STIMULATION OF BLOOD MICROCIRCULATION DURING LOW-INTENSITY LASER THERAPY. PART 2. RESULTS AND DISCUSSION

Download full text PDF
Issue: 
8
Year: 
2015

D. Rogatkin (1), PhD; A. Dunaev (2), Candidate of Medical Sciences 1 -M.F. Vladmirsky Moscow Regional Research Clinical Institute, Moscow 2 -State University – Research, Training, and Production Complex, Orel

Testing a hypothesis for the prethermal stimulation of blood microcirculation in the area of irradia-tion during low-intensity laser therapy (external skin and oral mucosal irradiation and intravenous laser blood irradiation procedures) showed that obvious microhemodynamic changes (a ≥0.8°C in-crease in the temperature of the irradiated surface) were observed in no more than 20% of cases; a visible reaction was absent in the other cases.
Keywords: 
diagnosis
blood
laser
microcirculation
stimulation
therapy

It appears your Web browser is not configured to display PDF files. Download adobe Acrobat или click here to download the PDF file.

References: 
  1. Rogatkin D.A., Dunaev A.V. Stimuljatsija mikrotsirkuljatsii krovi pri NILT: illjuzii i dannye instrumental'nogo kontrolja. Materialy nauchno-prakt. konf. «Innovatsionnye tehnologii v lazernoj meditsine», Moskva, 8–9 ijunja, 2011 // Lazernaja meditsina. – 2011; 15 (2): 112–3.
  2. Rogatkin D.A., Makarov D.S., Bychenkov O.A. i dr. Teplovizionnyj kontrol' protsessov nagreva i mikrotsirkuljatsii krovi pri provedenii nizkoin-tensivnyh lazernyh terapevticheskih protsedur // Opticheskij zhurnal. – 2011; 78 (10): 38–45.
  3. Rogatkin D., Dunaev A. Stimulation of Blood Microcirculation at Low Level Laser Therapy: Monitoring Tools and Preliminary Data // J. Med. Res. Development. – 2014; 3(1): 100–6.
  4. Rogatkin D., Dunaev A. Is there a stimulation of blood microcirculation at Low Level Laser therapy? // Proc. SPIE. – 2014; 9129: 912922.
  5. Aksenov E.T., Mokrova D.V. Dinamika oksigenatsii gemoglobina krovi pod vozdejstviem lazernogo izluchenija // Biomeditsinskaja radioelektroni-ka. – 2008; 11: 35–41.
  6. Rogatkin D.A. Neinvazivnaja spektrofotometricheskaja indikatsija reak tsii mikrotsirkuljatornogo rusla na lazernoe terapevticheskoe izluchenie. Mat-ly I Vseros. foruma «III tysjacheletie. Puti k zdorov'ju natsii» // M.: IKF «Katalog», 2001; 125–6.
  7. Rogatkin D.A., Chernyj V.V. Nizkointensivnaja lazernaja terapija. Vzgljad fizika na mehanizmy dejstvija i opyt primenenija. V sb.: «Vzaimodejstvie izluchenija s veschestvom». Mat-ly II Bajkal'skoj shkoly po fundamental'noj fizike / Irkutsk: IGU, 1999; 366–78.
  8. Stratonnikov A.A., Ermishova N.V., Loschenov V.B. Diagnostika reaktsii kapilljarnogo rusla tkanej na lazernoe izluchenie // Kvantovaja elektro-nika. – 2002; 32 (10): 917–22.
  9. Ul'janova O.V., Ul'janov S.S., Penchen Li, i dr. Biofizicheskie aspekty dejstvija lazernogo izluchenija na zhivye sistemy. Ch. I. Vlijanie na laborator-nyh zhivotnyh // Optika i spektroskopija. – 2009; 107 (6): 972–8.
  10. Krupatkin A.I., Sidorov V.V. Funktsional'naja diagnostika sostojanija mikrotsirkuljatorno-tkanevyh sistem: kolebanija, informatsija, nelinej-nost'. Rukovodstvo dlja vrachej / M.: LIBROKOM, 2013; 496 s.
  11. Terman O.A., Kozlov V.I. Patofiziologicheskoe obosnovanie primene nija razlichnyh doz i rezhimov NILI dlja fotostimuljatsii mikrotsirkuljatsii // Lazernaja meditsina. – 1998; 2 (2–3): 43–6.
  12. Rogatkin D.A., Lapaeva L.G., Bychenkov O.A. i dr. Osnovnye istochniki pogreshnostej v neinvazivnoj meditsinskoj spektrofotometrii. Ch. 2. Mediko-biologicheskie faktory pogreshnostej // Izmeritel'naja tehnika. – 2013; 4: 66–71.
  13. Malinovskij E.L., Kartelishev A.V., Tserkovnaja Ju.E. Analiz tipov reagirovanija bol'nyh na NILT po rezul'tatam vizual'nogo vegetativnogo testa // Lazernaja meditsina. – 2007; 11 (3): 17–21.
  14. Lapitan D.G., Rogatkin D.A., Milischinskij E.M. Obrazovanie lozhnogo spektra v sheme obrabotki signala priborov lazernoj dopplerovskoj flou-metrii serii «LAKK» / Mat-ly VI Troitskoj konf. «Meditsinskaja fizika i innovatsii v meditsine», razdel «Biomeditsinskaja fotonika» / Troitsk: IPLIT RAN, 2014; s.2–4.
  15. Mal'strem S.A. Izmerenie perfuzii mikrososudov metodom lazernoj doplerovskoj floumetrii. Nekotorye primenenija v klinicheskoj praktike // Vestnik AMN SSSR. – 1988; 2: 70–6.
  16. Rogatkin D.A., Lapitan D.G., Kolbas Ju.Ju. i dr. Individual'naja variabel'nost' parametrov mikrotsirkuljatsii krovi i problemy funktsional'noj diagnostiki sistemy mikrotsirkuljatsii // Funktsional'naja diagnostika. – 2012; 4: 24–9.
  17. Korolevich A.N., Astaf'eva L.G., Dubina N.S. i dr. Dopplerovskaja spektroskopija krovi in vivo pri vozdejstvii nizkointensivnogo lazernogo izluchenija // Optika i spektroskopija. – 2004; 96 (3): 508–14.
  18. Matsuo H., Morimoto Y., Arai T. et al. Heat and Photolytic Nitric Oxide are Essential Factors for Light-induced Vascular Tension Changes // Lasers Med. Sci. – 2000; 15: 181–7.
  19. Kastyro I.V., Osipenko E.V., Popadjuk V.I. Intensivnaja magnitolazernaja terapija kak metod lechenija obostrenija hronicheskogo kataral'nogo larin-gita na fone laringo-faringeal'nogo refljuksa // Lazernaja meditsina. – 2014; 18 (1): 16–9.
  20. Rogatkin D.A., Moiseeva L.G., Barybin V.F. i dr. Sovremennye metody lazernoj klinicheskoj biospektrofotometrii. Ch. 1. Ispol'zuemye metodiki i apparatnoe osnaschenie / M.: VINITI, 1997; 55 s.
  21. Barybin V.F., Rogatkin D.A. Neinvazivnaja lazernaja diagnostika meditsinskaja tehnologija XXI veka // Al'manah klin. meditsiny. – 1998; 1: 69–81
  22. Poljakov P.Ju., Aleksandrov M.T., Bychenkov O.A. i dr. Ispol'zovanie radiomodifitsirujuschih svojstv nizkointensivnogo lazernogo izluchenija pri luchevoj terapii // Meditsinskaja fizika. – 1995; 2: 103.
  23. Romanov G.A., Tereschenko S.G., Barybin V.F. i dr. Lechebnaja endoskopija s lazernym izlucheniem pri erozivno-jazvennyh porazhenijah verhnego otdela zheludochno-kishechnogo trakta. Mat-ly IV Mezhdunar. kongressa po problemam lazernoj meditsiny. Pod red. O.K. Skobelkina / Moskva–Vidnoe: GNTs LM, 1997; s. 206.
  24. Pletnev S.D. Lazery v klinicheskoj meditsine. Ruk-vo dlja vrachej / M.: Meditsina, 1996; 432 s.
  25. Aras M., G25. üngörmüs M. Placebo-controlled randomized clinical trial of the effect of two different low-level laser therapies (LLLT) – intraoral and extraoral – on trismus and facial swelling following surgical extraction of the lower third molar // Lasers Med. Sci. – 2010; 25: 641–5.
  26. Plavskij V.Ju., Mostovnikov V.A., Rjabtsev A.B. i dr. Apparatura dlja nizkointensivnoj lazernoj terapii: sovremennoe sostojanie i tendentsii razvitija // Opticheskij zhurnal. – 2007; 74 (4): 27–41.
  27. Parvin P., Eftekharnoori S., Dehghanpour H. Monte Carlo Simulation of . Photon Densities Inside the Dermis in LLLT (Low Level Laser Therapy) // Optics and Spectroscopy. – 2009; 107 (3): 486–90.
  28. Dunaev A.V. Metodika kontrolja pogloschaemoj v epidermise moschnosti izluchenija pri nizkointensivnoj lazernoj terapii. Avtoref. dis. … kand. teh. nauk. Orel: OrelGTU, 2002; 16 s.
  29. Gamaleja N.F. Mehanizmy biologicheskogo dejstvija izluchenija lazerov. V kn.: Lazery v klinicheskoj meditsine / M.: Meditsina, 1981; 35–85.
  30. Gamaleja N.F. Shishko E.D., Janish G.B. Novye dannye o fotochuvstvi tel'nosti kletok mlekopitajuschih i lazernoj biostimuljatsii // Doklady AN SSSR. – 1983; 273: 227–31.
  31. Gorenkov R.V., Kazakov A.A., Nazarenko M.M. i dr. Sposob opredelenija sostojanija biologicheskoj tkani i diagnosticheskaja sistema dlja ego realizatsii. Patent RF №RU2234242 ot 19.03.2002: Bjull. izobretenij №23/04.