R. A. Wolfe, Comparison of mortality in all patients on dialysis, patients on dialysis awaiting transplantation, and recipients of a first cadaveric transplant, N. Engl. J. Med, vol.341, pp.1725-1730, 1999.

E. Savoye, D. Tamarelle, Y. Chalem, J. Rebibou, and P. Tuppin, Survival benefits of kidney transplantation with expanded criteria deceased donors in patients aged 60 years and over, Transplantation, vol.84, pp.1618-1624, 2007.
URL : https://hal.archives-ouvertes.fr/inserm-00479735

S. Bayat, M. Kessler, S. Briançon, and L. Frimat, Survival of transplanted and dialysed patients in a French region with focus on outcomes in the elderly, Nephrol. Dial. Transplant, vol.25, pp.292-300, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00748834

R. M. Wijnen, Outcome of transplantation of non-heart-beating donor kidneys, Lancet, vol.345, pp.1067-1070, 1995.

Y. W. Cho, P. I. Terasaki, J. M. Cecka, and D. W. Gjertson, Transplantation of kidneys from donors whose hearts have stopped beating, N. Engl. J. Med, vol.338, pp.221-225, 1998.

M. Weber, D. Dindo, N. Demartines, P. M. Ambühl, and P. Clavien, Kidney transplantation from donors without a heartbeat, N. Engl. J. Med, vol.347, pp.248-255, 2002.

N. R. Brook, J. R. Waller, and M. L. Nicholson, Nonheart-beating kidney donation: current practice and future developments, Kidney Int, vol.63, pp.1516-1529, 2003.

G. Koffman and G. Gambaro, Renal transplantation from non-heart-beating donors: a review of the European experience, J. Nephrol, vol.16, pp.334-341, 2003.

J. Arias-diaz, J. Alvarez, M. R. Del-barrio, and J. L. Balibrea, Non-heart-beating donation: current state of the art, Transplant. Proc, vol.36, pp.1891-1893, 2004.

A. Alonso, Renal transplantation from non-heart-beating donors: a single-center 10-year experience, Transplant. Proc, vol.37, pp.3658-3660, 2005.

S. Gagandeep, Expanding the donor kidney pool: utility of renal allografts procured in a setting of uncontrolled cardiac death, Am. J. Transplant, vol.6, pp.1682-1688, 2006.

C. Kokkinos, Outcome of kidney transplantation from nonheart-beating versus heart-beating cadaveric donors, Transplantation, vol.83, pp.1193-1199, 2007.

A. I. Sánchez-fructuoso, Victims of cardiac arrest occurring outside the hospital: a source of transplantable kidneys, Ann. Intern. Med, vol.145, pp.157-164, 2006.

M. G. Snoeijs, Kidneys from donors after cardiac death provide survival benefit, J. Am. Soc. Nephrol, vol.21, pp.1015-1021, 2010.

D. Viglietti, Kidney allograft fibrosis after transplantation from uncontrolled circulatory death donors, Transplantation, vol.99, pp.409-415, 2015.

K. E. Lamb, S. Lodhi, and H. Meier-kriesche, Long-term renal allograft survival in the United States: a critical reappraisal, Am. J. Transplant, vol.11, pp.450-462, 2011.

M. Haas, Chronic allograft nephropathy or interstitial fibrosis and tubular atrophy: what is in a name?, Curr. Opin. Nephrol. Hypertens, vol.23, pp.245-250, 2014.

F. G. Cosio, M. El-ters, L. D. Cornell, C. A. Schinstock, and M. D. Stegall, Changing Kidney Allograft Histology Early Posttransplant: Prognostic Implications of 1-Year Protocol Biopsies, Am. J. Transplant, vol.16, pp.194-203, 2016.

A. Hart, Annual Data Report: Kidney. Am. J. Transplant, vol.17, issue.1, pp.21-116, 2015.

M. D. Stegall, L. D. Cornell, W. D. Park, B. H. Smith, and F. G. Cosio, Renal Allograft Histology at 10 Years After Transplantation in the Tacrolimus Era: Evidence of Pervasive Chronic Injury, Am. J. Transplant, 2017.

K. Solez, Banff '05 Meeting Report: differential diagnosis of chronic allograft injury and elimination of chronic allograft nephropathy ('CAN'), Am. J. Transplant, vol.7, pp.518-526, 2007.

L. C. Racusen and H. Regele, The pathology of chronic allograft dysfunction, Kidney Int, p.419, 2010.

J. Pascual, M. J. Pérez-sáez, M. Mir, and M. Crespo, Chronic renal allograft injury: early detection, accurate diagnosis and management, Transplant. Rev, vol.26, pp.280-290, 2012.

J. Sellarés, Understanding the causes of kidney transplant failure: the dominant role of antibody-mediated rejection and nonadherence, Am. J. Transplant, vol.12, pp.388-399, 2012.

U. Heemann and J. Lutz, Pathophysiology and treatment options of chronic renal allograft damage, Nephrol. Dial. Transplant, vol.28, pp.2438-2446, 2013.

D. G. Maluf, Evaluation of molecular profiles in calcineurin inhibitor toxicity post-kidney transplant: input to chronic allograft dysfunction, Am. J. Transplant, vol.14, pp.1152-1163, 2014.

I. B. Torres, F. Moreso, E. Sarró, A. Meseguer, and D. Serón, The Interplay between inflammation and fibrosis in kidney transplantation, BioMed Res. Int, p.750602, 2014.

D. Serón, Reliability of chronic allograft nephropathy diagnosis in sequential protocol biopsies, Kidney Int, vol.61, pp.727-733, 2002.

A. Melk, B. M. Schmidt, A. Vongwiwatana, D. C. Rayner, and P. Halloran, Increased expression of senescence-associated cell cycle inhibitor p16INK4a in deteriorating renal transplants and diseased native kidney, Am. J. Transplant, vol.5, pp.1375-1382, 2005.

D. Serón, Protocol renal allograft biopsies and the design of clinical trials aimed to prevent or treat chronic allograft nephropathy, Transplantation, vol.69, pp.1849-1855, 2000.

S. Yilmaz, Protocol core needle biopsy and histologic Chronic Allograft Damage Index (CADI) as surrogate end point for longterm graft survival in multicenter studies, J. Am. Soc. Nephrol, vol.14, pp.773-779, 2003.

D. Serón, Early protocol renal allograft biopsies and graft outcome, Kidney Int, vol.51, pp.310-316, 1997.

L. Pape, Computer-assisted quantification of fibrosis in chronic allograft nephropaty by picosirius red-staining: a new tool for predicting long-term graft function, Transplantation, vol.76, pp.955-958, 2003.

P. C. Grimm, Computerized image analysis of Sirius Red-stained renal allograft biopsies as a surrogate marker to predict longterm allograft function, J. Am. Soc. Nephrol, vol.14, pp.1662-1668, 2003.

C. Roufosse, Reference Guide to the Banff Classification of Renal Allograft Pathology, Transplantation, 2018.

N. Marcussen, T. S. Olsen, H. Benediktsson, L. Racusen, and K. Solez, Reproducibility of the Banff classification of renal allograft pathology. Inter-and intraobserver variation, Transplantation, vol.60, pp.1083-1089, 1995.

P. N. Furness and N. Taub, Convergence of European Renal Transplant Pathology Assessment Procedures (CERTPAP) Project. International variation in the interpretation of renal transplant biopsies: report of the CERTPAP Project, Kidney Int, vol.60, 1998.

P. N. Furness, International variation in histologic grading is large, and persistent feedback does not improve reproducibility, Am. J. Surg. Pathol, vol.27, pp.805-810, 2003.

K. Solez, Banff 07 classification of renal allograft pathology: updates and future directions, Am. J. Transplant, vol.8, pp.753-760, 2008.

L. C. Junqueira, G. Bignolas, and R. R. Brentani, Picrosirius staining plus polarization microscopy, a specific method for collagen detection in tissue sections, Histochem. J, vol.11, pp.447-455, 1979.

A. López-de-león and M. Rojkind, A simple micromethod for collagen and total protein determination in formalin-fixed paraffinembedded sections, J. Histochem. Cytochem, vol.33, pp.737-743, 1985.

A. Moragas, Cirrhotic changes in livers from children undergoing transplantation. Image analysis, Anal. Quant. Cytol. Histol, vol.14, pp.359-366, 1992.

N. Manabe, Interferon-alpha 2b therapy reduces liver fibrosis in chronic non-A, non-B hepatitis: a quantitative histological evaluation, Hepatol, vol.18, pp.1344-1349, 1993.

V. Calvaruso, Computer-assisted image analysis of liver collagen: relationship to Ishak scoring and hepatic venous pressure gradient, Hepatol, vol.49, pp.1236-1244, 2009.

Y. Huang, Image analysis of liver collagen using sirius red is more accurate and correlates better with serum fibrosis markers than trichrome, Liver Int, vol.33, pp.1249-1256, 2013.

E. De-heer, Morphometry of interstitial fibrosis, Nephrol. Dial. Transplant, vol.15, issue.6, pp.72-73, 2000.

M. M. Diaz-encarnacion, Correlation of quantitative digital image analysis with the glomerular filtration rate in chronic allograft nephropathy, Am. J. Transplant, vol.4, pp.248-256, 2004.

A. B. Farris, Morphometric and visual evaluation of fibrosis in renal biopsies, J. Am. Soc. Nephrol, vol.22, pp.176-186, 2011.

J. M. Street, Automated quantification of renal fibrosis with Sirius Red and polarization contrast microscopy, Physiol. Rep, vol.2, 2014.

S. Sund, P. Grimm, A. V. Reisaeter, and T. Hovig, Computerized image analysis vs semiquantitative scoring in evaluation of kidney allograft fibrosis and prognosis, Nephrol. Dial. Transplant, vol.19, pp.2838-2845, 2004.

A. Servais, Quantification of interstitial fibrosis by image analysis on routine renal biopsy in patients receiving cyclosporine, Transplantation, vol.84, pp.1595-1601, 2007.

A. Servais, Interstitial fibrosis evolution on early sequential screening renal allograft biopsies using quantitative image analysis, Am. J. Transplant, vol.11, pp.1456-1463, 2011.

H. François and C. Chatziantoniou, Renal fibrosis: Recent translational aspects, Matrix Biol. J, p.13, 2017.

M. G. Hunter, S. Hurwitz, C. O. Bellamy, and J. S. Duffield, Quantitative morphometry of lupus nephritis: the significance of collagen, tubular space, and inflammatory infiltrate, Kidney Int, vol.67, pp.94-102, 2005.

D. Gibyeli-genek, Quantitative evaluation of interstitial fibrosis with Sirius Red in IgA nephritis, Ren. Fail, vol.36, pp.73-77, 2014.

M. Dao, The cannabinoid receptor 1 is involved in renal fibrosis during chronic allograft dysfunction: Proof of concept, J. Cell. Mol. Med, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02538112

L. Lecru, Cannabinoid receptor 1 is a major mediator of renal fibrosis, Kidney Int, vol.88, pp.72-84, 2015.

, R Core Team. R. A Language and Environment for Statistical Computing. (R Foundation for Statistical Computing, 2017.

M. Gamer, J. Lemon, and I. F. Singh, Various Coefficients of Interrater Reliability and Agreement, 2019.