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200 00$aHandbook of adaptive designs in pharmaceutical and clinical development /$fedited by Annpey Pong, Shein-Chung Chow
205   $a1st ed.
210   $aBoca Raton $cCRC Press$d2011
215   $a1 online resource (475 p.)
300   $aDescription based upon print version of record.
311 08$a1-4398-1016-8 
320   $aIncludes bibliographical references and index.
327   $aFront cover; Contents; Preface; Editors; Contributors; Chapter 1. Overview of Adaptive Design Methods in Clinical Trials; Chapter 2. Fundamental Theory of Adaptive Designs with Unplanned Design Change in Clinical Trials with Blinded Data; Chapter 3. Bayesian Approach for Adaptive Design; Chapter 4. The Impact of Protocol Amendments in Adaptive Trial Designs; Chapter 5. From Group Sequential to Adaptive Designs; Chapter 6. Determining Sample Size for Classical Designs; Chapter 7. Sample Size Reestimation Design with Applications in Clinical Trials
327   $aChapter 8. Adaptive Interim Analyses in Clinical TrialsChapter 9. Classical Dose-Finding Trial; Chapter 10. Improving Dose-Finding: A Philosophic View; Chapter 11. Adaptive Dose-Ranging Studies; Chapter 12. Seamless Phase I/II Designs; Chapter 13. Phase II/III Seamless Designs; Chapter 14. Sample Size Estimation/Allocation for Two-Stage Seamless Adaptive Trial Designs; Chapter 15. Optimal Response-Adaptive Randomization for Clinical Trials; Chapter 16. Hypothesis-Adaptive Design; Chapter 17. Treatment Adaptive Allocations in Randomized Clinical Trials: An Overview
327   $aChapter 18. Integration of Predictive Biomarker Diagnostics into Clinical Trials for New Drug DevelopmentChapter 19. Clinical Strategy for Study Endpoint Selection; Chapter 20. Adaptive Infrastructure; Chapter 21. Independent Data Monitoring Committees; Chapter 22. Targeted Clinical Trials; Chapter 23. Functional Genome-Wide Association Studies of Longitudinal Traits; Chapter 24. Adaptive Trial Simulation; Chapter 25. Efficiency of Adaptive Designs; Chapter 26. Case Studies in Adaptive Design; Chapter 27. Good Practices for Adaptive Clinical Trials; Back cover
330   $aThis comprehensive guide offers a unified presentation of the principles and methodologies in adaptive design and analysis. It gives a well-balanced summary of current regulatory perspectives and recently developed statistical methods in this area. The handbook provides some insight regarding early phase and later phase adaptive designs. With a focus on the implementation of adaptive methods in clinical trials, it introduces the concepts of role, responsibility, function, and activity of a data safety monitoring board (DSMB) when applying these methods. Other important topics covered in detail include regulatory perspectives and logistics issues in applying adaptive design methods--Provided by publisher.
606   $aClinical trials$vHandbooks, manuals, etc
606   $aDrugs$xResearch$xMethodology$vHandbooks, manuals, etc
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200 10$aDifferential Equations for Studies in Computational Electrophysiology /$fby Karoline Horgmo Jęger, Aslak Tveito
205   $a1st ed. 2023.
210  1$aCham :$cSpringer Nature Switzerland :$cImprint: Springer,$d2023.
215   $a1 online resource (134 pages)
225 1 $aReports on Computational Physiology,$x2730-7743 ;$v14
311 08$a9783031308512 
311 08$a3031308514 
327   $a1. Getting Started -- 2. A System of Ordinary Differential Equations -- 3. The Diffusion Equation -- 4. Implicit Numerical Methods -- 5. Improved Accuracy -- 6. A Simple Cable Equation -- 7. Operator Splitting -- 8. Membrane Models -- 9. The Cable Equation -- 10. Spatial Models of Cardiac Electrophysiology -- 11. The Extracellular-Membrane-Intracellular (EMI) Model -- 12. The Poisson-Nernst-Planck (PNP) Model -- Index.
330   $aThis open access text aims at giving you the simplest possible introduction to differential equations that are used in models of electrophysiology. It covers models at several spatial and temporal scales with associated numerical methods. The text demonstrates that a very limited number of fundamental techniques can be used to define numerical methods for equations ranging from ridiculously simple to extremely complex systems of partial differential equations. Every method is implemented in Matlab and the codes are freely available online. By using these codes, the reader becomes familiar with classical models of electrophysiology, like the cable equation, the monodomain model, and the bidomain model. But modern models that have just started to gain attention in the field of computational electrophysiology are also presented. If you just want to read one book, it should probably not be this one, but if you want a simple introduction to a complex field, it is worth considering the present text.
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606   $aBiology
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