Effet chez le porcelet d'une exposition Ã un rÃ©gime co-contaminÃ© en ...

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REFERENCES BIBLIOGRAPHIQUESMARZOCCO, S., RUSSO, R., BIANCO, G., AUTORE, G. & SEVERINO, L. 2009. Pro-apoptotic effects ofnivalenol and deoxynivalenol trichothecenes in J774A.1 murine macrophages. ToxicologyLetters, 189, 21-26.MAYURA, K., ABDEL-WAHHAB, M. A., MCKENZIE, K. S., SARR, A. B., EDWARDS, J. F., NAGUIB, K. &PHILLIPS, T. D. 1998. Prevention of maternal and developmental toxicity in rats via dietaryinclusion of common aflatoxin sorbents: Potential for hidden risks. Toxicological Sciences, 41,175-182.MAYURA, K., PARKER, R., BERNDT, W. O. & PHILLIPS, T. D. 1984. Effect of Simultaneous PrenatalExposure to Ochratoxin-a and Citrinin in the Rat. Journal of Toxicology and EnvironmentalHealth, 13, 553-561.MCKENZIE, K. S., KUBENA, L. F., DENVIR, A. J., ROGERS, T. D., HITCHENS, G. D., BAILEY, R. H., HARVEY,R. B., BUCKLEY, S. A. & PHILLIPS, T. D. 1998. Aflatoxicosis in turkey poults is prevented bytreatment of naturally contaminated corn with ozone generated by electrolysis. PoultryScience, 77, 1094-1102.MCKENZIE, K. S., SARR, A. B., MAYURA, K., BAILEY, R. H., MILLER, D. R., ROGERS, T. D., NORRED, W. P.,VOSS, K. A., PLATTNER, R. D., KUBENA, L. F. & PHILLIPS, T. D. 1997. Oxidative degradation anddetoxification of mycotoxins using a novel source of ozone. Food and Chemical Toxicology,35, 807-820.MEISSONNIER, G. M., OSWALD, I. P. & GALTIER, P. 2005. Aflatoxicoses chez le porc - Étudebibliographique de données cliniques et expérimentales. Revue Médecine Vétérinaire, 156,591-605.MEISSONNIER, G. M., LAFFITTE, J., RAYMOND, I., BENOIT, E., COSSALTER, A. M., PINTON, P., BERTIN,G., OSWALD, I. P. & GALTIER, P. 2008a. Subclinical doses of T-2 toxin impair acquired immuneresponse and liver cytochrome P450 in pigs. Toxicology, 247, 46-54.MEISSONNIER, G. M., PINTON, P., LAFFITTE, J., COSSALTER, A. M., GONG, Y. Y., WILD, C. P., BERTIN,G., GALTIER, P. & OSWALD, I. P. 2008b. Immunotoxicity of aflatoxin B1: Impairment of thecell-mediated response to vaccine antigen and modulation of cytokine expression. Toxicologyand Applied Pharmacology, 231, 142-149.MEISSONNIER, G. M., RAYMOND, I., LAFFITTE, J., COSSALTER, A. M., PINTON, P., BENOIT, E., BERTIN,G., GALTIER, P. & OSWALD, I. P. 2009. Dietary glucomannan improves the vaccinal responsein pigs exposed to aflatoxin B-1 or T-2 toxin. World Mycotoxin Journal, 2, 161-172.MELI, R., FERRANTE, M. C., RASO, G. M., CAVALIERE, M., DI CARLO, R. & LUCISANO, A. 2000. Effect offumonisin B1 on inducible nitric oxide synthase and cyclooxygenase-2 in LPS-stimulatedJ774A.1 cells. Life Sciences, 67, 2845-2853.MENDEZ-ALBORES, A., ARAMBULA-VILLA, G., LOAREA-PINA, M. G. F., CASTANO-TOSTADO, E. &MORENO-MARTINEZ, E. 2005. Safety and efficacy evaluation of aqueous citric acid todegrade B-aflatoxins in maize. Food and Chemical Toxicology, 43, 233-238.MENDEZ-ALBORES, A., DEL RIO-GARCIA, J. C. & MORENO-MARTINEZ, E. 2007. Decontamination ofaflatoxin duckling feed with aqueous citric acid treatment. Animal Feed Science andTechnology, 135, 249-262.MENDEZ-ALBORES, J. A., VILLA, G. A., DEL RIO-GARCIA, J. & MARTINEZ, E. M. 2004. Aflatoxindetoxificationachieved with Mexican traditional nixtamalization process (MTNP) isreversible. Journal of the Science of Food and Agriculture, 84, 1611-1614.MERRILL, A. H., SCHMELZ, E. M., DILLEHAY, D. L., SPIEGEL, S., SHAYMAN, J. A., SCHROEDER, J. J.,RILEY, R. T., VOSS, K. A. & WANG, E. 1997. Sphingolipids - The enigmatic lipid class:Biochemistry, physiology, and pathophysiology. Toxicology and Applied Pharmacology, 142,208-225.MERRILL, A. H., SULLARDS, M. C., WANG, E., VOSS, K. A. & RILEY, R. T. 2001. Sphingolipid metabolism:Roles in signal transduction and disruption by fumonisins. Environmental Health Perspectives,109, 283-289.207
REFERENCES BIBLIOGRAPHIQUESMIAZZO, R., PERALTA, M. F., MAGNOLI, C., SALVANO, M., FERRERO, S., CHIACCHIERA, S. M.,CARVALHO, E. C. Q., ROSA, C. A. R. & DALCERO, A. 2005. Efficacy of sodium bentonite as adetoxifier of broiler feed contaminated with aflatoxin and fumonisin. Poultry Science, 84, 1-8.MILLER, E. R. & ULLREY, D. E. 1987. The Pig as a Model for Human-Nutrition. Annual Review ofNutrition, 7, 361-382.MOLL, W. D., HEINL, S., HARTINGER, D., GRIESSLER, K., KLINGENBRUNNER, V., VEKIRU, E., SCHWARTZ,H., KRSKA, R., GRABHERR, R. & SCHATZMAYR, G. Biodegradation of fumonisins. Proceedingsof the International Society for Mycotoxicology, 2009 Austria.MOLNAR, O., SCHATZMAYR, G., FUCHS, E. & PRILLINGER, H. 2004. Trichosporon mycotoxinivorans spnov., a new yeast species useful in biological detoxification of various mycotoxins. Systematicand Applied Microbiology, 27, 661-671.MONBALIU, S., VAN POUCKE, C., DETAVERNIER, C., DUMOULIN, F., VAN DE VELDE, M., SCHOETERS,E., VAN DYCK, S., AVERKIEVA, O., VAN PETEGHEM, C. & DE SAEGER, S. 2010. Occurrence ofMycotoxins in Feed as Analyzed by a Multi-Mycotoxin LC-MS/MS Method. Journal ofAgricultural and Food Chemistry, 58, 66-71.MOON, Y. & PESTKA, J. J. 2002. Vomitoxin-induced cyclooxygenase-2 gene expression inmacrophages mediated by activation of ERK and p38 but not JNK mitogen-activated proteinkinases. Toxicological Sciences, 69, 373-382.MOON, Y. & PESTKA, J. J. 2003. Cyclooxygenase-2 mediates interleukin-6 upregulation by vomitoxin(deoxynivalenol) in vitro and in vivo. Toxicology and Applied Pharmacology, 187, 80-88.MORRIS, C. M., LI, Y. C., LEDOUX, D. R., BERMUDEZ, A. J. & ROTTINGHAUS, G. E. 1999. The individualand combined effects of feeding moniliformin, supplied by Fusarium fujikuroi culturematerial, and deoxynivalenol in young turkey poults. Poultry Science, 78, 1110-1115.MORRISSEY, R. E., NORRED, W. P., HINTON, D. M., COLE, R. J. & DORNER, J. W. 1987. CombinedEffects of the Mycotoxins Aflatoxin-B1 and Cyclopiazonic Acid on Sprague-Dawley Rats. Foodand Chemical Toxicology, 25, 837-842.MURPHY, P. A., RICE, L. G. & ROSS, P. F. 1993. Fumonisin-B1, Fumonisin-B2, and Fumonisin-B3Content of Iowa, Wisconsin, and Illinois Corn and Corn Screenings. Journal of Agricultural andFood Chemistry, 41, 263-266.MUTUNGI, C., LAMUKA, P., ARIMI, S., GATHUMBI, J. & ONYANGO, C. 2008. The fate of aflatoxinsduring processing of maize into muthokoi - A traditional Kenyan food. Food Control, 19, 714-721.NNORRED, W. P. & MORRISSEY, R. E. 1983. Effects of Long-Term Feeding of Ammoniated, Aflatoxin-Contaminated Corn to Fischer 344 Rats. Toxicology and Applied Pharmacology, 70, 96-104.NORRED, W. P., VOSS, K. A., BACON, C. W. & RILEY, R. T. 1991. Effectiveness of Ammonia Treatmentin Detoxification of Fumonisin Contaminated Corn. Food and Chemical Toxicology, 29, 815-819.NORRED, W. P., WANG, E., YOO, H., RILEY, R. T. & MERRILL, A. H. 1992. Invitro Toxicology ofFumonisins and the Mechanistic Implications. Mycopathologia, 117, 73-78.OOBREMSKI, K., ZIELONKA, L., GAJECKA, M., JAKIMIUK, E., BAKULA, T., BARANOWSKI, M. & GAJECKI,M. 2008. Histological estimation of the small intestine wall after administration of feedcontaining deoxynivalenol, T-2 toxin and zearalenone in the pig. Polish Journal of VeterinarySciences, 11, 339-345.208
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AUTEUR : Bertrand GRENIERTITRE : Ef
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REMERCIEMENTSLe travail ici présen
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J’ai une pensée particulière po
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Grenier, B., Loureiro-Bracarense, A
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TABLE DES MATIERES ................
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LISTE DES ABREVIATIONSAFAflatoxineD
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FIGURES ET TABLEAUXFigure 1 : Mycot
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INTRODUCTION8
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INTRODUCTIONCONTEXTE DE L’ETUDELe
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INTRODUCTIONElle se présentait sou
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INTRODUCTIONl’utilisation de ce m
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INTRODUCTION1. Les mycotoxines : g
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INTRODUCTIONc) La zéaralénone (vo
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INTRODUCTIONleucoencéphalomalacies
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INTRODUCTIONMycotoxins co-contamina
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INTRODUCTIONINTRODUCTIONFood safety
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INTRODUCTIONCHARACTERIZATION OF THE
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Quail(140 d)AF-FBRabbit(21 d)AF-FBR
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INTRODUCTIONdue to the ingestion of
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Table 2 : Interaction between Aflat
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(49 d) - RW-L ↗- Ab SRBC ↘- RW-
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INTRODUCTIONb) effects AF and OTA o
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INTRODUCTIONThe depletion of lympho
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AF-T2Chicken 0.3 - 3.0(35 d)AF-T2Ra
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INTRODUCTIONonly seen in birds give
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(30 d) 2AF-RUBGuinea pig 0.02 bw -(
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INTRODUCTIONbetween AF and CPA on t
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(21 day) - RBC, hemoglobin ↗- AST
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INTRODUCTIONII. INTERACTIONS BETWEE
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INTRODUCTIONwhereas in the experime
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INTRODUCTION2.2) TCT type A and BTw
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Table 6 : Interaction between Ochra
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T2-CPAChicken(28 d)T2-CPAChicken(21
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INTRODUCTIONexposed group (Brown et
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INTRODUCTION2.3) Interaction betwee
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INTRODUCTIONeffects in comparison t
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INTRODUCTION3. Procédés de décon
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INTRODUCTIONPhysical and chemical m
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INTRODUCTIONINTRODUCTIONConsumption
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INTRODUCTIONmm screen shows that fr
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INTRODUCTIONseparate the grain into
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Table 7 : toxicological evaluation
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INTRODUCTIONextrusion parameters ra
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INTRODUCTION- an important loss of
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INTRODUCTIONal., 2005). The fate of
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INTRODUCTIONby a steeping period. S
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INTRODUCTIONon cell tissue cultures
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INTRODUCTIONCONCLUSIONDetoxificatio
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INTRODUCTIONMycotoxin Reduction in
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INTRODUCTIONINTRODUCTIONMycotoxin-p
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INTRODUCTIONI. ADSORPTION OF MYCOTO
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Rats3000 ppb 0.5 %2500 ppb 0.5 %250
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INTRODUCTIONIn studies of the poten
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INTRODUCTIONSubstances investigated
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Table 9 : Outcome of yeast cell wal
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INTRODUCTIONFurthermore, cholestyra
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INTRODUCTIONwall peptidoglycans and
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INTRODUCTIONII. BIOLOGICAL DETOXIFI
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INTRODUCTIONdecrease in toxin-conce
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INTRODUCTIONCONCLUSIONPrevention an
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TRAVAILEXPERIMENTAL90
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TRAVAIL EXPERIMENTALtoxicité gén
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TRAVAIL EXPERIMENTALRESUME DES ETUD
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These are not the final page number
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TRAVAIL EXPERIMENTALChronic ingesti
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TRAVAIL EXPERIMENTALINTRODUCTIONMyc
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TRAVAIL EXPERIMENTALMATERIAL & METH
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TRAVAIL EXPERIMENTALthrough a grade
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Figure 5ABCDVilli height (µm)5432a
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TRAVAIL EXPERIMENTALRESULTS1) Histo
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Figure 8ILEUM2.01.6TNF-αbbb2.52.0I
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TRAVAIL EXPERIMENTAL3) Intestinal i
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TRAVAIL EXPERIMENTALtreated group t
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TRAVAIL EXPERIMENTALThe potencial e
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TRAVAIL EXPERIMENTALQuantification
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Figure 10 :(a) Réaction de deesté
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TRAVAIL EXPERIMENTALrévélé de l
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TRAVAIL EXPERIMENTALABSTRACTFumonis
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TRAVAIL EXPERIMENTALintestinal leve
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TRAVAIL EXPERIMENTAL3) Experimental
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TRAVAIL EXPERIMENTALthe importance
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Figure 11 : Effects of FB1 and HFB1
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Table 15 : Effects of FB1 and HFB1
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Table 17 : Effects of FB1 and HFB1
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TRAVAIL EXPERIMENTALDISCUSSIONThe a
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TRAVAIL EXPERIMENTALassociated lymp
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TRAVAIL EXPERIMENTALHartinger et al
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Figure 13 :(a) Transformation par v
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Figure 14 :Illustrations de la proc
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Figure 15 :Plan expérimental de la
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TRAVAIL EXPERIMENTAL4) Analyses du
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TRAVAIL EXPERIMENTAL9) Analyses sta
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TRAVAIL EXPERIMENTALRESULTATS1) Eff
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TRAVAIL EXPERIMENTAL2) Effet des ag
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TRAVAIL EXPERIMENTALb,cca,ba,b,da,d
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TRAVAIL EXPERIMENTALL’exposition
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Figure 21 : Effet de l’exposition
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1,41,21,00,80,60,40,20,0IL‐8a,cc
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TRAVAIL EXPERIMENTALDISCUSSIONLes o
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TRAVAIL EXPERIMENTALœdèmes pulmon
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DISCUSSIONGENERALE160
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DISCUSSION GENERALEDans ce travail
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DISCUSSION GENERALEdes vaches laiti
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Page 220 and 221: DISCUSSION GENERALEet al., 2008b).
Page 222 and 223: DISCUSSION GENERALE• une réactio
Page 224 and 225: DISCUSSION GENERALE2. Les systèmes
Page 226 and 227: DISCUSSION GENERALEMycoplasma agala
Page 228 and 229: DISCUSSION GENERALEoptimale. Les au
Page 230 and 231: DISCUSSION GENERALEsphingomyéline
Page 232 and 233: DISCUSSION GENERALEsignalisation ce
Page 234 and 235: DISCUSSION GENERALEL’IMMUNITÉ IN
Page 236 and 237: DISCUSSION GENERALEplus spécifique
Page 238 and 239: DISCUSSION GENERALEsouligner que le
Page 240 and 241: DISCUSSION GENERALELA CARBOXYLESTER
Page 242 and 243: DISCUSSION GENERALEde HFB1. Toutefo
Page 244 and 245: CONCLUSIONS184
Page 246 and 247: CONCLUSIONSLes effets d’expositio
Page 248 and 249: CONCLUSIONSest utilisée lorsque la
Page 250 and 251: REFERENCES BIBLIOGRAPHIQUESAABDEL-W
Page 252 and 253: REFERENCES BIBLIOGRAPHIQUESBHANDARI
Page 254 and 255: REFERENCES BIBLIOGRAPHIQUESCASADO,
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Page 258 and 259: REFERENCES BIBLIOGRAPHIQUESETIENNE,
Page 260 and 261: REFERENCES BIBLIOGRAPHIQUESGRENIER,
Page 262 and 263: REFERENCES BIBLIOGRAPHIQUESHERZALLA
Page 264 and 265: REFERENCES BIBLIOGRAPHIQUESKERKADI,
Page 266 and 267: REFERENCES BIBLIOGRAPHIQUESKUMAR, M
Page 270 and 271: REFERENCES BIBLIOGRAPHIQUESODHAV, B
Page 272 and 273: REFERENCES BIBLIOGRAPHIQUESPFOHL-LE
Page 274 and 275: REFERENCES BIBLIOGRAPHIQUESREFAI, M
Page 276 and 277: REFERENCES BIBLIOGRAPHIQUESSCHWARTZ
Page 278 and 279: REFERENCES BIBLIOGRAPHIQUESSWANSON,
Page 280 and 281: REFERENCES BIBLIOGRAPHIQUESVEKIRU,
Page 282 and 283: REFERENCES BIBLIOGRAPHIQUESYAN, D.,
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