[1] |
SEWALD K, BRAUN A. Assessment of immunotoxicity using precision-cut tissue slices[J]. Xenobiotica, 2013, 43(1):84-97.
|
[2] |
STRIBOS E G D, HILLEBRANDS J L, OLINGA P, et al. Renal fibrosis in precision-cut kidney slices[J]. Eur J Pharmacol, 2016, 790:57-61.
|
[3] |
PARRISH A R, GANDOLFI A J, BRENDEL K. Precision-cut tissue slices:applications in pharmacology and toxicology[J]. Life Sci, 1995, 57(21):1887-1901.
|
[4] |
LI M, DE GRAAF I A M, GROOTHUIS G M M. Precision-cut intestinal slices:alternative model for drug transport, metabolism, and toxicology research[J]. Exp Opin Drug Metab Toxicol, 2016, 12(2):175-190.
|
[5] |
DE GRAAF I A, GROOTHUIS G M, OLINGA P. Precision-cut tissue slices as a tool to predict metabolism of novel drugs[J]. Exp Opin Drug Metab Toxicol, 2007, 3(6):879-898.
|
[6] |
黄石磊, 谢录异, 余秋寒, 等. 仔猪肺、肠组织离体感染模型的建立及应用[J]. 中国兽医学报, 2020, 40(7):1325-1333.HUANG S L, XIE L Y, YU Q H, et al. Establishment and application of piglet lung and intestinal tissue isolated infection model[J]. Chinese Journal of Veterinary Science, 2020, 40(7):1325-1333.(in Chinese)
|
[7] |
MORIN J P, BASTE J M, GAY A, et al. Precision cut lung slices as an efficient tool for in vitro lung physio-pharmacotoxicology studies[J]. Xenobiotica, 2013, 43(1):63-72.
|
[8] |
SCHUMACHER K, KHONG Y M, CHANG S, et al. Perfusion culture improves the maintenance of cultured liver tissue slices[J]. Tissue Eng, 2007, 13(1):197-205.
|
[9] |
TOUTAIN H J, MORONVALLE-HALLEY V, SARSAT J P, et al. Morphological and functional integrity of precision-cut rat liver slices in rotating organ culture and multiwell plate culture:effects of oxygen tension[J]. Cell Biol Toxicol, 1998, 14(3):175-190.
|
[10] |
VICKERS A E M, SAULNIER M, CRUZ E, et al. Organ slice viability extended for pathway characterization:an in vitro model to investigate fibrosis[J]. Toxicol Sci, 2004, 82(2):534-544.
|
[11] |
FISHER R L, VICKERS A E M. Preparation and culture of precision-cut organ slices from human and animal[J]. Xenobiotica, 2013, 43(1):8-14.
|
[12] |
DE KANTER R, MONSHOUWER M, MEIJER D K F, et al. Precision-cut organ slices as a tool to study toxicity and metabolism of xenobiotics with special reference to non-hepatic tissues[J]. Curr Drug Metab, 2002, 3(1):39-59.
|
[13] |
MARTIN C, UHLIG S, ULLRICH V. Cytokine-induced bronchoconstriction in precision-cut lung slices is dependent upon cyclooxygenase-2 and thromboxane receptor activation[J]. Am J Respirat Cell Mol Biol, 2001, 24(2):139-145.
|
[14] |
WANG I, POLITI A Z, TANIA N, et al. A mathematical model of airway and pulmonary arteriole smooth muscle[J]. Biophys J, 2008, 94(6):2053-2064.
|
[15] |
DASSOW C, WIECHERT L, MARTIN C, et al. Biaxial distension of precision-cut lung slices[J]. J Appl Physiol, 2010, 108(3):713-721.
|
[16] |
VICKERS A E, JIMENEZ R M, SPAANS M C, et al. Human and rat lung biotransformation of cyclosporin A and its derivatives using slices and bronchial epithelial cells[J]. Drug Metab Dispos, 1997, 25(7):873-880.
|
[17] |
HARRIGAN J A, VEZINA C M, MCGARRIGLE B P, et al. DNA adduct formation in precision-cut rat liver and lung slices exposed to benzo[a]pyrene[J]. Toxicol Sci, 2004, 77(2):307-314.
|
[18] |
BANERJEE S K, HUCKUNTOD S D, MILLS S D, et al. Modeling pneumonic plague in human precision-cut lung slices highlights a role for the plasminogen activator protease in facilitating type 3 secretion[J]. Infect Immun, 2019, 87(8):e00175.
|
[19] |
DELGADO-ORTEGA M, MELO S, PUNYADARSANIYA D, et al. Innate immune response to a H3 N2 subtype swine influenza virus in newborn porcine trachea cells, alveolar macrophages, and precision-cut lung slices[J]. Vet Res, 2014, 45:42.
|
[20] |
PUNYADARSANIYA D, LIANG C H, WINTER C, et al. Infection of differentiated porcine airway epithelial cells by influenza virus:differential susceptibility to infection by porcine and avian viruses[J]. PLoS One, 2011, 6(12):e28429.
|
[21] |
MCBRIDE S, RANNIE D, HARRISON D J. Gene transfer to adult human lung tissue ex vivo[J]. Gene Ther, 2000, 7(8):675-678.
|
[22] |
ALSAFADI H N, UHL F E, PINEDA R H, et al. Applications and approaches for three-dimensional precision-cut lung slices. disease modeling and drug discovery[J]. Am J Respirat Cell Mol Biol, 2020, 62(6):681-691.
|
[23] |
DE KANTER R, TUIN A, VAN DE KERKHOF E, et al. A new technique for preparing precision-cut slices from small intestine and colon for drug biotransformation studies[J]. J Pharmacol Toxicol Methods, 2005, 51(1):65-72.
|
[24] |
LI M, VOKRAL I, EVERS B, et al. Human and rat precision-cut intestinal slices as ex vivo models to study bile acid uptake by the apical sodium-dependent bile acid transporter[J]. Eur J Pharmaceut Sci, 2018, 121:65-73.
|
[25] |
POSSIDENTE M, DRAGONI S, FRANCO G, et al. Rat intestinal precision-cut slices as an in vitro model to study xenobiotic interaction with transporters[J]. Eur J Pharm Biopharm, 2011, 79(2):343-348.
|
[26] |
MARTIGNONI M, GROOTHUIS G, DE KANTER R. Comparison of mouse and rat cytochrome P450-mediated metabolism in liver and intestine[J]. Drug Metab Disposit, 2006, 34(6):1047-1054.
|
[27] |
VAN DE KERKHOF E G, DE GRAAF I A M, GROOTHUIS G M M. In vitro methods to study intestinal drug metabolism[J]. Curr Drug Metab, 2007, 8(7):658-675.
|
[28] |
NIU X Y, DE GRAAF I A M, VAN DER BIJ H A, et al. Precision cut intestinal slices are an appropriate ex vivo model to study NSAID-induced intestinal toxicity in rats[J]. Toxicol in Vitro, 2014, 28(7):1296-1305.
|
[29] |
PUNYADARSANIYA D, WINTER C, MORK A K, et al. Precision-cut intestinal slices as a culture system to analyze the infection of differentiated intestinal epithelial cells by avian influenza viruses[J]. J Virol Methods, 2015, 212:71-75.
|
[30] |
GORE E, BIGAEVA E, OLDENBURGER A, et al. PI3K inhibition reduces murine and human liver fibrogenesis in precision-cut liver slices[J]. Biochem Pharmacol, 2019, 169:113633.
|
[31] |
COOMBES J D, CHOI S S, SWIDERSKA-SYN M, et al. Osteopontin is a proximal effector of leptin-mediated non-alcoholic steatohepatitis (NASH) fibrosis[J]. Biochim Biophys Acta Mol Basis Dis, 2016, 1862(1):135-144.
|
[32] |
KLASSEN L W, THIELE G M, DURYEE M J, et al. An in vitro method of alcoholic liver injury using precision-cut liver slices from rats[J]. Biochem Pharmacol, 2008, 76(3):426-436.
|
[33] |
PALMA E, DOORNEBAL E J, CHOKSHI S. Precision-cut liver slices:a versatile tool to advance liver research[J]. Hepatol Internat, 2019, 13(1):51-57.
|
[34] |
LAGAYE S, SHEN H, SAUNIER B, et al. Efficient replication of primary or culture hepatitis C virus isolates in human liver slices:a relevant ex vivo model of liver infection[J]. Hepatology, 2012, 56(3):861-872.
|
[35] |
ZIMMERMANN M, ARMEANU S, SMIRNOW I, et al. Human precision-cut liver tumor slices as a tumor patient-individual predictive test system for oncolytic measles vaccine viruses[J]. Int J Oncol, 2009, 34(5):1247-1256.
|
[36] |
RINGELHAN M, PFISTER D, O'CONNOR T, et al. The immunology of hepatocellular carcinoma[J]. Nat Immunol, 2018, 19(3):222-232.
|
[37] |
RUEGG C E. Preparation of precision-cut renal slices and renal proximal tubular fragments for evaluating segment-specific nephrotoxicity[J]. J Pharmacol Toxicol Methods, 1994, 31(3):125-133.
|
[38] |
BRANCHFLOWER R V, NUNN D S, HIGHET R J, et al. Nephrotoxicity of chloroform:metabolism to phosgene by the mouse kidney[J]. Toxicol Appl Pharmacol, 1984, 72(1):159-168.
|
[39] |
VICKERS A E M, ROSE K, FISHER R, et al. Kidney slices of human and rat to characterize cisplatin-induced injury on cellular pathways and morphology[J]. Toxicol Pathol, 2004, 32(5):577-590.
|
[40] |
MATSUMURA Y, KOYAMA Y, SHINYAMA H, et al. Calmodulin-independent stimulation of renin release by exposure of rat kidney cortical slices to calcium[J]. Clin Exp Pharmacol Physiol, 1988, 15(8):585-590.
|
[41] |
POOSTI F, BANSAL R, YAZDANI S, et al. Selective delivery of IFN-γ to renal interstitial myofibroblasts:a novel strategy for the treatment of renal fibrosis[J]. FASEB J, 2015, 29(3):1029-1042.
|
[42] |
STRIBOS E G D, LUANGMONKONG T, LELIVELD A M, et al. Precision-cut human kidney slices as a model to elucidate the process of renal fibrosis[J]. Trans Res, 2016, 170:8-16. e1.
|
[43] |
CARRANZA-TORRES I E, VIVEROS-VALDEZ E, GUZMÁN-DELGADO N E, et al. Protective effects of phenolic acids on mercury-induced DNA damage in precision-cut kidney slices[J]. Iran J Basic Med Sci, 2019, 22(4):367-375.
|
[44] |
PARRISH A R, DORR R T, GANDOLFI A J, et al. Adult rat myocardial slices:A tool for studies of comparative cardiotoxicity[J]. Toxicol in vitro, 1994, 8(6):1233-1237.
|
[45] |
NERI B, CINI-NERI G, D'ALTERIO M. Effect of anthracyclines and mitoxantrone on oxygen uptake and ATP intracellular concentration in rat heart slices[J]. Biochem Biophys Res Commun, 1984, 125(3):954-960.
|
[46] |
FISCHER P W F, GIROUX A. Effects of dietary magnesium on sodium-potassium pump action in the heart of rats[J]. J Nutr, 1987, 117(12):2091-2095.
|
[47] |
WANLESS R B, NOBLE M I M, DRAKE-HOLLAND A J D. The mechanisms of action of noradrenaline on ouabain-sensitive rubidium uptake in guinea-pig myocardium[J]. Clin Sci (Lond), 1985, 69(6):737-743.
|
[48] |
STUCKMANN I, EVANS S, LASSAR A B. Erythropoietin and retinoic acid, secreted from the epicardium, are required for cardiac myocyte proliferation[J]. Dev Biol, 2003, 255(2):334-349.
|
[49] |
FISCHER C, MILTING H, FEIN E, et al. Long-term functional and structural preservation of precision-cut human myocardium under continuous electromechanical stimulation in vitro[J]. Nat Commun, 2019, 10(1):117.
|
[50] |
HANNES T, HALBACH M, NAZZAL R, et al. Biological pacemakers:characterization in an in vitro coculture model[J]. J Electrocardiol, 2008, 41(6):562-566.
|
[51] |
BAVEREL G, KNOUZY B, GAUTHIER C, et al. Use of precision-cut renal cortical slices in nephrotoxicity studies[J]. Xenobiotica, 2013, 43(1):54-62.
|
[52] |
VICKERS A E M, FISHER R L. Evaluation of drug-induced injury and human response in precision-cut tissue slices[J]. Xenobiotica, 2013, 43(1):29-40.
|
[53] |
李婧婷, 汪晖, 潘晓靓, 等. 醋氨酚所致精密肝切片损伤模型的建立及CYP2E1的调节作用[J]. 中国临床药理学与治疗学, 2008, 13(1):46-50.LI J T, WANG H, PAN X L, et al. Establishment of an acetaminophen-induced hepatotoxicity model of precision-cut liver slices and the regulation of cytochrome P4502E1[J]. Chinese Journal of Clinical Pharmacology and Therapeutics, 2008, 13(1):46-50.(in Chinese)
|
[54] |
郭喻. 肝纤维化精密切片技术的建立及其在药物代谢研究中的应用[D]. 武汉:武汉大学, 2005.GUO Y. Establishment of fibrotic rat precision-cut liver slice technique and its application in drug metabolism[D]. Wuhan:Wuhan University, 2005.(in Chinese)
|
[55] |
DE KANTER R, MONSHOUWER M, DRAAISMA A L, et al. Prediction of whole-body metabolic clearance of drugs through the combined use of slices from rat liver, lung, kidney, small intestine and colon[J]. Xenobiotica, 2004, 34(3):229-241.
|