What you'll learn
Understand and apply the foundational concepts of biostatistics and epidemiology
Develop a research question and formulate a testable hypothesis
Design and begin to implement a clinical research study
Cultivate the skills required to present a clinical research study
Critically evaluate the research findings in medical literature
Synthesize crucial statistical analyses using Stata software
Course description
The Foundations of Clinical Research program is rooted in the belief that clinical research training is critical to professional development in health care. Clinical research training not only creates potential independent investigators, but also enables clinicians to advance their careers through a greater understanding of research evidence. Designed to provide learners with the foundational knowledge and skill sets required to produce high-quality clinical research, our program will lay the fundamental groundwork in epidemiology and biostatistics required for a multifaceted career in clinical research.
The overarching goal of the Foundations of Clinical Research program is to equip the next generation of researchers with the skill sets essential to evaluating evidence, understanding biostatistics, and beginning their clinical research careers. Our aim is to ensure that learners develop a strong foundation in the design, implementation, analysis and interpretation of clinical research studies.
During the program, our innovative active learning approach emphasizes the traditional tutorial system with weekly live video tutorials, seminars and symposia anchored by 3 live intense weekend online workshops. The Foundations of Clinical Research program’s six-month online curriculum emphasizes real-time skill-based learning.
Participants will be eligible for Associate Alumni status upon successful completion of the program. Early tuition and need-based tuition reductions may be available.
Course Outline
Live Workshops
The interactive workshop curriculum will focus on hands-on skill development through active learning. To that end, the intensive schedule is designed to accelerate the growth of high-yield clinical research skills via individual and team-based workshop exercises. Students will be immersed in a dynamic learning environment that encourages collaboration and collegial networking with faculty and peers.
Essential elements of the workshop include instruction and practical exercises in the core concepts of biostatistics, epidemiology and research question development, as well as critical assessment of the medical literature and practical training in statistical software using real-life datasets. In addition to providing training in mentorship, academic career development and leadership, we create a supportive and active learning environment where opportunities for knowledge retention and networking abound.
Live Symposia, Tutorials and Seminars
Symposia, tutorials and seminars are mandatory and will be delivered live online and organized according to eight specific clinical research topics.
Eight 3-Hour Symposia
- Instruction on a specific clinical research topic (e.g., cohort study design and interpretation)
- In-depth discussion on a related epidemiology concept (e.g., odds ratio)
- Hands-on guidance for implementing the related analysis with statistical programming in Stata
Eight 1-Hour Tutorials
- Interpret and report on papers related to the specific clinical research topic
Eight 1-Hour Special-Topic Seminars
- The biostatistical and epidemiological concepts to specific clinical research topics with concrete examples
Assignments
All students will be expected to complete all assignments by the due dates. Assignments will be graded as either “pass” or “fail.”
Individual Assignment 1
Individual Research Question and Study Design
- Generate a novel research question in the evidence-based PICO format
- Receive expert faculty review
Individual Assignment 2
Design, Implement and Present an Original Abstract
- Design and implement a clinical research study based on a publicly available dataset
- Analyze and create data visualizations via a user-friendly R Shiny web app
- Write a formal 350-word abstract suitable for submission to an international conference
- Present a digital poster to faculty at Workshop 3
Online Lectures
Research Study Introduction
- Designing a Clinical Research Study I–III
- Introduction to Evidence-Based Medicine, Systematic Review and Meta-Analysis
- Study Design 1 – Observational
- Study Design 2 – Randomized Controlled Trials
- Study Design 3 – Quasi-Experimental Studies
- Introduction to Biostatistics
- An Investigator’s Responsibility for Protection of Research Subjects
- How to Search PubMed
- Overview of Evidence-Based Medicine
Statistical Programming in Stata
- Loading Data
- Basic Programming Commands
- Data Cleansing
- Data Analytics I – Central Tendency
- Data Analytics II – Statistical Testing
- Data Analytics III – Regression Testing