A
Adam R. Nebel Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
faculty
4 h-index
12 pubs
30 cited
Research Areas
Biography and Research Information
OverviewAI-generated summary
Adam R. Nebel's research focuses on the biomechanics of baseball pitching, particularly in youth and collegiate athletes. His work investigates the relationship between pitching mechanics, ball velocity, and injury risk, examining factors such as trunk and upper extremity kinematics, shoulder distraction forces, and pitching strategies. Nebel has explored the use of markerless tracking technology to collect normative in-game data for pitchers and has published studies comparing different pitching styles and their effects on elbow valgus torque. His research also extends to predicting pain in youth pitchers based on biomechanical efficiency and analyzing differences in exchange durations for youth baseball catchers. Nebel has 12 publications, a h-index of 3, and 27 citations, with recent activity in 2025. He collaborates with Abigail C. Schmitt, with whom he shares three publications.
Metrics
- h-index: 4
- Publications: 12
- Citations: 30
Selected Publications
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Predicting elbow valgus torque from upper extremity baseball pitching kinematics using markerless motion capture (2025)
Collaboration Network
Top Collaborators
Gretchen D. Oliver
Auburn University System (US)
11 shared publications
- Comparison of Peak Shoulder Distraction Forces Between Pain and Pain-Free Youth Baseball Pitchers
- Normative In-Game Data for Collegiate Baseball Pitchers Using Markerless Tracking Technology
- Comparison of In-Game Trunk and Upper Extremity Kinematics Between Fastballs, Breaking Balls, and Changeups in NCAA Division I Collegiate Baseball Pitchers
- Tall and Fall Versus Drop and Drive Strategy in College Baseball Pitchers for Velocity and Elbow Valgus Torque
- Within-subject time series angular velocity differences between in-game high and low velocity fastballs in college baseball pitchers
Showing 5 of 11 shared publications
Nicole M. Bordelon
Auburn University (US)
6 shared publications
- Comparison of Peak Shoulder Distraction Forces Between Pain and Pain-Free Youth Baseball Pitchers
- Comparison of In-Game Trunk and Upper Extremity Kinematics Between Fastballs, Breaking Balls, and Changeups in NCAA Division I Collegiate Baseball Pitchers
- Predicting the Presence of Pain in Youth Baseball Pitchers Using the Concept of Biomechanical Efficiency
- Timing Of Peak Shoulder Distraction Force Between Pitch Types Across A Simulated Softball Game
- Comparison of Elbow Flexion in Youth Baseball Pitchers With and Without Throwing-Arm Pain
Showing 5 of 6 shared publications
Kevin A. Giordano
Louisiana State University Health Sciences Center New Orleans (US)
5 shared publications
- Normative In-Game Data for Collegiate Baseball Pitchers Using Markerless Tracking Technology
- Tall and Fall Versus Drop and Drive Strategy in College Baseball Pitchers for Velocity and Elbow Valgus Torque
- Within-subject time series angular velocity differences between in-game high and low velocity fastballs in college baseball pitchers
- Predicting the Presence of Pain in Youth Baseball Pitchers Using the Concept of Biomechanical Efficiency
- Description and Consistency of In-Game Pitching Kinetics’ Relationship With Ball Velocity
Anthony Fava
Auburn University (US)
4 shared publications
- Comparison of Peak Shoulder Distraction Forces Between Pain and Pain-Free Youth Baseball Pitchers
- Tall and Fall Versus Drop and Drive Strategy in College Baseball Pitchers for Velocity and Elbow Valgus Torque
- Timing Of Peak Shoulder Distraction Force Between Pitch Types Across A Simulated Softball Game
- Comparison of Elbow Flexion in Youth Baseball Pitchers With and Without Throwing-Arm Pain
Abigail C. Schmitt
University of Arkansas at Fayetteville
3 shared publications
In database
- Normative In-Game Data for Collegiate Baseball Pitchers Using Markerless Tracking Technology
- Within-subject time series angular velocity differences between in-game high and low velocity fastballs in college baseball pitchers
- Predicting elbow valgus torque from upper extremity baseball pitching kinematics using markerless motion capture
Benjamin Lerch
Auburn University System (US)
2 shared publications
- Description and Consistency of In-Game Pitching Kinetics’ Relationship With Ball Velocity
- Differences in Fast and Slow Exchange Durations in Youth Baseball Catchers
Jessica L. Downs-Talmage
1 shared publication
- Timing Of Peak Shoulder Distraction Force Between Pitch Types Across A Simulated Softball Game
Thomas van Hogerwou
Delft University of Technology (NL)
1 shared publication
- Timing Of Peak Shoulder Distraction Force Between Pitch Types Across A Simulated Softball Game
Yuki Yanagita
Auburn University (US)
1 shared publication
- Normative In-Game Data for Collegiate Baseball Pitchers Using Markerless Tracking Technology
Benjamin G. Lerch
Auburn University (US)
1 shared publication
- Comparison of In-Game Trunk and Upper Extremity Kinematics Between Fastballs, Breaking Balls, and Changeups in NCAA Division I Collegiate Baseball Pitchers
David Shannon
Auburn University (US)
1 shared publication
- Comparison of In-Game Trunk and Upper Extremity Kinematics Between Fastballs, Breaking Balls, and Changeups in NCAA Division I Collegiate Baseball Pitchers
Sophia Ulman
Texas Scottish Rite Hospital for Children (US)
1 shared publication
- Low-Cost Lower Extremity Screening to Predict Shoulder Distraction Force in College Softball Pitchers
Ryan Zappa
Auburn University System (US)
1 shared publication
- Differences in Fast and Slow Exchange Durations in Youth Baseball Catchers
Nicholas Mauldin
Auburn University System (US)
1 shared publication
- Differences in Fast and Slow Exchange Durations in Youth Baseball Catchers
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