C. Apelian, F. Harms, O. Thouvenin, and C. Boccara, Dynamic full field optical coherence tomography: subcellular metabolic contrast revealed in tissues by interferometric signals temporal analysis, Biomedical Optics Express, vol.7, pp.1511-1524, 2016.

N. Baudry, E. Laemmel, and E. Vicaut, In Vivo Reactive Oxygen Species Production Induced By Ischemia In Muscle Arterioles Of Mice: Involvement Of Xanthine Oxidase And Mitochondria, In: American Journal of Physiology, Heart and Circulatory Physiology, vol.294, pp.821-828, 2008.

N. Baudry, G. Danialou, J. Boczkowski, and E. Vicaut, In Vivo Study Of The Effect Of Systemic Hypoxia On Leukocyte-Endothelium Interactions, In: American Journal of Respiratory and critical care Medicine, vol.158, pp.477-483, 1998.

R. Benosman, S. Ieng, C. Clercq, C. Bartolozzi, and M. Srinivasan, Asynchronous Frameless Event-Based Optical Flow, Neural Networks, vol.27, pp.32-37, 2012.

R. Benosman, C. Clercq, X. Lagorce, S. H. Ieng, and C. Bartolozzi, Event-Based Visual Flow, IEEE Transactions on Neural Networks, vol.25, pp.407-417, 2014.

X. Berthelon, G. Chenegros, N. Libert, J. A. Sahel, K. Grieve et al., Full-field OCT Technique For High Speed Eventbased Optical Flow And Particle Tracking, Optics Express, vol.25, pp.12611-12621, 2017.

J. W. Cannon, Hemorrhagic Shock, The New England Journal of Medicine, vol.378, pp.370-379, 2018.

E. Chaigneau, M. Oheim, E. Audinat, and S. Charpak, TwoPphoton Imaging Of Capillary Blood Flow In OlfactoryProceedings of the National Academy of Sciences, pp.13081-13086, 2003.

S. Chen, Z. Xie, P. L. Carson, X. Wang, and L. J. Guo, In Vivo Flow Speed Measurement Of Capillaries By Photoacoustic Correlation Spectroscopy, In: Optics Letter, vol.36, pp.4017-4019, 2011.

, Clinical Review: Clinical Imaging Of The Sublingual Microcirculation In The Critically Ill -WhereDo We Stand?, In: Critical Care, vol.16, pp.224-233, 2012.

E. Culurciello, R. Etienne-cummings, and K. A. Boahen, A biomorphic digital image sensor, IEEE Journal of Solide-State Circuits, vol.38, pp.281-294, 2003.

D. D. Backer, J. Creteur, J. C. Preiser, M. J. Dubois, and J. L. , Microvascular Blood Flow Is Altered In Patients With Sepsis, In: American Journal of Respiratory and Critical Care Medecine, vol.166, pp.100-104, 2002.

A. Dubois, L. Vabre, C. Boccara, and E. Beaurepaire, High-Resolution Full-Field Optical Coherence Tomography With A Linnik Microscope, In: Applied Optics, vol.41, pp.805-812, 2002.
URL : https://hal.archives-ouvertes.fr/hal-00627977

A. Dubois, K. Grieve, G. Moneron, R. Lecaque, L. Vabre et al., Ultrahigh-Resolution Full-Field Optical Coherence Tomography, In: Applied Optics, vol.43, pp.2874-2883, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00533151

T. Durduran, G. Yu, M. G. Burnett, J. A. Detre, J. H. Greenberg et al., Diffuse Optical Measurement Of Blood Flow, Blood Oxygenation, And Metabolism In A Human Brain During Sensori Motor Cortex Activation, In: Optics Letter, vol.29, pp.1766-1768, 2004.

S. Eriksson, J. Nilsson, and C. Stureson, Non-Invasive Imaging Of Microcirculation: A Technology Review, In: Medical Devices: Evidence and Research, vol.7, pp.445-452, 2014.

P. T. Goedhart, M. Khalilzada, R. Bezemer, J. Merza, and C. Ince, Sidestream Dark Field (SDF) Imaging: A Novel Stroboscopic LED Ring-based Imaging Modality For Clinical Assessment Of The Microcirculation, Optics Express, vol.15, pp.101-114, 2007.

W. Groner, J. W. Winkelman, A. G. Harris, C. Ince, G. J. Bouma et al., Orthogonal Polarization Spectral Imaging: A New Method For Study Of The Microcirculation, Nature Medicine, vol.5, pp.1209-1212, 1999.

G. Gutierrez, H. D. Reines, and M. E. Wulf-gutierrez, Clinical Review: Hemorrhagic Shock, In: Critical Care, vol.8, pp.373-381, 2004.

R. Haindl, A. Wartak, W. Trasischker, S. Holzer, B. Baumann et al., Total Retinal Blood Flow In Healthy And Glaucomatous Human Eyes Measured With Three Beam Doppler Optical Coherence Tomography, Biomedical Optics Express, vol.1, issue.2, 2016.

R. He-sheng, Construction of a Generalized Psychrometric Chart for Different Pressures, International Journal of Mechanical Engineering Education, vol.32, pp.212-222, 2004.

D. Huang, Optical Coherence Tomography, In: Science, vol.22, pp.1178-1181, 1991.
URL : https://hal.archives-ouvertes.fr/tel-01957283

C. Ince, The Microcirculation Is The Motor Of Sepsis, In: Critical Care, vol.9, pp.13-19, 2005.

J. A. Izatt, S. Boppart, B. Bouma, J. Boer, W. Drexler et al., Introduction To The Feature Issue On The 25 Year Anniversary Of Optical Coherence Tomography, Biomedical Optics Express, vol.8, p.3289, 2017.

Y. Jia, J. C. Morrison, J. Tokayer, O. Tan, L. Lombardi et al., Quantitative Oct Angiography Of Optic Nerve Head BloodFflow, Biomedical Optics Express, vol.3, pp.3127-3137, 2012.

X. Lagorce, C. Meyer, S. H. Ieng, D. Filliat, and R. Benosman, Asynchronous Event-Based Multikernel Algorithm For High-Speed Visual Features Tracking, IEEE Transactions on Neural Networks, vol.26, pp.1710-1720, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01069808

J. Lee, W. Wu, J. Y. Jiang, B. Zhu, and D. A. Boas, Dynamic Light Scattering Optical Coherence Tomography, In: Optics Express, vol.20, pp.22262-22277, 2012.

J. Lee, W. Wu, F. Lesage, and D. A. Boas, Multiple Capillary Measurement Of Rbc Speed, Flux, And Density With Optical Coherence Tomography, In: Journal of Cerebral Blood Flow Matebolism, vol.33, pp.1707-1710, 2013.

R. A. Leitgeb, L. Schmetterer, W. Drexler, A. F. Fercher, R. J. Zawadzki et al., Real-Time Assessment Of Retinal Blood Flow With Ultrafast Acquisition By Color Doppler Fourier Domain Optical Coherence Tomography, In: Optics Express, vol.11, pp.3116-3121, 2003.

C. E. Leroux, F. Bertillot, O. Thouvenin, and C. Boccara, Intracellular dynamics measurements with full field optical coherence tomography suggest hindering effect of actomyosin contractility on organelle transport, Biomedical Optics Express, vol.7, pp.4501-4513, 2016.

P. Li, S. Ni, L. Zhang, S. Zeng, and Q. Luo, Imaging Cerebral Blood Flow Through The Intact Rat Skull With Temporal Laser Speckle Imaging, In: Optics Letter, vol.31, pp.1824-1826, 2006.

N. Libert, A. Harrois, and J. Duranteau, Haemodynamic coherence in haemorrhagic shock, In: Best Practice and Research Clinical Anaesthesiology, vol.30, pp.429-435, 2016.

N. Libert, A. Harrois, N. Baudry, E. Vicaut, and J. Duranteau, Intestinal Microcirculation And Mucosal Oxygenation During Hemorrhagic Shock And Ressucitation At Different Inspired Oxygen Concentration, In: Journal of Trauma and Acute Care Surgery, vol.83, pp.476-484, 2017.

P. Lichtsteiner and T. Delbruck, A 64X64 AER Logarithmic Temporal Derivative Silicon Retina, Research in Microelectronics and Electronics, vol.2, pp.202-205, 2005.

P. Lichtsteiner, C. Posch, and T. Delbruck, A 128X128 dB 15Mi-crosecond Latency Asynchronous Temporal Contrast Vision Sensor, IEEE journal of Solid-State Circuits, vol.43, pp.566-576, 2008.

Y. Huei, C. Lin, and . Chang, Depth recovery from motion and defocus blur, Image Analysis and Recognition, pp.122-133, 2006.

M. Mahowald, VLSI analogs of neuronal visual processing: a synthesis of form and function, 1991.

M. Mahowald and R. Douglas, A Silicon Neuron, Nature, vol.354, p.515, 1991.

M. Martel, K. J. Mackinnon, M. Arsenault, E. Bartellas, C. Michael et al., Hemorrhagic Shock, In: Journal of obstetrics and gynaecology Canada, vol.24, pp.504-521, 2002.

V. Mazlin, P. Xiao, J. Scholler, K. Grieve, K. Irsch et al., Ultra-high Resolution Full-field OCT (FFOCT) For Cornea And Retina, In: Imaging and Applied optics, 2018.

D. E. Mcmillan, Deterioration Of The Microcirculation In Diabetes, In: Diabetes, vol.24, pp.944-957, 1975.

E. Meijering, O. Dzyubachyk, and I. Smal, Methods For Cell And Particle Tracking, In: Methods in Enzymology, vol.504, pp.183-200, 2012.

Z. Ni, C. Pacoret, R. Benosman, S. Ieng, and S. Regnier, Asynchronous Event-Based High Speed Vision For Microparticle Tracking, In: Journal of Microscopy, vol.245, pp.236-244, 2012.

Y. Nakajima, N. Baudry, J. Duranteau, and E. Vicaut, Microcirculation In Intestinal Villi, In: American Journal of Respiratory and Critical care Medicine, vol.164, pp.1526-1530, 2001.

A. Nakano, Y. Sugii, M. Minamiyama, and H. Niimi, Measurement Of Red Cell Velocity In Microvessels Using Particle Image Velocimerty (PIV), Clinical hemorheology and microcirculation, vol.29, pp.445-455, 2003.

Z. Ni, S. H. Ieng, C. Posch, S. Regnier, and R. Benosman, Visual tracking using neuromorphic asynchronous event-based cameras, In: Neural Computation, vol.27, pp.925-953, 2015.

A. P. Pentland, S. Scherock, T. Darrel, and B. Girod, Simple Range Cameras Based On Focal Error, Optical Society of America, vol.11, pp.2925-2934, 1994.

C. Posch and D. Matolin, Sensitivity And Uniformty Of A 0.18Micrometer CMOS Temporal Contrast Pixel Array, Circuits and Systems (ISCAS), pp.1572-1575, 2011.

C. Posch, D. Matolin, and R. Wohlgenannt, High-dr Frame-Free Pwm Imaging With Asynchronous Aer Intensity Encoding And Focal Plane Temporal Redundancy Suppression, Proceedings of 2010 IEEE International Symposium on Circuits and Systems, pp.2430-2433, 2010.

C. Posch, D. Matolin, and R. Wohlgenannt, A QVGA 143 dB Dynamic Range Frame-Free PWM Image Sensor With Lossless Pixel-Level Video Compression And Time-Domain CDS, In: IEEE Journal of solid-state circuits, vol.46, pp.259-275, 2011.

C. Posch, D. Matolin, R. Wohlgenannt, M. Hofstatter, P. Schon et al., Biomimetic Framefree HDR Camera With Event-driven PWM Image Video Sensor And Full-custom Address-event Processor, 2010 IEEE Biomedical Circuits and Systems Conference, pp.254-257, 2010.

C. Posch, T. Serrano-gotarredona, B. Linares-barranco, and T. Delbruck, Retinomorphic event-based vision sensors: bioinspired cameras with spiking output, In: Proceedings of the IEEE, vol.102, pp.1470-1484, 2014.

D. Valeiras, X. Lagorce, X. Clady, C. Bartolozzi, S. H. Ieng et al., An asynchronous neuromorphic eventdriven visual part-based shape trakcing, IEEE transaction on neural netwroks and learning systems, vol.26, pp.3045-3059, 2015.

Y. Sakr, M. J. Dubois, D. De-backer, J. Creteur, and J. L. Vincent, Persistent Microcirculatory Alterations Are Associated With Organ Failure And Death In Patients With Septic Shock, Critical Care Medicine, vol.32, pp.1825-1831, 2004.

J. S. Schuman, C. A. Puliafito, J. G. Fujimoto, and J. S. Duker, Optical Coherence Tomography Of Ocular Dsiaeases 3rd Edition, Optical coherence of Ocular diseases, 2004.

N. Segal, Improving Microcirculation With Therapeutic Intrathoracic Pressure Regulation In A Porcine Model Of Hemorrhage, In: Resuscitation, vol.82, pp.16-22, 2011.

V. J. Srinivasan, H. Radhakrishnan, E. H. Lo, E. T. Mandeville, J. Y. Jiang et al., OCT Methods For Capillary Velocimetry, Biomedical Optics Express, vol.3, pp.612-629, 2012.

W. D. Strain and P. M. Paldanius, Diabetes, Cardiovascular Disease And The Microcirculation, In: Cardiovascular Diabetology, vol.17, p.57, 2018.

P. Swain and D. Cheskis, Back-Illuminated Image Sensors Come To The Forefront-Novel Materials And Fabrication Methods Increase Quality And Lower Cost Of Sensors For Machine Vision And Industrial Imaging, In: Photonics Spectra, vol.42, p.46, 2008.

J. Szopinski, K. Kusza, and M. Semionow, Microcirculatory Responses To Hypovolemic Shock, Journal of Trauma and Acute Care Surgery, vol.71, pp.1779-1788, 2011.

G. Tachon, A. Harrois, S. Tanaka, H. Kato, O. Huet et al., Microcirculatory Alterations in Traumatic Hemorrhagic Shock, Critical Care Medicine, vol.42, pp.1433-1441, 2014.

S. Tanaka, A. Harrois, C. Nicolai, M. Flores, S. Hamada et al., Qualitative real-time analysis by nurses of sublingual microcirculation in intensive care unit: the MI-CRONURSE study, In: Critical care, vol.19, 2015.

O. Thouvenin, M. Fink, and C. Boccara, Dynamic multimodal full-field optical coherence tomography and fluorescence structured illumination microscopy, In: Journal of Biomdeical Optics, vol.22, 2017.

S. Trzeciak, R. P. Dellinger, J. E. Parrillo, M. Guglielmi, J. Bajaj et al., Early Microcirculatory Perfusion Derangements In Patients With Severe Sepsis And Septic Shock: Relationship To Hemodynamics, Oxygen Transport, And Survival, In: Annals of Emergency Medicine, vol.49, pp.88-98, 2007.

L. G. Ungerleider and J. V. Haxby, What And Where In The Human Brain, Current Opinion in Neurobiology, vol.4, pp.157-165, 1994.

Z. Uz, C. Ince, P. Guerci, Y. Ince, R. P. Araujo et al., Recruitment Of Sublingual Microcirculation Using Handheld Incident Dark Field Imaging As A Routine Measurement Tool During The Postoperative De-escalation Phase -A Pilot Study In Post ICU Cardiac Surgery Patients, In: Perioperative Medicine, vol.7, 2018.

L. Vabre, A. Dubois, and C. Boccara, Thermal-light Full-Field Optical Coherence Tomography, Optics Letters, vol.27, pp.530-532, 2002.
URL : https://hal.archives-ouvertes.fr/hal-00627979

Z. Wan, S. Sun, G. Ristagno, M. H. Weil, and W. Tang, The Cerbral Microcirculation Is Protected During Experimental Hemorrhagic Shock, In: Critical care Medecine, vol.38, pp.928-932, 2010.

M. Watanabe and S. K. Nayar, Rational Filters For Passive Depth From Defocus, Int J Comput Vis, vol.27, pp.203-225, 1997.

C. J. Wiggers, The Present Status Of The Shock Problem, Physiological Reviews, vol.22, pp.74-123, 1942.

H. C. Wiggers and R. C. Ingraham, Hemorrhagic Shock: Definition And Criteria For Its Diagnosis, In: The journal of clinical investigation, vol.25, pp.30-36, 1946.

P. Xiao, M. Fink, and C. Boccara, Combining FF-OCT With SD-OCT For Retinal Imaging, Proceedings of SPIE-OSA 10416, 2017.

C. Zhou, S. Lin, and S. Nayar, Coded Aperture Pairs For Depth From Defocus And Defocus Blurring, Int J Comput Vis, vol.93, pp.53-69, 2011.