[Altenburger R, Nendza M, Schüürmann G. (2003) Mixture toxicity and its modeling by quantitative structure-activity relationships. Environ Toxicol Chem 22(8): 1900-15.10.1897/01-386]Search in Google Scholar
[Conolly RB. (2001) Biologically motivated quantitative models and the mixture toxicity problem. Toxicol Sci 63(1): 1-2.]Search in Google Scholar
[Crum-Brown A, Fraser TR. (1868-9) On the connection between chemical constitution and physiological action. Part 1. On the physiological action of the ammonium bases, derived from Strychia, Brucia, Thebaia, Codeia, Morphia and Nicotia. Trans. Roy. Soc. Edinburgh 25: 151-203.10.1017/S0080456800028155]Search in Google Scholar
[Fraser TR. (1872) Lecture on the Antagonism between the Actions of Active Substances. Br Med J. 2(617): 457-459.]Search in Google Scholar
[Finney DJ. (1942) The analysis of toxic tests of mixtures of poisons. Ann Appl Biol 29: 82-94.]Search in Google Scholar
[Gaddum JH. (1962) The Pharmacologists of Edinburgh. Ann. Rev. Pharmacol 2: 1-11.]Search in Google Scholar
[Hansch C, Maloney PP, Fujita T, Muir RM. (1962) Correlation of Biological Activity of Phenoxyacetic Acids with Hammett Substituent Constants and Partition Coefficients. Nature 194: 178-180.10.1038/194178b0]Search in Google Scholar
[Hermens J, Leeuwangh P, Musch A. (1985a) Joint toxicity of groups of organic aquatic pollutants to the guppy (Poecilia reticulata). Ecotoxicol Environ Saf 9: 321-326.10.1016/0147-6513(85)90049-1]Search in Google Scholar
[Hermens J, Broekhuyzen E, Canton H, Wegman R. (1985b) Quantitative structure-activity relationships and mixture toxicity studies of alcohols and chlorohydrocarbons: effects on growth of Daphnia magna. Aquat Toxicol 6: 209-217.10.1016/0166-445X(85)90005-0]Search in Google Scholar
[Hewlett PS, Plackett RL. (1959) A unified theory for quantal responses to mixtures of drugs: non-interactive action. Biometrics 15: 591-610.]Search in Google Scholar
[Hewlett PS, Plackett RL. (1979) An introduction to the interpretation of quantal responses in biology. Edward Arnold Press, London.]Search in Google Scholar
[Könemann H. (1981) Fish toxicity test with mixtures of more than two chemicals: a proposal for a quantitative approach and experimental results. Toxicology 19: 229-238.10.1016/0300-483X(81)90132-3]Search in Google Scholar
[Lin Z, Yu H, Wei D, Wang G, Feng J, Wang L. (2002) Prediction of mixture toxicity with its total hydrophobicity. Chemosphere 46(2): 305-10.10.1016/S0045-6535(01)00083-2]Search in Google Scholar
[Lin Z, Shi P, Gao S, Wang L, Yu H. (2003) Use of partition coefficients to predict mixture toxicity. Water Res 37(9): 2223-7.10.1016/S0043-1354(02)00619-X]Search in Google Scholar
[Loewe S, Muischnek H. (1926) Über Kombinationswirkungen. Arch Exp Pathol Pharmakol 114: 313-326.10.1007/BF01952257]Search in Google Scholar
[Mwense M, Wang XZ, Buontempo FV, Horan N, Young A, Osborn D. (2006) QSAR approach for mixture toxicity prediction using independent latent descriptors and fuzzy membership functions. SAR QSAR Environ Res 17(1): 53-73.10.1080/1065936060056220216513552]Search in Google Scholar
[Pereira C, Mapuskar K, Rao CV. (2008) Chronic mixture toxicity study of Clophen A60 and diethyl phthalate in male rats. Toxicol Environ Chem 90: 349-359.10.1080/02772240701523171]Search in Google Scholar
[Reitmajer J, Feltl L, Roth Z, Tichý M. (2006) Distribution of Components of Binary Mixtures between Aqueous and Gaseous Phases. Chem Listy 100: 42-47.]Search in Google Scholar
[Rucki M., Tichý M. (2006) Partition Coefficient Kow of Benzene, Ethanol and Aniline in Benzene-ethanol and Aniline-benzene Mixtures and Coefficient of Distribution Kmix of these Mixtures. QSAR Comb Sci 25: 310-316.10.1002/qsar.200530007]Search in Google Scholar
[Tichý M. (ed.) (1976). Quantitative Structure - Activity Relationships. (Proceedings of the 1. European Symposium, Praha 1973. Experientia Suppl. 23, Birkhäuser Verlag, Basel, Stuttgart, Akadémiai Kiadó, Budapest.]Search in Google Scholar
[Tichý M. (1983) Biological Activities of Xenobiotics and Their Chemical Structure (in Czech). Avicenum, Praha.]Search in Google Scholar
[Tichý M, Cikrt M, Roth Z, Rucki M. (1998) QSAR analysis in mixture toxicity assessment. SAR QSAR Environ Res 9: 155-169.10.1080/10629369808039154]Search in Google Scholar
[Tichý M, Borek-Dohalský V, Rucki M, Reitmajer J, Feltl L. (2002a) Risk assessment of mixtures: possibility of prediction of interaction between chemicals. Int Arch Occup Environ Health 75 Suppl: S133-6.10.1007/s00420-002-0354-012397424]Search in Google Scholar
[Tichý M, Borek-Dohalský V, Matousová D, Rucki M, Feltl L, Roth Z. (2002b) Prediction of acute toxicity of chemicals in mixtures: worms Tubifex tubifex and gas/liquid distribution. SAR QSAR Environ Res 13(2): 261-9.10.1080/1062936029000275812071654]Search in Google Scholar
[Tichý M, Reitmajer J, Rucki M, Roth Z, Hanzlíková I, Feltl L. (2005) Acute toxicity testing of binary mixtures of chemicals and partition coefficients. Biologia Bratislava 60 (Suppl. 17): 113-118.]Search in Google Scholar
[Zahradník R, Chvapil M. (1960) Study of the Relationship between the magnitude of Biological Activity and the Structure of Aliphatic Compounds. Experientia 16: 511.10.1007/BF0215837313787667]Search in Google Scholar