MEASUREMENT OF ULTRASONIC POWER OF ULTRASONIC THERAPY DEVICES

Scientific news of KPI, Oct 2019

Background. Ultrasound occupies an important place among many therapies in physiotherapy. The process of ultrasound treatment in physiotherapy consists of the contact interaction of the ultrasonic emitter with the surface of the skin of the patient's body. The issue of patient safety remains relevant to this procedure. Thus, in everyday clinical practice deviations of the accuracy of the initial acoustic parameters of the ultrasound apparatus from the nominal ones were observed. This can either lead to an inadequate effect of the ultrasound on the patient's body or may lead to an excessive effect of the ultrasound on the patient. In the first case, the patient does not receive the necessary dose of ultrasound for treatment, and as a consequence, ineffective treatment and disappointment of the patient in this method of treatment may be observed. In the second case, there is a risk of injury to the patient, which poses a threat to the safety of his health during the procedure of ultrasound therapy.Objective. The purpose of the paper is development of a technique for evaluating the initial parameters of ultrasound therapy apparatus for practical application in the development and improvement of ultrasound therapy apparatus.Methods. The study measured the input and output parameters of a piezoelectric element that is included in the emitter of the experimental ultrasound therapy apparatus.Results. As a result of these studies, a calculation technique was developed and the value of the ultrasound intensity of the test unit of the adaptive ultrasound therapy apparatus was determined.Conclusions. A technique for calculating the initial intensity of ultrasound for ultrasound therapy apparatus has been developed, which makes it possible to use them in the development of new ultrasonic emitters for physiotherapy.

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MEASUREMENT OF ULTRASONIC POWER OF ULTRASONIC THERAPY DEVICES

ɉɊɂɅȺȾɈȻɍȾɍȼȺɇɇə ɌȺ ȱɇɎɈɊɆȺɐȱɃɇɈ-ȼɂɆȱɊɘȼȺɅɖɇȺ ɌȿɏɇȱɄȺ 71 DOI: 10.20535/kpi-sn.2019.4.180739 ±¢¨ 617.3:519.2 ž.¼. ¨Î¾ÀÕÃËÈÌ , ª.². °ÃÎÃ×ÃËÈÌ, ¡.¯. °ÆÊÕÆÈ ¨ ‘Ê. ÁÌÎÝ ¯‘ÈÌÎÏÚÈÌÁÌ, ¨ÆÀ, ±ÈξË¾ correspondingauthor: ¦ª®¼ ž««½ ¬°±¤«¬¯° ±©º°®ž¥ ±¨± ¦®¬ª«¼ žµ žž®ž° ±©º°®ž¥ ±¨¬ ¬ °£®ž ÎÌ¿ÉÃʾÐÆȾ. ±ÉÚÐξÅÀÑÈ ÍÌϑ¾˜ À¾ÄÉÆÀà ʑÏÔà ÏÃÎ࿾Á¾ÐÚÌÓ ÊÃÐÌ‘À ɑÈÑÀ¾ËËÝ Ñ Ò‘Å‘ÌÐÃξ͑. ÎÌÔÃÏ É‘ÈÑÀ¾ËËÝ ÑÉÚÐξÅÀÑÈÌÊ Ñ Ò‘Å‘ÌÐÃξ͑ ÍÌÉÝÁ¾˜ À ÈÌËоÈÐË‘Ç Àž˜ÊÌ‘ ÑÉÚÐξÅÀÑÈÌÀÌÁÌ ÀÆÍÎÌʑËÜÀ¾Õ¾ ‘Å ÍÌÀÃÎÓËÃÜ ÖȑÎÆ Ð‘É¾ ;ԑ˜Ëо. 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ÌÀ‘ÂÌÊÉÝÉÌÏÝ ÍÎÌ Ë¾ÂÅÀÆÕ¾Çˑ ÀÆ;ÂÈÆ ×ÌÂÌ À‘ÂÏÑÐËÌÏБ ÍÌÐΑ¿Ë̝ ÍÌÐÑÄËÌÏБ ÑÉÚÐξÅÀÑÈÑ (±¥) ¾¿Ì ÍÎÌ ÎÌ¿ÌÐÑ Å Ê¾ÈÏÆʾÉÚËÌÜ ÍÌÐÑÄˑÏÐÜ Ë¾ ÀÏ‘Ó ÎÃÄÆÊ¾Ó ÎÌ¿ÌÐÆ ¾Í¾Î¾Ð¾ [1, 2]. ´Ã ÍÌÐÃËԑÇËÌ ÊÌÄà ÍÎÆÅÀÃÏÐÆ ÂÌ ÐξÀÊÑÀ¾ËËÝ Í¾Ô‘˜Ëо ¾¿Ì Ä ÂÌ ËÃÃÒÃÈÐÆÀËÌÁÌ É‘ÈÑÀ¾ËËÝ. ¢ÉÝ ÐÌÁÌ ×Ì¿ ÑÉÚÐξÅÀÑÈÌÀà ґőÌÐÃξÍÃÀÐÆÕËà ̿ɾÂ˾ËËÝ Å¾¿ÃÅÍÃÕÑÀ¾ÉÌ ËÃ̿ӑÂËÑ ÝȑÏÐÚ ÎÌ¿ÌÐÆ ÂÉÝ ÀÆÈÌÎÆÏоËËÝ Ñ ÍÌÀÏÝÈÂÃËË‘Ç ÈɑˑÕË‘Ç ÍξÈÐÆԑ, ËÃ̿ӑÂ˾ ÎÃÁÑÉÝÎ˾ ÍÃÎÃÀ‘ÎȾ ÀÆӑÂËÆÓ Í¾Î¾ÊÃÐΑÀ ±¥. ª‘Ä˾ÎÌÂËÆÊÆ ÌÎÁ¾Ë‘žԑÝÊÆ ÎÌÅÎÌ¿ÉÃËÌ ÈÃΑÀËÆÔÐÀÌ, ÝÈà ÀÆÅ˾վ˜ ‘ ÎÃÁɾÊÃËÐј ÍÌÐÌÕËÑ, ×ÌÐÆÄËÃÀÑ Ð¾ ×ÌΑÕËÑ ÍÃÎÃÀ‘ÎÈÑ ÀÆӑÂËÆÓ Í¾Î¾ÊÃÐΑÀ ¾Í¾Î¾Ð‘À ±¥° [1,3]. ÌÕ¾ÐÈÌÀÆÇ ÍÎÆÇʾÉÚËÆÇ ÐÃÏÐ ÍÌÉÝÁ¾˜ Ñ ÍÌÀ‘Îԑ ÍÎÆÏÐÎÌÜ Í‘ÏÉÝ ÇÌÁÌ ÂÌÏоÀÈÆ Ð¾ ÍÃÎàÍÌÕ¾ÐÈÌÊ ÇÌÁÌ ©ʤ̨̛̯̬̏. ˁ̵̶̨̨̛̯̯̯̪̹̬̯̭̦̱̥̣̞̖̦̞̟̌́̀̿̽́̌̏̌̚CCBY4.0. ÃÈÏÍÉѾоԑ. ·ÌÐÆÄËÃÀ¾ ÍÌÀ‘ÎȾ — Ôà ÍÎÌÏо ÝȑÏ˾ ÍÃÎÃÀ‘ÎȾ ÎÌ¿ÌÐÆ ÍÎÆÏÐÎÌÜ. ± ×ÌΑÕË‘Ç ÍÌÀ‘Îԑ, ÈÎ‘Ê ÝȑÏË̝ ÍÃÎÃÀ‘ÎÈÆ, ÀÆÅ˾վÜÐÚÏÝ È‘ÉÚȑÏˑ ӾξÈÐÃÎÆÏÐÆÈÆ. ‘ÏÉÝ ÍÌÏоÀÈÆ ËÌÀÌÁÌ ¾Í¾Î¾Ð¾ ¾¿Ì ͑ÏÉÝ ÎÃÊÌËÐÑ ‘ÏËÑÜÕÌÁÌ ÍÎÆÏÐÎÌÜ ËÃ̿ӑÂËÌ ÍÃÎÃÀ‘ÎÆÐÆ ÍÆÏÚÊÌÀÑ ÂÌÈÑÊÃËÐ¾Ô‘Ü À‘ ÀÆÎÌ¿ËÆȾ ÍÎÌ ÐÃ, ×Ì ÍÎÆÏÐÎ‘Ç À‘ÂÍÌÀ‘¾˜ ÀÏоËÌÀÉÃËÆÊ ÀÆÊÌÁ¾Ê. žÍ¾Î¾Ð ʾ˜ ¿ÑÐÆ ÍÌÀ‘ÎÃËÆÇ Ð¾ ÍÎÌȾɑ¿ÎÌÀ¾ËÆÇ ÅÁ‘ÂËÌ Å‘ Ïо˾ÎоÊÆ IEC 61689 ‘ IEC 60601-2-5. ŸÑÂÚ-ÝÈÆÇ ÍÎÆÏÐΑÇ, ÝÈÆÇ ÀÆÍÎÌʑËܘ ±¥-ÃËÃÎÁ‘Ü ÂÉÝ É‘ÈÑÀ¾ËËÝ Í¾Ô‘˜Ëо, ÍÌÀÆËÃË ¿ÑÐÆ ÍÌÀ‘ÎÃËÆÇ ‘ À‘ÂȾɑ¿ÎÌÀ¾ËÆÇ Ð¾ ʾ˜ ÎÃÁÑÉÝÎËÌ Í‘ÂÐÎÆÊÑÀ¾ÐÆÏÝ Ñ ÏÍξÀËÌÊÑ Ïоˑ, ÌÏÌ¿ÉÆÀÌ Ôà ÏÐÌÏјÐÚÏÝ ÐÌÕËÌÏБ ÇÌÁÌ ÀÆӑÂËÆÓ Í¾Î¾ÊÃÐΑÀ, Ñ Ð.Õ. ‘ ÐÃÊÍÃξÐÑÎËÆÓ ÁËБÀ [4]. ´Ã ÍξÀÆÉÌ ÍÌÀÆËËÌ ¿ÑÐÆ Õ¾ÏÐÆËÌÜ ÍÎÌÁξÊÆ Å¾¿ÃÅÍÃÕÃËËÝ ÝÈÌÏБ ÔÚÌÁÌ ÊÃÂÆÕËÌÁÌ ¾Í¾Î¾Ð¾ Å ÊÃÐÌÜ ÝȑÏËÌÁÌ É‘ÈÑÀ¾ËËÝ Í¾Ô‘˜ËБÀ. ÏËј ȑÉÚȾ ÏÍÌÏÌ¿‘À ÂÌÏÝÁËÃËËÝ Ô‘˜ ÊÃÐÆ: a) ÀÆӑÂËÆÇ ÏÆÁË¾É ÊÌÄà ¿ÑÐÆ À‘ÂȾɑ¿ÎÌÀ¾ËÆÇ ÍÌÏоվÉÚËÆÈÌÊ ÍÌÏÉÑÁ Ⱦɑ¿ÎÑÀ¾ËËÝ, ÝÈÆÇ ÀÌÉÌ‘˜ ¿‘ÉÚÖ ÀÆÏÌÈÌÐÌÕËÆÊ Ì¿É¾Â˾ËËÝÊ. 72 KPI Science News 2019 / 4 ¿) ÀÆӑÂˑ ;ξÊÃÐÎÆ ÊÌÄÑÐÚ ¿ÑÐÆ À‘ÂȾɑ¿ÎÌÀ¾Ë‘ ÕÃÎÃÅ ÍÌΑÀËÝËËÝ Å ‘ËÖÆÊ ÍÎÆÏÐÎ̘Ê, ÝÈÆÇ ¿ÑÀ À‘ÂȾɑ¿ÎÌÀ¾ËÆÇ ‘Å ¿‘ÉÚÖÌÜ ÐÌÕˑÏÐÜ [1, 3]. ÌÎоÐÆÀËÆÇ Ïо˾ÎÐ ÍÌÐÑÄËÌÏБ (PPS) ž¿ÃÅÍÃÕј Ïо¿‘ÉÚËÆÇ ‘ À‘ÂÐÀÌÎÜÀ¾ËÆÇ ÎÃÅÑÉÚоРÂÄÃÎÃɾ ÍÌÐÑÄËÌÏБ ±¥ ˾ Â̾ÕÑ ÂÌ Å¾¿ÃÅÍÃÕÃËËÝ ÍÎÆɾÂÑ Å¾ÏÌ¿¾ÊÆ, ×Ì ÂÃÊÌËÏÐÎÑÜÐÚ ÇÌÁÌ ÃÒÃÈÐÆÀˑÏÐÚ Ñ Å¾ÏÐÌÏÑÀ¾Ëˑ ÀÆʑÎÜÀ¾Õ¾ ÍÌÐÑÄËÌÏБ. PPS ÀÆÈÌÎÆÏÐÌÀј Ⱦɑ¿ÎÌÀ¾Ë‘ ±¥ÍÃÎÃÐÀÌÎÜÀ¾Õ‘ ÍÌÐÑÄËÌÏБ (ɑÈÑÀ¾ÉÚˑ ÁÌÉÌÀÈÆ), Ýȑ ÊÌÄÑÐÚ ¿ÑÐÆ Å¾ÏÐÌÏÌÀ¾Ë‘ ÂÉÝ È¾É‘¿ÎÑÀ¾ËËÝ ÀÆʑÎÜÀ¾Õ¾ ÍÌÐÑÄËÌÏБ ÈÌÎÆÏÐÑÀ¾Õ¾. ÏËј ԑɾ ËÆÅȾ ÂÌÏÐÑÍËÆÓ ÍÃÎÃÐÀÌÎÜÀ¾Õ‘À, Ýȑ ʾÜÐÚ ¿ÑÐÆ ÎÃÍÎÃÅÃËоÐÆÀËÆÊÆ ÂÉÝ ÈɑˑÕËÌÁÌ Å¾ÏÐÌÏÑÀ¾ËËÝ. ¨Î‘Ê ÐÌÁÌ, ˜ ÍÃÎÃÐÀÌÎÜÀ¾Õ, ÝÈÆÇ ÍÎÆÅ˾ÕÃËÆÇ ÂÉÝ ÍÃÎÃÀ‘ÎÈÆ ÏБÇÈÌÏБ ÀÆʑÎÜÀ¾Õ¾ ÍÌÐÑÄËÌÏБ ÂÌ ÍÃÎÃÖÈÌ ÃÉÃÈÐÎÌʾÁˑÐËÌÁÌ ÀÆÍÎÌʑËÜÀ¾ËËÝ Ð¾ ÇÌÁÌ Ë¾Â‘ÇËÌÏБ Ñ ÀÆʑÎÜÀ¾Ëˑ ¾ÏÆÊÃÐÎÆÕËÆÓ ±¥-ÍÃÉÜÏÐȑÀ ÍÎÌÊÃˑÀ. ÆʑÎÜÀ¾Õ ÍÌÐÑÄËÌÏБ ÍÌÀÆËÃË ÀÆÅ˾ÕÆÐÆ ÍξÀÆÉÚËÑ ÍÌÐÑÄˑÏÐÚ Ñ ÊÃÄ¾Ó ±20%. «¾ ÏÚÌÁÌÂˑ ÔÃÇ ÍÌÎоÐÆÀËÆÇ Ïо˾ÎÐ ÍÌÐÑÄËÌÏБ ÀÆÈÌÎÆÏÐÌÀјÐÚÏÝ À ˜ÀÎÌÍÃÇÏÚÈÆÓ ÈξË¾Ó [1, 3, 5]. ¥¾ÅÀÆÕ¾Ç À ÌԑËԑ ÎÌ¿ÌÐÆ ±¥-ÍÎÆɾ‘À ‘ ¾Í¾Î¾Ð‘À Ñ ÊÃÂÆÔÆˑ ÀÆÈÌÎÆÏÐÌÀÑÜÐÚÏÝ Ë¾ÀÃÂÃˑ ¾ɑ ӾξÈÐÃÎÆÏÐÆÈÆ ‘ÊÍÑÉÚÏËÌÁÌ ¾ÈÑÏÐÆÕËÌÁÌ ÀÆÍÎÌʑËÜÀ¾ËËÝ. ª¾ÈÏÆʾÉÚ˾ (͑ÈÌÀ¾) ‘ËÐÃËÏÆÀˑÏÐÚ ‘ÊÍÑÉÚÏÑ IS®°® ÀÆÅ˾վ˜ÐÚÏÝ ÍÌÐÑÄˑÏÐÜ, ×Ì À‘ÂÍÌÀ‘¾˜ ʾÈÏÆʾÉÚË‘Ç Ë¾Í‘ÀÓÀÆɑ ‘ÊÍÑÉÚÏÑ. ž¿ÎÃÀ‘¾ÐÑξ S®°® ÌÅ˾վ˜ spatial peak, temporal peak (͑ÈÌÀ¾ À ÍÎÌÏÐÌΑ о ͑ÈÌÀ¾ À վϑ). IS®°® ӾξÈÐÃÎÆÅј ʾÈÏÆʾÉÚËÑ ÍÌÐÑÄˑÏÐÚ À ¾ÈÑÏÐÆÕËÌÊÑ ÍÌɑ, ÏÐÀÌÎÃËÑ À ÎÃÅÑÉÚоБ ÀÆÍÎÌʑËÜÀ¾ËËÝ [6, 7]. ª¾ÈÏÆʾÉÚ˾ À ÍÎÌÏÐÌΑ ‘ËÐÃËÏÆÀˑÏÐÚ ‘ÊÍÑÉÚÏÑ IS®PA ÀÆÅ˾վ˜ÐÚÏÝ ÍÌÐÑÄˑÏÐÜ ÀÏÚÌÁÌ ‘ÊÍÑÉÚÏÑ ‘ ¿ÃÎÃÐÚÏÝ À ÊÃÄ¾Ó ÐÎÆÀ¾ÉÌÏБ ‘ÊÍÑÉÚÏÑ ɒ‘. ÌÅ˾ÕÃËËÝ S®PA: spatial peak, pulse average — ͑ÈÌÀ¾ À ÍÎÌÏÐÌΑ о ÏÃÎÃÂËÝ Å¾ ‘ÊÍÑÉÚÏÌÊ (ÍÎÌÐÝÁÌÊ ÐÎÆÀ¾ÉÌÏБ ‘ÊÍÑÉÚÏÑ ɒ‘). IS®PA ӾξÈÐÃÎÆÅј ʾÈÏÆʾÉÚËÑ ÍÌÐÑÄˑÏÐÚ Ñ ÍÎÌÏÐÌΑ [7, 8]. ª¾ÈÏÆʾÉÚ˾ À ÍÎÌÏÐÌΑ о ÏÃÎÃÂËÝ À վϑ ‘ËÐÃËÏÆÀˑÏÐÚ IS®°A ÀÆÅ˾վ˜ÐÚÏÝ À ÎÃÅÑÉÚоБ ÑÏÃÎÃÂËÃËËÝ Ê¾ÈÏÆʾÉÚË̝ À ÍÎÌÏÐÌΑ ‘ËÐÃËÏÆÀËÌÏБ ‘ÊÍÑÉÚÏÑ IS®®A ž Õ¾Ï, ×Ì ÂÌΑÀËܘ ÍÃΑÌÂÑ ÍÌÀÐÌÎÃËËÝ ‘ÊÍÑÉÚϑÀ °Í [7, 9]: I SPTA | I SPPA Wi . TÍ (1) ¯ÃÎÃÂËÝ ‘ËÐÃËÏÆÀˑÏÐÚ ISž°ž ӾξÈÐÃÎÆÅј ‘ËÐÃËÏÆÀˑÏÐÚ, ÑÏÃÎÃÂËÃËÑ ‘ À ÍÎÌÏÐÌΑ, ‘ À վϑ. Sž°ž — spatial average, temporal average (ÏÃÎÃÂËÝ À ÍÎÌÏÐÌΑ, ÏÃÎÃÂËÝ À վϑ) [7, 10]: I SATA | I SPTA Si . S ck ¾ÄÉÆÀà Å˾ÕÃËËÝ Ê¾˜ ͑ÈÌÀÆÇ ËÃÁ¾ÐÆÀËÆÇ ÐÆÏÈ Î_ — Ð¾È ÅÀ¾ËÆÇ Í‘È ÎÌÅΑÂÄÃËËÝ, — ʾÈÏÆʾÉÚËà ž ÀÃÉÆÕÆËÌÜ Å˾ÕÃËËÝ ËÃÁ¾ÐÆÀË̝ ˾͑ÀÓÀÆɑ ¾ÈÑÏÐÆÕËÌÁÌ ÐÆÏÈÑ À ±¥-‘ÊÍÑÉÚϑ. ´ÃÇ Í¾Î¾ÊÃÐÎ ÀƿξËÆÇ Å Ð‘˜ ÍÎÆÕÆËÆ, ×Ì ¿‘ÉÚÖÌÜ Ê‘ÎÌÜ, Ë‘Ä ÍÃÎÃɑÕÃˑ ÀÆ×à ӾξÈÐÃÎÆÏÐÆÈÆ, ÍÌÀ’ÝžËÆÇ ‘Å ÊÃӾˑÕËÆÊÆ, ÐÌ¿ÐÌ ËÃÐÃÍÉÌÀÆÊ, ÃÒÃÈоÊÆ ÀÍÉÆÀÑ ±¥ (ȾÀ‘оԑ˜Ü ‘ ѾÎËÆÊÆ ÓÀÆÉÝÊÆ). °ÆÏÈ Å¾ÅÀÆÕ¾Ç ÀÆʑÎܘÐÚÏÝ À ÊÃÁ¾Í¾ÏȾÉÝÓ (ª¾): 1 ª¾ § 10 ¾ÐÊ [6, 7, 11]. ¥Ë¾ÕÃËËÝ ÀÆӑÂË̝ ‘ËÐÃËÏÆÀËÌÏБ ÀÆÍÎÌʑËÜÀ¾ËËÝ À ÍÎÌÊÃˑ IÌb (output beam intensity) ÀÆÅ˾վ˜ÐÚÏÝ, ÝÈ ÏÃÎÃÂËÝ À վϑ ÀÆӑÂ˾ ¾ÈÑÏÐÆÕ˾ ÍÌÐÑÄˑÏÐÚ, ÍÌ‘ÉÃ˾ ˾ ÍÉÌ×Ñ ÍÃÎÃΑÅÑ ±¥-ÍÎÌÊÃËÝ. ´ÃÇ Í¾Î¾ÊÃÐÎ, ÍÌÎÝ Š‘ËÐÃËÏÆÀˑÏÐÜ IS®°A, ˾ǿ‘ÉÚÖÌÜ Ê‘ÎÌÜ ÀÆÅ˾վ˜ ÐÃÍÉ (...truncated)


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Kravchenko Anatolii Yu., Mykola F. Tereshchenko, Tymchik Grigory S.. MEASUREMENT OF ULTRASONIC POWER OF ULTRASONIC THERAPY DEVICES, Scientific news of KPI, 2019, pp. 71-76,