Frans J M Busser
Overview
Explore the profile of Frans J M Busser including associated specialties, affiliations and a list of published articles.
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Articles
10
Citations
132
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Recent Articles
1.
Tanneberger K, Knobel M, Busser F, Sinnige T, Hermens J, Schirmer K
Environ Sci Technol
. 2012 Dec;
47(2):1110-9.
PMID: 23227966
The OECD test guideline 203 for determination of fish acute toxicity requires substantial numbers of fish and uses death as an apical end point. One potential alternative are fish cell...
2.
Knobel M, Busser F, Rico-Rico A, Kramer N, Hermens J, Hafner C, et al.
Environ Sci Technol
. 2012 Jul;
46(17):9690-700.
PMID: 22835061
The zebrafish embryo toxicity test has been proposed as an alternative for the acute fish toxicity test, which is required by various regulations for environmental risk assessment of chemicals. We...
3.
Kramer N, Busser F, Oosterwijk M, Schirmer K, Escher B, Hermens J
Chem Res Toxicol
. 2010 Oct;
23(11):1806-14.
PMID: 20961080
Hydrophobic and volatile chemicals have proven to be difficult to dose in cell assays. Cosolvents are often needed to dissolve these chemicals in cell culture medium. Moreover, the free concentration...
4.
Tanneberger K, Rico-Rico A, Kramer N, Busser F, Hermens J, Schirmer K
Environ Sci Technol
. 2010 May;
44(12):4775-81.
PMID: 20499932
Due to the implementation of new legislation, such as REACh, a dramatic increase of animal use for toxicity testing is expected and the search for alternatives is timely. Cell-based in...
5.
Ter Laak T, van Eijkeren J, Busser F, van Leeuwen H, Hermens J
Environ Sci Technol
. 2009 Apr;
43(5):1379-85.
PMID: 19350907
The exchange rate of hydrophobic organic chemicals between the aqueous phase and a sorbent (e.g., soil, organism, passive sampler) is relevant for distribution processes between environmental compartments, including organisms. Dissolved...
6.
Ter Laak T, Busser F, Hermens J
Anal Chem
. 2008 Apr;
80(10):3859-66.
PMID: 18422340
Information about sampling rates and equilibration times of passive samplers is essential in their calibration in field monitoring studies as well as sorption studies. The kinetics of a sampler depends...
7.
Ter Laak T, Mayer P, Busser F, Klamer H, Hermens J
Environ Sci Technol
. 2005 Jun;
39(11):4220-5.
PMID: 15984803
Sorption coefficients of hydrophobic organic chemicals (HOC) to sediments and soils can easily be underestimated in traditional batch experiments, especially because analysis of the aqueous concentration often includes compounds sorbed...
8.
Kraaij R, Mayer P, Busser F, van het Bolscher M, Seinen W, Tolls J, et al.
Environ Sci Technol
. 2003 Feb;
37(2):268-74.
PMID: 12564897
There is an increasing body of evidence that the bioaccumulation of sediment-associated hydrophobic organic compounds (HOCs) is strongly influenced by sequestration. At present, it is not known how equilibrium partitioning...
9.
Leslie H, Ter Laak T, Busser F, Kraak M, Hermens J
Environ Sci Technol
. 2003 Jan;
36(24):5399-404.
PMID: 12521167
When organic chemicals are extracted from a water sample with solid-phase microextraction (SPME) fibers, the resulting concentrations in exposed fibers are proportional to the hydrophobicity of the compounds. This fiber...
10.
Leslie H, Oosthoek A, Busser F, Kraak M, Hermens J
Environ Toxicol Chem
. 2002 Feb;
21(2):229-34.
PMID: 11837229
A biomimetic extraction technique using solid-phase microextraction (SPME) fibers has been developed for the risk assessment of contaminants with a narcotic mode of action. Our goal is to apply this...