Literature DB >> 19531646

Sensitivity and specificity of pulse detection using a new deconvolution method.

Peter Y Liu1, Daniel M Keenan, Petra Kok, Vasantha Padmanabhan, Kevin T O'Byrne, Johannes D Veldhuis.   

Abstract

Quantifying pulsatile secretion from serial hormone concentration measurements (deconvolution analysis) requires automated, objective, and accurate detection of pulse times to ensure valid estimation of secretion and elimination parameters. Lack of validated pulse identification constitutes a major deficiency in the deconvolution field, because individual pulse size and number reflect regulated processes that are critical for the function and response of secretory glands. To evaluate deconvolution pulse detection accuracy, four empirical models of true-positive markers of pituitary (LH) pulses were used. 1) Sprague-Dawley rats had recordings of hypothalamic arcuate nucleus multiunit electrical activity, 2) ovariectomized ewes underwent sampling of hypothalamo-pituitary gonadotropin-releasing hormone (GnRH pulses), 3) healthy young men were infused with trains of biosynthetic LH pulses after GnRH receptor blockade, and 4) computer simulations of pulsatile LH profiles were constructed. Outcomes comprised sensitivity, specificity, and receiver-operating characteristic curves. Sensitivity and specificity were 0.93 and 0.97, respectively, for combined empirical data in the rat, sheep, and human (n = 156 pulses) and 0.94 and 0.92, respectively, for computer simulations (n = 1,632 pulses). For simulated data, pulse-set selection by the Akaike information criterion yielded slightly higher sensitivity than by the Bayesian information criterion, and the reverse was true for specificity. False-positive errors occurred primarily at low-pulse amplitude, and false-negative errors occurred principally with close pulse proximity. Random variability (noise), sparse sampling, and rapid pulse frequency reduced pulse detection sensitivity more than specificity. We conclude that an objective automated pulse detection deconvolution procedure has high sensitivity and specificity, thus offering a platform for quantitative neuroendocrine analyses.

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Year:  2009        PMID: 19531646      PMCID: PMC2724108          DOI: 10.1152/ajpendo.00071.2009

Source DB:  PubMed          Journal:  Am J Physiol Endocrinol Metab        ISSN: 0193-1849            Impact factor:   4.310


  20 in total

1.  Composite model of time-varying appearance and disappearance of neurohormone pulse signals in blood.

Authors:  Daniel M Keenan; Somesh Chattopadhyay; Johannes D Veldhuis
Journal:  J Theor Biol       Date:  2005-10-07       Impact factor: 2.691

Review 2.  Somatotropic and gonadotropic axes linkages in infancy, childhood, and the puberty-adult transition.

Authors:  Johannes D Veldhuis; James N Roemmich; Erick J Richmond; Cyril Y Bowers
Journal:  Endocr Rev       Date:  2006-01-24       Impact factor: 19.871

3.  Partial pharmacodynamic model for the circadian-episodic secretion of cortisol in man.

Authors:  W J Jusko; W R Slaunwhite; T Aceto
Journal:  J Clin Endocrinol Metab       Date:  1975-02       Impact factor: 5.958

Review 4.  Motivations and methods for analyzing pulsatile hormone secretion.

Authors:  Johannes D Veldhuis; Daniel M Keenan; Steven M Pincus
Journal:  Endocr Rev       Date:  2008-10-21       Impact factor: 19.871

5.  The pituitary gland secretes in bursts: appraising the nature of glandular secretory impulses by simultaneous multiple-parameter deconvolution of plasma hormone concentrations.

Authors:  J D Veldhuis; M L Carlson; M L Johnson
Journal:  Proc Natl Acad Sci U S A       Date:  1987-11       Impact factor: 11.205

6.  Detection and characterization of peaks and estimation of instantaneous secretory rate for episodic pulsatile hormone secretion.

Authors:  K E Oerter; V Guardabasso; D Rodbard
Journal:  Comput Biomed Res       Date:  1986-04

7.  The estimation of pituitary luteinizing hormone secretion.

Authors:  R Rebar; D Perlman; F Naftolin; S S Yen
Journal:  J Clin Endocrinol Metab       Date:  1973-12       Impact factor: 5.958

Review 8.  Contemporary aspects of discrete peak-detection algorithms. I. The paradigm of the luteinizing hormone pulse signal in men.

Authors:  R J Urban; W S Evans; A D Rogol; D L Kaiser; M L Johnson; J D Veldhuis
Journal:  Endocr Rev       Date:  1988-02       Impact factor: 19.871

9.  Reconstruction of in vivo time-evolving neuroendocrine dose-response properties unveils admixed deterministic and stochastic elements.

Authors:  Daniel M Keenan; Susan Alexander; Clifford H G Irvine; Iain Clarke; Chris Scott; Anne Turner; A J Tilbrook; B J Canny; Johannes D Veldhuis
Journal:  Proc Natl Acad Sci U S A       Date:  2004-04-16       Impact factor: 11.205

10.  Deconvolution of episodic hormone data: an analysis of the role of season on the onset of puberty in cows.

Authors:  F O'Sullivan; J O'Sullivan
Journal:  Biometrics       Date:  1988-06       Impact factor: 2.571
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  59 in total

1.  Gender, age, body mass index, and IGF-I individually and jointly determine distinct GH dynamics: analyses in one hundred healthy adults.

Authors:  Johannes D Veldhuis; Ferdinand Roelfsema; Daniel M Keenan; Steven Pincus
Journal:  J Clin Endocrinol Metab       Date:  2010-10-06       Impact factor: 5.958

2.  Kisspeptin-10 is a potent stimulator of LH and increases pulse frequency in men.

Authors:  J T George; J D Veldhuis; A K Roseweir; C L Newton; E Faccenda; R P Millar; R A Anderson
Journal:  J Clin Endocrinol Metab       Date:  2011-06-01       Impact factor: 5.958

3.  Impaired adrenergic- and corticotropic-axis outflow during exercise in chronic obstructive pulmonary disease.

Authors:  Ali Iranmanesh; Dudley F Rochester; Jing Liu; Johannes D Veldhuis
Journal:  Metabolism       Date:  2011-05-31       Impact factor: 8.694

4.  Noninvasive analytical estimation of endogenous GnRH drive: analysis using graded competitive GnRH-receptor antagonism and a calibrating pulse of exogenous GnRH.

Authors:  Daniel M Keenan; Iain J Clarke; Johannes D Veldhuis
Journal:  Endocrinology       Date:  2011-10-25       Impact factor: 4.736

5.  Age disrupts androgen receptor-modulated negative feedback in the gonadal axis in healthy men.

Authors:  Johannes D Veldhuis; Paul Y Takahashi; Daniel M Keenan; Peter Y Liu; Kristi L Mielke; Suanne M Weist
Journal:  Am J Physiol Endocrinol Metab       Date:  2010-08-03       Impact factor: 4.310

6.  Analytical construct of reversible desensitization of pituitary-testicular signaling: illustrative application in aging.

Authors:  Daniel M Keenan; Ali Iranmanesh; Johannes D Veldhuis
Journal:  Am J Physiol Regul Integr Comp Physiol       Date:  2010-11-17       Impact factor: 3.619

7.  Secretagogue type, sex-steroid milieu, and abdominal visceral adiposity individually determine secretagogue-stimulated cortisol secretion.

Authors:  Ali Iranmanesh; Cyril Y Bowers; Johannes D Veldhuis
Journal:  Eur J Endocrinol       Date:  2010-03-18       Impact factor: 6.664

Review 8.  Pulsatility of Hypothalamo-Pituitary Hormones: A Challenge in Quantification.

Authors:  Daniel M Keenan; Johannes D Veldhuis
Journal:  Physiology (Bethesda)       Date:  2016-01

9.  Tripartite control of dynamic ACTH-cortisol dose responsiveness by age, body mass index, and gender in 111 healthy adults.

Authors:  Johannes D Veldhuis; Ali Iranmanesh; Ferdinand Roelfsema; Paul Aoun; Paul Takahashi; John M Miles; Daniel M Keenan
Journal:  J Clin Endocrinol Metab       Date:  2011-07-13       Impact factor: 5.958

10.  Development of a methodology for and assessment of pulsatile luteinizing hormone secretion in juvenile and adult male mice.

Authors:  F J Steyn; Y Wan; J Clarkson; J D Veldhuis; A E Herbison; C Chen
Journal:  Endocrinology       Date:  2013-10-03       Impact factor: 4.736
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