B. Monochromatic visible and near IR radiation: fundamentals of low-power laser therapy

1) quantitative laws of light action on cells of various complexity (prokaryotic, primitive and complex eukaryotic cells)

4. T.I.Karu, G.S.Kalendo, V.S.Letokhov “Action of low-intensity visible copper laser radiation on a HeLa cell culture”. Sov.J. Quantum Electronics, 12(1), 89-91, 1982 (Engl. transl. of Kvantovaya Elektronika, 12(1), 89-91, 1982).

5. T.I.Karu, G.S.Kalendo, V.S.Letokhov, V.V.Lobko “Biological action of low-intensity visible light on HeLa cells as a function of the coherence, dose, wavelength, and irradiation regime”. Sov.J. Quantum Electronics, 12(9), 1134-1138, 1982 (Engl. transl. of Kvantovaya Elektronika, 9(9), 1761-1767, 1982).

10. T.I.Karu, G.S.Kalendo, V.S.Letokhov, V.V.Lobko "Biostimulation of HeLa cells by low intensity visible light". Il Nuovo Cimento D, 1(6), 828-840, 1982.

11. T.I.Karu, G.S.Kalendo, V.S.Letokhov, V.V.Lobko “Biological action of low-intensity visible light on HeLa cells as a function of the coherence, dose, wavelength, and irradiation regime II”. Sov.J. Quantum Electronics, 13(9), 1169-1172, 1983. (Engl. transl. of Kvantovaya Elektronika, 10(9), 1771-1776, 1983).

12. T.I.Karu, G.S.Kalendo, V.V.Lobko “Dependence of biological action of low-intensity visible light upon cells on parameters of irradiation: coherence, dose, wavelength”. Izvestia Akad. Nauk USSR, ser. Physics, 47(10), 2017-2022, 1983.

13. T.I.Karu, O.A.Tiphlova, V.S.Letokhov, V.V.Lobko "Stimulation of E.coli growth by laser and incoherent red light". Il Nuovo Cimento D, 2(4), 1138-1144, 1983.

19. T.I.Karu, G.S.Kalendo, V.S.Letokhov, V.V.Lobko "Biostimulation of HeLa cells by low-intensity visible light. II. Stimulation of DNA and RNA synthesis in a wide spectral range". Il Nuovo Cimento D, 3(2), 309-318, 1984.

20. T.I.Karu, G.S.Kalendo, V.S.Letokhov, V.V.Lobko "Biostimulation of HeLa cells by low intensity visible light. III. Stimulation of nucleic acid synthesis in plateau phase cells". Il Nuovo Cimento D, 3(2), 319-325, 1984.

22. T.I.Karu, O.A.Tiphlova, G.E.Fedoseyeva, G.S.Kalendo, V.S.Letokhov, V.V.Lobko, T.S.Lyapunova, N.A.Pomoshnikova, M.N.Meissel "Biostimulating action of low-intensity monochromatic visible light: is it possible?". Laser Chemistry, 5(1), 19-25, 1984.

27. T.I.Karu, V.S.Letokhov "Biological action of low-intensity monochromatic light in the visible range". In: Laser Photobiology and Photomedicine. Ed. By S.Martellucci and A.N.Chester. New.York: Plenum Press., pp.57-66, 1985.

28. V.V.Lobko, T.I.Karu, V.S.Letokhov “Is the coherence of laser light of low intensity essential for its effects on biological objects?”. Biophysics (Moscow), 30(2), 400-407, 1985 (Engl. transl. of Biofizika, 30(2), 366-371, 1985).

30. T.I.Karu, V.S.Letokhov, V.V.Lobko "Biostimulation of HeLa cells by low-intensity visible light. IV. Dichromatic irradiation". Il Nuovo Cimento D, 5(6), 483-496, 1985.

47. O.A.Tiphlova, T.I.Karu “Effect of laser radiation and noncoherent blue light on Escherichia coli”. Radiobiologiya, 26(6), 829-832, 1986 (in Russian).

54. O.A.Tiphlova, T.I.Karu “Effect of low-intensity light of the red and infrared spectral parts on Escherichia coli bacteria”. Microbiology (Moscow), 56(3), 313-316, 1987 (Engl. transl. of Mikrobiologiya, 56(3), 393-396, 1987).

55. T.I.Karu, O.A.Tiphlova “Effect of low-intensity monochromatic visible light on the growth of Escherichia coli”. Microbiology (Moscow), 56(4), 492-496, 1987 (Engl. transl. of Mikrobiologiya, 56(4), 626-630, 1988).

56. G.E.Fedoseyeva, T.I.Karu, T.S.Lyapunova, N.A.Pomoshnikova, M.N.Meissel “Sensitivity of various yeast cultures to low-intensity red light”. Microbiology (Moscow), 56(5), 621-625, 1987 (Engl. transl. of Mikrobiologiya, 56(5), 792-796, 1987).

61. T.I.Karu "Photobiological fundamentals of low-power laser therapy". IEEE J.Quantum Electronics, QE-23 (10) 1703-1717, 1987.

        63. T.I.Karu, L.V.Pyatibrat, G.S.Kalendo "Biostimulation of HeLa cells by low-intensity visible light. V.Stimulation of
        cell proliferation in vitro by He-Ne laser radiation". Il Nuovo Cimento D, 9(12), 1485-1494, 1987.

77. T.I.Karu "Fundamentals of low-power laser photomedicine". In: Laser Science and Technology, Ed. by A.N.Chester, V.S.Letokhov and S.Martellucci, New York: Plenum Press, pp.217-232, 1988.

78. G.E.Fedoseyeva, T.I.Karu, T.S.Lyapunova, N.A.Pomoshnikova, M.N.Meissel "The activation of yeast metabolism with He-Ne laser radiation. I. Protein synthesis in various cultures". Lasers Life Sci., 2(2), 137-146, 1988.

81. O.A.Tiphlova, T.I.Karu "Stimulation of Escherichia coli division  by low-intensity monochromatic visible light". Photochem.Photobiol., 47, 467-471, 1988.

91. T.I.Karu "Photobiology of low-power laser effects". Health Physics, 56(5), p.691-704, 1989.

93. O.A.Tiphlova, T.I.Karu "Role of primary photoacceptors in low-power laser effects: action of He-Ne laser radiation on the bacteriophage T4-Escherichia coli interaction". Lasers Surg. Med, 9(1), 67-69, 1989.

97. T.I.Karu "Laser biostimulation: a photobiological phenomenon". J.Photochem. Photobiol. B: Biology, 3(4), 638-640, 1989.

113.T.Karu, O.Tiphlova, M.Samokhina, C.Diamantopoulos, V.Sarantsev, V.Schveikin "Effects of near infrared laser and superluminuous diode irradiation on Escherichia coli". IEEE J.Quantum Electr., QE-26(12), 2162-2165, 1990.

114.T.Karu "Effects of visible radiation on cultured cells". Photochem. Photobiol., 52(6), 1089-1099, 1990.

160.T.Karu, T.Andreichuk, T.Ryabykh "Changes in oxidative metabolism of murine spleen following diode laser (660-950nm) irradiation: effect of cellular composition and radiation parameters". Lasers Surg. Med., 13(4) 453-462, 1993.

170.T.Karu "Photostimulation (Laser biostimulation)". J.Photochem. Photobiol. B: Biology, 22 (1), 85-86,1994.

176.T.I.Karu, L.V.Pyatibrat, G.S.Kalendo, R.O.Esenaliev "Influence of monochromatic red and near infrared radiation on adhesive properties of cell membrane: dependence on wavelength". Bull. Exp. Biol. Med. (Moscow), 117 (6), 670-672, 1994 (Engl. transl. of Biull. Eksp. Biol. Med., 117 (6), 670-672, 1994).

194.T.I.Karu, L.V.Pyatibrat, G.S.Kalendo, R.O.Esenaliev "Effects of monochromatic low-intensity light and laser irradiation on adhesion of HeLa cells in vitro". Lasers Surg. Med., 18(2), 171-177, 1996.

229.T.I. Karu, L.V. Pyatibrat, T.P. Ryabykh “Nonmonotonic behavior of the dose dependence of the radiation effect on cells in vitro exposed to pulsed laser radiation at lambda=820 nm.” Lasers Surg. Med., 21(5), 485-492 ,1997.

318. V. M. Manteifel, T. I. Karu "Structure of mitochondria and activity of their respiratory chain in successive generations of yeast cells exposed to He–Ne laser light" Biology Bulletin, Vol. 32, No. 6, 2005, pp. 556–566.


2) molecular mechanisms

1. T.I.Karu, G.S.Kalendo, V.S.Letokhov "Control of RNA synthesis rate in tumor cells HeLa by action of low-intensity visible light of copper laser". Lett. Il Nuovo Cimento 32(2), 55-59, 1981.
 

5. T.I.Karu, G.S.Kalendo, V.S.Letokhov, V.V.Lobko “Biological action of low-intensity visible light on HeLa cells as a function of the coherence, dose, wavelength, and irradiation regime”. Sov.J. Quantum Electronics, 12(9), 1134-1138, 1982 (Engl. transl. of Kvantovaya Elektronika, 9(9), 1761-1767, 1982).

10. T.I.Karu, G.S.Kalendo, V.S.Letokhov, V.V.Lobko "Biostimulation of HeLa cells by low intensity visible light". II Nuovo Cimento D, 1(6), 828-840, 1982.

11. T.I.Karu, G.S.Kalendo, V.S.Letokhov, V.V.Lobko “Biological action of low-intensity visible light on HeLa cells as a function of the coherence, dose, wavelength, and irradiation regime II”. Sov.J. Quantum Electronics, 13(9), 1169-1172, 1983. (Engl. transl. of Kvantovaya Elektronika, 10(9), 1771-1776, 1983).

12. T.I.Karu, G.S.Kalendo, V.V.Lobko “Dependence of biological action of low-intensity visible light upon cells on parameters of irradiation: coherence, dose wavelength”. Izvestia Akad. Nauk USSR, ser. Physics, 47(10), 2017-2022, 1983.

44. T.I.Karu “Molecular mechanism of therapeutic action of the low-intensity laser light”. Doklady Biophysics, 291(5), 463-466,1986 (Engl. transl. of Doklady Akademii Nauk SSSR, 291(5), 1245-1249,1986).

49. T.I.Karu “Action on endogenous sensitizers in cells as a possible mechanism of low-power laser phototherapy”. In: Lasers in Biology. Ed. by L.B.Rubin, Kishiniov: Publ. House of Kishiniov University, pp.92-96, 1986 (in Russian).

73. T.I.Karu "Molecular mechanism of the therapeutic effect of low-intensity laser radiation". Lasers Life Sci., 2(1), 53-74, 1988.

92. T.I.Karu. Photobiology of Low-Power Laser Therapy. Chur, London, Paris, New York: Harwood Academic Publishers, 1989.

119. T.Karu "Photostimulation". J.Photochem.Photobiol. B: Biology, 8, 120, 1990.

126.O.Tiphlova, T.Karu "Action of low-intensity laser radiation on Escherichia coli division rate". CRC Critical Rev. Biomed. Eng., 18(6), 387-412, 1991.

128.T.Karu "Low-intensity laser light action upon fibroblasts and lymphocytes". In: Progress in Laser Therapy. Ed. by T.Ohshiro and R.G.Calderhead. Chichester, New York, Brisbane, Toronto, Singapore: J.Wiley and Sons, pp.175-180, 1991.

154.T. Karu "Fundamentals of interaction of visible and near infrared low-intensity laser radiation with cells" In: Laser Application in Medicine and Surgery. Ed.by G. Galletti, L. Bolognani and G. Ussia. Bologna: Monduzzi Editore, pp.203-212, 1992.

155.T. Karu "Local pulsed heating of absorbing chromphores as a possible primary mechanism of low-power laser effects". In: Laser Applications in Medicine and Surgery. Ed.by G. Galletti, L Bolognani and G. Ussia, Bologna: Monduzzi Editore, pp. 253-258, 1992.

160.T.Karu, T.Andreichuk, T.Ryabykh "Changes in oxidative metabolism of murine spleen following diode laser (660-950nm) irradiation: effect of cellular composition and radiation parameters". Lasers Surg. Med., 13(4), 453-462, 1993.

170.T.Karu "Photostimulation (Laser biostimulation)". J.Photochem. Photobiol. B: Biology, 22 (1), 85-86,1994.

174.T.Karu, O.Tiphlova, R.Esenaliev, V.Letokhov "Two different mechanisms of low-intensity laser photobiological effects on Escherichia coli". J. Photochem. Photobiol. B: Biology, 24 (3), 155-161, 1994.

181.T.Karu, L.Pyatibrat, G.Kalendo "Irradiation with He-Ne laser increases ATP level in cells cultivated in vitro". J. Photochem. Photobiol. B: Biology, 27(3), 219-223,1995.

182.T.I.Karu, N.I.Afanasyeva "Cytochrome c oxidase acts as a primary photoacceptor in cell cultures subjected to visible and near IR laser irradiation". Doklady Biochemistry (Moscow), 342, Nos. 1-6, pp. 84-86, 1995 (Engl. transl. of Doklady Akademii Nauk, 342(5), 693-695, 1995).

183.T.Karu "Interaction of monochromatic visible light and near infrared radiation with cells: currently discussed mechanisms". In: Laser-Tissue Interaction VI. Ed. by S.L.Jacques and A. Katzir, SPIE, vol. 2391, pp.576-586, 1995.

187.N.I.Afanasyeva, T.I.Karu, O.A.Tiflova “Oxidases bd and bo act as primary photoacceptors in cells Escherichia coli subjected to low-intensity visible (laser) radiation”. Doklady Biochemistry (Moscow), 345, Nos. 1-6, pp. 179-181, 1995 (Engl. transl. of Doklady Akademii Nauk, 345 (3), 404-406, 1995).

208.T.Karu “Biophysical basics of low-power laser effects.” In: Biological Effects of Light. Ed. by M.F. Holick and E.G. Jung. Berlin, New York: Walter de Gruyter, pp. 246-248, 1996.

233.T. Karu, N. Afanasyeva, S. Kolyakov, L.Pyatibrat “Changes in absorption (lambda = 500-860 nm) of cell monolayer under irradiation with semiconductor lasers at 670 or 820 nm”. In: Effects of Low Power Light on Biological Systems III, ed. by G.Bottiroli, T.Karu and R.Lubart, SPIE, vol. 3198, pp.2-11, 1997.

236.T.I. Karu, N.I. Afanasyeva, S.F. Kolyakov, L.V.Pyatibrat “Changes in the absorption spectrum of a monolayer of living cells induced by low intensity laser radiation”. Doklady Biophysics, vols. 358-360, pp. 57-60, 1998 (Engl. transl. of Doklady Akademii Nauk, 360(2), 267-270, 1998).

235.T. Karu “The Science of Low Power Laser Therapy.” London: Gordon and Breach Sci. Publ., 1998.

250.T.Karu “Primary and secondary mechanisms of action of visible-to-near IR radiation on cells”. J.Photochem. Photobiol. B: Biology, 49(1), 1-17, 1999.

257. T.Karu "A suitable model for wound healing: how many times are we  to stumble over the same block?" Lasers in Surgery and Medicine, 25(4), 283-284, 1999.

264. T.I.Karu " Can a mechanism based on changes in redox properties of cytochrome c oxidase be crucial in explaining low-power laser effects?" In: "ICONO'98: Laser Spectroscopy and Optical Diagnostics: Novel Trends and Application in Laser Chemistry, Biophysics, and Biomedicine". Ed. by A.Y. Chikishev, V.N.Zadkov, A.M. Zheltikov. SPIE Proc., vol. 3732, pp. 202-213,1999.

272. T.I.Karu, L.V.Pyatibrat, G.S. Kalendo "Cell attachment modulation by radiation from a pulsed semiconductor light diode (lambda = 820 nm) and various chemicals". Lasers in Surgery and Medicine, 28(3) 227-236, 2001.

273. S.F.Kolyakov, L.V.Pyatibrat, E.L.Mikhailov, O.N.Kompanets T.I. Karu, "Changes in circular dichroism spectra of suspension of living cells after low intensity laser irradiation (lambda=820 nm)". Doklady Biophysics (Moscow), (Engl. translation of Doklady Akad.Nauk) 377(6), 824-827, 2001.

276. T.I. Karu, L.V.Pyatibrat, G.S.Kalendo "Thiol reactive agents eliminate stimulation of cell attachment to extracellular matrices induced by irradiation at 820 nm: Possible Involvement Of Cellular Redox Status into Low Power Laser Effects". Laser Therapy, 11(4), 177-187, 2001.

277. T.I. Karu, L.V.Pyatibrat, G.S.Kalendo "Donors of NO and pulsed radiation at lambda=820 nm exert effects on cells attachment to extracellular matrices", Toxicology Letters, 121(1), 57-61, 2001.

278. T.I. Karu, L.V.Pyatibrat, G.S.Kalendo "Cell attachment to extracellular matrices is modulated by pulsed radiation at 820 nm and chemicals that modify the activity of enzymes in the plasma membrane", Lasers in Surgery and Medicine, 29 (3), 274-281, 2001.

283. T. I. Karu, N.I. Afanasyeva, S.F. Kolyakov, L.V. Pyatibrat, L.Welser "Changes in absorbance of monolayer of living cells induced by laser radiation at 633, 670, and 820 nm". IEEE Journal of Selected Topics in Quantum Electronics, 7(6) 982-988, 2001.

284. T.I. Karu, S.F.Kolyakov, L.V.Pyatibrat, E.L.Mikhailov, O.N.Kompanets "Irradiation with a diode at 820 nm induces changes in circular dichroism spectra (250-780 nm) of living cells". IEEE Journal of Selected Topics in Quantum Electronics, 7(6), 976-981, 2001.

285. T.I. Karu, S.F.Kolyakov, L.V.Pyatibrat, E.L.Mikhailov, O.N.Kompanets "Irradiation with a diode 820 nm induces changes in circular dichroism spectra (250-780 nm) of living cells". In: "Laser-Tissue Interactions, Therapeutic Applications and Photodynamic Therapy", R. Birngruber, H. van der Berg, eds., SPIE, vol. 4433, pp. 97-102.

286. T. I. Karu, N.I. Afanasyeva, S.F. Kolyakov, L.V. Pyatibrat, L.Welser "Changes in absorbance of monolayer of living cells induced by laser radiation at 633, 670, and 820 nm". In: "Photon Migration, Optical Coherence Tomography, and Microscopy". S. Andersson-Engels, M. Kaschke, eds., SPIE, vol. 4431, pp. 306-312.

297. T. Karu “Cellular mechanisms of low-power laser therapy (photobiomodulation).” http://www.tinnitus.us/tiinakarupresentation.html

306. T.I.Karu, L.V.Pyatibrat, G.S.Kalendo “Photobiological modulation of cell attachment via cytochrome c oxidase”. Photochemical and Photobiological Sci. 3(2): 211-216, 2004.

308. Karu T.I. “High-tech helps to estimate cellular mechanisms of low power laser therapy.” Lasers Surg. Med. 34(4), 298-299, 2004.

309. T.I.Karu, L.V.Pyatibrat, N.I.Afanasyeva “A novel mitochondrial signaling pathway activated by visible-to-near infrared radiation”. Photochemistry and Photobiology 80(2), 366-372, 2004.

315. T.I.Karu, L.V.Pyatibrat, N.I.Afanasyeva “Cellular effects of low power laser therapy can be mediated by nitric oxide”. Lasers in Surgery and Medicine 36(4), 307-314, 2005.

316. T.I. Karu, S.F. Kolyakov "Exact Action Spectra for Cellular Responses Relevant to Phototherapy". Photomedicine and Laser Surgery,  23(4), 355–361, 2005

317. T.I.Karu, L.V.Pyatibrat, S.F. Kolyakov, N.I.Afanasyeva “Absorption measurements of a cell monolayer relevant to phototherapy: reduction of cytochrome c oxidase under near IR radiation”. Photochemistry and Photobiology B: Biology 81, 98-106, 2005.

328. T.I. Karu, L.V. Pyatibrat, S.V. Moskvin, S.V. Andreev and V.S. Letokhov "Elementary Processes in Cells after Light Absorption Do Not Depend on the Degree of Polarization: Implications for the Mechanisms of Laser Phototherapy". Photomedicine and Laser Surgery 26(2), 77-82, 2008.

332. T.I. Karu, L.V. Pyatibrat, S.F. Kolyakov, and N.I. Afanasyeva "Absorption Measurements of Cell Monolayers Relevant to Mechanisms of Laser Phototherapy:
Reduction or Oxidation of Cytochrome c Oxidase Under Laser Radiation at 632.8 nm"
. Photomedicine and Laser Surgery 26(6), 593-599 (2008).

333. T. Karu "Action spectra: their importance for low level light therapy". Photobiological Sciences Online (Photobiology Digital Compendium). Ed. by K. Smith
(http://www.photobiology.info/Karu.html)

339. V.M. Manteifel and T.I. Karu "Loosening of Condensed Chromatin in Human Blood Lymphocytes Exposed to Irradiation with a Low-Energy He-Ne Laser".
Biology Bulletin 36(6), 555-561, 2009.

343. T. Karu "Mitochondrial Mechanisms of Photobiomodulation in Context of New Data About Multiple Roles of ATP". Photomedicine and Laser Surgery 28(2),
159-160, 2010.

344. T.I. Karu "Multiple Roles of Cytochrome c Oxidase in Mammalian Cells Under Action of Red and IR-A Radiation". IUBMB Life 62(8), 607-610, August 2010.

351. V. Manteifel , T. Karu "Rearrangements of mitochondrial ultrastructure in descendants of yeast cells irradiated with He-Ne laser". Trends Photochem. Photobiol. 12, 77-91, 2011.

352. T. Karu and L. Pyatibrat  "Gene expression under laser and light-emitting diodes radiation for modulation of cell adhesion: possible applications for biotechnology". IUBMB Life 63(9), 747-753, September 2011.

353. T.I. Karu "Light coherence. Is this property important for photomedicine?". Photobiological Sciences Online (Photobiology Digital Compendium).
Ed. by K. Smith. (http://www.photobiology.info/Coherence.html)


3) specific action of pulsed visible and near IR laser radiation

5. T.I.Karu, G.S.Kalendo, V.S.Letokhov, V.V.Lobko “Biological action of low-intensity visible light on HeLa cells as a function of the coherence, dose, wavelength, and irradiation regime”. Sov.J. Quantum Electronics, 12(9), 1134-1138, 1982 (Engl. transl. of Kvantovaya Elektronika, 9(9), 1761-1767, 1982).

131.T.I.Karu, O.A.Tiphlova, Yu.A.Matveyets, A.P.Yartsev, V.S.Letokhov "Comparison of the effects of visible femtosecond laser pulses and continuous wave laser radiation of low average intensity on the clonogenicity of Escherichia coli". J.Photochem. Photobiol. B: Biology, 10(4), 339-344, 1991.

186.T.I.Karu, T.P.Ryabykh, S.N.Antonov “Effects of continuous wave and pulsed laser irradiation (lambda=632,8 nm) on oxidative metabolism of splenocytes”. Doklady Biophysics, vols. 334-345, pp.40-42, 1995 (Engl. transl. of Doklady Akademii Nauk, 345(3), 407-409, 1995).

192.T. Ryabykh, T. Karu “Action of pulsed visible and near IR laser radiation on oxidative metabolism of cells evaluated by chemiluminescence measurement”. In: Effects of Low Power Light on Biological Systems. Ed. by T.I.Karu and A.R.Young, SPIE, vol.2630, pp. 12-22, 1995.

200.T.I. Karu, T.P.Ryabykh, S.N.Antonov “Different sensitivity of cells from tumor-bearing organisms to countinuous-wave and pulsed laser radiation (lambda=632.8 nm) evaluated by chemiluminescence test. I. Comparison of responses of murine splenocytes: intact mice and mice with transplanted leukemia EL-4”. Lasers Life Sci., 7(2), 91-98, 1996.

201.T.I. Karu, T.P.Ryabykh, S.N.Antonov “Different sensitivity of cells from tumor-bearing organisms to countinuous-wave and pulsed laser radiation (lambda=632.8 nm) evaluated by chemiluminescence test. II. Comparison of responses of human blood: healthy persons and patients with colon cancer”. Lasers Life Sci., 7(2), 99-106, 1996.

223.T.I. Karu, T.P.Ryabykh, V.S.Letokhov “Different sensitivity of cells from tumor-bearing organisms to continuous-wave and pulsed laser radiation (lambda=632.8 nm) evaluated by chemiluminescence test. III. Effect of dark period between pulses.” Lasers Life Sci., 7 (3), 141-156, 1997.

221.T.I. Karu, L.V.Pyatibrat, T.P.Ryabykh, G.S.Kalendo “Nonmonotonous dose-effect curves in cells treated in vitro with a pulsed laser at 820 nm".  Doklady Biophysics (Moscow), 354, pp. 33-35,1997 (Engl. transl. of Doklady Akademii Nauk, 354(1), 117-119, 1997).

216.T.I. Karu, T.P.Ryabykh, S.N.Antonov “Different sensitivity of cells from tumor-bearing organisms to countinuous-wave and pulsed laser radiation (lambda=632.8 nm) evaluated by chemiluminescence test”. In:Effects of Low-Power Light on Biological Systems II. Ed. by G.Jori and T.I.Karu, SPIE, vol. 2929, pp. 2-11, 1996.

229.T.I. Karu, L.V. Pyatibrat, T.P. Ryabykh “Nonmonotonic behavior of the dose dependence of the radiation effect on cells in vitro exposed to pulsed laser radiation at lambda=820 nm.” Lasers Surg. Med., 21(5), 485-492 ,1997.

232.T.I. Karu, T.P.Ryabykh, S.N. Antonov, V.S.Letokhov “Different sensitivity of cells from tumor-bearing organisms to continuous-wave and pulsed laser radiation (lambda=632.8 nm) evaluated by chemiluminescence test.” Internet Journal of Science.

http://www.photobiology.com/
enter:       The conference schedule,       enter:       Proceedings of First Internet Conference,      enter:  Contributed papers,   enter:     C15.

248.T.I.Karu, L.V.Pyatibrat, G.S.Kalendo “Decrease of intracellular ATP concentration after irradiation with pulsed laser radiation at 820 nm”. Doklady Akademii Nauk, 364(3), 399-401, 1999.

254.T.I.Karu, L.V.Pyatibrat, G.S.Kalendo “Pulsed laser radiation at 820 nm increases adhesive properties of cellular membrane: dependence on  dark period between pulses”. Doklady Akademii Nauk 369(1), 116-118, 1999.

271. T.I.Karu, L.V.Pyatibrat, G.S.Kalendo “Studies into the action specifics of a pulsed GaAlAs laser (lambda=820 nm) on a cell culture. II. Enhancement of the      adhesive properties of cellular membranes: Dependence on the dark period between pulses”. Lasers in the Life Sciences 9(4), 211-217, 2001.

290. T.I.Karu, L.V.Pyatibrat, G.S.Kalendo “Studies into the action specifics of a pulsed GaAlAs laser (lambda=820 nm) on a cell culture. I. Reduction of the      intracellular ATP concentration: Dependence on initial ATP amount”. Lasers in the Life Sciences 9(4), 203-210, 2001.

300. T.I. Karu "Low-power laser therapy" In: Biomedical Photonics Handbook. Ch. 48, Editor-in-chief Tuan Va-Dinh, Boca Raton: CRC Press, 2003.

301. T.I. Karu, L.V.Pyatibrat, T.P. Ryabykh "Melatonin modulates the action of near infrared radiation on cell adhesion"   J. Pineal Res. 34: 167-172, 2003.

357. T.I. Karu "Lasers in Infertility Treatment: Irradiation of Oocytes and Spermatozoa". Photomedicine and Laser Surgery 30, ¹5, 239-241, 2012.


 

news cv web
publ
mem pic gal ma