The Trigonometric Responder Approach: A New Method for Detecting Responders to Pharmacological or Experimental Challenges

M. Reuter; A. Siegmund; P. Netter

doi:10.1055/s-2002-34118

Pharmacopsychiatry, Table of Contents

Pharmacopsychiatry 2002; 35(5): 182-189
DOI: 10.1055/s-2002-34118

Original Paper

The Trigonometric Responder Approach: A New Method for Detecting Responders to Pharmacological or Experimental Challenges

M. Reuter¹ , A. Siegmund¹ , P. Netter¹

¹Department of Psychology, University of Giessen, Germany

Abstract

The paper presents a newly developed response measure that is particularly suitable for the evaluation of pharmacokinetic data. This method is based on trigonometric considerations, defining a hormone response as the difference between the angle of the slope of the curve before and after drug intake. In addition, the size of this difference is compared to the difference obtained in placebo conditions. In this way, the trigonometric response measure overcomes one of the most problematic shortcomings of the ‘area under the curve’ (AUC) approach, the problem of the initial value. We will present the mathematical background of the trigonometric method and demonstrate its usefulness by evaluating empirical data (a pharmacological challenge test using the dopamine agonist lisuride) and comparing it to classical AUC measures. This has been achieved by contrasting both approaches with responder definitions according to binary time series analysis and the peak value of the curve.

Full Text

References

1 Cox D R, Stuart A. Some quick sign tests for trend in location and dispersion. Biometrika. 1955; 42 80-95
2 Cox D R. The analysis of binary data. London; Methuen 1970
3 Gibaldi M, Perrier D. Pharmakokinetics (2nd ed). New York; Marcel Dekker 1982
4 Hennig J, Lange N, Haag A, Rohrmann S, Netter P. Reboxetine in a neuroendocrine challenge paradigm: evidence for high cortisol responses in healthy volunteers scoring high on subclinical depression. International Journal of Neuropsychopharmacology. 2000; 3 193-201
5 Lacey J I. The evaluation of autonomic responses: Toward a general solution. Ann N Y Acad Sci. 1956; 67 123-164
6 Laub P B, Gallo J M. NCOMP - a windows based computer program for noncompartmental analysis of pharmacokinetic data. J Pharm Sci. 1996; 85 393-395
7 McCauley D L, Lum B L, Sikic B I. Effect of different mathematical methods on etoposide area under the curve estimations and pharmacodynamic response predictions. Cancer Chemother Pharmacol. 1996; 37 286-288
8 Moore G H, Wallis W A. Time series significance tests based on sign differences. J Am Stat Assn. 1943; 38 153-164
9 Myrtek M, Foerster F. The law of initial value: A rare exception. Biol Psychol. 1986; 22 1-11
10 Perrier D, Mayersohn M. Noncompartmental determination of the staedy-state volume of distribution for any mode of administration. J Pharm Sci. 1982; 71 372-373
11 Purves R D. Bias and variance of extrapolated tails for area-under-the-curve (AUC) and area-under-the-moment-curve (AUMC). J Pharmacokinet and Biopharm. 1992; 20 501-510
12 Purves R D. Numerical estimation of the noncompartmental pharmacokinetic parameters variance and coefficient of variation of residence times. J Pharm Sci. 1994; 83 202-205
13 Purves R D. Optimum numerical integration methods for estimation of area-under-the-curve (AUC) and area-under-the-moment-curve (AUMC). J Pharmacokinet Biopharm. 1992; 20 211-226
14 Reuter M, Netter P, Toll C, Hennig J. Dopamine agonist and antagonist responders as related to types of nicotine craving and facets of extraversion. Progress in Neuropsychopharmacology & Biological Psychiatry 2002 26 (in press)
15 Reuter M, Netter P. The influence of personality on nicotine craving: A hierarchical multivariate statistical prediction model. Neuropsychobiology. 2001; 44 47-53
16 Rocci Jr M L, Jusko W J. LAGRAN program for area and moments in pharmacokinetic analysis. Comp Prog Biomed. 1983; 16 203-216
17 Stemmler G. Implicit measurement models in methods for scoring physiological reactivity. J Psychophysiol. 1987; 1 113-125
18 Tai M M. A mathematical model for the determination of total area under glucose tolerance and other metabolic curves. Diabetes Care. 1994; 17 152-154
19 Wilder J. Stimulus and response. The Law of Initial Value. Bristol; Wright 1967
20 Yeh K C, Kwan K C. A comparison of numerical integrating algorithms by trapezoidal Lagrange and spline approximation. J Pharmacokinet Biopharm. 1978; 6 79-98

Appendix

*** SPSS syntax for the calculation of the trigonometric response measure. ***

COMPUTE tanmed_p = (p.y3 + p.y2 - (2 * p.y1))/(t3 + t2 - 2 * t1).

VARIABLE LABELS tanmed_p ‘Tangent Drug Placebo’ .

EXECUTE .

COMPUTE tanphy_p = (p.y1 - p.y0)/(t1 - t0) .

VARIABLE LABELS tanphy_p ‘Tangent Physiol Placebo’ .

EXECUTE .

COMPUTE tanrsp_p = (tanphy_p - tanmed_p)/(1 + (tanphy_p * tanmed_p)) .

VARIABLE LABELS tanrsp_p ‘Tangent Response Placebo’ .

EXECUTE .

COMPUTE ARCTAN_p = ARTAN(tanrsp_p) .

VARIABLE LABELS ARCTAN_p ‘Arc Tangent Placebo’ .

EXECUTE .

COMPUTE Angle_p = arctan_p * 57.29578 .

*** 180 Grad/PI = 57,29578 ***

VARIABLE LABELS Angle_p ‘Angle Placebo’ .

EXECUTE .

COMPUTE tanmed_l = (p.l3 + l.y2 - (2 * l.y1))/(t3 + t2 - 2 * t1) .

VARIABLE LABELS tanmed_l ‘Tangent Drug Lisuride’ .

EXECUTE .

COMPUTE tanphy_l = (l.y1 - l.y0)/(t1 - t0) .

VARIABLE LABELS tanphy_l ‘Tangent Physiol Lisuride’ .

EXECUTE .

COMPUTE tanrsp_l = (tanphy_l - tanmed_l)/(1 + (tanphy_l * tanmed_l)) .

VARIABLE LABELS tanrsp_l ‘Tangent Response Lisuride’ .

EXECUTE .

COMPUTE ARCTAN_l = ARTAN(tanrsp_l) .

VARIABLE LABELS ARCTAN_l ‘Arc Tangent Lisuride’ .

EXECUTE .

COMPUTE Angle_l = arctan_l * 57.29578 .

*** 180 Grad/PI = 57,29578 ***

VARIABLE LABELS Angle_l ‘Angle Lisuride’ .

EXECUTE .

COMPUTE A_dif_lp = Angle_l - Angle_p .

VARIABLE LABELS A_dif_lp ‘Angle Difference Lisuride - Placebo’ .

EXECUTE .

IF (A_dif_lp > 0) Ang_l_re = 1 .

VARIABLE LABELS Ang_l_re ‘Angle Lisuride Responder’ .

EXECUTE .

IF (A_dif_lp < 0) Ang_l_re = 0 .

VARIABLE LABELS Ang_l_re ‘Angle Lisuride Responder’ .

EXECUTE .

Martin ReuterPhD

Justus-Liebig-Universität Giessen

FB06 Psychologie

Otto-Behaghel-Str. 10F

D-35394 Giessen

Germany

Phone: +49 (641) 99 26 262

Fax: +49 (641) 99 26 159

Email: martin.reuter@psychol.uni-giessen.de