- M. Tschon, S. Incerti-Parenti, S. Cepollaro, L. Checchi, M. Fini, Photobiomodulation with
low-level diode laser promotes osteoblast migration in an in vitro micro wound model.
J. Biomed. Opt. 20 , 078002 (2015) - P. Cassano, S.R. Petrie, M.R. Hamblin, T.A. Henderson, D.V. Iosifescu, Review of
transcranial photobiomodulation for major depressive disorder: targeting brain metabolism,
inflammation, oxidative stress, and neurogenesis. Neurophotonics 3 (3), 031404 (2016) - G. Keiser, F. Xiong, Y. Cui, P.P. Shum, Review of diverse opticalfibers used in biomedical
research and clinical practice. J. Biomed. Opt. 19 , 080902 (2014) - R. Penjweini, B. Liu, M.M. Kim, T.C. Zhu, Explicit dosimetry for 2-(1-hexyloxyethyl)-
2-devinyl pyropheophorbide-a-mediated photodynamic therapy: macroscopic singlet oxygen
modeling. J. Biomed. Opt. 20 , 128003 (2015) - N.F. Gamaleia, I.O. Shton, Gold mining for PDT: great expectations from tiny nanoparticles.
Photodiagn. Photodyn Ther 12 , 221–231 (2015) - I. Mfouo-Tynga, H. Abrahamse, Cell death pathways and phthalocyanine as an efficient agent
for photodynamic cancer therapy. Intl. J. Molecular Sci. 16 , 10228–10241 (2015) - J.L. Boulnois, Photophysical processes in recent medical laser developments: a review. Lasers
Med. Sci. 1 ,47–66 (1986) - H.Z. Alagha, M. Gülsoy, Photothermal ablation of liver tissue with 1940-nm thuliumfiber
laser: anex vivostudy on lamb liver. J. Biomed. Opt. 21 (1), 015007 (2016) - M.H. Gold, Update on fractional laser technology. J. Clin. Aesthet. Dermatol. 3 ,42–50 (2010)
- G. Deka, K. Okano, F.-J. Kao, Dynamic photopatterning of cellsin situby Q-switched
neodymium-doped yttrium ortho-vanadate laser. J. Biomed. Optics 19 , 011012 (2014) - Z. Al-Dujaiti, C.C. Dierickx, Laser treatment of pigmented lesions, Chap. 3, inLaser
Dermatology, 2nd edn., ed. by D.J. Goldberg (Springer, Berlin, 2013), pp. 41– 64 - L. Corcos, S. Dini, D. De Anna, O. Marangoni, E. Ferlaino, T. Procacci, T. Spina, M. Dini,
The immediate effects of endovenous diode 808-nm laser in the greater saphenous vein:
Morphologic study and clinical implications. J. Vasc. Surg. 41 (6), 1018–1024 (2005) - Y.C. Jung, Preliminary experience in facial and body contouring with 1444 nm micropulsed
Nd:YAG laser-assisted lipolysis: a review of 24 cases. Laser Ther. 20 (1), 39–46 (2011) - P.S. Tsai, P. Blinder, B.J. Migliori, J. Neev, Y. Jin, J.A. Squier, D. Kleinfeld, Plasma-mediated
ablation: an optical tool for submicrometer surgery on neuronal and vascular systems. Curr.
Opin. Biotechnol. 20 ,90–99 (2009) - A. Vogel, V. Venugopalan, Mechanisms of pulsed laser ablation of biological tissue. Chem.
Rev. 103 , 577–644 (2003) - B.S. Biesman, M.P. O’Neil, C. Costner, Rapid, high-fluence multi-pass Q-switched laser
treatment of tattoos with a transparent perfluorodecalin-infused patch: A pilot study. Lasers
Surg. Med. 47 (8), 613–618 (2015) - C.V. Gabel, Femtosecond lasers in biology: nanoscale surgery with ultrafast optics.
Contemp. Phys. 49 (6), 391–411 (2008) - H. Huang, L.-M. Yang, S. Bai, J. Liu, Smart surgical tool. J. Biomed. Opt. 20 , O28001 (2015)
- B. Rao, J. Su, D. Chai, D. Chaudhary, Z. Chen, T. Juhasz, Imaging subsurface photodisruption
in human sclera with FD-OCT. In: Proceedings SPIE 6429, Coherence Domain Optical
Methods and Optical Coherence Tomography in Biomedicine XI, 642910, 12 Feb 2007 - S.S. Harilal, J.R. Freeman, P.K. Diwakar, A. Hassanein, Femtosecond laser ablation:
fundamentals and applications, inLaser-Induced Breakdown Spectroscopy, ed. by S. Musazzi,
U. Perini (Springer, Berlin, 2014), pp. 143– 166 - A. Ozcan, A. Bilenca, A.E. Desjardins, B.E. Bouma, G.J. Tearney, Speckle reduction in
optical coherence tomography images using digitalfilters. J. Opt. Soc. Am. A 24 , 1901– 1910
(2007) - D.A. Boas, A.K. Dunn, Laser speckle contrast imaging in biomedical optics. J. Biomed. Opt.
15 (1), 011109 (2010) - L.M. Richards, S.M. Shams Kazmi, J.L. Davis, K.E. Olin, A.K. Dunn, Low-cost laser speckle
contrast imaging of bloodflow using a webcam. Biomed. Opt. Express 4 (10), 2269– 2283
(2013)
References 195