RU2169589C2 - Method for treating mandibular osteomyelitis - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves applying surgical intervention and acting upon pathological area. Fracture zone is exposed to low frequency pulsating electromagnetic field action. Biologically active points are stimulated with low frequency electric impulses. The treatment is applied for 15-20 min in conformity with patient heart beat rhythm. Before and after and in the course of treatment biological potential of T 25 biologically active point is recorded. Its dynamic variability is studied. Potential reduction being observed, the treatment procedure is repeated. The whole treatment course is 7-10 days long. EFFECT: accelerated treatment course. 3 dwg, 2 tbl

Description

 The invention relates to medicine, namely to maxillofacial surgery.

 It is known that, depending on the stage of the process, the clinical manifestations of traumatic osteomyelitis of the lower jaw (TO LF), surgical intervention is initially used for its treatment. In the postoperative period, anti-inflammatory, desensitizing is used. antibacterial therapy.

 UHF is most often used as a preformed factor of physical impact, which is prescribed 1-2 times a day for a course of 7 days with traumatic osteomyelitis of the lower jaw, the intensity of the effect is with a sensation of heat, the exposure time is 10-15 minutes.

 However, UHF, providing deep tissue heating in the pathology area, contributes, on the one hand, to an increase in the diffusion rate of drugs and, on the other hand, to the development of undesirable complications associated with the possibility of intensifying inflammatory processes ["Osteomyelitis of the jaws. Their prevention and treatment," V. AND. Lukyanenko, Ld "Medicine", 1986, p. 117-119].

 In addition to UHF, in the treatment of fractures of the lower jaw and their complications, especially traumatic osteomyelitis, which, according to different authors, accounts for 5 to 27% of the total number of complications, direct bone tissue electrical stimulation and low-frequency magnetotherapy are used.

 In the treatment using electrical stimulation, silver electrodes are implanted into the fracture zone, placing the cathode in the fracture gap, and the anode in the periandibular soft tissues. A constant or pulsed electric current with a force of up to 25 μA is passed between the electrodes, which provides an improvement in the patient’s general condition, reduction or complete disappearance of pain in the fracture area, reduction of post-traumatic edema and inflammatory infiltrate near the jaw soft tissues after several sessions [V. Salenkov. "Electrical stimulation in the complex treatment of fractures of the lower jaw." Abstract dis. for a job. student Art. Ph.D. Kalinin State Medical Institute, Kalinin, 1986].

 However, with the obvious positive effect of treatment, implantation of the electrodes and their removal after a course of electrical stimulation are themselves traumatic, which is the main disadvantage of this treatment method.

 The treatment of fractures of the lower jaw and their complications using low-frequency magnetotherapy is carried out directly on the fracture area with the induction of a magnetic field of 5 to 22 mT, with a frequency of 50 Hz for 15-20 minutes once a day and for up to 20 days. In this case, as well as during electrical stimulation, swelling and inflammatory infiltrates of soft tissues disappear faster, after 2-3 procedures the pain stops, the general condition improves. Moreover, the best results were obtained in the case when the intermittent mode was applied - one second impact, one second pause [A. Dudin "Low-frequency magnetotherapy in the complex treatment of patients with fractures of the lower jaw." Abstract dis. for a job. student Art. Ph.D. Perm state medical in., Perm, 1987].

 However, it is known that, ceteris paribus, when comparing constant, variable, intermittent and pulsed magnetic fields, the latter is characterized by the highest biological activity. Moreover, this activity is the higher, the steeper the leading edge of the pulse [Solovyova G.R. "Magnetotherapeutic equipment". "Medicine", M. 1991, p. 20; Demenetskiy A.M. et al. "Magnetic fields in healthcare." Ed. "Pulse" of the Samara Medical Institute, Samara, 1991, pp. 84].

 To the noted drawbacks of the treatment methods used, it should be added that there is no correlation between drug therapy, exposure parameters to physical factors and the dynamics of the postoperative period and, as a result, a high duration of treatment, accompanied by increased economic costs, as well as a high likelihood of further complications.

 The aim of the invention is to increase the efficiency of the treatment process individually for each patient according to the criterion of maximum effectiveness with minimum time.

 This goal is achieved by personalizing, with respect to each patient, a general method for controlling, measured by energy, exposure in the postoperative period by low-frequency pulsed (LF) electromagnetic fields (EMF) to the pathology site and synchronized with it electrical effects on biologically active points (BAP) against the background of antibacterial, desensitizing and anti-inflammatory therapy. Impact synchronization is carried out by the patient’s pulse.

 The essence of the method is that in the first 2-3 hours after surgery, the values of the static biopotential of the biologically active point T25, which refers to the posterior median meridian, are located at the tip of the nose and in this method is the control. The magnitude of this value determines the stage of the disease and the severity of the pathology.

 From the results of our studies of the control group of conditionally healthy people, data were obtained on the average value of the biopotential of the T25 point, which is normally 48 +/- 4 mV.

 The increased value of the biopotential of this point in the patient compared with the norm indicates the presence of an exacerbation stage of chronic traumatic osteomyelitis of the lower jaw. If the value is below normal, then the chronic stage of the process is observed.

 This confirms the well-known data that in acute inflammatory processes in the body, the values of BAP biopotentials always exceed the norm, and in the chronic course of the disease, these values are lower than normal for conditionally healthy people. Moreover, the dynamics of the disease correlate with changes in the biopotential, which normalizes when the pathological process subsides ["Electropuncture reflexotherapy", F.G. Portnov, Riga, "Zinatne", 1988, p. 240].

Considering the obtained results of measuring the biopotential, the patient was first exposed to the focus of the pathology and one of the selected BAP of the maxillofacial region, among which:
J24 (cheng-jiang) - a point of the anterior median meridian, unpaired, projected onto the lower part of the circular muscle of the mouth, located in the center of the chin. Point J24 is responsible for segments from 5 tooth on the right to 5 tooth on the left.

 E4 (di-tsan) - the point of the meridian of the stomach, a pair located at the intersection of the vertical line passing through the pupil, with a horizontal line drawn at the level of the angle of the mouth, about 1 cm apart from it. Point E4 is responsible for segments 5 through 8 of the tooth on the left and right.

 E6 (css-che) - the point of the meridian of the stomach, a steam room, in the recess located anterior and upward from the angle of the lower jaw at the horizontal level, drawn through the corner of the mouth, is projected in the parotid salivary gland, at the site of attachment of the chewing muscle.

 Point E6 is responsible for the inflammatory component of the soft tissues of the face in the chewing group of teeth on the left and right (Fig. 1).

 During the exposure, a change in the biopotential of the control point was recorded, which changed in the direction of the norm: in patients with exacerbation of chronic TO, the biopotential decreases from a high initial value, and in patients with chronic TO, the NP increases from low. In a healthy person, it fluctuates slightly around the average value. Then, throughout the entire course of treatment, a control point (T25) was monitored, changes in the biopotential of which are the basis of the treatment strategy (Fig. 2).

где U_n - изменяющийся в процессе лечения больного биопотенциал контрольной БАТ Т25;
U_o - биопотенциал БАТ Т25 условно здорового человека;
T - статистически минимальное время лечения данной стадии заболевания, полученное путем исследования;
t - текущее время.In the postoperative period, depending on the patient’s condition, the time between the end of the previous exposure (T1) and the beginning of the next (T2) can be up to several hours. Usually this is 2-3 hours. At time T2, when the biopotential value changes in the opposite direction from the norm, the following effect is produced, by the end of which (at time T3), the biopotential value again changes to the normal direction. In the interval between the impacts, the value of the biopotential varies within the achieved value. Thus, analyzing the dynamics of changes in the biopotential of the control point in the treatment process, determine the start of the next procedure, its duration and the total duration of the course of treatment, which should be carried out individually for each patient. In order to achieve maximum treatment effectiveness with minimum periods of time, the analysis of the dynamics of changes in the biopotential of the control BAP is carried out according to the criterion, which can be represented in the form of a formula

where U _n is the biopotential of the control BAT T25, which changes during the treatment of the patient;
U _o - biopotential BAT T25 conditionally healthy person;
T is the statistically minimal treatment time for a given stage of the disease obtained through research;
t is the current time.

 Thus, the treatment strategy is chosen so that, in the limit of its change, the biopotential of the control BAP of the patient is equal to the biopotential of the same BAP of a conditionally healthy person for the statistically minimum possible treatment time for this pathology.

 Measurements of the BAP biopotential are continued during the entire exposure session and after it for at least 15 minutes, which is ensured by a specially made device for this purpose, similar to the Test diagnostic device [Electropuncture reflexotherapy, Riga, Zinatne, 1988, from. 111].

 The proposed method is as follows. The treatment process with simultaneous monitoring of BAT T25 biopotential is performed by the patient himself with the help of a nurse (Fig. 3). The active chlorine-silver measuring electrode (1) is placed on the BAT T25 and fixed with a latch on the head. The passive measuring electrode (5) is combined with a pulse sensor and is held by the patient in his left hand. The measuring electrodes are connected to a biopotential change control device (4), the readings of which are read and recorded every 2 minutes by a nurse. With his right hand, the patient holds a magnetoelectric pulse stimulator at the site of the pathology focus (3). Thus, one of the stimulator electrodes is in the patient’s hand, and the second is located on the pathological focus freed from the bandage. The nurse holds the external electrode of the electric impact from the magnetoelectropulse stimulator on BAT E6 (2). After the exposure session, the readings of the measuring device are recorded for another 10-15 minutes.

 Example 1. Patient K., born in 1958, was admitted with a directing diagnosis: exacerbation of chronic traumatic osteomyelitis of the lower jaw on the left.

 We were diagnosed with exacerbation of chronic post-traumatic osteomyelitis of the lower jaw on the left, an abscess in the region of the angle of the lower jaw. The patient had a history of trauma, an angular fracture of the lower jaw on the left 1 month ago. In order to urgently help the patient, an abscess was opened under local anesthesia.

 2 hours after the operation, the biopotential of the T25 control point was measured, which amounted to 84 +/- 2mV.

 A patient underwent a session of combined magnetoelectrotherapy at the site of pathology and electrical effects on BAT E6 simultaneously with his pulse. The exposure was carried out by an electromagnetic field with an induction of 100 mT and a voltage pulse of 15 V for 15 minutes. The value of the biopotential after the end of the procedure was 81 +/- 2 mV.

 For the exposure, the Serdolik series instruments were used [for example, Antropov G.M. et al. "Device for magnetic and electric pulse stimulation." RF patent N 2040283, registered July 25, 1995].

 In the future, continued monitoring of the dynamics of changes in the biopotential of UT25 during the first days after surgery. After 3 hours, there were signs of an increase, in connection with which they again carried out the effect. During the first day, a similar effect was carried out 3 more times.

 In total, the patient underwent 23 sessions, as a result of which there was a decrease in pain, restoration of the sensitivity of the skin on the side of the lesion. The total rehabilitation time was 10 days. The dynamics of changes in the values of the biopotential of the control BAT T25 are presented in table 1, which gives values after the end of each exposure session.

 As can be seen from the results, the biopotential of the T25 point after the 23rd exposure session on the 10th day is close to normal. In the control group, in which exposure to EMF was not performed, the average treatment period for patients at the same stage of the disease was 13 days.

 Example 2. Patient M., born 1956, medical history N 12743 \ 3, was admitted with a directing diagnosis: chronic traumatic osteomyelitis of the lower jaw on the right.

 We were diagnosed with chronic traumatic osteomyelitis of the lower jaw on the right, fistula of the submandibular region on the right. The patient had a history of a fracture of the lower jaw on the right 3 months ago. In a planned manner, a patient under local anesthesia underwent a necrosecvestrectomy operation with excision of the external fistulous course.

 2 hours after the operation, the BAP T25 biopotential was measured, which amounted to 29 + \ - 3mV.

 Given the reduced performance, the patient was held a session of magnetoelectrotherapy of the focus of the pathology and synchronous with the pulse electropuncture BAT E4.

 The influence of EMF LFI on the pathology area was carried out with the induction of 120 mT, and BAT E4 was exposed to a voltage pulse of 20 V for 15 min. After the procedure, the biopotential value was 30 +/- 2 mV.

 In the future, continued monitoring of the dynamics of changes in biopotential during the first days after surgery. After 3 hours, there were signs of a decrease, so they again carried out the effect. During the first day, exposure was carried out 3 more times. During the treatment period, the parameters of the influencing factors were as follows: magnetic field induction - 100-120 mT, amplitude of voltage pulses - up to 30 V. The exposure time was 10-15 minutes.

 In total, the patient underwent 34 sessions, as a result of which the elimination of inflammatory swelling of soft tissues, pain reduction, and restoration of the sensitivity of the skin on the affected side were noted already on the 3rd day. The total treatment time was 21 days. The dynamics of changes in the values of the biopotential of the control BAT T25 are presented in table 2, which gives values after the end of each exposure session.

 As can be seen from the obtained results, the final value of the biopotential of the control BAP is close to normal. In the control group, in which exposure to EMF was not performed, the average treatment period for patients at the same stage of the disease was 28 days.

 Using the proposed method allows you to individually select a treatment strategy and as soon as possible to achieve a positive effect.

Claims (1)

 A method of treating traumatic osteomyelitis of the lower jaw, including surgery and exposure to a low frequency electromagnetic field on the pathology region, characterized in that 2 to 3 hours after surgery, the biopotential of the biologically active point T 25, which is the control in this method, is measured, and then to the region fractures produce a low-frequency pulsed electromagnetic field by induction of 100 - 120 mT, and biologically active points of the pathology area simultaneously act by low-frequency electric pulses with an amplitude of up to 30 V for 15 to 20 minutes, the effect is carried out synchronously with the patient’s pulse, while during the exposure and after its completion the biopotential of the control point is measured, the dynamics of its change are analyzed and, when it is reduced, a similar effect is performed, sessions the exposure is repeated 4-6 times a day for 7-10 days.

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