SLOW-STIRRING METHOD FOR DETERMINING THE n-OCTANOL/WATER PARTITION COEFFICIENT (Pow) FOR HIGHLY HYDROPHOBIC CHEMICALS: PERFORMANCE EVALUATION IN A RING TEST

Tolls, Johannes; Bodo, Karina A. M.; Felip, Elena De; Dujardin, Roland; Kim, Yong‐Hwa; Moeller-Jensen, Lars; Mullee, Darren; Nakajima, Ayako; Paschke, Albrecht; Pawliczek, Jürgen-Bernd; Schneider, Jürgen; Tadeo, José-Luis; Tognucci, Alessandra C.; Webb, J.; Zwijzen, A. Corneel

doi:10.1897/1551-5028(2003)022<1051:smfdtw>2.0.co;2

Cited by 13 publications

(23 citation statements)

References 22 publications

(26 reference statements)

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“…Estimation of K ow values with RP-HPLC is based on the premise of the stationary and mobile phases acting as a surrogate for octanol and water. Relationships between K ow and kЈ usually take the form B K ϭ AkЈ ow (4) or, in logarithmic form, ln K ϭ B ln kЈ ϩ constant ow (5) indicating that a straight line with slope B should be observed on a plot of ln K ow versus ln kЈ. Only if the stationary and mobile phases were perfect surrogates of water-saturated octanol and octanol-saturated water would K SM and K ow be identical and B ϭ 1.…”

Section: Theorymentioning

confidence: 99%

“…log kЈ ϭ slope· ϩ intercept (6) No general agreement exists regarding which eluent composition is best suited for the estimation of K ow in equations such as Equation 5. Many studies have used the intercept of Equation 6, which is the logarithm of the theoretical capacity factor at 100% aqueous solvent (log ).…”

Section: Theorymentioning

confidence: 99%

“…Many experimental methods for determining K ow rely on direct measurements of concentration after equilibration in an octanol‐water system. These methods are important for providing empirical, physically derived K ow values, but they often are laborious, difficult, and inherently subject to large uncertainties [4,5]. Direct determination by the shake‐flask and generator‐column methods is prone to octanol droplets in the aqueous phase, which contain relatively large amounts of analytes when dealing with hydrophobic chemicals.…”

Section: Introductionmentioning

confidence: 99%

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Comparative evaluation of three high‐performance liquid chromatography–based K_ow estimation methods for highly hydrophobic organic compounds: Polybrominated diphenyl ethers and hexabromocyclododecane

Hayward

Lei

Wania

2006

Enviro Toxic and Chemistry

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Three methods for estimating the octanol-water partition coefficient (Kow) based on its relationship with capacity factors on reversed-phase (RP) high-performance liquid chromatography (HPLC) columns were compared in terms of their applicability to highly hydrophobic compounds (HHCs). Methods based on simple isocratic elutions were found to be unsuitable, because the very high organic modifier fractions that are required to elute HHCs from RP columns challenge the basic assumption of the similarity between the octanol-water and RP-eluent systems. Compound planarity was found to exert a considerable influence on the retention of HHCs in RP columns, leading to different linear calibration curves for chlorobenzenes and chlorobiphenyls. Only an empirical exponential regression succeeded in describing the behavior of both groups of compounds during gradient elutions. In a method based on isocratic retention times at multiple temperatures, satisfactory calibration was achieved with a multivariate linear regression that included a numerical indicator of compound planarity. Considering experimental simplicity, speed, precision, and accuracy, with the latter judged by comparison with Kow values for polybrominated diphenyl ethers and polychlorinated naphthalenes as reported in the literature, a gradient elution combined with an exponential calibration curve is recommended for estimating the Kow of HHCs. To our knowledge, the first isomer-specific Kow values for hexabromocyclododecane are reported. Bearing in mind that the influence of structural characteristics on retention is likely to increase with hydrophobicity, it is not justified to judge a HPLC-based Kow estimation method as being suitable for HHCs because it is shown to work well for less hydrophobic substances. Whereas univariate linear regressions often may prove to be sufficient when dealing with substances having a log Kow, of less than five, methods for HHCs need to account for the influence of structure on retention.

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Section: Theorymentioning

confidence: 99%

Section: Theorymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Comparative evaluation of three high‐performance liquid chromatography–based K_ow estimation methods for highly hydrophobic organic compounds: Polybrominated diphenyl ethers and hexabromocyclododecane

Hayward

Lei

Wania

2006

Enviro Toxic and Chemistry

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“…As a result, the shake-flask method is not reliable for use when a substance's log K ow is larger than 4 or 5. Nevertheless, if an appropriate method is used, the variability between Kow measurements is low; for example, recently Tolls et al (32) coordinated a ring test involving interlaboratory comparison of Kow values measured using the slow-stirring method. The entire range of values reported by 15 participating laboratories spanned less than one log unit for each chemical.…”

Section: Variability Among Recommendedmentioning

confidence: 99%

Uncertainty in Octanol−Water Partition Coefficient: Implications for Risk Assessment and Remedial Costs

Linkov¹,

Ames²,

Crouch³

et al. 2005

Environ. Sci. Technol.

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The assessment of human health and ecological risks at chemically contaminated sites often includes the use of models to assess chemical transport, fate, and exposure/toxicity. These models require input data on a variety of physical and chemical properties for each compound of concern. Small changes in some of these parameters may result in significant differences in estimated human health or ecological risks and in the extent of required remediation efforts. The octanol-water partition coefficient (K ow ) for hydrophobic organic compounds is one such parameter, particularly because it is often used to estimate additional partitioning and bioaccumulation parameters. Unfortunately, there is considerable variability among tabulated K ow values for many compounds of concern. This paper assesses the implications of using various values of K ow to calculate health-protective polychlorinated biphenyl (PCB) sediment quality objectives (SQOs) in a case study using a simplified food chain model and the range of K ow values available from or recommended by the U. S. EPA. For the site and K ow values considered in this study, which are a snapshot of values available in the spring of 2004, the SQOs differ by as much as a factor of 5. This range of SQOs is estimated to correspond to a difference in remediation costs of $48 million.

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“…Later on, de Bruijn et al [15] at Utrecht University applied this method to a large number of compounds including hydrophobic polychlorinated biphenyls and several classical chlorinated insecticides such as DDT. While it was soon clear that this method was more reliable, only after 20 years was an OECD protocol developed [16] following validation via a ring test [17].…”

mentioning

confidence: 99%

The octanol–water partition coefficient: Strengths and limitations

Hermens

Bruijn

Brooke

2013

Enviro Toxic and Chemistry

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No physicochemical parameter in environmental toxicology and chemistry is better known than K OW , the octanol-water partition coefficient. This parameter, also called log P or log P oct , originates from research into quantitative structureactivity relationships (QSARs) [1]. The first studies were from Corwin Hansch and were focused on optimizing the biological as well as the pharmacological activity of chemicals. The coefficient K OW is a measure of hydrophobicity, and several processes, including sorption and accumulation, are driven by hydrophobicity. It is the key parameter for environmental fate and exposure modeling programs [2]. An ecological risk assessment for organic compounds without consideration of its K OW value seems impossible. Also, as an input parameter in QSARs, K OW is dominant. Guidance documents for risk assessment of existing chemicals list numerous models for the prediction of bioconcentration factors, soil sorption, and sorption to dissolved organic carbon that are all based on K OW [3]. Classic examples are QSARs for prediction of soil sorption [4], bioaccumulation [5,6], and baseline toxicity [7]. A clear example of the strength of K OW as a parameter is in the development of models for the prediction of quality criteria for chemicals that act via narcosis. Here, predictions of effect concentrations, bioconcentration factors, and sediment sorption from K OW are combined into one overall model [8,9]. Several papers in the "Top 100" show examples of methods for estimating parameters from octanol-water partition coefficients, including the estimation of aqueous solubility [10] and bioconcentration factors [11].While K OW itself is a simple parameter, measurement is not so straightforward. A hydrophobic chemical is dissolved in octanol in a shake flask or a glass vial, and water is added. The system is shaken until equilibrium, and the concentrations are measured in both phases [12]. However, small octanol droplets remain suspended in the aqueous phase, and these small droplets are difficult to remove from the aqueous phase. In particular, for hydrophobic chemicals this will lead to an overestimation of the aqueous concentrations and an underestimation of the true K OW , as well as a large variation in experimental K OW values [13].For We now have 30 to 40 years' experience in applying K OW in research in environmental chemistry and toxicology. The QSAR models based on K OW now appear to be very useful for exposure, hazard, and risk assessment. The advantages of K OW are that experimental data are available for many chemicals and estimates may be obtained from software that is based on the molecular structure of the compound, including EPISUITE [18] and SPARC [19]. Other experimental approaches for predicting K OW are based on comparisons of K OW with retention indices on a C18 high-performance liquid chromatographic column [20].However, octanol does not predict very well the interactions of polar compounds with, for example, a cell membrane, a soil particle, or a humic acid molecule. As ...

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SLOW-STIRRING METHOD FOR DETERMINING THE n-OCTANOL/WATER PARTITION COEFFICIENT (Pow) FOR HIGHLY HYDROPHOBIC CHEMICALS: PERFORMANCE EVALUATION IN A RING TEST

Cited by 13 publications

References 22 publications

Comparative evaluation of three high‐performance liquid chromatography–based K_ow estimation methods for highly hydrophobic organic compounds: Polybrominated diphenyl ethers and hexabromocyclododecane

Comparative evaluation of three high‐performance liquid chromatography–based K_ow estimation methods for highly hydrophobic organic compounds: Polybrominated diphenyl ethers and hexabromocyclododecane

Uncertainty in Octanol−Water Partition Coefficient: Implications for Risk Assessment and Remedial Costs

The octanol–water partition coefficient: Strengths and limitations

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SLOW-STIRRING METHOD FOR DETERMINING THE n-OCTANOL/WATER PARTITION COEFFICIENT (Pow) FOR HIGHLY HYDROPHOBIC CHEMICALS: PERFORMANCE EVALUATION IN A RING TEST

Cited by 13 publications

References 22 publications

Comparative evaluation of three high‐performance liquid chromatography–based Kow estimation methods for highly hydrophobic organic compounds: Polybrominated diphenyl ethers and hexabromocyclododecane

Comparative evaluation of three high‐performance liquid chromatography–based Kow estimation methods for highly hydrophobic organic compounds: Polybrominated diphenyl ethers and hexabromocyclododecane

Uncertainty in Octanol−Water Partition Coefficient: Implications for Risk Assessment and Remedial Costs

The octanol–water partition coefficient: Strengths and limitations

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Comparative evaluation of three high‐performance liquid chromatography–based K_ow estimation methods for highly hydrophobic organic compounds: Polybrominated diphenyl ethers and hexabromocyclododecane

Comparative evaluation of three high‐performance liquid chromatography–based K_ow estimation methods for highly hydrophobic organic compounds: Polybrominated diphenyl ethers and hexabromocyclododecane