A Practical Approach, Second Edition=Ronald D. Ho.pdf

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EXPERIMENTAL APPROACHES TO EVALUATE MECHANISMS OF DEVELOPMENTAL TOXICITY 53146. DeSesso, J. and Goeringer, G., Amelioration by leucovorin of methotrexate developmental toxicityinrabbitss, Teratology, 43, 201, 1991.147. Costa, L.G., Organophosphorus compounds, in Recent Advances in Nervous System Toxicology,Spencer, P.S., Ed., Plenum, New York, 1988, p. 203.148. Levine, R., Recognized and possible effects of pesticides in humans, in Handbook of PesticidesToxicology, Hayes, W. and Lawa, E., Eds., Academic Press, New York, 1991, p. 275.149. Small, D.H., Michaelson, S., and Sberna, G., Non-classical actions of cholinesterases: role in cellulardifferentiation, tumorigenesis and Alzheimer’s disease, Neurochem. Int., 28, 453, 1996.150. Ribeiro, P.L. and Faustman, E.M., Embryonic micromass limb bud and midbrain cultures: differentcell cycle kinetics during differentiation, Toxic. In Vitro, 4/5, 602, 1990.151. Koenigsberger, C., Chiappa, S., and Brimijoin, S., Neurite differentiation is modulated in neuroblastomacells engineered for altered acetylcholinesterase expression, J. Neurochem., 69, 1389, 1997.152. Jbilo, O., L’Hermite, Y., Talesa, V., Toutant, J.P., and Chatonnet, A., Acetylcholinesterase and butyrylcholinesteraseexpression in adult rabbit tissues and during development, Eur. J. Biochem., 225, 115, 1994.153. Saito, S., Cholinesterase inhibitors induce growth cone collapse and inhibit neurite extension inprimary cultured chick neurons, Neurotoxicol. Teratol., 20, 411, 1998.154. Jett, D.A., Navoa, R.V., Beckles, R.A., and McLemore, G.L., Cognitive function and cholinergicneurochemistry in weanling rats exposed to chlorpyrifos, Toxicol. Appl. Pharmacol., 174, 89, 2001.155. Crumpton, T., Seidler, F., and Slotkin, T., Is oxidative stress involved in the developmental neurotoxicityof chlorpyrifos?, Dev. Brain. Res., 121, 189, 2000.156. Levin, E.D., Addy, N., Baruah, A., Elias, A., Christopher, N.C., Seidler, F.J., et al., Prenatal chlorpyrifosexposure in rats causes persistent behavioral alterations, Neurotoxicol. Teratol., 24, 733, 2002.157. Song, X., Violin, J.D., Seidler, F.J., and Slotkin, T.A., Modeling the developmental neurotoxicity ofchlorpyrifos in vitro: macromolecule synthesis in PC12 cells, Toxicol. Appl. Pharmacol., 151, 182,1998.158. Qiao, D., Seidler, F.J., and Slotkin, T.A., Developmental neurotoxicity of chlorpyrifos modeled invitro: comparative effects of metabolites and other cholinesterase inhibitors on DNA synthesis inPC12 and C6 cells, Environ. Health Perspect., 109, 909, 2001.159. Das, K. and Barone, S., Jr., Neuronal differentiation in PC12 cells is inhibited by chlorpyrifos andits metabolites: Is acetylcholinesterase inhibition the site of action?, Toxicol. Appl. Pharmacol., 160,217, 1999.160. Chanda, S.M. and Pope, C.N., Neurochemical and neurobehavioral effects of repeated gestationalexposure to chlorpyrifos in maternal and developing rats, Pharmacol. Biochem. Behav., 53, 771, 1996.161. Moser, V.C. and Padilla, S., Age- and gender-related differences in the time course of behavioral andbiochemical effects produced by oral chlorpyrifos in rats, Toxicol. Appl. Pharmacol., 149, 107, 1998.162. Slotkin, T.A., Developmental cholinotoxicants: nicotine and chlorpyrifos, Environ. Health Perspect.,107 Suppl, 1, 1999.163. Pinedo, H.M. and Peters, G.F., Fluorouracil: biochemistry and pharmacology, J. Clin. Oncol., 6, 1653,1988.164. O’Dwyer, P.J., King, S.A., <strong>Ho</strong>th, D.F., and Leyland-Jones, B., Role of thymidine in biochemicalmodulation: a review, Cancer Res., 47, 3911, 1987.165. Scheutz, J., Wallace, H., and Diasio, R., 5-Fluorouracil incorporation into DNA of CF-1 mouse bonemarrow cells as a possible mechanism of toxicity, Cancer Res., 44, 1358, 1984.166. Shuey, D.L., Lau, C., Logsdon, T.R., Zucker, R.M., Elstein, K.H., Narotsky, M.G., et al., Biologicallybased dose-response modeling in developmental toxicology: biochemical and cellular sequelae of 5-fluorouracil exposure in the developing rat, Toxicol. Appl. Pharmacol., 126, 129, 1994.167. Shuey, D.L., Zucker, R.M., Elstein, K.H., and Rogers, J.M., Fetal anemia following maternal exposureto 5-fluorouracil in the rat, Teratology, 49, 311, 1994.168. Lau, C., Mole, M.L., Copeland, M.F., Rogers, J.M., Kavlock, R.J., Shuey, D.L., et al., Toward abiologically based dose-response model for developmental toxicity of 5-fluorouracil in the rat: acquisitionof experimental data, Toxicol. Sci., 59, 37, 2001.169. Setzer, R.W., Lau, C., Mole, M.L., Copeland, M.F., Rogers, J.M., and Kavlock, R.J., Toward abiologically based dose-response model for developmental toxicity of 5-fluorouracil in the rat: amathematical construct, Toxicol. Sci., 59, 49, 2001.© 2006 by Taylor & Francis Group, LLC
54 DEVELOPMENTAL REPRODUCTIVE TOXICOLOGY: A PRACTICAL APPROACH, SECOND EDITION170. Minsker, D.H., MacDonald, J.S., Robertson, R.T., and Bokelman, D.L., Mevalonate supplementationin pregnant rats suppresses the teratogenicity of mevinolinic acid, an inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme a reductase, Teratology, 28, 449, 1983.171. Brewer, L.M., Sheardown, S.A., and Brown, N.A., HMG-CoA reductase mRNA in the post-implantationrat embryo studied by in situ hybridization, Teratology, 47, 137, 1993.172. Krakoff, I., Brown, N., and Reichard, P., Inhibition of ribonucleoside diphosphate reductase byhydroxyurea, Cancer Res., 28, 1559, 1968.173. Chaube, S. and Murhph, M.L., Protective effect of deoxycytidylic acid (CdMP) on hydrosyureainducedmalformations in rats, Teratoloy, 7, 79, 1973.174. Herken, R., Merker, H.J., and Krowke, R., Investigation of the effect of hydroxyurea on the cell cycleand the development of necrosis in the embryonic CNS of mice, Teratology, 18, 103, 1978.175. Herken, R., The influence of deoxycytidine monophosphate (cDMP) on the cytotoxicity of hydroxyureain the embryonic spinal cord of the mouse, Teratology, 30, 83, 1984.176. Wawra, E., Microinjected deoxynucleotides for the study of chemical inhibition of DNA synthesis,Nucleic Acids Res., 16, 5249, 1988.177. DeSesso, J.M. and Goeringer, G.C., Ethoxyquin and nordihydroguaiaretic acid reduce hydroxyureadevelopmental toxicity, Reprod. Toxicol., 4, 267, 1990.178. DeSesso, J.M., Amelioration of teratogenesis. I. Modification of hydroxyurea-induced teratogenesisby the antioxidant propyl gallate, Teratology, 24, 19, 1981.179. Kessel, D. and Shurin, S.B., Transport of two non-metabolized nucleosides, deoxycytidine and cytosinearabinoside, in a sub-line of the L1210 murine leukemia, Biochim. Biophys. Acta, 163, 179, 1968.180. Kochhar, D.M., Penner, J.D., and McDay, J.A., Limb development in mouse embryos., Teratology,18, 71, 1978.181. Bhuyan, B.K., Scheidt, L.G., and Fraser, T.J., Cell cycle phase specificity of antitumor agents, CancerRes., 32, 398, 1972.182. Kochhar, D.M. and Agnish, N.D., “Chemical surgery” as an approach to study morphogenetic eventsin embryonic mouse limb, Develop. Biol., 61, 388, 1977.183. Zittoun, J., Marquet, J., David, J.C., Maniey, D., and Zittoun, R., A study of the mechanisms ofcytotoxicity of Ara-C on three human leukemic cell lines, Cancer Chemother. Pharmacol., 24, 251,1989.184. Chaube, S., Kreis, W., Uchida, K., and Murphy, M.L., The teratogenic effect of 1--D- arabinofuranosylcytosinein the rat, Biochem. Pharmacol., 17, 1213, 1968.185. Faustman, E.M. and Goodman, J.I., Alkylation of DNA in specific hepatic chromatin fractionsfollowing exposure to methylnitrosourea or dimethylnitrosamine, Toxicol. Appl. Pharmacol., 58, 379,1981.186. Ohgaki, H., Eibl, R.H., Wiestler, O.D., Yasargil, M.G., Newcomb, E.W., and Kleihues, P., p53mutations in nonastrocytic human brain tumors, Cancer Res., 51, 6202, 1991.187. Bochert, G., Platzek, T., Rahm, U., and Neubert, D., Embryotoxicity induced by alkylating agents:6. DNA adduct formation induced by methylnitrosourea in mouse embryos, Arch. Toxicol., 65, 390,1991.188. Kidney, J. and Faustman, E., Modulation of nitrosourea toxicity in rodent embryonic cells by O 6– benzylguanine,a depletor of O 6 -methylguanine-DNA methyltransferase, Toxicol. Appl. Pharmacol., 133,1, 1995.189. Francis, B.M., Rogers, J.M., Sulik, K.K., Alles, A.J., Elstein, K.H., Zucker, R.M., et al., Cyclophosphamideteratogenesis: evidence for compensatory responses to induced cellular toxicity, Teratology,42, 473, 1990.190. Gebhardt, D.O., The embryolethal and teratogenic effects of cyclophosphamide on mouse embryos,Teratology, 3, 273, 1970.191. Gibson, J.E. and Becker, B.A., The teratogenicity of cyclophosphamide in mice, Cancer Res., 28,475, 1968.192. Mirkes, P.E., Fantel, A.G., Greenaway, J.C., and Shepard, T.H., Teratogenicity of cyclophosphamidemetabolites: phosphoramide mustard, acrolein, and 4-ketocyclophosphamide in rat embryos culturedin vitro, Toxicol. Appl. Pharmacol., 58, 322, 1981.© 2006 by Taylor & Francis Group, LLC
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Second EditionDEVELOPMENTALandREPRO
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Published in 2006 byCRC PressTaylor
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Chapter 12Chapter 13Chapter 14Chapt
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The EditorRonald D. Hood, Ph.D., is
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Alan M. HobermanArgus ResearchHorsh
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APPENDIX ATerminology of Anatomical
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TERMINOLOGY OF ANATOMICAL DEFECTS 9
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Organ/StructureCodeNumberObservatio
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Organ/Structure10145 Ocular colobom
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Organ/StructurePulmonaryarteryPulmo
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Terminology of developmental abnorm
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968 DEVELOPMENTAL REPRODUCTIVE TOXI
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1000 DEVELOPMENTAL REPRODUCTIVE TOX
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Table 1Human Non-human Primate Rat
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Table 1 (continued)Sertoli CellsHum
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Table 2 (continued) Landmarks in th
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Table 2 (continued) Landmarks in th
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POSTNATAL DEVELOPMENTAL MILESTONES
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Page 231 and 232: PART IPrinciples and Mechanisms© 2
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CHAPTER 6Comparative Features of Ve
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COMPARATIVE FEATURES OF VERTEBRATE
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Table 6.2Comparative reproductive a
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Maturation andRelease ofGametesSper
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Amniotic cavity 9.5 1.5 1-4 1-4,6,9
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Posteriorcardinal veinsestablishedT
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PosteriorcardinaldegenerationRight
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StomachappearsThirdpharyngealpouch;
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Table 6.6DescriptionComparative ges
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ParathyroidParathyroids 12.5 6.2 41
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Table 6.8DescriptionComparative ges
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Formation ofchoroid plexusof latera
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Table 6.10DescriptionMuscular Syste
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Distalphalanges offingersseparatedF
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Table 6.11DescriptionIntermediateme
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Table 6.12DescriptionComparative ge
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CHAPTER 7Developmental Toxicity Tes
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DEVELOPMENTAL TOXICITY TESTING —
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Female 0.00-0.69 0.004-0.39 0.00-0.
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Figure 8.11775Pott DescribesScrotal
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The underlying physiology of juveni
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Table 8.5Total body composition by
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Table 8.6Serum chemistry values for
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CHAPTER 9Significance, Reliability,
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DEVELOPMENTAL AND REPRODUCTIVE TOXI
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Figure 9.51906Food andDrugs Act2000
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Table 9.18Selected comparison point
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Table 9.33Selected comparison point
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Table 9.48What do regulatorswant to
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CHAPTER 10Testing for Reproductive
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TESTING FOR REPRODUCTIVE TOXICITY 4
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We would like to acknowledge the ef
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CHAPTER 12Role of Xenobiotic Metabo
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ROLE OF XENOBIOTIC METABOLISM IN DE
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y ESR spectrometry. 122 Further ESR
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CHAPTER 13Use of Toxicokinetics in
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USE OF TOXICOKINETICS IN DEVELOPMEN
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CHAPTER 17Statistical Analysis for
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STATISTICAL ANALYSIS FOR DEVELOPMEN
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CHAPTER 19Perspectives on the Devel
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PERSPECTIVES ON THE DEVELOPMENTAL A
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Guideline OECD 415 (One Generation)
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The Office of Prevention, Pesticide
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CHAPTER 20Human Studies — Epidemi
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HUMAN STUDIES 801I. INTRODUCTIONEpi
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HUMAN STUDIES 803is actively trying
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HUMAN STUDIES 805100908070Induced a
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HUMAN STUDIES 823are used, but the
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HUMAN STUDIES 829B. The Formation o
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HUMAN STUDIES 837with spina bifida
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HUMAN STUDIES 83926. Haglund, B. an
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CHAPTER 21Developmental and Reprodu
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A Practical Approach, Second Edition=Ronald D. Ho.pdf

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