Immunoreactivity of CD31 protein in endothelial cells of microcirculation in oral soft tissues in patients with intra-osseous titanium implants subjected extremely low-frequency magnetic fields: the first report in prosthetic patients

• Autorzy: Sobaniec-Lotowska M. , Sidorska M. , Lotowska J.M. , Opalko K. , Bulatowicz I. , Dojs A. , Lotowski W.J.
• Języki publikacji: EN

Abstrakty

EN

Our study objective was to assess the influence of extremely low-frequency magnetic fields (ELF MF) with induction similar to Earth’s field, i.e. corresponding to the natural electromagnetic field, on the process of angiogenesis, with special regard to the degree of immunoexpression of the endothelial marker CD31 in soft tissues covering the alveolar process, determined using the Viofor JPS system in patients with intraosseous titanium Alpha-Bio implants. CD31 labeling indicates that exposure to ELF MF with low value of induction (1) markedly stimulates angiogenesis and (2) widens the vascular bed in the oral soft tissues, which may significantly accelerate the regeneration processes.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2011
• Tom: 20
• Numer: 3
• Opis fizyczny: p.763-769,fig.,ref.

Twórcy

autor

Sobaniec-Lotowska M.

• Department of Medical Pathomorphology, Medical University of Bialystok, Waszyngtona 13, 15-269 Bialystok, Poland

autor

Sidorska M.

autor

Lotowska J.M.

autor

Opalko K.

autor

Bulatowicz I.

autor

Dojs A.

autor

Lotowski W.J.

Bibliografia

• 1. SIEROŃ A., SIEROŃ-STOŁTNY K., BINISZKIEWICZ T., STANEK A., STOŁTNY T., BINISZKIEWICZ K. The analysis of therapeutic magnetostimulation efficiency with the use of Viofor JPS System in chosen disease entities. Acta Bio – Opt. Inf. Med., 7, (1), 1, 2001 [In Polish].
• 2. SIEROŃ A., HESE T.R., SOBIŚ J., CIEŚLAR G. The evaluation of therapeutic efficiency of decreased variable magnetic fields with the use of low level induction in depression treatment. Psych. Pol. 38, (2), 217, 2004 [In Polish].
• 3. SIEROŃ A., CIEŚLAR G. Application of variable magnetic fields in medicine – 15 years experience. Wiad. Lek. 56, (9-10), 434, 2003 [In Polish].
• 4. OPALKO K., SIEROŃ A. Variable magnetic fields in dentistry and ophthalmology. Ed. α - medica press. Bielsko – Biała 2009 [In Polish].
• 5. TENFORDE T.S., KAUNE W.T. Interaction of extremely low frequency electric and magnetic fields with humans. Health Phys., 53, (6), 585, 1987.
• 6. TENFORDE T.S. The wonders of magnetism. Bioelectromagnetics. 24, (1), 3, 2003.
• 7. YAMBE T, INOUE A, SEKINE K, SHIRAISHI Y, WATANABE M, YAMAGUCHI T, SHIBATA M, MARUYAMA M, KONNO S, NITTA S. Effect of alterative magnetic stimulation on peripheral circulation for regenerative medicine. Biomed. Pharmacother. 59, (1), S174, 2005.
• 8. STRAUCH B, HERMAN C, DABB R, IGNARRO LJ, PILLA AA. Evidence-based use on pulsed electromagnetic field therapy in clinical plastic surgery. Aesthet. Surg. J. 29 (2), 135, 2009.
• 9. ELIASSON A., NARBY B., EKSTRAND K., HIRSCH J., JOHANSSON A., WENNERBERG A. A 5-year prospective clinical study of submerged and nonsubmerged paragon system implants in the edentulous mandible. Int. J. Prosthodont. 23, (3), 231, 2010.
• 10. ELIASSON A, WENNERBERG A, JOHANSSON A, ORTORP A, JEMT T. The precision of fit of milled titanium implant frameworks (I-Bridge) in the edentulous jaw. Implant Dent. Relat. Res. 12, (2), 81, 2010.
• 11. FICKL S., ZUHR O., STEIN J.M., HÜRZELER MB. Periimplant bone level around implants with platform-switched abutments. Int. J. Oral Maxillofac. Implants. 25, (3), 577, 2010.
• 12. ŁUKOMSKA-SZYMAŃSKA M., CAJDLER M., KLIMEK L., RYLSKA D., SOKOŁOWKSA J. Protective properties of nanocrystalline carbon coating deposited on CoCr alloy used for fabrication of cast metal partial dentures. Polish J. Environ. Stud. 17, (6A), 14, 2008.
• 13. SOBANIEC-LOTOWSKA M.E., SIDORSKA M., LOTOWSKA J.M., BULATOWICZ I., OPALKO K., DOJS A., LOTOWSKI W. Immunoexpression of the vascular marker CD31 in endothelial cells of microcirculation in the oral soft tissues in prosthetic patients with titanium implants subjected to extremely low frequency magnetic fields. Falk Symposium 176. Environment and Lifstyle – Effects on Disorders of the Digestive tract. Freiburg, Germany, 69, October 9-10, 2010.
• 14. MAŁYSZKO M., SOBANIEC–ŁOTOWSKA M.E., DENISEWICZ K.B., PAWIŃSKA M. Magnetostimulation in dentistry – the effects of functioning of slowly variable magnetic fields. Literature survey. Mag. Stom. 184, (6), 31, 2007 [In Polish].
• 15. MCKAY J.C., PRATO F.S., THOMAS A.W. A literature review: the effects of magnetic field exposure on blood flow and blood vessels in the microvasculature. Bioelectromagnetics. 28, (2), 81, 2007.
• 16. OPALKO K., DOJS A., DEKA W. The use of low induction magnetic fields in dentistry. Twój Mag. Med. i Stomat. Prot. 1, (1), 9, 2003 [In Polish].
• 17. BOHDZIEWICZ O., SKOMRO P., OPALKO K., NOCEŃ J., SZYCH Z. The impact of treatment by extremely low frequency magnetic fields on the electropotentials in an oral cavity and some chemical elements content in saliva. Ann. Acad. Med. Stetin. 53, (1), 86, 2007 [In Polish].
• 18. VILLA M., MUSTARELLI P., CAPROTTI M. Biological effects of magnetic fields. Life Sci. 49, (2), 85, 1991.
• 19. MAŁYSZKO M., OPALKO K., SOBANIEC-ŁOTOWSKA M.E., DOJS A., BUŁATOWICZ I., ŁOTOWSKA J.M., ŁOTOWSKI W.J. Stratified squamous epithelium morphological studies of tunica mucosa oris in patients’ with dentistry implants treated with magnetostimulation. II International Symposium of Dental Physiodiagnostics and Physiotherapy. Międzyzdroje, Poland, 28-29, October 2-3, 2009 [In Polish].
• 20. OPALKO K., DOJS A. Bone structure regeneration after low induction magnetic field treatment in teeth chosen for extraction. Adv. Med. Sci. 51, (1), 151, 2006.
• 21. OPALKO K., DOJS A. The use of magnetic fields generated by Viofor JPS in Dentistry. Mag. Stom. 9, 59, 2003 [In Polish].
• 22. SIEROŃ A., CIEŚLAR G., MATUSZCZYK J., ŻMUDZIŃSKI J. A trial use of the variable magnetic field in the symptomatic treatment of multiple sclerosis. Pol. Tyg. Lek. 51, (6-9), 113, 1996 [In Polish].
• 23. SIEROŃ A., GLINKA M. The influence of magnetic fields in therapeutic extent in the process of skin and soft tissues healing. Chir. Pol. 4, (4), 153, 2002 [In Polish].
• 24. SOBIŚ J., JARZĄB M., HESE RT., SIEROŃ A., ZYSS T., GORCZYCA P., GIERLOTKA Z., PUDLO R., MATYSIAKIEWICZ J. Therapeutic efficacy assessment of weak variable magnetic fields with low value of induction in patients with drug-resistant depression. J. Affect. Disord. 123, (1-3), 321, 2010.
• 25. TROCHIMIAK L., CZERNICKI J., WOLDAŃSKAOKOŃSKA M., JUROWSKA A., ŻYTKOWSKI A. The magnetic field in spinal pains treatment. Baln. Pol. 39, (3-4), 107, 1997 [In Polish].
• 26. WOLDAŃSKA-OKOŃSKA M, CZERNICKI J. Effect of low frequency magnetic fields used in magnetotherapy and magnetostimulation on the rehabilitation results of patients after ischemic stroke. Przegl. Lek. 64, (2), 74, 2007 [In Polish].
• 27. WOLDANSKA-OKOŃSKA M, KARASEK M, CZERNICKI J. The influence of chronic exposure to low frequency pulsating magnetic fields on concentrations of FSH, LH, prolactin, testosterone and estradiol in men with back pain. Neuro. Endocrinol. Lett. 25, (3), 201, 2004.
• 28. SIEROŃ A., BRUS R., SZKILNIK R., PLECH A., KUBAŃSKI N., CIEŚLAR G. Influence of alternating low frequency magnetic fields on reactivity of central dopamine receptors in neonatal 6-hydroxydopamine treated rats. Bioelectromagnetics. 22, (7), 479, 2001.
• 29. SIEROŃ A., LABUS Ł., NOWAK P., CIEŚLAR G., BRUS H., DURCZOK A., ZAGZIŁ T., KOSTRZEWA RM., BRUS R. Alternating extremely low frequency magnetic field turnover of dopamine and serotonin in rat frontal cortex. Bioelectromagnetics. 25, (6), 426, 2004.
• 30. JAMES G. Orthodontics in a quantum Word III: electromagnetic field theory and oral parafunction., Int. J. Orthod. Milwaukee. 19, (3), 31, 2008.
• 31. SIEROŃ A., OBUCHOWICZ A., JAKUBOWSKA D., ŻMUDZIŃSKA-KITCZAK J., PIETRZAK J., URBAN K., KNIAŻEWSKA M., SIEROŃ-STOŁTNY K., MRUGAŁA-PRZYBYŁA B., SZYGUŁA M. The use of magnetic field in the treatment of peripheral facial palsy children - case reports. Baln. Pol. 46, (1-2), 58, 2004 [In Polish].
• 32. KUZU I., BICKNELL R., HARRIS A.L., JONES M., GATTER KC., MASON DY. Heterogeneity of vascular endothelial cells with relevance to diagnosis of vascular tumors. J. Clin. Pathol. 45, (2), 143, 1992.
• 33. ŻÓŁTOWSKA A., STĘPIŃSKI J., LEWKO B., ZAMORSKA B., ROSZKIEWICZ A., SERKIES K., KRUSZEWSKI WJ. Malformations of angiogenesis in the low differentiated human carcinomas – immunohistochemical study. Arch Immunol. Ther. Exp. (Warsz.). 49, (1), 59, 2001.
• 34. BARAŃSKA P., JERCZYŃSKA H., PAWŁOWSKA Z. Vascular growth factor-structure and functions. Postepy Biochem. 51, (1), 12, 2005 [In Polish].
• 35. CARMELIET P. Angiogenesis in health and disease. Nat. Med. 9, (6), 653, 2003.
• 36. DAVIS G.E., SENGER D.R. Endothelial extracellular matrix: biosynthesis, remodeling, and functions during vascular morphogenesis and neovessel stabilization. Circ. Res. 97, (11), 1093, 2005.
• 37. FAM N.P., VERMA S., KUTRYK M., STEWART D.J. Clinician guide to angiogenesis. Circulation. 108, (21), 2613, 2003.
• 38. INGBER D.E. Mechanical signaling and the cellular response to extracellular matrix in angiogenesis and cardiovascular physiology. Circ. Res. 91, (10), 877, 2002