J. J. Volpe, The encephalopathy of prematurity-brain injury and impaired brain development inextricably intertwined, Semin Pediatr Neurol, vol.16, pp.167-178, 2009.

P. S. Mcquillen and D. M. Ferriero, Selective vulnerability in the developing central nervous system, Pediatr Neurol, vol.30, pp.227-235, 2004.

P. Y. Ancel, S. Marret, B. Larroque, C. Arnaud, V. Zupan-simunek et al., Are maternal hypertension and small-for-gestational age risk factors for severe intraventricular hemorrhage and cystic periventricular leukomalacia? Results of the EPIPAGE cohort study, Am J Obstet Gynecol, vol.193, pp.178-184, 2005.

G. Beaino, B. Khoshnood, M. Kaminski, S. Marret, V. Pierrat et al., Predictors of the risk of cognitive deficiency in very preterm infants: the EPIPAGE prospective cohort, Acta Paediatr, vol.100, pp.370-378, 2011.

S. Marret, L. Marchand-martin, J. C. Picaud, J. M. Hascoët, C. Arnaud et al., Brain injury in very preterm children and neurosensory and cognitive disabilities during childhood: The EPIPAGE cohort study, PLos One, vol.8, p.62683, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01708949

T. Licht, T. Dor-wollman, A. Ben-zvi, G. Rothe, and E. Keshet, Vessel maturation schedule determines vulnerability to neuronal injuries of prematurity, J Clin Invest, vol.125, pp.1319-1328, 2015.

A. A. Baburamani, C. J. Ek, D. W. Walker, and M. Castillo-melendez, Vulnerability of the developing brain to hypoxic-ischemic damage: contribution of the cerebral vasculature to injury and repair?, Front Physiol, vol.3, p.424, 2012.

A. Braun, H. Xu, F. Hu, P. Kocherlakota, D. Siegel et al., Paucity of pericytes in germinal matrix vasculature of premature infants, J Neurosci, vol.27, pp.12012-12024, 2007.

K. L. Fyfe, S. R. Yiallourou, F. Y. Wong, and R. S. Horne, The development of cardiovascular and cerebral vascular control in preterm infants, Sleep Med Rev, vol.18, pp.299-310, 2014.

U. I. Tuor and D. Grewal, Autoregulation of cerebral blood flow: influence of local brain development and postnatal age, Am J Physiol, vol.267, pp.2220-2228, 1994.

F. D. Haruda, The structure of blood vessels in the germinal matrix and the autoregulation of cerebral blood flow in premature infants, Pediatrics, vol.108, pp.1050-1051, 2001.

P. Ballabh, Intraventricular hemorrhage in premature infants: mechanism of disease, Pediatr Res, vol.67, pp.1-8, 2010.

S. Guo, Y. Zhou, C. Xing, J. Lok, A. T. Som et al., The vasculome of the mouse brain, PLoS One, vol.7, p.52665, 2012.

M. Marin-padilla, The human brain intracerebral microvascular system: development and structure, Front Neuroanat, vol.6, p.38, 2012.

D. Fernandez-lopez, F. J. Daneman, R. Zhou, L. Lee, S. Y. Derugin et al., Blood-brain barrier permeability is increased after acute adult stroke but not neonatal stroke in the rat, J Neurosci, vol.32, pp.9588-9600, 2012.

W. H. Oldendorf and W. J. Brown, Greater number of capillary endothelial cell mitochondria in brain than in muscle, Proc Soc Exp Biol Med, vol.149, pp.736-738, 1975.

R. Daneman, L. Zhou, D. Agalliu, J. D. Cahoy, A. Kaushal et al., The mouse blood-brain barrier transcriptome: a new resource for understanding the development and function of brain endothelial cells, PLoS One, vol.5, p.13741, 2010.

N. R. Saunders, R. Daneman, K. M. Dziegielewska, and S. A. Liddelow, Transporters of the blood-brain and blood-CSF interfaces in development and in the adult, Mol Aspects Med, vol.34, pp.742-752, 2013.

D. Bock, K. Georgiadou, M. Carmeliet, and P. , Role of endothelial cell metabolism in vessel sprouting, Cell Metab, vol.18, pp.634-647, 2013.

O. Culic, M. L. Gruwel, and J. Schrader, Energy turnover of vascular endothelial cells, Am J Physiol, vol.273, pp.205-213, 1997.

D. Bock, K. Georgiadou, M. Schoors, S. Kuchnio, A. Wong et al., Role of PFKFB3-driven glycolysis in vessel sprouting, Cell, vol.154, pp.651-663, 2013.

K. Kasischke, Lactate fuels the neonatal brain, Front Neuroenergetics, vol.3, pp.1-3, 2011.

A. B. Salmina, N. V. Kuvacheva, A. V. Morgun, Y. K. Komleva, E. A. Pozhilenkova et al., Glycolysis-mediated control of blood-brain barrier development and function, Int J Biochem Cell Biol, vol.64, pp.174-184, 2015.

L. Pellerin, G. Pellegri, J. L. Martin, and P. J. Magistretti, Expression of monocarboxylate transporter mRNAs in mouse brain: support for a distinct role of lactate as an energy substrate for the neonatal vs. adult brain, Proc Natl Acad Sci U S A, vol.95, pp.3990-3995, 1998.

M. Erecinska, S. Cherian, and I. A. Silver, Energy metabolism in mammalian brain during development, Prog Neurobiol, vol.73, pp.397-445, 2004.

O. Baud, L. Fayol, P. Gressens, L. Pellerin, P. Magistretti et al., Perinatal and early postnatal changes in the expression of monocarboxylate transporters MCT1 and MCT2 in the rat forebrain, J Comp Neurol, vol.465, pp.445-454, 2003.

S. J. Vannucci and I. A. Simpson, Developmental switch in brain nutrient transporter expression in the rat, Am J Physiol Endocrinol Metab, vol.285, pp.1127-1134, 2003.

H. Adle-biassette, P. Olivier, C. Verney, R. H. Fontaine, P. Evrard et al., Cortical consequences of in vivo blockade of monocarboxylate transport during brain development in mice, Pediatr Res, vol.61, pp.54-60, 2007.

H. Legros, S. Launay, B. D. Roussel, A. Marcou-labarre, S. Calbo et al., Newborn-and adult-derived brain microvascular endothelial cells show age-related differences in phenotype and glutamate-evoked protease release, J Cereb Blood Flow Metab, vol.29, pp.1146-1158, 2009.

P. Ballabh, H. Xu, F. Hu, A. Braun, K. Smith et al., Angiogenic inhibition reduces germinal matrix hemorrhage, Mol Cell Proteomics, vol.13, pp.1682-1689, 2007.

J. A. Vizcaino, E. W. Deutsch, R. Wang, A. Csordas, F. Reisinger et al., ProteomeXchange provides globally coordinated proteomics data submission and dissemination, Nat Biotechnol, vol.32, pp.223-226, 2014.