Exercise and Human Movement Science

Our division represents the scientific disciplines Exercise and Human Movement Science, including Biomechanics, in research and teaching. As part of our research, we focus on the effects, dose-response relations and physiological adaptations following different types of physical exercise (e.g., balance and resistance training) in individuals across the lifespan. Within the applied research setting of youth  and elite adult sports, we primarily target research questions in the fields of performance monitoring, testing and training. In recreational sports, we focus on the development, evaluation and implementation of exercise intervention strategies in different populations (e.g., seniors). In addition, the development of new sports equipment (e.g., running shoes) is a key feature of our research. Basic research questions primarily target neuromuscular mechanisms underlying human motor control.

News

current calls for final theses

school in motion– Strength or endurance in elementary school mathematics lessons?
Ansprechparter: Urs.Granacher@sport.uni-freiburg.de

Recent publications

Moran, J., Liew, B., Ramirez-Campillo, R., Granacher, U., Negra, Y., & Chaabene, H. (2023). The effects of plyometric jump training on lower-limb stiffness in healthy individuals: A meta-analytical comparison. Journal of sport and health science, 12(2), 236–245. https://doi.org/10.1016/j.jshs.2021.05.005

Centner, C., Jerger, S., Lauber, B., Seynnes, O., Friedrich, T., Lolli, D., Gollhofer, A., & König, D. (2023). Similar patterns of tendon regional hypertrophy after low-load blood flow restriction and high-load resistance training. Scandinavian journal of medicine & science in sports, 10.1111/sms.14321 . Advance online publication. https://doi.org/10.1111/sms.14321

Waldvogel, J., Freyler, K., Helm, M., Monti, E., Stäudle, B., Gollhofer, A., Narici, M. V., Ritzmann, R., & Albracht, K. (2023). Changes in gravity affect neuromuscular control, biomechanics, and muscle-tendon mechanics in energy storage and dissipation tasks. Journal of applied physiology (Bethesda, Md. : 1985), 134(1), 190–202. https://doi.org/10.1152/japplphysiol.00279.2022

Research colloquium

The research colloquium takes place every tuesday between 4.15 and 5.45 pm - current schedule SoSe 2023.

Research

The activities of our research comprise three foci. First, performance testing and training, mainly in elite (youth) sports. Second, the investigation of the effects and physiological adaptations following different types of physical exercise in individuals across the lifespan. Third, we study neuromechanical loading and motor control in different conditions (e.g., hyper-/ hypo-gravity).

Elite (youth) sports - testing and training

We perform literature-based or laboratory based athlete needs analysis to identify performance determinants and injury risk factors. The identified strengths and weakness analyses can be used for individualized training.

Resistance Training in Youth Athletes (KINGS-Study)

Lesinski, M., Prieske, O. & Granacher, U. (2016). Effects and dose–response relationships of resistance training on physical performance in youth athletes: a systematic review and meta-analysis. British Journal of Sports Medicine, 50(13), 781-795.

Funding body: Federal German Institute of Sport Science (BISp)

https://www.bisp.de/DE/Home/Shiny_Projects/KINGS.html
https://www.youtube.com/playlist?list=PLVInS6o5FrMws0wXc6b61a4K9TDUKBHu6
https://medium.com/@kingsstudy

Health promotion through physical activity across the lifespan

The effects and physiological mechanisms of exercise (e.g. balance and/or resistance training) are investigated in different populations (children & adolescents, seniors, patients) using kinematics, kinetics, and electrophysiological testing apparatus.

Kohl, J.; Brame, J.; Hauff, P.; Wurst, R.; Sehlbrede, M.; Fichtner, U.A.; Armbruster, C.; Tinsel, I.; Maiwald, P.; Farin-Glattacker, E.; et al. Effects of aWeb-BasedWeight Loss Program on the Healthy Eating Index-NVS in Adults with Overweight or Obesity and the Association with Dietary, Anthropometric and Cardiometabolic Variables: A Randomized Controlled Clinical Trial. Nutrients 2023, 15, 7. https://doi.org/10.3390/nu15010007

Neuromechanical control of human movement

During human locomotion, we examine the complex interplay between the central nervous system and the tendo-musculo-skeletal system. We focus on fundamental questions concerning neuromuscular control of movement under variable loading conditions and joint control of the lower extremities during functionally dynamic movements. Mechanisms and risk factors of specific injuries and pathologies are biomechanically analyzed to derive preventive and rehabilitative measures. These findings can be transferred to application research in competitive sports or health promotion through physical activity.

Modulation of the muscle tendon interaction during drop jumps and drop landings in variable gravity

Funding body: German Aerospace Center (DLR), Federal Ministry for Economic Affairs and Climate Action (BMWK)

Waldvogel, J., Freyler, K., Helm, M., Monti, E., Stäudle, B., Gollhofer, A., Narici, M. V., Ritzmann, R., & Albracht, K. (2023). Changes in gravity affect neuromuscular control, biomechanics, and muscle-tendon mechanics in energy storage and dissipation tasks. Journal of applied physiology (Bethesda, Md. : 1985), 134(1), 190–202. https://doi.org/10.1152/japplphysiol.00279.2022

Teaching

Teaching comprises the scientific disciplines Exercise and Human Movement Science including Biomechanics on an undergraduate and graduate level. In the field of Human Movement Science/Biomechanics, we focus on human locomotion and sport-specific as well as everyday movements. Starting from the question of how movement is created and controlled, movements are examined biomechanically in order to explain everyday and athletic performance. Our teaching additionally comprises biomechanical approaches for injury risk management. In the context of Exercise Science and Physiology, we teach the effects and dose-response relations of different exercise types in different populations.

Laboratory

measurement method

I Kinetics, kinematics, posturography

• force plates (AMTI, Kistler)
• leg force measuring device (BKM)
• time measurement (Witty)
• motion analysis systems (SIMI Motion, Vicon)
• high-speed cameras (Basler)
• perturbation platforms (Posturomed & Pertumed)

II bio-/electrophysiological methods

• heart rate monitors (BKM)
• lactate analysis system (EKF diagnostics)
• bioimpendance analysis system
• electromyography (cometa Pico EMG & Mini Wave infinity)
• peripheral nerve stimulation
• spirometry
• ultrasound device ArtUS EXT-1H (Telemed)

III anthropometry and endurance ergometer:

• skin wrinkle measuring device (caliper)
• running treadmill quasar med 5 (h/p/cosmos)

Scientific co-workers

Chair Exercise and Human Movement Science:

Prof. Urs Granacher, PhD Consultation by appointment. Department of Sport and Sport Science 3. floor room 03 011 Sandfangweg 4 79102 Freiburg, Germany Tel.: +49 761-203 4510 E-Mail: Urs.Granacher@sport.uni-freiburg.de

Biomechanics:

Prof. Dominic Gehring, PhD Consultation by appointment. Department of Sport and Sport Science 3. floor room 03 010 Sandfangweg 4 79102 Freiburg, Germany Tel.: +49 761-203 4521 E-Mail: Dominic.Gehring@sport.uni-freiburg.de

Scientific co-workers:

Meike Burkhardt Exercise and human movement science/ biomechanics +49761/203-4562 Clara Ebner Exercise and human movement science/ biomechanics. +49761/203-4562 Kathrin Freyler Exercise and human movement science/ biomechanics +49761/203-4515 Simon Jerger Exercise and human movement science/ biomechanics | soccer +49761/203-4522 Jakob Ketterer Exercise and human movement science/ biomechanics +49761/203-4558 Christian Leukel Exercise and human movement science/ biomechanics +49761/203-4559 Ramona RitzmannExercise and human movement science/ biomechanics +49761/203-4515 Janice Waldvogel Exercise and human movement science/ biomechanics +49761/203-4515