Exploratory Biochemical Data Analysis: a Comparison of Two Sample Means and Diagnostic Displays

Simple and multiple linear regression analyses are statistical methods used to investigate the link between activity/property of active compounds and the structural chemical features. One assumption of the linear regression is that the errors follow a normal distribution. This paper introduced a new approach to solving the simple linear regression in which no assumptions about the distribution of the errors are made. The proposed approach maximizes the probability of observing the event according to the random error. The use of the proposed approach is illustrated in ten classes of compounds with different activities or properties. The proposed method proved reliable and was showed to fit properly the observed data compared to the convenient approach of normal distribution of the errors.

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Inside of the Linear Relation between Dependent and Independent Variables

Jäntschi

Pruteanu

Cozma

et al. 2015

Computational and Mathematical Methods in Medicine

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Testing the Predictability of the Relative Urinary Supersaturation from the Bonn-Risk-Index for Calcium Oxalate Stone Formation

Laube¹,

Hergarten²,

Hesse³

2001

Clinical Chemistry and Laboratory Medicine

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When introducing a new parameter, it is necessary to compare the power of the new measure with already established ones. For a new method it is quite difficult to compete with established methods which have already ascertained sets of data over many years. A formal comparison of the new parameter with the actual "gold-standard" method can be a useful approach to reduce that problem. It cannot be expected that a new measure would reflect the "gold-standard" method in a simple proportionality. Therefore, it is important to find out the accuracy of the prediction of one parameter from the other, based on simple, e.g. linear, functions. A number of methods exist to determine the crystallization risk of calcium oxalate salts from urine. The most established method is the calculation of the relative urinary supersaturations with respect to these salts using the EQUIL-program, a program computing the equilibrium concentrations of complexes of primary cations and anions commonly found in urine. The Bonn-Risk-Index (BRI) is a new strategy for the evaluation of the risk of calcium oxalate formation, by performing crystallization experiments on native unprepared urine samples. Although the analytical and computational efforts of both approaches are quite different (relative supersaturation = high, BRI = low), the measurements revealed a considerable and significant linear relationship between the relative urinary calcium oxalate supersaturation, and BRI. We were, therefore, interested in predicting the relative supersaturation from the BRI and in the accuracy of this prediction.

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Exploratory Biochemical Data Analysis: a Comparison of Two Sample Means and Diagnostic Displays

Cited by 2 publications

References 12 publications

Inside of the Linear Relation between Dependent and Independent Variables

Inside of the Linear Relation between Dependent and Independent Variables

Testing the Predictability of the Relative Urinary Supersaturation from the Bonn-Risk-Index for Calcium Oxalate Stone Formation

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