RU2160081C2 - Photopuncturing device - Google Patents

Abstract

FIELD: devices for puncturing ultrasonic therapy (photopuncture). SUBSTANCE: the device has series-connected ultrasonic generator, output amplifier and radiator comprising a converter. The generator operates at frequencies of 31 and 40 kHz at which relaxation in tissues of acupuncture points is observed. The converter is connected to a core concentrator with an exponential shape of the profile and relation between the diameters of the input and output ends of the concentrator providing for an intensity of ultrasonic oscillations within 0.05 to 0.2 W/sq.cm. EFFECT: enhanced efficiency of photopuncture due to the use of frequencies at which relaxation in tissues is observed. 1 cl, 4 dwg

Description

 The invention relates to punctuation ultrasound therapy (phonopuncture) and may find application for therapeutic purposes.

 The result of the invention is to increase the efficiency of phonopuncture with ultrasound exposure to acupuncture points.

 The ancient healing method of oriental medicine is widely known using acupuncture, acupuncture, acupuncture, acupuncture, punctuation reflexology. The essence of this method consists in exposing the diseased organism to stimuli of various nature (needle, burns, cooling) into strictly defined areas of the subcutaneous tissue — acupuncture points (“kun-syue”). Their irritation is accompanied by regular reactions of the body, its systems and organs, which allows the use of this irritation for medicinal purposes.

 The disadvantage of devices that implement this method is the need to use needles, which can cause infection and damage to areas of the skin and subcutaneous muscle tissue.

 Therefore, other devices not related to the introduction of needles began to find application in reflexology: electropuncture, magnetotherapy, laser puncture, ultraviolet therapy, metal therapy (see, for example, the USSR AS on application 1707230 / 31-16, N 460648).

 The disadvantage of these devices is their low efficiency, especially since modern medical science has not yet selected the optimal exposure modes and can not always scientifically substantiate therapeutic mechanisms. (Yu.V. Markov. Reflexotherapy in modern medicine. - St. Petersburg: Nauka, 1992, p. 129-146).

 These devices do not require strict requirements for aseptic and sterilization of needles, which is extremely important in our age of AIDS and hepatitis epidemics. However, in some cases, they are significantly inferior to the most powerful and effective weapon, which is a simple needle. In addition, this is realized by complex devices, which is not always applicable in clinical practice. Therefore, methods of treatment with acoustic effects on human acupuncture points are of considerable interest.

 A phonopuncture device is known, based on the fact that ultrasound has a mechanical and thermal effect. By deforming cells, it promotes the formation of deformations, heat and potential difference at acupuncture points, which ultimately leads to a therapeutic effect (A.A. Chirkin. Metabolic reactions of the body to various options for ultrasound exposure. Abstract of dissertation for the degree of Doctor of Medical Sciences. - М .: 1976, 34 p .; L.R. Gavrilov, E. M. Tsirulnikova, Focused ultrasound in physiology and medicine. - L.: Nauka, 1980, 179 p.).

Closest to the proposed device is the phonopuncture device described in the book by V.S. Ulashchik, A.A. Chirkin. Ultrasound Therapy - Minsk: "Belarus", 1983, p. 237, p. 108. The device creates acoustic vibrations at the “therapeutic” frequencies of 0.8-2.95 MHz, communicating these vibrations to a patient in a comfortable position (sitting or lying down) at acupuncture points using a contact medium applied to the skin, create intensities from 0.05 to 0.2 W / cm ² .

 The device - the prototype is implemented using ultrasound therapeutic equipment "Ultrasound-T-5", devices ENT and ultrasound. These prototype devices contain a serially connected 880 kHz ultrasonic frequency generator, an output amplifier and an emitter with an exciter in the form of a piezoceramic plate, as well as a control unit and a power supply unit (V.S. Ulashchik, A.A. Chirkin. Ultrasound therapy. - Minsk: "Belarus", 1983, p. 100).

 The disadvantage of the prototype device is the small amplitude of the generated oscillations at the frequencies of tissue relaxation and the high frequency of ultrasound, while relaxation in muscle tissue is observed at 31 and 40 kHz.

A device for phonopuncture is proposed, which, like a prototype device, contains a serially connected ultrasonic frequency generator, an output amplifier, and an emitter including a converter. The generator is configured to operate at relaxation frequencies, in particular at low ultrasonic frequencies of 31 and 40 kHz, and the transducer is connected to a rod concentrator with an exponential shape of the profile and the ratio of the diameters of the input and output ends of the concentrator, providing the intensity of ultrasonic vibrations from 0.05 to 0, 2 W / cm ² .

The figure 1 shows the dependence of the sound absorption coefficient α _p at a wavelength λ of frequency ω.

 The figure 2 shows a block diagram of the proposed device for phonopuncture.

 The figure 3 shows the device hub.

 Figure 4 shows a block diagram of a device control unit.

 The following is a confirmation of the feasibility and practicability of the proposed device phonopuncture.

 In a good approximation, we can assume that in biological tissues (with the exception of bone tissue), ultrasonic waves propagate in the same way as in liquids. Transverse waves cannot penetrate into soft tissues to a greater depth, and longitudinal waves propagate as compression and extension waves.

где α_p - коэффициент затухания по амплитуде, который обычно выражается в децибеллах

Затухание ультразвука увеличивается с повышением частоты. Во многих видах мягких тканей ультразвук затухает одинаково, причем частотная зависимость в дБ/см является приблизительно линейной. В работе под редакцией С. Уэбба. Физика визуализации изображений в медицине. - М.: Мир, 1991, с. 11, рекомендуется использовать для мягких тканей эмпирическую формулу

где A≅ 1 для большинства мягких тканей.In any medium, the ultrasonic wave will decay, and the intensity of the plane wave propagating in the X direction will decrease exponentially depending on the distance traveled

where α _p is the attenuation coefficient in amplitude, which is usually expressed in decibels

Ultrasound attenuation increases with increasing frequency. In many types of soft tissues, ultrasound attenuates equally, with the frequency dependence in dB / cm being approximately linear. Edited by S. Webb. Physics of imaging in medicine. - M .: Mir, 1991, p. 11, empirical formula recommended for soft tissue

where A≅ 1 for most soft tissues.

As you know (F.G. Portnov. Electropuncture reflexology. - Riga: Science, 1980, 218 pp.), Acupuncture points are rich in connective tissue, nerve trunks, veins, receptors, effectors. The points are characterized by thinning of the epidermis, colloidal fibers of the dermis. Acoustically, tissues at acupuncture points are similar to muscle tissue. The area of the point ranges from 0.4 to 10 mm ² . Depth of an arrangement is from 3 to 25 mm.

 However, which is significant for the proposed device, in the muscle tissue there is a region of low-frequency relaxation near the frequencies of 31 and 40 kHz (Ed. K. Hill. The use of ultrasound in medicine. Physical foundations. - M .: Mir, 1989, p. 211). It is shown that the characteristic frequencies of many relaxing elements of the muscle structure lie in the frequency domain in the region of 31 kHz. (XTTruong, Extensional wave propagation characteristics in striated musele. - IASA, 1972, N 51, p. 1352-1356; XTSruong, SR Iarreft. Longitudinal pulse propagation characteristics in striated musele. - IASA, 1978, N 64, p. 1299-1302).

 As is known, during acoustic relaxation, internal processes of restoration of thermodynamic equilibrium in tissues, which are violated by compressions and rarefactions in an ultrasonic wave, occur. According to the thermodynamic principle, the energy of translational motion in a sound wave passes to the excitation of cells of muscle and nerve tissue, and the energy attributable to translational motion decreases. Therefore, relaxation is always accompanied by sound absorption by muscle and nerve tissues. In addition, during relaxation, ferroelectric phenomena in tissues are initiated.

где

c₀ - скорость звука при ωτ ≪ I,
c_∞ - скорость звука при ωτ ≫ I.
Таким образом, наиболее активное воздействие ультразвука на точки акупунктуры осуществляется в районе частот 31 и 40 кГц, на которых ткани активно поглощают звуковую энергию. Поэтому предлагаемое нами устройство фонопунктуры на частотах релаксации тканей точек акупунктуры вполне оправдано.The typical frequency dependence of the product of the coefficient of relaxation absorption α _p and wavelength λ has a characteristic maximum at the relaxation frequency ω _p = 2πf _p (figure 1). This figure shows the relaxation times τ, i.e., the time during which the parameter characterizing the initial deviation of the system from the equilibrium state decreases e = 2.7 times. The smaller the ratio of τ to the oscillation period T, the more fully the disturbed equilibrium manages to recover. In this case, the coefficient of relaxation absorption (I. G. Mikhailov. Fundamentals of molecular acoustics. - M .: Nauka, 1964, 340 p.) Has the form

Where

c ₀ is the speed of sound at ωτ ≪ I,
c _∞ is the speed of sound at ωτ ≫ I.
Thus, the most active effect of ultrasound on acupuncture points is carried out in the frequency range of 31 and 40 kHz, at which tissues actively absorb sound energy. Therefore, the proposed device of phonopuncture at the frequencies of tissue relaxation of acupuncture points is quite justified.

 When using low-frequency ultrasound, a fundamental difficulty arises, leading to the need to create a special device for implementing the proposed method.

где где ρ_c - акустическое сопротивление среды в кг/м²с,
ω = 2πf - частота в 1/с,
ξ₀ - амплитудное значение колебательного смещения в м.As is known, the intensity of acoustic vibrations I is determined by the formula

where where ρ _c is the acoustic resistance of the medium in kg / m ² s,
ω = 2πf is the frequency in 1 / s,
ξ ₀ is the amplitude value of the vibrational displacement in m.

т.е. требуется обеспечить более высокую амплитуду колебательных смещений в f_вч/f_нч раз. Поэтому предлагаемое устройство с преобразователем, соединенным со стержневым концентратором, обеспечивает увеличенную амплитуду колебательного смещения частиц в среде за счет уменьшения поперечного сечения стержня.For increased therapeutic effect, it is necessary to maintain the intensity of acoustic oscillations I _W , used at high "therapeutic" frequencies, as well as at low ultrasonic frequencies I _LF used in the method. With the equality of intensities I _W = I _LF it is necessary that

those. required to provide a high amplitude oscillatory displacements into f _RF / f _lf time. Therefore, the proposed device with a converter connected to a rod hub provides an increased amplitude of the vibrational displacement of particles in the medium by reducing the cross section of the rod.

When phonopuncture, ultrasound intensities of not higher than 0.2 W / cm ^{2 are used} . According to the American Institute for the Application of Ultrasound in Medicine, ultrasonic irradiation practically does not have a harmful biological effect on tissues at intensities below 0.2 W / cm ² and even at higher intensity levels if the product of the intensity and the exposure time do not exceed 50 J / cm ² .

 The proposed device, a block diagram of which is shown in figure 2, contains a series-connected generator 1 at a frequency of 31 and 40 kHz, an output amplifier 2, a converter with a hub 3, and also contains a power supply 4 and a control unit 5.

 The design of the transducer with a hub 3 is shown in figure 3. The emitter contains a housing 6, a rod electro-acoustic transducer 7, a rod hub 8, a membrane 9, a coupler 10, a power cable 11.

 The figure 4 shows a block diagram of a control unit, which contains a frequency setting unit 12, the output of which is connected to a generator 1, a power adjustment unit 13, the output of which is connected to a power amplifier 2, a power supply unit and a generator 14, the outputs of which are connected to blocks 1 , 2, 4, 12.

The operation of the device is as follows. From the control unit 5, the power of the generator 1 and the output amplifier 2 are turned on. The frequency setting unit 12 sets the tissue relaxation frequency of the acupuncture point f _r . At the command of block 14, the generator 1 is turned on. Electric oscillations are amplified in the output amplifier 2. They excite the emitter 3 with concentrators. The end of the concentrator is brought to the acupuncture point and excites it for a given time.

В качестве материала стержня был выбран титан, который при большой механической прочности обладает сравнительно малым волновым сопротивлением, а также малым коэффициентом поглощения звука. Параметры титана, применяемого в стержнях: модуль Юнга 1,16•10¹² Дж/см²; модуль сдвига 0,36•10¹² Дж/см², плотность 4,42 г/см³, скорость продольных волн 4,9•10⁵ см/с, скорость сдвиговых волн 2,83•10⁵ см/с, разрушающее напряжение 7,2•10⁹ Дж/см². При таком материале использовалась длина стержневого экспоненциального концентратора круглого сечения l₁ = 6,24 см.Example. We used a rod emitter of a half-wave packet type made of piezoelectric ceramics of the TsTBS-3 type with a density ρ = 7.2 • 10 ³ kg / m ³ , sound speed c = 3.5 • 10 ³ m / s, dielectric constant ε = 2300, and piezomodule d _ik = 200 • 10 ^-12 C / n. The emitter excited oscillations at frequencies of 31 kHz or 40 kHz. To ensure an increase in the amplitude of the vibrational displacement by 20–25 times, two rod-type concentrators with diameters d ₁ / d ₂ = 5 were used. The cross-sectional shape is round. Type of oscillation is longitudinal. The change in cross section was accepted exponential. The length of the rod was chosen according to the formula (Ed. Rosenberg. Sources of powerful ultrasound. Physics and technology of ultrasound. - M .: Nauka, 1967, p. 149-206):

As the rod material, titanium was chosen, which, with high mechanical strength, has a relatively low wave impedance, as well as a low sound absorption coefficient. The parameters of titanium used in the rods: Young's modulus 1.16 • 10 ¹² J / cm ² ; shear modulus 0.36 • 10 ¹² J / cm ² , density 4.42 g / cm ³ , longitudinal wave velocity 4.9 • 10 ⁵ cm / s, shear wave velocity 2.83 • 10 ⁵ cm / s, breaking stress 7.2 • 10 ⁹ J / cm ² . With this material, a rod-shaped exponential concentrator of circular cross section l ₁ = 6.24 cm was used.

Блоки, входящие в устройство: генератор, мощный усилитель, питания, управления - традиционного исполнения.Exponential indicators were selected by the formula

Blocks included in the device: generator, powerful amplifier, power, control - traditional performance.

 The construction and calculation of the used rod piezoceramic transducer is given, for example, in the book of G.M.Sverdlin. Hydroacoustic transducers and antennas. - L .: Shipbuilding, 1980, p. 90-105.

 Thus, there is a practical possibility of creating the necessary device.

Claims (1)

A device for phonopuncture, containing a serially connected ultrasonic frequency generator, an output amplifier and an emitter including a transducer, characterized in that the generator is capable of operating at frequencies of 31 and 40 kHz, at which relaxation in acupuncture point tissues is observed, the transducer is connected to a rod concentrator with exponential shape of the profile and the ratio of the diameters of the input and output ends of the concentrator, providing the intensity of ultrasonic vibrations from 0.05 to 0.2 t / cm ^2.

Images