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101 0 $aeng
135   $aurcnu||||||||
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aHandbook of low-level laser therapy /$fedited by Michael R. Hamblin, Marcelo Victor Pires de Sousa, Tanupriya Agrawal
210  1$aSingapore :$cPan Stanford Publishing Pte. Ltd.,$d[2017]
210  4$dİ2017
215   $a1 online resource (xxxv, 1,133 pages) $cillustrations
311   $a981-4669-60-1 
327   $g1.$tWhat is low-level laser (light) therapy? /$rMarcelo Victor Pires de Sousa  --$g2.$tHistory of low-level laser (light) therapy /$rMichael R. Hamblin  --$g3.$tLasers, LEDs, and other light sources /$rJames Carroll  --$g4.$tIs coherence important in photobiomodulation? /$rTomas Hode  --$g5.$tTissue optics /$rBryan James Stephens and Linda Ramball Jones  --$g6.$tLight-tissue interaction and light dosimetry /$rAna Carolina de Magalhaes and Elisabeth Mateus Yoshimura  --$g7.$tMitochondrial light absorption and its effect on ATP production /$rNicolette Houreld  --$g8.$tWater as a photoacceptor, energy transducer, and rechargebale electrolytic bio-battery in photobiomodulation /$rLuis Santana-Blank, Elizabeth Rodriguez-Santana, Jesus A. Santana-Rodriguez, Karin E. Santana-Rodriguez, and Heberto Reyes-Barrios  --$g9.$tRole of reactive oxygen species in low-level laser therapy /$rVikrant Rai  --$g10.$tMolecular basis for photobiomodulation : light-induced nitric oxide synthesis by cytochrome c oxidase in low-level laser therapy /$rRobert Oliver Poyton and Marina Hendrickson  --$g11.$tCytoprotective effect of low-level light therapy using LEDs on neurons /$rMargaret Wong-Riley and Huan Ling Liang  --$g12.$tLow-level laser and cultured neural tissue /$rPatricia J. Armati and Roberta T. Chow  --$g13.$tShining a light on Parkinson's disease /$rDaniel McKenzie Johnstone, Cecile Moro, Jonathan Stone, Alim-Louis Benabid, and John Mitrofanis  --$g14.$tLow-level laser therapy and stem cells /$rQi Zhang, Chang Zhou, and Tingting Dong  --$g15.$tAntimicrobial photodynamic therapy /$rVanderlei Salvador Bagnato, Cristina Kurachi, Kate Cristina Blanco, and Natalia Mayumi Inada  --$g16.$tLow-level laser (light) therapy for wound healing in animal models /$rAndre Luiz Oliveira Ramos, Felipe Scholz Ramos, and Marcelo Victor Pires de Sousa  --$g17.$tLow-level laser therapy for arthritis in animal models : beneficial effect and action mechanism /$rFlavio Aimbire and Paulo de Tarso Camilo de Carvalho  --$g18.$tLow-level laser therapy for lung diseases : from the bench to the bed /$rFlavio Aimbire  --$g19.$tLow-level laser (light) therapy in tendon healing in in vitro and in vivo models /$rLucas F. de Freitas and Michael R. Hamblin  --$g20.$tBone repair in animal models /$rAntonio Luiz B. Pinheiro, Luiz G. Pinheiro Soares, and Aparecida Maria C. Marques  --$g21.$tTranscranial low-level laser (light) therapy for stroke and traumatic brain injury in animal models /$rMichael R. Hamblin, Luis De Taboada, and Ying-Ying Huang  --$g22.$tPhototherapy in peripheral nerve repair and muscle preservation /$rShimon Rochkind  --$g23.$tLow-level laser therapy for spinal cord repair /$rTakahiro Ando and Michael R. Hamblin  --$g24.$tLow-level laser (light) therapy for the treatment of visual system injury and disease /$rJanis T. Eells, Sandeep Gopalakrishnan, Michele M. Salzman, Krisztina Valter, Jan Provis, Ricardo Natoli, John Mitrofanis, Jonathan Stone, and Melinda Fitzgerald  --$g25.$tProtection from cardiac ischemia and reperfusion injury /$rAgnes Keszler, Svjetlana Dosenovic, and Martin Bienengraeber  --$g26.$tLow-level laser and experimental aortic aneurysm : mechanisms and therapeutic implications /$rLilach Gavish and S. David Gertz  --$g27.$tLow-level laser therapy : a treatment modality for multiple sclerosis targeting autoimmunity and oxidative stress /$rZenas George, Miguel A. Tolentino, and Jeri-Anne Lyons  --$g28.$tLow-level laser therapy as an alternative treatment for snake envenomation /$rCamila Squarzoni Dale and Stella Regina Zamuner  --$g29.$tVeterinary low-level laser (light) therapy applications for companion animals /$rRichard L. Godine  --$g30.$tEmergence of low-level laser (light) therapy in clinical veterinary practice /$rRonald E. Hirschberg  --$g31.$tPhotomedicine for exotic animals : a case-based discussion /$rNarda G. Robinson  --$g32.$tRecalcitrant wound : using low-level laser (light) therapy to manage non-healing wounds and ulcers /$rRaymond J. Lanzafame and Istvan Stadler  --$g33.$tClinical applications with low-level laser therapy in arthritis /$rJan M. Bjordal  --$g34.$tUse of low-level laser therapy and light-emitting diode therapy to improve muscle performance and prevent damage : from animal models to clinical trials /$rCleber Ferraresi, Nivaldo Parizotto, Vanderlei Bagnato, and Michael R. Hamblin  --$g35.$tLow-level laser therapy of pain : clinical applications /$rRoberta T. Chow  --$g36.$tLow-level laser therapy and its application in tinnitus /$rAlessandra Nara de Souza Rastelli, Emanuelle Teixeira Carrera, Gustavo Nicolodelli, and Michael R. Hamblin  --$g37.$tLaser therapy for the treatment of radiculopathy /$rJerome M. True and Luis C. Vera  --$g38.$tDifficult path to treating acute ischemic stroke patients with transcranial near-infrared laser therapy /$rPaul A. Lapchak, Pramod Butte, and Padmesh S. Rajput  --$g39.$tLow-level laser (light) therapy for rehabilitation in traumatic brain injury and stroke, including chronic aphasia /$rMargaret A. Naeser, Paula I. Martin, Michael D. Ho, Maxine H. Krengel, Yelena Bogdanova, Jeffrey A. Knight, Megan K. Yee, Ross Zafonte, Bang-Bon Koo, John G. Roubil, and Michael R. Hamblin  --$g40.$tTranscranial near-infrared light for major depressive disorder : targeting the brain metabolism /$rPaolo Cassano, Abigail R. Archibald, and Dan V. Iosifescu  --$g41.$tLow-level laser therapy : a corner stone in the management of cancer therapy-induced mucositis /$rRene-Jean Bensadoun, Idriss Troussier, and Raj G. Nair  --$g42.$tPhotobiomodulation in dentistry : manipulating biostimulation and bioinhibition for clinical success /$rGerry Ross and Alana Ross  --$g43.$tPhotobiomodulation for the clinical treatment of age-related macular degeneration /$rGraham Merry and Robert Dotson  --$g44.$tLaser (light) therapy for postherpetic neuralgia /$rKevin C. Moore and R. Glen Calderhead  --$g45.$tLaser acupuncture /$rLucas F. de Freitas and Michael R. Hamblin  --$g46.$tIntravascular laser irradiation of blood /$rDaiane Thais Meneguzzo, Leila Soares Ferreira, Eduardo Machado de Carvalho, and Cassia Fukuda Nakashima  --$g47.$tNonsurgical laser therapy for type 1 and type 2 diabetes /$rLeonardo Longo  --$g48.$tLaser therapy of traumatic central nervous system injuries /$rLeonardo Longo and Diego Longo  --$g49.$tLow-level laser (light) therapy : aesthetic applications for hair /$rFelipe Scholz Ramos, Andre Luiz de Oliveira Ramos, and Marcelo Victor Pires de Sousa  --$g50.$tLow-level laser (light) therapy for cosmetics and dermatology /$rMossum K. Sawhney and Michael R. Hamblin  --$g51.$tLow-level laser therapy for body contouring and fat reduction /$rGaurav K. Gupta  --$g52.$tTranscranial low-level laser (light) therapy for neurocognitive enhancement /$rJulio C. Rojas and F. Gonzalez-Lima  --$g53.$tPost-operative uses of low-level laser therapy /$rMaria Cristina Chavantes, Nathali Cordeiro Pinto, and Vanessa Milanesi Holanda  --$g54.$tBright new world : future directions of low-level laser (light) therapy /$rMarcelo Victor Pires de Sousa and Maria Cristina Chavantes.
330   $aLow-Level Laser Therapy (LLLT) also known as photobiomodulation is almost 50 years old, and recently has been getting increasing acceptance from the scientific, medical, and veterinary communities. Discoveries are constantly being made about the cellular and molecular mechanisms of action, the range of diseases that can be treated is also rising, and home use LED devices are becoming common. This book compiles cutting-edge contributions from the world's leading experts in Photobiomodulation and LLLT. Chapters cover general concepts, mechanisms of action, in vitro studies, pre-clinical animal studies, veterinary applications and a wide range of clinical topics. Edited by Michael Hamblin from Massachusetts General Hospital and Harvard Medical School, aided by two prominent researchers (Marcelo Sousa and Tanupriya Agrawal), this book will appeal to anyone involved in the basic science, translational aspects and clinical applications of LLLT.
606   $aLasers$xTherapeutic use
610  0$aphotobiomodulation
610  0$aLow-Level Laser Therapy (LLLT)
610  0$acold laser therapy
610  0$alow-power laser therapy (LPLT)
610  0$alow-intensity laser therapy
610  0$alow-energy laser therapy
610  0$amonochromatic infrared light energy (MIRE) therapy
615  0$aLasers$xTherapeutic use.
676   $a615.831
702   $aHamblin$b Michael R.
702   $aPires de Sousa$b Marcelo Victor
702   $aAgrawal$b Tanupriya
801  0$bFlBoTFG
801  1$bFlBoTFG
906   $aBOOK
912   $a9910136246303321
996   $aHandbook of low-level laser therapy$92178386
997   $aUNINA