Kai Lienemann scite author profile

Kai Lienemann

5Publications

40Citation Statements Received

59Citation Statements Given

How they've been cited

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107

Affiliations

TU Dortmund University, Bielefeld University

Publications

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Reproducibility of NMR Analysis of Urine Samples: Impact of Sample Preparation, Storage Conditions, and Animal Health Status

Schreier¹,

Kremer

Huber³

et al. 2013

BioMed Research International

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Introduction. Spectroscopic analysis of urine samples from laboratory animals can be used to predict the efficacy and side effects of drugs. This employs methods combining 1H NMR spectroscopy with quantification of biomarkers or with multivariate data analysis. The most critical steps in data evaluation are analytical reproducibility of NMR data (collection, storage, and processing) and the health status of the animals, which may influence urine pH and osmolarity. Methods. We treated rats with a solvent, a diuretic, or a nephrotoxicant and collected urine samples. Samples were titrated to pH 3 to 9, or salt concentrations increased up to 20-fold. The effects of storage conditions and freeze-thaw cycles were monitored. Selected metabolites and multivariate data analysis were evaluated after 1H NMR spectroscopy. Results. We showed that variation of pH from 3 to 9 and increases in osmolarity up to 6-fold had no effect on the quantification of the metabolites or on multivariate data analysis. Storage led to changes after 14 days at 4°C or after 12 months at −20°C, independent of sample composition. Multiple freeze-thaw cycles did not affect data analysis. Conclusion. Reproducibility of NMR measurements is not dependent on sample composition under physiological or pathological conditions.

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NMR-based urine analysis in rats: Prediction of proximal tubule kidney toxicity and phospholipidosis

Lienemann

Plötz

Pestel

2008

Journal of Pharmacological and Toxicological Methods

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Automatic Detection of Song Changes in Music Mixes Using Stochastic Models

Plötz

Fink

Husemann

et al. 2006

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The annotation of song changes in music mixes created by DJs or radio stations for direct access in digital recordings is, usually, a very tedious work. In order to support this process we developed an automatic song change detection method which can be used for arbitrary music mixes. Stochastic models are applied to music data aiming at their segmentation with respect to automatically obtained abstract generic acoustic units. The local analysis of these stochastic music models provides hypotheses for song changes. Results of an experimental evaluation processing music mix data demonstrate the effectiveness of our method for supporting the annotation with respect to song changes.

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On the Application of SVM-Ensembles Based on Adapted Random Subspace Sampling for Automatic Classification of NMR Data

Lienemann

Plötz

Fink

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Stacking for Ensembles of Local Experts in Metabonomic Applications

Lienemann

Plötz

Fink

2009

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Kai Lienemann

Reproducibility of NMR Analysis of Urine Samples: Impact of Sample Preparation, Storage Conditions, and Animal Health Status

NMR-based urine analysis in rats: Prediction of proximal tubule kidney toxicity and phospholipidosis

Automatic Detection of Song Changes in Music Mixes Using Stochastic Models

On the Application of SVM-Ensembles Based on Adapted Random Subspace Sampling for Automatic Classification of NMR Data

Stacking for Ensembles of Local Experts in Metabonomic Applications

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