Translational Sports Medicine: Handbook for Designing and Conducting Clinical and Translational Research
Editat de Jeffrey A. Bakal, Steve DeFroda, Brett D. Owens, Adam E.M. Eltoraien Limba Engleză Paperback – 17 aug 2023
In short, this practical guidebook will be of interest to every medical researcher or sports medicine clinician who has ever had a good clinical idea but not the knowledge of how to test it. Readers will come to fully understand important concepts, including case-control study, prospective cohort study, randomized trial and reliability study. Medical researchers will benefit from greater confidence in their ability to initiate and execute their own investigations, avoid common pitfalls in translational sports medicine, and know what is needed in collaboration.
- Focuses on the principles of evidence-based medicine and applies these principles to translational investigations within sports medicine
- Details discussions of the critical appraisal of published studies in translational sports medicine, supporting evaluation with respect to measuring outcomes and making effective use of all types of evidence in patient care
- Written by experts in the sports medicine field
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Specificații
ISBN-13: 9780323912594
ISBN-10: 0323912591
Pagini: 620
Dimensiuni: 216 x 276 x 35 mm
Greutate: 1.67 kg
Editura: ELSEVIER SCIENCE
Seria Handbook for Designing and Conducting Clinical and Translational Research
ISBN-10: 0323912591
Pagini: 620
Dimensiuni: 216 x 276 x 35 mm
Greutate: 1.67 kg
Editura: ELSEVIER SCIENCE
Seria Handbook for Designing and Conducting Clinical and Translational Research
Cuprins
INTRODUCTION 1. Introduction 2. Translational Process 3. Scientific Method 4. Basic Research
PRE-CLINICAL 5. Overview of preclinical research 6. What Problem Are You Solving? 7. Types of Interventions 8. Beyond Drugs and Surgery: A Look at Orthobiologics 9. Drug Testing 10. Device Discovery and Prototyping 11. Device Testing 12. Diagnostic Discovery 13. Diagnostic Testing 14. Preclinical: discussion of FDA product categories (what the FDA covers, regulated or not) 15. Procedural Technique Development 16. Behavioral Intervention studies 17. Artificial Intelligence
CLINICAL: FUNDAMENTALS 18. Introduction to Clinical Research: What is it? Why is it Needed? 19. The Question: Types of Research question and How to Develop Them 20. Study Population: Who and Why Them? 21. Outcome Measurements: What data is being Collected and Why? 22. Optimizing the Question: Balancing Significance and Feasibility
STATISTICAL PRINCIPLES 23. Common Issues in Analysis 24. Basic Statistical Principles 25. Distribution 26. Research hypotheses and Error Types 27. Power 28. Multivariable regression models 29. How to choose appropriate bivariate test 30. Categorical Variable Analyses: Chi-square, Fisher exact, Mantel-Haenszel 31. Analysis of Variance: ANOVA 32. Correlation 33. Statistical bias 34. Basic Science Statistics 35. Sample Size 36. Statistical Software
CLINICAL: STUDY TYPES 37. Design Principles: Hierarchy of Study Types 38. Case Series: Design, Measures, and an Example 39. Case-control Study 40. Cohort Studies 41. Cross-section Study 42. Longitudinal Study: Design, Measures, Classic Example 43. Meta-analysis 44. Cost-effectiveness Study: Design, Measures, Classic Example 45. Diagnostic Test Evaluation: Design, Measures, Classic Example 46. Reliability Study: Design, Measures, Classic Example 47. Database Types and Basic Data Management Design Principles for Healthcare Research 48. Survey Studies and Questionnaires 49. Qualitative Methods and Mixed Methods
CLINICAL: TRIALS 50. Randomized and Controlled Trials 51. Nonrandomized Controlled Trials 52. Historical Control: Design, Measures, Classic Example 53. Cross-over Studies 54. Withdrawal Studies: Design, Measures, Classic Example 55. Factorial Design: Design, Measures, Classic Example 56. Group or Cluster Controlled Trials: Design, Measures, Classic Example 57. Hybrid Design: Design, Measures, Classic Example 58. Large, Pragmatic: Clinical Trials 59. Equivalence and Noninferiority: Design, Measures, Classic Example 60. Adaptive Design Measures 61. Randomization: Fixed or Adaptive Procedures 62. Blinding: Who, When, and and How? 63. Multicenter Consideration 64. Phase 0 Trials: Window of Opportunity 65. Registries 66. Phases of Clinical Trials 67. IDEAL Framework
CLINICAL PREPARATION 68. Patient Perspectives 69. Budgeting 70. Ethics and Review Boards 71. Regulatory Considerations for Sports Medicine Technologies: New Drugs and Medical Devices 72. Funding Approaches 73. Conflicts of Interest 74. Subject Recruitment 75. Data Management 76. A Practical Guide to Conducting Research in the Acute Setting 77. Special Populatoins 78. Subject Adherence 79. Time-to-Event Outcomes and Survival Analysis 80. Monitoring Committee in Clinical Trials REGULATORY BASICS 81. FDA Overview 82. Investigational New Drug (IND) Application 83. New Drug Application 84. Medical Devices 85. Radiation-emitting Electronic Products 86. Orphan Drugs 87. Biological Drugs 88. Combination Products 89. Cosmetics in Sports Medicine 90. CMC and GxP 91. Non-US Regulatory 92. Post-Market Drug Safety Monitoring 93. Post-Market Device Safety Monitoring
CLINICAL IMPLEMENTATION 94. Implementation Research 95. Design and Analysis 96. Mixed-methods Research 97. Implementation of Multimodal Concussion Research Within Military Medical Environments 98. Guideline Development
PUBLIC HEALTH 99. Public Health 100. Edpidemiology of Sports Injuries 101. Factors 102. Good Questions 103. Population and Environmental Specific Considerations 104. Law, Policy, and Ethics 105. Healthcare Institutions and Systems 106. Public Health Institutions and Systems
PRACTICAL RESOURCES 107. Presenting Data 108. Manuscript Preparation 109. Promoting Research 110. Quality Improvement 111. Team Science and Building a Team 112. Types of Intellectual Property 113. Venture Pathways 114. Utilizing National Institutes of Health (NIH) Grants to Fund Translational Research 115. Sample Forms and Templates
PRE-CLINICAL 5. Overview of preclinical research 6. What Problem Are You Solving? 7. Types of Interventions 8. Beyond Drugs and Surgery: A Look at Orthobiologics 9. Drug Testing 10. Device Discovery and Prototyping 11. Device Testing 12. Diagnostic Discovery 13. Diagnostic Testing 14. Preclinical: discussion of FDA product categories (what the FDA covers, regulated or not) 15. Procedural Technique Development 16. Behavioral Intervention studies 17. Artificial Intelligence
CLINICAL: FUNDAMENTALS 18. Introduction to Clinical Research: What is it? Why is it Needed? 19. The Question: Types of Research question and How to Develop Them 20. Study Population: Who and Why Them? 21. Outcome Measurements: What data is being Collected and Why? 22. Optimizing the Question: Balancing Significance and Feasibility
STATISTICAL PRINCIPLES 23. Common Issues in Analysis 24. Basic Statistical Principles 25. Distribution 26. Research hypotheses and Error Types 27. Power 28. Multivariable regression models 29. How to choose appropriate bivariate test 30. Categorical Variable Analyses: Chi-square, Fisher exact, Mantel-Haenszel 31. Analysis of Variance: ANOVA 32. Correlation 33. Statistical bias 34. Basic Science Statistics 35. Sample Size 36. Statistical Software
CLINICAL: STUDY TYPES 37. Design Principles: Hierarchy of Study Types 38. Case Series: Design, Measures, and an Example 39. Case-control Study 40. Cohort Studies 41. Cross-section Study 42. Longitudinal Study: Design, Measures, Classic Example 43. Meta-analysis 44. Cost-effectiveness Study: Design, Measures, Classic Example 45. Diagnostic Test Evaluation: Design, Measures, Classic Example 46. Reliability Study: Design, Measures, Classic Example 47. Database Types and Basic Data Management Design Principles for Healthcare Research 48. Survey Studies and Questionnaires 49. Qualitative Methods and Mixed Methods
CLINICAL: TRIALS 50. Randomized and Controlled Trials 51. Nonrandomized Controlled Trials 52. Historical Control: Design, Measures, Classic Example 53. Cross-over Studies 54. Withdrawal Studies: Design, Measures, Classic Example 55. Factorial Design: Design, Measures, Classic Example 56. Group or Cluster Controlled Trials: Design, Measures, Classic Example 57. Hybrid Design: Design, Measures, Classic Example 58. Large, Pragmatic: Clinical Trials 59. Equivalence and Noninferiority: Design, Measures, Classic Example 60. Adaptive Design Measures 61. Randomization: Fixed or Adaptive Procedures 62. Blinding: Who, When, and and How? 63. Multicenter Consideration 64. Phase 0 Trials: Window of Opportunity 65. Registries 66. Phases of Clinical Trials 67. IDEAL Framework
CLINICAL PREPARATION 68. Patient Perspectives 69. Budgeting 70. Ethics and Review Boards 71. Regulatory Considerations for Sports Medicine Technologies: New Drugs and Medical Devices 72. Funding Approaches 73. Conflicts of Interest 74. Subject Recruitment 75. Data Management 76. A Practical Guide to Conducting Research in the Acute Setting 77. Special Populatoins 78. Subject Adherence 79. Time-to-Event Outcomes and Survival Analysis 80. Monitoring Committee in Clinical Trials REGULATORY BASICS 81. FDA Overview 82. Investigational New Drug (IND) Application 83. New Drug Application 84. Medical Devices 85. Radiation-emitting Electronic Products 86. Orphan Drugs 87. Biological Drugs 88. Combination Products 89. Cosmetics in Sports Medicine 90. CMC and GxP 91. Non-US Regulatory 92. Post-Market Drug Safety Monitoring 93. Post-Market Device Safety Monitoring
CLINICAL IMPLEMENTATION 94. Implementation Research 95. Design and Analysis 96. Mixed-methods Research 97. Implementation of Multimodal Concussion Research Within Military Medical Environments 98. Guideline Development
PUBLIC HEALTH 99. Public Health 100. Edpidemiology of Sports Injuries 101. Factors 102. Good Questions 103. Population and Environmental Specific Considerations 104. Law, Policy, and Ethics 105. Healthcare Institutions and Systems 106. Public Health Institutions and Systems
PRACTICAL RESOURCES 107. Presenting Data 108. Manuscript Preparation 109. Promoting Research 110. Quality Improvement 111. Team Science and Building a Team 112. Types of Intellectual Property 113. Venture Pathways 114. Utilizing National Institutes of Health (NIH) Grants to Fund Translational Research 115. Sample Forms and Templates
Recenzii
"This book is a comprehensive how-to for sports medicine researchers at all levels... includes practical guidelines, such as figures on FDA premarketing processes for medical device classification, thus serving as a reference to better understand regulatory entities... [A] guide for health care providers and scientists to improve the quality of the literature coming out of the sports medicine field [and] a step-by-step detailed manuscript that starts by outlining how to write a research question and what pitfalls to avoid when doing so... This book is unique because it focuses on sports and musculoskeletal medicine, discussing relevant sports technologies, medical devices, and interventions such as biologics injections, and addresses potential issues that are unique to sports medicine research... The book is organized chronologically, in a way that is easy for the reader to follow as they actively go through the process of conducting translational research." --©Doody’s Review Service, 2024, Yuka Kobayashi, DO (Medical College of Wisconsin)