The influence of low-frequency variable magnetic fields in reducing pain experience after dental implant treatment

• Autorzy: Kasperski J. , Rosak P. , Rój R. , Czelakowska A. , Sieroń-Stołtny K. , Pasek J. , Sieroń A.

Identyfikatory

DOI

10.5277/ABB-00276-2014-02

• Języki publikacji: EN

Abstrakty

EN

The paper presents the evaluation of analgesic effect or magnetostimulation and magnetoledtherapy after implantation treatment. The study was conducted on 3 groups (Z applicator, IR applicator and conventional drug therapy) of 10 patients each of whom underwent a single implantation. Magnetostimulation was carried out using Viofor JPS Delux equipment. The patients were exposed to magnetic field for approx. 15 minutes before the treatment and during the visit after 6 hours after the implantation procedure. Pain perception of patients was recorded on the Visual Analogue Scale (VAS). Results: the most intense pain was reported in the control group. The least intense pain appeared in the group with Z applicator. Patients using Z and IR applicators took analgesics less frequently and used much weaker analgesics than the control group. Pain perceived in the first group was between 0 and 2, while in the second group – between 2 and 3, and in the control group – between 3 and 5 in VAS scale. Magnetostimulation reduces patient’s demand for analgesics after implantation procedures and yielded better effects in reduction of pain in comparison with magnetostimulation with LED therapy.

Słowa kluczowe

EN

implantology; implant; magnetoledotherapy; magnetostimulation

PL

implantologia; implant; pole magnetyczne; stymulacja magnetyczna

• Wydawca: Oficyna Wydawnicza Politechniki Wrocławskiej
• Czasopismo: Acta of Bioengineering and Biomechanics
• Rocznik: 2015
• Tom: Vol. 17, no. 4
• Strony: 97--105
• Opis fizyczny: Bibliogr. 41 poz., tab., wykr.

Twórcy

autor

Kasperski J.

• Medical University of Silesia, School of Medicine with the Division of Dentistry. Department of Prosthetics and Dental Materials, Faculty of Prosthetic Dentistry

autor

Rosak P.

• Medical University of Silesia, School of Medicine with the Division of Dentistry. Department of Prosthetics and Dental Materials, Faculty of Prosthetic Dentistry

autor

Rój R.

• Medical University of Silesia, School of Medicine with the Division of Dentistry. Department of Prosthetics and Dental Materials, Faculty of Prosthetic Dentistry

autor

Czelakowska A.

• Medical University of Silesia, School of Medicine with the Division of Dentistry. Department of Prosthetics and Dental Materials, Faculty of Prosthetic Dentistry

autor

Sieroń-Stołtny K.

• Medical University of Silesia, Chair and Clinical Ward of Internal Diseases, Angiology, and Physical Medicine; Centre of Diagnostics and Laser Therapy in Bytom, of the Silesian Medical University in Katowice

autor

Pasek J.

• Medical University of Silesia, Chair and Clinical Ward of Internal Diseases, Angiology, and Physical Medicine; Centre of Diagnostics and Laser Therapy in Bytom, of the Silesian Medical University in Katowice

autor

Sieroń A.

• Medical University of Silesia, Chair and Clinical Ward of Internal Diseases, Angiology, and Physical Medicine; Centre of Diagnostics and Laser Therapy in Bytom, of the Silesian Medical University in Katowice

Bibliografia

• [1] ALLEN R.A., WEINMANN R.L., The McGill-Melzack Pain Questionnaire in the diagnosis of headache, Headache, 1982, Vol. 22 (1), 20–29.
• [2] BRYL A., KRAUSS H., PALUSZAK J., KOWAL P., SOSNOWSKI P., ADAMCZAK A., Influence of extremely low frequency magnetic fields on treatment of neuropathic pain. The discutable role of nitric oxide, Nowiny Lekarskie, 2006, Vol. 75(4), 315–320.
• [3] BRYL A., PALUSZAK J., Trigeminal neuralgia: treatment by using extremely low frequency magnetic fields.Case report, Acta Bio-Optica et Informatica Medica. Inżynieria Biomedyczna, 2001, Vol. 1–2, 15–16.
• [4] CIEŚLAR G., MROWIEC J., PUSZER M., WALENTEK T., PLECH A., KASPERCZYK S., SIEROŃ A., Analgesic effect of simultaneous exposure to μT magnetic field and infrared radiation in rats, Pol. J. Environ. Stud., 2006, Vol. 15(4A), 22–24
• [5] DAWIEC G., POGORZELSKA-STRONCZAK B., The results of the analgesic activities of magnetic stimulation in the treatment of impacted operating removal of third molars in the mandible, Ann. Acad. Med. Stetin., 2007, Vol. 53(3), 17–20.
• [6] DEL SEPPIA C., GHIONE S., LUSCHI P., OSSENKOPP K.P., CHOLERIS E., KAVALIERS M., Pain perception and electromagnetic fields, Neurosci. Biobehav. Rev., 2007, Vol. 31(4), 619–642.
• [7] DOBROGOWSKI J., WORDLICZEK J., Pathophysiology of Pain. Medicine of Pain, Wydawnictwo Lekarskie PZWL, 2004, 17–87.
• [8] ESPER M.A., NICOLAU R.A., ARISAWA E.A., The effect of two phototherapy protocols on pain control in orthodontic procedure – a preliminary clinical study, Lasers Med. Sci., 2011, Vol. 26(5), 657–663.
• [9] FREITAS A.C., CAMPOS L., BRANDÃO T.B., CRISTÓFARO M., EDUARDO FDE P., LUIZ A.C., MARQUES M.M., EDUARDO CDE P., SIMÕES A., Chemotherapy-induced oral mucositis: effect of LED and laser phototherapy treatment protocols, Photomed. Laser Surg., 2014, Vol. 32(2), 81–87.
• [10] GRUNDBERG S., GROSHEN S., STEINGLASS S., Comparison of conditional quality of life terminology and visual analogue scale measurments, Qual. Life Res., 1996, Vol. 5, 65–72.
• [11] http://pl.wikipedia.org/wiki/Dolorymetr
• [12] IASP Subcommittee on taxonomy: Pain terms; a list with definitions and notes on usage, Pain, 1979, Vol. 6, 249–252.
• [13] JANKOWSKA E., MARKOWSKA-KOSNA D., THANNHAUSER J., PONIKOWSKA B., BULDAŃCZYK A., JURCZYSZYN K., Application of magnetic fields in the treatment of pain of the facial part of the skull of various origins – preliminary study, Czas. Stomat., 2005, Vol. 58, 11.
• [14] JĘDRZEJEWSKI P., CIEŚLIK T., SIEROŃ A.R., Pain treatment with extremely low frequency magnetic fields – own experience, Eng. Biomater., 2003, Vol. 6(26), 13–17.
• [15] KAVALIERS M., OSSENKOPP K.P., Day-night rhythms of opioid and non-opioid stress-induced analgesia: differential inhibitory effects of exposure to magnetic fields, Pain, 1988, Vol. 32(2), 223–229.
• [16] KISS B., GYIRES K., KELLERMAYER M., LÁSZLÓ J.F., Lateral gradients significantly enhance static magnetic field-induced inhibition of pain responses in mice – a double blind experimental study, Bioelectromagnetics, 2013, Vol. 34(5), 385–396.
• [17] KOCHEVAR I.E., TAYLOR C.R., KRUTMANN J., Fundamental of Cutaneous Photobiology and Photoimmunology, [in:] Fitzpatrick’s Dermatology in General Medicine, The McGraw Hill Companies, New York, 2012, 1034.
• [18] KOSZOWSKI R., ŚMIESZEK-WILCZEWSKA J., DAWIEC G., Asessment of analgetic activity of simultaneous laser and alternating magnetic field before oral surgery procedures, Wiad. Lek., 2006, Vol. 59, 9–10.
• [19] KRUKOWSKA J., WOLDAŃSKA-OKOŃSKA M., JANKOWSKA K., KWIECIEŃ-CZERWIENIEC I., CZERNICKI J., Analgesic efficacy of magnetoledotherapy in patients with low back pain syndromes, Medical News, 2010, Vol. 63(4), 265–275.
• [20] LÁSZLÓ J., REICZIGEL J., SZÉKELY L., GASPARICS A., BOGÁR I., BORS L., RÁCZ B., GYIRES K., Optimization of static magnetic field parameters improves analgesic effect in mice, Bioelectromagnetics, 2007, Vol. 28(8), 615–627.
• [21] LÁSZLÓ JF, FARKAS P, REICZIGEL J, VÁGÓ P., Effect of local exposure to inhomogeneous static magnetic field on stomatological pain sensation – a double-blind, randomized, placebocontrolled study, Int. J. Radiat. Biol., 2012, Vol. 88(5), 430–438.
• [22] MERSKEY H., BOGDUK N., Part III, Pain Terms, A Current List with Definitions and Notes on Usage, Classification of Chronic Pain, IASP Task Force on Taxonomy, IASP Press, 1994, 209–214.
• [23] OPALKO K., SIEROŃ A., Variable magnetic fields in dentistry and ophthalmology, Alfa-Medica Press, 2009, Vol. 1, 16–42.
• [24] PANHOCA V.H., LIZARELLI RDE F., NUNEZ S.C., PIZZO R.C., GRECCO C., PAOLILLO F.R., BAGNATO V.S., Comparative clinical study of light analgesic effect on temporomandibular disorder (TMD) using red and infrared led therapy, Lasers Med. Sci., 2015, Vol. 30(2), 815–822.
• [25] PASEK J., PASEK T., SIEROŃ A., Magnetic fields in the conservative treatment of pain in multiple adhesions – case description, Pol. Surg., 2009, Vol. 11(1), 32–37.
• [26] PECYNA M.B., Extremely low frequency magnetic fields in psychophysiological research, Wydawnictwo Akademickie ŻAK, 2001.
• [27] PRATO F.S., CARSON J.J., OSSENKOPP K.P., KAVALIERS M., Possible mechanisms by which extremely low frequency magnetic fields affect opioid function, FASEB J, 1995, Vol. 9(9), 807–814.
• [28] PYSZKOWSKA J., Ability to assess chronic pain. An attempt to objectify assessment of pain using a modified worksheet assessment of pain, Psychooncology, 1999, Vol. 4, 13–27.
• [29] SCHMIDT R., SCHMELZ M., FORSTER C., RINGKAMP M., TOREBJÖRK E., HANDWERKER H., Novel classes of responsive and unresponsive C nociceptors in human skin, J. Neurosci., 1995, Vol. 15(1 Pt 1), 333–341.
• [30] SIEROŃ A., CIEŚLAR G., The magnetic fields and light in medicine and physiotherapy, Alfa-Medica Press, 2013, 177–231.
• [31] SKOMRO P., LIETZ-KIJAK D., KIJAK E., BOGDZIEWICZ-WAŁĘSA O., OPALKO K., The change of electric potentials in the oral cavity after application of extremely low frequency pulsed magnetic field, Postepy Hig Med Dosw (Online), 2012, Vol. 66, 991–995.
• [32] STAŚ-RZENDKOWSKA K., HALEJAK R., PYSZKOWSKA J., Magnetostimulation in medicine pain, Your Medical Magazine, 2004, Vol. 11, 15–20.
• [33] STRABURZYŃSKA-LUPA A., STRABURZYŃSKI G., Physiotherapy, PZWL, 2003, Vol. 3, 382–390.
• [34] SUPRANOWICZ P., Evaluate the usefulness of a visual analogue scale (VAS) to measure the attitudes of young people towards behavior harmful to health, Review of Epidemiologic, 2003, Vol. 57, 541–551.
• [35] TARADAJ J., SIEROŃ A.R., JARZĘBSKI M., Physiotherapy in practice, Group work ELAMED, 2010, 217–231.
• [36] THOMAS A.W., GRAHAM K., PRATO F.S., MCKAY J., FORSTER P.M., MOULIN D.E., CHARI S., A randomized, double-blind, placebo-controlled clinical trial using a low-frequency magnetic field in the treatment of musculoskeletal chronic pain, Pain Res. Manag., 2007, Vol. 12(4), 249–258.
• [37] VERGINADIS I.I., SIMOS Y.V., VELALOPOULOU A.P., VADALOUCA A.N., KALFAKAKOU V.P., KARKABOUNAS S.CH., EVANGELOU A.M., Analgesic effect of the electromagnetic resonant frequencies derived from the NMR spectrum of morphine, Electromagn. Biol. Med., 2012, Vol. 31(4), 275–284.
• [38] WALSH T.D., BOWMAN K., Modified presentation of the McGill-Melzack Pain Questionnaire (MPQ), Pain, 1982, Vol. 9, 14 (1), 75.
• [39] WRÓBEL M.P., SZYMBORSKA-KAJANEK A., WYSTRYCHOWSKI G., BINISZKIEWICZ T., SIEROŃ-STOŁTNY K., SIEROŃ A., PIERZCHAŁA K., GRZESZCZAK K., STROJEK K., Impact of low frequency pulsed magnetic fields on pain intensity, quality of life and sleep disturbances in patients with painful diabetic polyneuropathy. Diabetes Metab., 2008, Vol. 34(4), 349–354.
• [40] WYCHOWAŃSKI M., OBREBSKI M., RAPAŁA K., WIT A., GAJEWSKI J., MARCZAK K., Strength of proximal humeral fraction fixation employing implants of various types – a study of porcine bones, Acta Bioeng. Biomech., 2008, Vol. 10(3), 29–35.
• [41] ZMUDZKI J., CHLADEK W., Elastic silicone matrices as a tool for load relief in overdenture implants, Acta Bioeng. Biomech., 2008, Vol. 10(4), 7–14.