RU2177811C2 - Method for treating the cases of pneumonia - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves exposing inflammation infiltrate projection zone on the chest to radiation belonging to 1017-1356 Hz bandwidth in the cases of microfocal pneumonia with nonproductive hacking cough, intensive pain in chest associated to breathing and moderate hypercoagulation. The frequency belongs to bandwidth of 254- 339 Hz when infiltrate size exceeding one lung segment with marked hypercoagulation or hypocoagulation. EFFECT: enhanced effectiveness of treatment. 3 cl, 2 tbl

Description

 The invention relates to medicine, namely to pulmonology and physiotherapy, to the treatment of pneumonia.

 The prototype of the invention is a method of treating pneumonia by transcutaneous exposure to low-intensity infrared laser radiation of gallium arsenide in the region of the vascular bundle and lungs, which involves irradiating the area of projections onto the thorax of the aortic arch, the trunk of the pulmonary artery and inflammatory infiltrate in the first session, and in subsequent sessions exposure only to the projection of the area of the lung lesion. The vascular bundle is irradiated to the right and left of the sternum in the second intercostal space with a frequency of 80 Hz for two minutes on each side. The impact on the projection zone of the infiltrate is carried out along the intercostal spaces with constant movement of the emitter within the zone with a frequency of 600 Hz for 10 minutes in the first session and for 12 minutes in subsequent sessions. The number of sessions is from 7 to 15 (Lutay A.V., Egorova L.A. Influence of low-intensity laser radiation on the state of pulmonary blood flow in acute pneumonia // Dep. At NPO Soyuzmedinform N D-23936 from 02.14.1994; Lutay A V., Kaplan M. A., Efimova E. G. et al. Laser therapy of nonspecific respiratory diseases, Ivanovo: IGMA, 1997. P. 31-32).

 The disadvantage of the prototype is the lack of dosage of laser radiation, depending on the characteristics of the inflammatory process and the sensitivity of the patient to laser exposure, which reduces the effectiveness of the treatment of pneumonia.

 The technical result of the invention is aimed at increasing the effectiveness of the treatment of pneumonia.

 The technical result is achieved by the fact that, including multiple session transcutaneous exposure to low-intensity infrared laser radiation of gallium arsenide with the help of a laser therapeutic installation on the vascular bundle and lungs, the method of treating pneumonia involves multiple (at the beginning of each session) irradiation of the projection of the vascular bundle in the second and the third intercostal space to the left and right of the sternum with a frequency of 80 Hz for two minutes on each side and multiple irradiation of the projection zone on the chest cell inflammatory infiltrate with an individually selected frequency for 10 min; the number of sessions is 10-12. The choice of an individual frequency for irradiating the projection of the inflammatory infiltrate includes the choice of the frequency interval corresponding to the characteristics of the inflammatory process, and the frequency within this interval to which the patient is most sensitive. At the beginning, the frequency interval is selected. If the patient complains of an unproductive cough, severe chest pain associated with breathing, detection of objective focal pneumonia, and signs of moderate hypercoagulation in the coagulogram, the frequency interval 1017-1356 Hz is selected; if the size of the infiltrate detected by an objective and radiological examination exceeds one segment of the lung, and the coagulogram indices correspond to moderate hypercoagulation, choose a frequency interval of 254-339 Hz; if the size of the infiltrate detected by objective and x-ray examination exceeds one segment of the lung, and the coagulogram shows signs of severe hypercoagulation (for example, blood coagulation time, as determined by the Lee White method. less than 5 min) or hypocoagulation, choose a frequency interval of 63-84 Hz. Then from the interval choose the frequency corresponding to the growth of the individual (table. 1).

 It is known that low-intensity laser radiation with a frequency of 50-100 Hz is most effective for correcting the rheological properties of blood, disorders in the hemostatic system, frequency ranges of 150-600 Hz have the highest anti-inflammatory activity, frequencies approaching 1500 Hz have a pronounced analgesic effect. Therefore, the choice of the interval provides a correction of the leading syndrome of the inflammatory process in the patient, i.e., allows you to take into account the features of the inflammatory process.

,
где f - основная частота.It was also established that the body is most sensitive to such frequencies of electromagnetic waves that are multiples of its main "tuning frequency", determined by the growth of a person (V. Orlov. What is it, the radiating organism? // "Technology of youth", 1990, 1, p. 10- 14). The fundamental frequency is calculated by the formula

,
where f is the fundamental frequency.

C is the speed of light in vacuum (m / s),
N - human height (m),
ε is the dielectric constant of the medium,
μ is the magnetic permeability of the medium.

 Frequencies that are multiples of the main within the three above-mentioned intervals are presented in table. 1.

 Therefore, the choice of the frequency corresponding to the growth of a person provides a choice of the frequency of radiation to which the patient is most sensitive, i.e., the most effective frequency.

 Thus, the introduction of the choice of an individual frequency for irradiating the projection of an inflammatory infiltrate, including the choice of a frequency interval corresponding to the characteristics of the inflammatory process, and a frequency corresponding to the growth of the individual, makes it possible to take into account the characteristics of the inflammatory process and the individual characteristics of the patient, which increases the effectiveness of the treatment of pneumonia.

 It was found that pneumonia is always accompanied by impaired functioning of the hemostatic system (Butler L.I. Pneumonia. Diagnosis, treatment, gerontological aspects (1 part) // Russian Medical Journal. 1996. T. 4. 11. P. 684-694; Makarevich I . A., Levitin B. N. Pathogenetic and diagnostic value of the study of the fibrinolysis system and intravascular coagulation syndrome in acute pneumonia. // Ter. Archive. 1982. 4. P. 17-22), as well as the effectiveness of treatment and rehabilitation pneumonia patients is largely determined by the effectiveness of corrections and balance disorders of blood coagulation and anticoagulation systems (ibid). After the first laser therapy session according to the prototype method, the patient retains all manifestations of the inflammatory process (according to the timing of the disappearance of the main clinical signs of the disease presented in Table 2) (Lutay A.V., Kaplan M.A. Efimova E.G. et al. Non-specific laser therapy respiratory diseases.Ivanovo: IGMA, 1997. S. 57), therefore, disorders in the hemostatic system persist. Therefore, repeated repeated irradiation of the region of the vascular bundle with a frequency of 80 Hz, which has a pronounced corrective effect on the hemostatic system (Lutai A.V., Kaplan M.A., Efimova E.G. et al. Laser therapy of nonspecific respiratory diseases. Ivanovo: IGMA, 1997. S. 32), will increase the efficiency of correction of the function of the hemostatic system, and, therefore, increase the effectiveness of the treatment of pneumonia.

 Examples of the practical implementation of the method.

 Example 1. Patient C. Diagnosis: Focal pneumonia with lesions of the basal segments of the lower lobe of the right lung, moderate to severe. DN 2.

 Upon admission, he complained of a periodic cough with a small amount of sputum mucosa, shortness of breath of a mixed nature (respiratory rate - 22 per minute), aggravated with slight physical exertion, chest pain when coughing. An objective examination noted an increase in vocal trembling over the lower lobe of the right lung, shortening of percussion sound in the lower-lateral parts of the right lung, local weakening of breathing, as well as crepitating and inaudible small bubbling rales in the lower lobe of the right lung. On the chest x-ray: inhomogeneous darkening of the basal segments of the lower lobe of the right lung. Coagulogram: clotting time - 7 min 36 s, APTT - 47 s, fibrinogen - 12.0 g / l, thrombin time - 12 s, plasma heparin tolerance - 9 min 9 s, fibrinolytic activity - 1%, prothrombin index - 85 %, hematocrit - 37%, ethanol sample - "+++", β-fibrinogen - "+++", free heparin - 0.52 μg / ml.

 The size of the infiltrate detected during objective and radiological examinations exceeds one segment of the lung, according to the coagulogram - moderately pronounced hypercoagulation.

 Therefore, the selected frequency range is 254-339 Hz.

 The patient's height is 178 cm.

 Therefore, the individual frequency for irradiating the infiltrate zone (according to Table 1) is 285 Hz.

 In accordance with the proposed method, a transcutaneous exposure to low-intensity infrared laser radiation of gallium arsenide was performed using the Elat laser therapeutic apparatus. At the beginning of each session, the region of the vascular bundle was irradiated, for which the irradiator was located in the second and third intercostal space (respectively, the first and second channel of the irradiator) to the left of the left edge of the sternum, then in the second and third intercostal space (respectively, the first and second channel of the irradiator) to the right of the right the edges of the sternum; acted for 2 min at each point. The pulse frequency was 80 Hz for both channels of the emitter. The position of the irradiator is perpendicular to the irradiated surface. The position of the patient is "lying on his back." Then, the projection zone on the chest of the inflammatory infiltrate was irradiated for 10 min; the impact was carried out on the intercostal spaces. The pulse frequency was 285 Hz for both channels of the emitter. The position of the emitter is perpendicular to the irradiated surface in combination with its constant movement within the zone so that the channels are displaced at each step by 1.5-2 cm. The position of the patient is "lying on his stomach" with the arms in front of the body behind the head, shoulder blades laid up and to the sides. The total duration of the session is 14 minutes. The course of treatment included daily sessions, the total number of sessions - 10.

 The term for the disappearance of the main clinical symptoms of pneumonia during treatment is presented in table. 2 (column “patient C ''). A comparison of the dynamics of improvement in the condition of patient C. with the average terms of the disappearance of symptoms in patients treated using the prototype method (Table 2, the results are shown in accordance with the prototype studies), shows that the treatment of patient C . more effective.

 Therefore, the proposed method of treatment provides an increase in the effectiveness of the treatment of pneumonia.

Example 2. Patient A. Diagnosis: Focal pneumonia with localization in S _{9-10 of the} right lung, moderate to severe. Exudative pleurisy. DN 2.

On admission, he complained of a periodic cough with a small amount of mucopurulent sputum, inspiratory dyspnea (respiratory rate - 24 per minute.), Aggravated with minor physical exertion, pain in the chest during breathing and coughing. An objective examination noted: lagging of the right half of the chest during breathing, weakening of voice trembling, shortening of percussion sound, weakening of breathing over S _{9-10 of the} right lung. On the chest x-ray: infiltration in S _{9-10 of the} right lung, exudative pleurisy on the right. Coagulogram: clotting time - 10 min, APTT - 46 s, fibrinogen - 10.5 g / l, thrombin time - 16 s, plasma tolerance to heparin - 6 min 50 s, fibrinolytic activity - 0.8%, prothrombin index - 85 %, hematocrit - 37% ethanol test - "-", β-fibrinogen - "+++", free heparin - 0.81 μg / ml.

 The size of the infiltrate detected during objective and x-ray examinations exceeds one segment of the lung; according to the coagudogram, moderately expressed hypercoagulation.

 Therefore, the selected frequency range is 254-339 Hz.

 The patient’s height is 176 cm.

 Therefore, the individual frequency for irradiating the infiltrate zone (according to Table 1) is 290 Hz.

 Transcutaneous exposure to low-intensity infrared laser radiation of gallium arsenide using the Elat therapeutic unit. At the beginning of each session, the region of the vascular bundle was irradiated, for which the irradiator was located in the second and third intercostal space (respectively, the first and second channel of the irradiator) to the left of the left edge of the sternum, then in the second and third intercostal space (respectively, the first and second channel of the irradiator) to the right of the right the edges of the sternum; acted for 2 min at each point. The pulse frequency was 80 Hz for both channels of the emitter. The position of the irradiator is perpendicular to the irradiated surface. The position of the patient is "lying on his back." Then, the projection zone on the chest of the inflammatory infiltrate was irradiated for 10 min; the impact was carried out on the intercostal spaces. The pulse frequency was 290 Hz for both channels of the emitter. The position of the emitter is perpendicular to the irradiated surface in combination with its constant movement within the zone so that the channels are displaced at each step by 1.5-2 cm. The position of the patient is "lying on his stomach" with the arms in front of the body behind the head, shoulder blades laid up and to the sides. The total duration of the session is 14 minutes. The course of treatment included daily sessions, the total number of sessions - 10.

 The term for the disappearance of the main clinical symptoms of pneumonia during treatment is presented in table. 2 (column "patient A"). A comparison of the dynamics of improvement in the condition of patient A. with the average terms of the disappearance of symptoms in patients receiving treatment by the method of the prototype (Table 2, the results are shown in accordance with the studies of the prototype), shows that the treatment of patient A. is more effective.

 Therefore, the proposed method of treatment provides an increase in the effectiveness of the treatment of pneumonia.

 The results of the treatment of other patients with pneumonia showed that the proposed method, which involves multiple (at the beginning of each session) irradiation of the projection of the vascular bundle in the second and third intercostal spaces to the left and right of the sternum with a frequency of 80 Hz for two minutes on each side and multiple irradiation of the projection zone on chest of inflammatory infiltrate with an individually selected frequency for 10 minutes with a total number of sessions 10-12, in which the choice of individual frequency for irradiation of the projection of inflammatory infil The cost includes the choice of the frequency interval corresponding to the characteristics of the inflammatory process, and the frequency to which the patient is most sensitive, provides a dosage of laser radiation depending on the characteristics of the inflammatory process and the patient's sensitivity to laser exposure, increases the effectiveness of the treatment of pneumonia.

 An advantage of the invention in relation to the prototype is the provision of a dosage of laser radiation taking into account the features of the inflammatory process and sensitivity to laser exposure, increasing the effectiveness of the treatment of pneumonia.

 The use of the invention allows to increase the efficiency of the use of laser radiation for therapeutic purposes, to increase the effectiveness of the treatment of pneumonia, which will help reduce the duration of temporary disability, improve the quality of rehabilitation of patients.

Claims (3)

 1. A method of treating pneumonia, including multiple transcutaneous session exposure to low-intensity infrared laser radiation of gallium arsenide in the region of the vascular bundle and lungs using a laser therapeutic installation, characterized in that the radiation of the projection zone on the chest of the inflammatory infiltrate is carried out with a frequency belonging to the interval 1017 -1356 Hz for small focal pneumonia, nasal unproductive cough, severe chest pain associated with breathing, and moderate hypercoagulation, and whether with a frequency belonging to the interval 254-339 Hz - with the size of the infiltrate of more than one segment of the lung and moderate hypercoagulation, or with a frequency belonging to the interval of 63-84 Hz - with the size of the infiltrate of more than one segment of the lung, expressed hypercoagulation or hypocoagulation.  2. The method according to p. 1, characterized in that multiple irradiation of the projection zone on the chest of the inflammatory infiltrate is carried out for 10 minutes  3. The method according to PP. 1 and 2, characterized in that the irradiation of the projection of the vascular bundle is performed repeatedly, at the beginning of each session, in the second and third intercostal spaces to the left and right of the sternum with a frequency of 80 Hz for two minutes on each side.

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