P. Michael Conn / Michael L. Johnson / Johannes D. Veldhuis (Volume ed.)
Quantitative Neuroendocrinology
Volume 28
P. Michael Conn / Michael L. Johnson / Johannes D. Veldhuis (Volume ed.)
Quantitative Neuroendocrinology
Volume 28
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In this volume contemporary methods designed to provide insights into, mathematical structure for, and predictive inferences about neuroendocrine control mechanisms are presented.
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In this volume contemporary methods designed to provide insights into, mathematical structure for, and predictive inferences about neuroendocrine control mechanisms are presented.
Produktdetails
- Produktdetails
- Verlag: Elsevier Health Sciences
- Seitenzahl: 433
- Erscheinungstermin: 20. September 1995
- Englisch
- Abmessung: 256mm x 210mm x 39mm
- Gewicht: 1007g
- ISBN-13: 9780121852986
- ISBN-10: 0121852989
- Artikelnr.: 21439429
- Verlag: Elsevier Health Sciences
- Seitenzahl: 433
- Erscheinungstermin: 20. September 1995
- Englisch
- Abmessung: 256mm x 210mm x 39mm
- Gewicht: 1007g
- ISBN-13: 9780121852986
- ISBN-10: 0121852989
- Artikelnr.: 21439429
Evolution of Deconvolution Analysis as a Hormone Pulse Detection Method,
M.L. Johnson and J.D. Veldhuis.
Specific Methodological Approaches to Selected Contemporary Issues in
Deconvolution Analysis of Pulsatile Neuroendocrine Data, J.D. Veldhuis and
M.L. Johnson.
Physiological within subject Variability and Test-Retest Reliability of
Deconvolution Analysis of Luteinizing Hormone Release, T. Mulligan, M.L.
Johnson, and J.D. Veldhuis.
Methods for Validating Deconvolution Analysis of Pulsatile Hormone Release:
Luteinizing Hormone as a Paradigm, T. Mulligan, M.L. Johnson, and J.D.
Veldhuis.
Complicating Effects of Highly Correlated Model Variables on Nonlinear
Least-Squares Estimates of Unique Parameter Values and Their Statistical
Confidence Intervals: Estimating Basal Secretion and Neurohormone Half-Life
by Deconvolution Analysis, J.D. Veldhuis, W.S. Evans, and M.L. Johnson.
Techniques for Assessing Ultradian Rhythms in Hormonal Secretion, J. Sturis
and E. Van Cauter.
Frequency Domain Analysis of High-Frequency Ultradian Plasma
Adrenocorticotripic Hormone and Glucocorticoid Fluctuations, M. Carnes and
B. Goodman.
Monitoring Dynamic Responses of Perifused Neuroendocrine Tissues to Stimuli
in Real Time, A.R. Midgley, R.M. Brand, P.A. Favreau, B.G. Boving, M.N.
Ghazzi, V. Padmanabhan, E.Y. Young, and H.C. Cantor.
Realistic Emulation of Highly Irregular Temporal Patterns of Hormone
Release: A Computer-Based Pulse Simulator, M. Staume, M.L. Johnson, and
J.D. Veldhuis.
Simulation of Peptide Prohormone Processing and Peptidergic Granule
Transport and Release in Neurosecretory Cells, D.K. Hartline, R.W. Newcomb,
and R.W. Newcomb.
Systems-Level Analysis of Physiological Regulatory Interactions Controlling
Complex Secretory Dynamics of the Growth Hormone Axis: A Dynamical Network
Model, L. Chen, J.D. Veldhuis, M.L. Johnson, and M. Straume.
Implementation of a Stochastic Model of Hormonal Secretion, D. Keenan.
Modeling the Impact of Neuroendocrine Secretogogue Pulse Trains on Hormone
Secretion, J.E.A. McIntosh and R.P. Murray-McIntosh.
Quantifying Complexity and Regularity of Neurobiological Systems, S.M.
Pincus.
Methods for the Evaluation of Saltatory Growth in Infants, M.L. Johnson and
M. Lampl.
Analysis of Calcium Fertilization Transients in Mouse Oocytes, W.O.
Friesen, T.R. Creek, O.M. Mcguinnes, R.B. Moreon, and M.J. Berridge.
Index.
M.L. Johnson and J.D. Veldhuis.
Specific Methodological Approaches to Selected Contemporary Issues in
Deconvolution Analysis of Pulsatile Neuroendocrine Data, J.D. Veldhuis and
M.L. Johnson.
Physiological within subject Variability and Test-Retest Reliability of
Deconvolution Analysis of Luteinizing Hormone Release, T. Mulligan, M.L.
Johnson, and J.D. Veldhuis.
Methods for Validating Deconvolution Analysis of Pulsatile Hormone Release:
Luteinizing Hormone as a Paradigm, T. Mulligan, M.L. Johnson, and J.D.
Veldhuis.
Complicating Effects of Highly Correlated Model Variables on Nonlinear
Least-Squares Estimates of Unique Parameter Values and Their Statistical
Confidence Intervals: Estimating Basal Secretion and Neurohormone Half-Life
by Deconvolution Analysis, J.D. Veldhuis, W.S. Evans, and M.L. Johnson.
Techniques for Assessing Ultradian Rhythms in Hormonal Secretion, J. Sturis
and E. Van Cauter.
Frequency Domain Analysis of High-Frequency Ultradian Plasma
Adrenocorticotripic Hormone and Glucocorticoid Fluctuations, M. Carnes and
B. Goodman.
Monitoring Dynamic Responses of Perifused Neuroendocrine Tissues to Stimuli
in Real Time, A.R. Midgley, R.M. Brand, P.A. Favreau, B.G. Boving, M.N.
Ghazzi, V. Padmanabhan, E.Y. Young, and H.C. Cantor.
Realistic Emulation of Highly Irregular Temporal Patterns of Hormone
Release: A Computer-Based Pulse Simulator, M. Staume, M.L. Johnson, and
J.D. Veldhuis.
Simulation of Peptide Prohormone Processing and Peptidergic Granule
Transport and Release in Neurosecretory Cells, D.K. Hartline, R.W. Newcomb,
and R.W. Newcomb.
Systems-Level Analysis of Physiological Regulatory Interactions Controlling
Complex Secretory Dynamics of the Growth Hormone Axis: A Dynamical Network
Model, L. Chen, J.D. Veldhuis, M.L. Johnson, and M. Straume.
Implementation of a Stochastic Model of Hormonal Secretion, D. Keenan.
Modeling the Impact of Neuroendocrine Secretogogue Pulse Trains on Hormone
Secretion, J.E.A. McIntosh and R.P. Murray-McIntosh.
Quantifying Complexity and Regularity of Neurobiological Systems, S.M.
Pincus.
Methods for the Evaluation of Saltatory Growth in Infants, M.L. Johnson and
M. Lampl.
Analysis of Calcium Fertilization Transients in Mouse Oocytes, W.O.
Friesen, T.R. Creek, O.M. Mcguinnes, R.B. Moreon, and M.J. Berridge.
Index.
Evolution of Deconvolution Analysis as a Hormone Pulse Detection Method,
M.L. Johnson and J.D. Veldhuis.
Specific Methodological Approaches to Selected Contemporary Issues in
Deconvolution Analysis of Pulsatile Neuroendocrine Data, J.D. Veldhuis and
M.L. Johnson.
Physiological within subject Variability and Test-Retest Reliability of
Deconvolution Analysis of Luteinizing Hormone Release, T. Mulligan, M.L.
Johnson, and J.D. Veldhuis.
Methods for Validating Deconvolution Analysis of Pulsatile Hormone Release:
Luteinizing Hormone as a Paradigm, T. Mulligan, M.L. Johnson, and J.D.
Veldhuis.
Complicating Effects of Highly Correlated Model Variables on Nonlinear
Least-Squares Estimates of Unique Parameter Values and Their Statistical
Confidence Intervals: Estimating Basal Secretion and Neurohormone Half-Life
by Deconvolution Analysis, J.D. Veldhuis, W.S. Evans, and M.L. Johnson.
Techniques for Assessing Ultradian Rhythms in Hormonal Secretion, J. Sturis
and E. Van Cauter.
Frequency Domain Analysis of High-Frequency Ultradian Plasma
Adrenocorticotripic Hormone and Glucocorticoid Fluctuations, M. Carnes and
B. Goodman.
Monitoring Dynamic Responses of Perifused Neuroendocrine Tissues to Stimuli
in Real Time, A.R. Midgley, R.M. Brand, P.A. Favreau, B.G. Boving, M.N.
Ghazzi, V. Padmanabhan, E.Y. Young, and H.C. Cantor.
Realistic Emulation of Highly Irregular Temporal Patterns of Hormone
Release: A Computer-Based Pulse Simulator, M. Staume, M.L. Johnson, and
J.D. Veldhuis.
Simulation of Peptide Prohormone Processing and Peptidergic Granule
Transport and Release in Neurosecretory Cells, D.K. Hartline, R.W. Newcomb,
and R.W. Newcomb.
Systems-Level Analysis of Physiological Regulatory Interactions Controlling
Complex Secretory Dynamics of the Growth Hormone Axis: A Dynamical Network
Model, L. Chen, J.D. Veldhuis, M.L. Johnson, and M. Straume.
Implementation of a Stochastic Model of Hormonal Secretion, D. Keenan.
Modeling the Impact of Neuroendocrine Secretogogue Pulse Trains on Hormone
Secretion, J.E.A. McIntosh and R.P. Murray-McIntosh.
Quantifying Complexity and Regularity of Neurobiological Systems, S.M.
Pincus.
Methods for the Evaluation of Saltatory Growth in Infants, M.L. Johnson and
M. Lampl.
Analysis of Calcium Fertilization Transients in Mouse Oocytes, W.O.
Friesen, T.R. Creek, O.M. Mcguinnes, R.B. Moreon, and M.J. Berridge.
Index.
M.L. Johnson and J.D. Veldhuis.
Specific Methodological Approaches to Selected Contemporary Issues in
Deconvolution Analysis of Pulsatile Neuroendocrine Data, J.D. Veldhuis and
M.L. Johnson.
Physiological within subject Variability and Test-Retest Reliability of
Deconvolution Analysis of Luteinizing Hormone Release, T. Mulligan, M.L.
Johnson, and J.D. Veldhuis.
Methods for Validating Deconvolution Analysis of Pulsatile Hormone Release:
Luteinizing Hormone as a Paradigm, T. Mulligan, M.L. Johnson, and J.D.
Veldhuis.
Complicating Effects of Highly Correlated Model Variables on Nonlinear
Least-Squares Estimates of Unique Parameter Values and Their Statistical
Confidence Intervals: Estimating Basal Secretion and Neurohormone Half-Life
by Deconvolution Analysis, J.D. Veldhuis, W.S. Evans, and M.L. Johnson.
Techniques for Assessing Ultradian Rhythms in Hormonal Secretion, J. Sturis
and E. Van Cauter.
Frequency Domain Analysis of High-Frequency Ultradian Plasma
Adrenocorticotripic Hormone and Glucocorticoid Fluctuations, M. Carnes and
B. Goodman.
Monitoring Dynamic Responses of Perifused Neuroendocrine Tissues to Stimuli
in Real Time, A.R. Midgley, R.M. Brand, P.A. Favreau, B.G. Boving, M.N.
Ghazzi, V. Padmanabhan, E.Y. Young, and H.C. Cantor.
Realistic Emulation of Highly Irregular Temporal Patterns of Hormone
Release: A Computer-Based Pulse Simulator, M. Staume, M.L. Johnson, and
J.D. Veldhuis.
Simulation of Peptide Prohormone Processing and Peptidergic Granule
Transport and Release in Neurosecretory Cells, D.K. Hartline, R.W. Newcomb,
and R.W. Newcomb.
Systems-Level Analysis of Physiological Regulatory Interactions Controlling
Complex Secretory Dynamics of the Growth Hormone Axis: A Dynamical Network
Model, L. Chen, J.D. Veldhuis, M.L. Johnson, and M. Straume.
Implementation of a Stochastic Model of Hormonal Secretion, D. Keenan.
Modeling the Impact of Neuroendocrine Secretogogue Pulse Trains on Hormone
Secretion, J.E.A. McIntosh and R.P. Murray-McIntosh.
Quantifying Complexity and Regularity of Neurobiological Systems, S.M.
Pincus.
Methods for the Evaluation of Saltatory Growth in Infants, M.L. Johnson and
M. Lampl.
Analysis of Calcium Fertilization Transients in Mouse Oocytes, W.O.
Friesen, T.R. Creek, O.M. Mcguinnes, R.B. Moreon, and M.J. Berridge.
Index.