Biostatistics Decoded covered a large number of statistical methods that are mainly applied to clinical and epidemiological research, as well as a comprehensive discussion of study designs for observational research and clinical trials, two important concerns for the clinical researcher.
In this second edition, new material is included covering statistical methods and study designs that are used to analyse research. Following the same methodology used in the first edition, the chapters are presented in two levels of detail, one for the reader who wishes only to understand the rationale behind each statistical method, and one for the reader who wishes to understand the computations
Key features include:
Extensive coverage of the design and analysis of experiments for basic science research Experimental designs are presented together with the statistical methods The rationale of all forms of ANOVA is explained with simple mathematics A comprehensive presentation of statistical tests for multiple comparisons Calculations for all statistical methods are illustrated with examples and explained step-by-step.
This book presents biostatistical concepts and methods in a way that is accessible to anyone, regardless of his or her knowledge of mathematics. The topics selected for this book cover will meet the needs of clinical professionals to readers in basic science research.
By:
A. Gouveia Oliveira (Federal University of Rio Grande do Norte Brazil)
Imprint: John Wiley & Sons Inc
Country of Publication: United States
Edition: 2nd edition
Dimensions:
Height: 244mm,
Width: 170mm,
Spine: 32mm
Weight: 992g
ISBN: 9781119584209
ISBN 10: 1119584205
Pages: 480
Publication Date: 08 October 2020
Audience:
Professional and scholarly
,
College/higher education
,
Undergraduate
,
Further / Higher Education
Format: Hardback
Publisher's Status: Active
Preface xi 1 Populations and Samples 1 1.1 The Object of Biostatistics 1 1.2 Scales of Measurement 3 1.3 Central Tendency Measures 5 1.4 Sampling 8 1.5 Inferences from Samples 11 1.6 Measures of Location and Dispersion 14 1.7 The Standard Deviation 15 1.8 The n − 1 Divisor 16 1.9 Degrees of Freedom 18 1.10 Variance of Binary Variables 19 1.11 Properties of Means and Variances 20 1.12 Descriptive Statistics 22 1.13 Sampling Variation 25 1.14 The Normal Distribution 27 1.15 The Central Limit Theorem 29 1.16 Properties of the Normal Distribution 30 1.17 Probability Distribution of Sample Means 32 1.18 The Standard Error of the Mean 33 1.19 The Value of the Standard Error 35 1.20 Distribution of Sample Proportions 37 1.21 Convergence of Binomial to Normal Distribution 39 2 Descriptive Studies 41 2.1 Designing a Research 41 2.2 Study Design 42 2.3 Classification of Descriptive Studies 44 2.4 Cross-sectional Studies 45 2.5 Inferences from Means 47 2.6 Confidence Intervals 48 2.7 Statistical Tables 49 2.8 The Case of Small Samples 51 2.9 Student’s t Distribution 54 2.10 Statistical Tables of the t Distribution 56 2.11 Inferences from Proportions 58 2.12 Statistical Tables of the Binomial Distribution 60 2.13 Sample Size Requirements 61 2.14 Longitudinal Studies 63 2.15 Incidence Studies 65 2.16 Cohort Studies 66 2.17 Inference from Incidence Studies 70 2.18 Standardization 72 2.19 Time-to-Event Cohort Studies 75 2.20 The Actuarial Method 76 2.21 The Kaplan–Meier Method 79 2.22 Probability Sampling 82 2.23 Simple Random Sampling 84 2.24 Replacement in Sampling 85 2.25 Stratified Sampling 87 2.26 Multistage Sampling 92 3 Analytical Studies 97 3.1 Objectives of Analytical Studies 97 3.2 Measures of Association 98 3.3 Odds, Logits, and Odds Ratios 99 3.4 Attributable Risk 101 3.5 Classification of Analytical Studies 103 3.6 Uncontrolled Analytical Studies 104 3.7 Comparative Analytical Studies 105 3.8 Hybrid Analytical Studies 109 3.9 Non-probability Sampling in Analytical Studies 111 3.10 Comparison of Two Means 111 3.11 Comparison of Two Means from Small Samples 114 3.12 Comparison of Two Proportions 116 4 Statistical Tests 121 4.1 The Null and Alternative Hypotheses 121 4.2 The z-Test 122 4.3 The p-Value 125 4.4 Student’s t-Test 126 4.5 The Binomial Test 128 4.6 The Chi-Square Test 130 4.7 The Table of the Chi-Square Distribution 134 4.8 Analysis of Variance 135 4.9 Partitioning the Sum of Squares 139 4.10 Statistical Tables of the F Distribution 142 4.11 The ANOVA Table 143 5 Aspects of Statistical Tests 145 5.1 One-Sided Tests 145 5.2 Power of a Statistical Test 149 5.3 Sample Size Estimation 150 5.4 Multiple Comparisons 153 5.5 Scale Transformation 155 5.6 Non-parametric Tests 156 6 Cross-sectional Studies 161 6.1 Linear Regression 161 6.2 The Least Squares Method 163 6.3 Linear Regression Estimates 166 6.4 Regression and Correlation 171 6.5 The F-Test in Linear Regression 173 6.6 Interpretation of Regression Analysis Results 176 6.7 Multiple Regression 177 6.8 Regression Diagnostics 180 6.9 Selection of Predictor Variables 184 6.10 Independent Nominal Variables 185 6.11 Interaction 188 6.12 Nonlinear Regression 190 7 Case–Control Studies 193 7.1 Analysis of Case–Control Studies 193 7.2 Logistic Regression 194 7.3 The Method of Maximum Likelihood 196 7.4 Estimation of the Logistic Regression Model 198 7.5 The Likelihood Ratio Test 201 7.6 Interpreting the Results of Logistic Regression 202 7.7 Regression Coefficients and Odds Ratios 203 7.8 Applications of Logistic Regression 204 7.9 The ROC Curve 205 7.10 Model Validation 208 8 Cohort Studies 213 8.1 Repeated Measurements 213 8.2 The Paired t-Test 213 8.3 McNemar’s Test 215 8.4 Generalized Linear Models 216 8.5 The Logrank Test 219 8.6 The Adjusted Logrank Test 222 8.7 The Incidence Rate Ratio 224 8.8 The Cox Proportional Hazards Model 225 8.9 Assumptions of the Cox Model 229 8.10 Interpretation of Cox Regression 230 9 Measurement 233 9.1 Construction of Clinical Questionnaires 233 9.2 Factor Analysis 234 9.3 Interpretation of Factor Analysis 237 9.4 Factor Rotation 239 9.5 Factor Scores 241 9.6 Reliability 242 9.7 Concordance 248 9.8 Validity 253 9.9 Validation of Diagnostic Tests 255 10 Experimental Studies 257 10.1 Main Design Features and Classification 257 10.2 Experimental Controls 260 10.3 Replicates 261 10.4 Classification of Experimental Designs 262 10.5 Completely Randomized Design 263 10.6 Interaction 268 10.7 Full Factorial Design 269 10.8 The Random Effects Model 274 10.9 Components of Variance 275 10.10 ANOVA Model II and Model III 278 10.11 Rules for the Definition of the Error Terms 282 10.12 ANOVA on Ranks 284 11 Blocking 285 11.1 Randomized Block Design 285 11.2 Generalized Randomized Block Design 288 11.3 Incomplete Block Design 291 11.4 Factorial Design with Randomized Blocks 292 11.5 Latin and Greco-Latin Square Design 293 12 Simultaneous Inference 297 12.1 Multiple Comparisons 297 12.2 Generalist Methods 298 12.3 Multiple Comparisons of Group Means 303 12.4 Pairwise Comparison of Means 304 12.5 Different Variances 312 12.6 Comparison to a Control 313 12.7 Comparison of post hoc Tests 315 12.8 Complex Comparisons 316 12.9 Tests of Multiple Contrasts 320 12.10 A posteriori Contrasts 324 12.11 The Size of an Experiment 326 13 Factorial ANOVA 329 13.1 The n-Way ANOVA 329 13.2 The 2k Factorial Design 331 13.3 The 2k Factorial Design with Blocking 335 13.4 The Fractional Factorial Design 337 14 Nested Designs 339 14.1 Split–Plot Design 339 14.2 Nested (Hierarchical) Design 343 14.3 Mixed Model Nested ANOVA 345 14.4 Mixed Model Nested ANOVA with Three Sublevels 349 14.5 Pure Model II Nested ANOVA 352 15 Repeated Measures 355 15.1 Repeated Measures ANOVA 355 15.2 Repeated Measures ANOVA with Two Factors 359 15.3 ANOVA with Several Repeated Measures 361 15.4 Multivariate Tests 362 16 Clinical Trials 363 16.1 Classification of Clinical Trials 363 16.2 The Clinical Trial Population 365 16.3 The Efficacy Criteria 366 16.4 Controlled Clinical Trials 367 16.5 The Control Group 369 16.6 Blinding 370 16.7 Randomization 371 16.8 Non-comparative Clinical Trials 375 16.9 Regression Toward the Mean 378 16.10 Non-randomized Controlled Clinical Trials 379 16.11 Classical Randomized Clinical Trial Designs 381 16.12 Alternative Clinical Trial Designs 385 16.13 Pragmatic Clinical Trials 387 16.14 Cluster Randomized Trials 389 16.15 The Size of a Clinical Trial 393 16.16 Non-inferiority Clinical Trials 398 16.17 Adaptive Clinical Trials 403 16.18 Group Sequential Plans 405 16.19 The Alpha Spending Function 407 16.20 The Clinical Trial Protocol 409 16.21 The Data Record 411 17 Analysis of Clinical Trials 413 17.1 General Analysis Plan 413 17.2 Data Preparation 414 17.3 Study Populations 415 17.4 Primary Efficacy Analysis 418 17.5 Analysis of Multiple Endpoints 420 17.6 Secondary Analyses 423 17.7 Safety Analysis 424 18 Meta-analysis 427 18.1 Purpose of Meta-analysis 427 18.2 Measures of Effect 428 18.3 The Inverse Variance Method 429 18.4 The Random Effects Model 435 18.5 Heterogeneity 439 18.6 Publication Bias 442 18.7 The Forest Plot 444 References 447 Index 455
A. GOUVEIA OLIVEIRA is a M.D. with a PhD in Biostatistics from the University of Lisbon, Portugal. For the last 20 years, he has been dedicated to clinical and basic research. He was the founder and CEO of Datamedica, a full-service Contract Research Organization based in Lisbon, Portugal, where he designed, conducted and analyzed a large number of epidemiologic studies and clinical trials for all the major pharmaceutical companies. He was Associate Professor of Biomedical Informatics at the Medical University of South Carolina, USA, and currently Associate Professor of Biostatistics in the Pharmaceutical Sciences Department of the Federal University of Rio Grande do Norte in Natal, Brazil. He is the author or co-author of over 100 papers published in leading scientific journals.
