[1] I. McCarthy, "The physiology of bone blood flow: A review," J. Bone Joint Surg. Am. 88(suppl. 3), 4-9 (2006).
[2] M. Brookes, W. J. Revell, Blood Supply of Bone. Scientific Aspects, Springer, London (1998).
[3] J. Klein-Nulend, R. G. Bacabac, M. G. Mullender, "Mechanobiology of bone tissue," Pathol. Biol. (Paris) 53, 576-580 (2005).
[4] C. Chenu, "Innervation de l'os," M-edecine/Sciences 17, 1276-1280 (2006).
[5] D. A. Blair, W. E. Glover, A. D. M. Greenfield, I. C. Roddie, "Excitation of cholinergic vasodilator nerves to human skeletal muscles during emotional stress," J. Physiol. London 148, 633-647 (1959).
[6] M. Hamer, Y. N. Boutcher, Y. Park, S. H. Boutcher, "Reproducibility of skeletal muscle vasodilatation responses to Stroop mental challenge over repeated sessions," Biol. Psychol. 73, 186-189 (2006).
[7] B. Chance, "Picosecond spectroscopy and imaging with pulsed and amplitude modulated light diffused photon density waves in highly scattering media," Spie Laser Spectroscopy of Biomolecules 1921, 2-15 (1992).
[8] D. T. Delpy, M. Cope, "Quantification in tissue near-infrared spectroscopy," Philos. Trans. R. Soc. Lond. B 352, 649-659 (1997).
[9] B. Chance, Q. Luo, S. Nioka, D. C. Alsop, J. A. Detre, "Optical investigations of physiology: A study of intrinsic and extrinsic biomedical contrast," Philos. Trans. R. Soc. Lond. B 352, 707-716 (1997).
[10] T. Binzoni, T. Leung, V. Hollis, S. Bianchi, J. H. Fasel, H. Bounameaux, E. Hiltbrand, D. Delpy, "Human tibia bone marrow: Defining a model for the study of haemodynamics as a function of age by near infrared spectroscopy," J. Physiol. Anthropol. Appl. Human Sci. 22, 211-218 (2003).
[11] F. Costes, C. Denis, F. Roche, F. Prieur, F. Enjolras, J. C. Barthlmy, "Age-associated alteration of muscle oxygenation measured by near infrared spectroscopy during exercise," Arch. Physiol. Biochem. 107, 159-167 (1999).
[12] T. Binzoni, S. Bianchi, J. H. Fasel, H. Bounameaux, E. Hiltbrand, D. T. Delpy, "Human tibia bone marrow blood perfusion by non-invasive near infrared spectroscopy: A new tool for studies on microgravity," J. Gravit. Physiol. 9, P183-P184 (2002).
[13] T. Binzoni, T. S. Leung, C. Courvoisier, R. Giust, G. Tribillon, T. Gharbi, D. T. Delpy, "Blood volume and haemoglobin oxygen content changes in human bone marrow during orthostatic stress," J. Physiol. Anthropol. 25, 1-6 (2006).
[14] O. Henriksen, "Sympathetic reflex control of blood flow in human peripheral tissues," Acta Physiol. Scand. Suppl. 603, 33-39 (1991).
[15] T. Binzoni, V. Quaresima, M. Ferrari, E. Hiltbrand, P. Cerretelli, "Human calf microvascular compliance measured by near-infrared spectroscopy," J. Appl. Physiol. 88, 369-372 (2000).
[16] M. Klasing, J. Zange, "In vivo quantitative nearinfrared spectroscopy in skeletal muscle and bone during rest and isometric exercise," Proc. SPIE 5138, 318-322 (2003).
[17] J. Allen, "Photoplethysmography and its application in clinical physiological measurement," Physiol. Measur. 28, R1-R39 (2007).
[18] J. Nffslund, J. Pettersson, T. Lundeberg, D. Linnarsson, L. G. Lindberg, "Non-invasive continuous estimation of blood flow changes in human patellar bone," Med. Biol. Eng. Comput. 44, 501-509 (2006).
[19] J. Nffslund, M. Wald-en, L. G. Lindberg, "Decreased pulsatile blood flow in the patella in patellofemoral pain syndrome," Am. J. Sports Med. 35, 1668-1673 (2007).
[20] R. F. Bonner, R. Nossal, "Model for laser Doppler measurements of blood flow in tissue," Appl. Opt. 20, 2097-2107 (1981).
[21] H. Z. Cummins, H. L. Swinney, "Light beating spectroscopy," in Progress in Optics, Vol. VIII, E. Wolf, (ed.), pp. 133-200, North-Holland, Amsterdam (1970).
[22] T. Binzoni, T. S. Leung, D. Boggett, D. Delpy, "Non-invasive laser Doppler perfusion measurements of large tissue volumes and human skeletal muscle blood RMS velocity," Phys. Med. Biol. 48, 2527-2549 (2003).
[23] B. J. Perry, "Control of physiological phenomena via hypnosis with special reference to contraception," Aust. J. Clin. Hypnother. 1, 73-77 (1980).