulate microcirculation (blood, lymph) Release of substance P Reduction of non myelinated nerves Release of nitric oxide (vasodilation, increased cell metabolism, angiogenesis, anti-inflammatory effects) Antibacterial effect Stimulating growth factors (angiogenesis, bone, collagen regeneration) Stimulating stem cells

Upper limb pain

summary It is mechanical wave and acoustic wave. It needs medium such as water, air and tissue to propagate. Its characteristic is that the pressure rises sharply to the peak value in a few nanoseconds. The extracorporeal shock wave pain diagnosis and treatment system, through the energy generated by the compressor, promotes the "bullet" to move in the "barrel" at a high speed, and impacts the "probe" to generate mechanical waves; then, through the medium such as coupling agent, the energy is transferred to the human body tissue, producing various therapeutic effects. Extracorporeal shock wave therapy (ESWT) has been developed for a long time. In order to study the clinical efficacy of ESWT on its classic indications, experts from various medical departments have carried out a large number of basic and scientific research, and concluded that the clinical biological effects of shock wave are as follows: Energy release of acoustic boundary Cavitation Increase the permeability of cell wall Stimulate microcirculation (blood, lymph) Release of substance P Reduction of non myelinated nerves Release of nitric oxide (vasodilation, increased cell metabolism, angiogenesis, anti-inflammatory effects) Antibacterial effect Stimulating growth factors (angiogenesis, bone, collagen regeneration) Stimulating stem cells

Lumbocrural pain

Overview of medical shock wave Shock wave is a kind of mechanical pulse pressing strong wave conducted by physical mechanism medium (air or gas). It can convert the impulse sound wave generated by pneumatics into accurate ballistic shock wave. By positioning and moving the therapeutic probe, it can produce good therapeutic effect on the human tissues with extensive pain. Key words: safety, noninvasive, no sequelae, wide indications Extracorporeal shock wave therapy (ESWT) has been developed for a long time. In order to study the clinical efficacy of ESWT on its classic indications, experts from various medical departments have carried out a large number of basic and scientific research, and concluded that the clinical biological effects of shock wave are as follows: Energy release of acoustic boundary Cavitation Increase the permeability of cell wall Stimulate microcirculation (blood, lymph) Release of substance P Reduction of non myelinated nerves NitriC oxide