The method of stimulation of reparative processes in the bone tissue of cats after osteosynthesis
The present invention relates to veterinary therapy. The method includes the impact on biologically active points No. 1, 2, 3 DC power of 0.95 units of individual sensitivity to change of polarity of 0.1 second in duration of one session 2-3 minutes a day and course of action - 5-7 days. The method can reduce the medical burden on the animal body during the repair period, to reduce the possibility of osteomyelitis, to reduce the treatment time. 1 Il., 1 PL.
The invention relates to veterinary therapy, namely the treatment of cats in posleoperazionny period. The most effective after osteosynthesis of humerus and forearm bones cats after fractures.
Known electrostimulation reparative processes in the bone tissue of cats after osteosynthesis, aimed at maintaining electronegativity in the damaged area, which was created by the implantation cathode in the injury area, and the anode of skin. Modeling of dynamic electric potentials is implemented by passing a pulse of electric current between the main electrodes through nevoobrazimaya bone with the force of a current of 25 μa and a frequency of breitenau bone tissue is an additional surgical implantation of the cathode directly to the area of the fracture, which can further cause discomfort to the animal during the repair period, bones, and various inflammatory processes.
The objective of the proposed method of stimulation of reparative processes in the bone tissue of cats after osteosynthesis is to increase the effectiveness of the treatment by shortening repair of bone, accordingly shortening the location of the pin in the bone, which, in turn, reduces the possibility of osteomyelitis due to prolonged contact of bone with a pin, lower the cost of drugs, reduce drug exposure during repair of bone tissue.
This object is achieved due to the fact that in the known method, which consists in electric shocks, according to the invention, the effects of lead on biologically active points (BAP) No. 1, 2, 3 DC power of 0.95 units of individual sensitivity to change of polarity of 0.1 second in duration of one session 2-3 minutes a day and course of action - 5-7 days.
To clarify the essence of the proposed method presents a picture of a cat, showing biologically active points:
1 - proximal ulnar tuberosity, laterifolia p is inogo epiphysis of the radial bone, distal to the elbow joint, symmetrical;
3 - on the dorsal surface, proximal angle of the elbow joint, symmetrically.
Stimulation of reparative processes in the bone tissue according to the proposed method of electro-acupuncture is performed with a device type of the erpt-5.
Example 1. The cat at the age of 1.2 years, body weight of 3.5 kg of surgery for fixation of the radial and ulnar bones. With the purpose of stimulation of reparative processes in the bone tissue was used appliance PERT-5. Maximum current reaches zero resistance up to 500 μa, and the minimum current exposure to 10 µa. The primary power source battery type “Crown”, with a voltage of 9 C. Impact on osteoraptor damaged bones were through biologically active points # 2 and # 3.
Before application of electro-acupuncture coat on the localization of biologically active points # 2 and # 3 were mistrials and vapiwala. For stimulation, bone repair negative electrode was fixed metal clip on the forearm fold, which was also mistrials and vybivalis. The positive electrode was fixed on the skin at the site of localization BAHT damaged bone by touch and moved the to the exciting (pulse duration of the electric current of positive and negative polarities in the ratio 1:1), and the brake (in the ratio 3:1) techniques. The initial current of positive polarity when its gradual increase was determined by the emergence of anxiety cat. Exposure was performed 1 time per day electric power of 0.95 units of individual sensitivity to change of polarity of 0.1 second in duration of one session 2-3 minutes and the course of action - 5-7 days.
The result was installed strengthening the biological functions that help restore the integrity of damaged bones of the cat.
Example 2. The cat at the age of 2 years, with a live weight of 3 kg of a humerus osteosynthesis. In the postoperative period, the stimulation of reparative processes in the humerus was performed as previously described, but influenced osteoraptor damaged bone by means of biologically active point # 1.
The proposed method was successfully applied to 15 cats in postoperative treatment after osteosynthesis of bones on the basis of the research of medical-veterinary diagnostic center eagle RAY and other clinics of the Russian Federation (see table). The method avoids the attraction of highly qualified specialists, use of protective clothing, expensive the damaged bones of cats, and the time the stimulation is reduced to 2-3 minutes.
In addition, the proposed method allows to reduce terms of reparation of bone, respectively, to reduce terms of finding a pin in the bone, which, in turn, reduces the possibility of osteomyelitis due to prolonged contact of bone with a pin, to carry out treatment without medication and medication reduces the load on the animal body during the repair period, which significantly increases the efficiency of postoperative therapy.
As can be seen from the table, the proposed method is more effective than known.
The proposed method can recover the basic function and form bone spur in cats after osteosynthesis 2-3 days earlier than in the known way.
Sources of information
1. C. S. Tkachenko, V. C. Rockii. The rationale for the stimulation of osteoreparative. Orthopedics, traumatology and prosthetics, 1983, No. 6, S. 10-11. Moscow, “Medicine” - the prototype.
The method of stimulation of reparative processes in the bone tissue of cats after osteosynthesis, including the effects of electric current, characterized in that fastestwaytolose with the change of polarity of 0.1 s with a duration of one session 2-3 minutes a day and course of action - 5-7 days.
SUBSTANCE: method involves applying transscleral diaphanoscopic examination method for adjusting intraocular neoplasm localization and size. Rectangular scleral pocket is built 2/3 times as large as sclera thickness which base is turned from the limb. Several electrodes manufactured from a metal of platinum group are introduced into intraocular neoplasm structure via the built scleral pocket. Next to it, intraocular neoplasm electrochemical destruction is carried out in changing electrodes polarity with current intensity of 100 mA during 1-10 min, and the electrodes are removed. Superficial scleral flap is returned to its place and fixed with interrupted sutures. 0.1-2% aqueous solution of khlorin as photosensitizer, selected from group containing photolon, radachlorine or photoditazine, is intravenously introduced at a dose of 0.8-1.1 mg/kg. Visual control of intraocular neoplasm cells is carried out by applying fluorescence and fluorescent diagnosis methods. After saturating the intraocular neoplasm with the photosensitizer to maximum saturation level, transpupillary laser radiation of 661-666 nm large wavelength is applied at a dose of 30-120 J/cm2. the operation is ended with placing sutures on conjunctiva. Platinum, iridium or rhodium are used as the metals of platinum group. The number of electrodes is equal to 4-8. 0.1-1% khlorin solution, selected from group containing photolon, radachlorine or photoditazine, is additionally repeatedly intravenously introduced in 2-3 days at a dose of 0.8-1.1 mg/kg. Visual control of intraocular neoplasm cells is carried out by applying fluorescence and fluorescent diagnosis methods. After saturating the intraocular neoplasm with the photosensitizer to maximum saturation level, repeated laser irradiation of the intraocular neoplasm is carried out with radiation dose of 30-45 J/cm2.
EFFECT: complete destruction of neoplasm; excluded tumor recurrence; reduced risk of tumor cells dissemination.
3 cl, 3 dwg