ГОСТ 32380-2013 Методы испытания по воздействию химической продукции на организм человека. Испытания по оценке токсического воздействия на пренатальное развитие

[1]

Руководящий документ ОЭСР Test N 414 "Prenatal Development Toxicity Study"

[2]

Organisation for Economic Co-operation and Development (1995). Report of the OECD Ad Hoc Working Group on Reproduction and Developmental Toxicity. Copenhagen, Denmark, (13th-14th June 1995)

[3]

Kavlock R.J. et al. (1996). A Simulation Study of the Influence of Study Design on the Estimation of Benchmark Doses for Developmental Toxicity. Risk Anal. 16, 399-410

[4]

Kimmel, C.A. and Francis, E.Z. (1990). Proceedings of the Workshop on the Acceptability and Interpretation of Dermal Developmental Toxicity Studies. Fundam. Appl. Toxicol. 14, 386-398

[5]

Wong, B.A., et al. (1997). Developing Specialized Inhalation Exposure Systems to Address Toxicological Problems. СIIT Activities 17, 1-8

[6]

US Environmental Protection Agency (1985). Subpart E-Specific Organ/Tissue Toxicity, 40 CFR 798.4350: Inhalation Developmental Toxicity Study

[7]

Salewski, E. (1964). Faerbermethode zum Makroskopischen Nachweis von Implantations Stellen am Uterus der Ratte. Naunyn-Schmeidebergs Arch. Pharmakol. Exp. Pathol. 247, 367

[8]

Edwards, J.A. (1968). The External Development of the Rabbit and Rat Embryo. In: Adv. Teratol. D.H.M. Woolam (ed.), Vol. 3. Academic Press, NY

[9]

Inouye, M. (1976). Differential Staining of Cartilage and Bone in Fetal Mouse Skeleton by Alcian Blue and Alizarin Red S. Congen. Anom. 16, 171-173

[10]

Igarashi, E. et al. (1992). Frequency of Spontaneous Axial Skeletal Variations Detected By the Double Staining Technique for Ossified and Cartilaginous Skeleton in Rat Foetuses. Congen. Anom. 32, 381-391

[11]

Kimmel, C.A. et al. (1993). Skeletal Development Following Heat Exposure in the Rat. Teratology 47, 229-242

[12]

Marr, M.C. et al. (1988). Comparison of Single and Double Staining for Evaluation of Skeletal Development: The Effects of Ethylene Glycol (EG) in CD Rats. Teratology 37, 476

[13]

Barrow, M.V. and Taylor, W.J. (1969). A Rapid Method For Detecting Malformations in Rat Foetuses. J. Morphol. 127, 291-306

[14]

Fritz, H. (1974). Prenatal Ossification in Rabbits as Indicative of Foetal Maturity. Teratology 11, 313-320

[15]

Gibson, J.P. et al. (1966). Use of the Rabbit in Teratogenicity Studies. Toxicol. Appl. Pharmacol. 9, 398-408

[16]

Kimmel, C.A. and Wilson, J.G. (1973). Skeletal Deviation in Rats: Malformations or Variations? Teratology 8, 309-316

[17]

Marr, M.C. et al. (1992). Developmental Stages of the CD (Sprague-Dawley) Rat Skeleton after Maternal Exposure to Ethylene Glycol. Teratology 46, 169-181

[18]

Monie, I.W et al. (1965). Dissection Procedures for Rat Foetuses Permitting Alizarin Red Staining of Skeleton and Histological Study of Viscera. Supplement to Teratology Workshop Manual, pp.63-173

[19]

Spark, С. and Dawson, A.B. (1928). The Order and Time of Appearance of Centers of Ossification in the Fore and Hind Limbs of the Albino Rat, With Special Reference to the Possible Influence of the Sex Factor. Am. J. Anat. 41, 411-445

[20]

Staples, R.E. and Schnell, V.L (1964). Refinements in Rapid Clearing Technique in the KOH-Alizarin Red S Method for Fetal Bone. Stain Technol. 39, 61-63

[21]

Strong, R.M. (1928). The Order, Time and Rate of Ossification of the Albino Rat (Mus norvegicus albinus) Skeleton. Am. J. Anat. 36, 313-355

[22]

Stuckhardt, J.L. and Poppe, S.M. (1984). Fresh Visceral Examination of Rat and Rabbit Foetuses Used in Teratogenicity Testing. Teratogen. Carcinogen. Mutagen. 4, 181-188

[23]

Walker, D.G. and Wirtschafter, Z.T. (1957). The Genesis of the Rat Skeleton. Thomas, Springfield, IL

[24]

Wilson, J.G. (1965) Embryological Considerations in Teratology. In: Teratology: Principles and Techniques, J.G. Wilson and J. Warkany (eds.), University of Chicago, Chicago, IL, pp.251-277

[25]

Wilson, J.G. and Fraser, F.C. (eds.) (1977). Handbook of Teratology, Vol. 4. Plenum, NY

[26]

Varnagy, L. (1980). Use of Recent Fetal Bone Staining Techniques in the Evaluation of Pesticide Teratogenicity. Acta Vet. Acad. Sci. Hung. 28, 233-239

[27]

Staples, R.E. (1974). Detection of Visceral Alterations in Mammalian Foetuses. Teratology 9, 37-38

[28]

Van Julsingha, E.B. and C.G. Bennett (1977). A Dissecting Procedure For the Detection of Anomalies in the Rabbit Foetal Head. In: Methods in Prenatal Toxicology (eds. D. Neubert, H.J. Merker and Т.Е. Kwasigroch). University of Chicago, Chicago, IL, pp.126-144

[29]

(US Environmental Protection Agency (1991). Guidelines for Developmental Toxicity Risk Assessment. Fed. Register 56, 63798-63826

[30]

Wise, D.L. et al. (1997). Terminology of Developmental Abnormalities in Common Laboratory Mammals (Version 1). Teratology 55, 249-292

УДК 661:615.099:006.354

МКС 71.100.01

Ключевые слова: химическая продукция, воздействие на организм человека, метод испытаний, пренатальное развитие