137 research outputs found
Statistical evaluation of toxicological bioassays - a review
The basic conclusions in almost all reports on new drug applications and in all publications in toxicology are based on statistical methods. However, serious contradictions exist in practice: designs with small samples sizes but use of asymptotic methods (i.e. constructed for larger sample sizes), statistically significant findings without biological relevance (and vice versa), proof of hazard vs. proof of safety, testing (e.g. no observed effect level) vs. estimation (e.g. benchmark dose), available statistical theory vs. related user-friendly software. In this review the biostatistical developments since about the year 2000 onwards are discussed, mainly structured for repeated-dose studies, mutagenicity, carcinogenicity, reproductive and ecotoxicological assays. A critical discussion is included on the unnecessarily conservative evaluation proposed in guidelines, the inadequate but almost always used proof of hazard approach, and the limitation of data-dependent decision-tree approaches
Bartholomew's trend test -- approximated by a multiple contrast test
Bartholomew's trend test belongs to the broad class of isotonic regression
models, specifically with a single qualitative factor, e.g. dose levels. Using
the approximation of the ANOVA F-test by the maximum contrast test against
grand mean and pool-adjacent-violator estimates under order restriction, an
easier to use approximation is proposed.Comment: 1 figure, 5 table
Tests for strict monotonic trend in bio-medical dose-response relationships (respective concentration-response or exposure-response relationships) -- a biostatistical perspective
Evidence of a global trend in dose-response dependencies is commonly used in
bio-medicine and epidemiology, especially because this represents a causality
criterion. However, conventional trend tests indicate a significant trend even
when dependence is in the opposite direction for low doses when the high dose
alone has a superior effect. Here we present a trend test for a strictly
monotonic increasing (or decreasing) trend, evaluate selected sample data for
it, and provide corresponding R code using CRAN packages.Comment: 11 Figures, 5 Table
Trend tests for the evaluation of exposure-response relationships in epidemiological exposure studies
One possibility for the statistical evaluation of trends in epidemiological exposure studies is the use of a trend test for data organized in a 2 × k contingency table. Commonly, the exposure data are naturally grouped or continuous exposure data are appropriately categorized. The trend test should be sensitive to any shape of the exposure-response relationship. Commonly, a global trend test only determines whether there is a trend or not. Once a trend is seen it is important to identify the likely shape of the exposure-response relationship. This paper introduces a best contrast approach and an alternative approach based on order-restricted information criteria for the model selection of a particular exposure-response relationship. For the simple change point alternative H1 : 1 =.= q <q+1 =. = k an appropriate approach for the identification of a global trend as well as for the most likely shape of that exposure-response relationship is characterized by simulation and demonstrated for real data examples. Power and simultaneous confidence intervals can be estimated as well. If the conditions are fulfilled to transform the exposure-response data into a 2 × k table, a simple approach for identification of a global trend and its elementary shape is available for epidemiologists
Robust designs in non-inferiority three arm clinical trials with presence of heteroscedasticity
In this paper, we describe an adjusted method to facilitate a non-inferiority trial by a three-arm robust design. Because local optimal designs derived in Hasler et al. [2007] require knowledge about the ratios of the population variances and are not necessarily robust with respect to possible misspecifications, a maximin approach is adopted. This method requires only the specification of an interval for the of variance ratios and yields robust and efficient designs. We demonstrate that a maximin optimal design only depends on the boundary points specified for the intervals of the variance ratios and receive numerical and analytical solutions. The derived designs are robust and very efficient for statistical analysis in non inferiority three arm trials. --maximin design,robust design,non-inferiority,three arm design,gold design trials,randomized clinical trial
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