Kapitel 1 - Neuroathletiktraining

1. Araújo, D., Hristovski, R., Seifert, L., Carvalho, J., & Davids, K. (2019). Ecological cognition: Expert decision-making behaviour in sport. International Review of Sport and Exercise Psychology, 12(1), 1–25. https://doi.org/10.1080/1750984X.2017.1349826
2. Bowering, K. J., O'Connell, N. E., Tabor, A., Catley, M. J., Leake, H. B., Moseley, G. L., & Stanton, T. R. (2013). The effects of graded motor imagery and its components on chronic pain: a systematic review and meta-analysis. The journal of pain, 14(1), 3–13. https://doi.org/10.1016/j.jpain.2012.09.007
3. Carrick F. R. (1997). Changes in brain function after manipulation of the cervical spine. Journal of manipulative and physiological therapeutics, 20(8), 529–545.
4. Clark A. (2013). Whatever next? Predictive brains, situated agents, and the future of cognitive science. The Behavioral and brain sciences, 36(3), 181–204. https://doi.org/10.1017/S0140525X12000477
5. Demortier, M., & Leboeuf-Yde, C. (2020). Unravelling Functional Neurology: an overview of all published documents by FR Carrick, including a critical review of research articles on its effect or benefit. Chiropractic & manual therapies, 28(1), 9. https://doi.org/10.1186/s12998-019-0287-2
6. Gelfand, I. M., & Latash, M. L. (1998). On the problem of adequate language in motor control. Motor control, 2(4), 306–313. https://doi.org/10.1123/mcj.2.4.306
7. Green, D. G., Sadedin, S., & Leishman, T. G. (2019). Self-organization. In B. Fath (Ed.), Encyclopedia of Ecology (2nd ed., Vol. 1, pp. 628-636). Elsevier. https://doi.org/10.1016/B978-0-444-63768-0.00696-X
8. Harris, D. J., Wilson, M. R. & Vine, S. J. (2018). A Systematic Review of Commercial Cognitive Training Devices: Implications for Use in Sport. Frontiers in Psychology, 9, 709. https://doi.org/10.3389/fpsyg.2018.00709
9. Lienhard, L. (2017). Training beginnt im Gehirn. Riva
10. Lienhard, L. (2020). Kraft beginnt im Gehirn. Riva
11. Limballe, A., Kulpa, R., & Bennett, S. (2022). Using Blur for Perceptual Investigation and Training in Sport? A Clear Picture of the Evidence and Implications for Future Research. Frontiers in psychology, 12, 752582. https://doi.org/10.3389/fpsyg.2021.752582
12. Margach R. W. (2017). Chiropractic Functional Neurology: An Introduction. Integrative medicine (Encinitas, Calif.), 16(2), 44–45.
13. Meyer, A. L., & Leboeuf-Yde, C. (2018). Unravelling functional neurology: a critical review of clinical research articles on the effect or benefit of the functional neurology approach. Chiropractic & manual therapies, 26, 30. https://doi.org/10.1186/s12998-018-0198-7
14. Meyer, A. L., Meyer, A., Etherington, S., & Leboeuf-Yde, C. (2017). Unravelling functional neurology: a scoping review of theories and clinical applications in a context of chiropractic manual therapy. Chiropractic & manual therapies, 25, 19. https://doi.org/10.1186/s12998-017-0151-1
15. Moseley, G. L., Gallace, A., & Iannetti, G. D. (2012). Spatially defined modulation of skin temperature and hand ownership of both hands in patients with unilateral complex regional pain syndrome. Brain : a journal of neurology, 135(Pt 12), 3676–3686. https://doi.org/10.1093/brain/aws297
16. Moseley, G. L., Gallace, A., & Spence, C. (2012). Bodily illusions in health and disease: physiological and clinical perspectives and the concept of a cortical 'body matrix'. Neuroscience and biobehavioral reviews, 36(1), 34–46. https://doi.org/10.1016/j.neubiorev.2011.03.013
17. Renshaw, I., Davids, K., Araújo, D., Lucas, A., Roberts, W. M., Newcombe, D. J., & Franks, B. (2019). Evaluating Weaknesses of "Perceptual-Cognitive Training" and "Brain Training" Methods in Sport: An Ecological Dynamics Critique. Frontiers in psychology, 9, 2468. https://doi.org/10.3389/fpsyg.2018.02468
18. Simons, D. J., Boot, W. R., Charness, N., Gathercole, S. E., Chabris, C. F., Hambrick, D. Z., & Stine-Morrow, E. A. L. (2016). Do “Brain-Training” Programs Work? Psychological Science in the Public Interest, 17(3), 103–186. https://doi.org/10.1177/1529100616661983
19. Stanton, T. R., Lin, C. W., Smeets, R. J., Taylor, D., Law, R., & Lorimer Moseley, G. (2012). Spatially defined disruption of motor imagery performance in people with osteoarthritis. Rheumatology (Oxford, England), 51(8), 1455–1464. https://doi.org/10.1093/rheumatology/kes048
20. Wallwork, S. B., Bellan, V., Catley, M. J., & Moseley, G. L. (2016). Neural representations and the cortical body matrix: implications for sports medicine and future directions. British journal of sports medicine, 50(16), 990–996. https://doi.org/10.1136/bjsports-2015-095356
21. Wallwork, S. B., Leake, H. B., Peek, A. L., Moseley, G. L., & Stanton, T. R. (2020). Implicit motor imagery performance is impaired in people with chronic, but not acute, neck pain. PeerJ, 8, e8553. https://doi.org/10.7717/peerj.8553
22. Walton, C. C., Keegan, R. J., Martin, M., & Hallock, H. (2018). The Potential Role for Cognitive Training in Sport: More Research Needed. Frontiers in psychology, 9, 1121. https://doi.org/10.3389/fpsyg.2018.01121
23. Yackinous, W. S. (2015). Overview of an Ecological System Dynamics Framework. Understanding Complex Ecosystem Dynamics, 83–91.

Kapitel 2 - Faszientherapie

1. Aboodarda, S. J., Spence, A. J., & Button, D. C. (2015). Pain pressure threshold of a muscle tender spot increases following local and non-local rolling massage. BMC musculoskeletal disorders, 16, 265. https://doi.org/10.1186/s12891-015-0729-5
2. Alpay, Z., Saed, G. M., & Diamond, M. P. (2008). Postoperative adhesions: from formation to prevention. Seminars in reproductive medicine, 26(4), 313–321. https://doi.org/10.1055/s-0028-1082389
3. Barnes, M.F. (1997). The basic science of myofascial release: morphologic change in connective tissue. Journal of Bodywork and Movement Therapies, 1, 231-238.
4. Barral, J. P., & Mercier, P. (2005). Visceral manipulation. Eastland Press.
5. Beardsley, C., & Škarabot, J. (2015). Effects of self-myofascial release: A systematic review. Journal of bodywork and movement therapies, 19(4), 747–758. https://doi.org/10.1016/j.jbmt.2015.08.007
6. Behm, D. G., & Wilke, J. (2019). Do Self-Myofascial Release Devices Release Myofascia? Rolling Mechanisms: A Narrative Review. Sports medicine (Auckland, N.Z.), 49(8), 1173–1181. https://doi.org/10.1007/s40279-019-01149-y
7. Bialosky, J. E., Beneciuk, J. M., Bishop, M. D., Coronado, R. A., Penza, C. W., Simon, C. B., & George, S. Z. (2018). Unraveling the Mechanisms of Manual Therapy: Modeling an Approach. The Journal of orthopaedic and sports physical therapy, 48(1), 8–18. https://doi.org/10.2519/jospt.2018.7476
8. Bordoni, B., Escher, A. R., Tobbi, F., Pianese, L., Ciardo, A., Yamahata, J., Hernandez, S., & Sanchez, O. (2022). Fascial Nomenclature: Update 2022. Cureus, 14(6), e25904. https://doi.org/10.7759/cureus.25904
9. Bron, C., & Dommerholt, J. D. (2012). Etiology of myofascial trigger points. Current pain and headache reports, 16(5), 439–444. https://doi.org/10.1007/s11916-012-0289-4
10. Burk, C., Perry, J., Lis, S., Dischiavi, S., & Bleakley, C. (2019). Can Myofascial Interventions Have a Remote Effect on ROM? A Systematic Review and Meta-Analysis. Journal of sport rehabilitation, 29(5), 650–656. https://doi.org/10.1123/jsr.2019-0074
11. Cheatham, S. W., Kolber, M. J., Cain, M., & Lee, M. (2015). THE EFFECTS OF SELF-MYOFASCIAL RELEASE USING A FOAM ROLL OR ROLLER MASSAGER ON JOINT RANGE OF MOTION, MUSCLE RECOVERY, AND PERFORMANCE: A SYSTEMATIC REVIEW. International journal of sports physical therapy, 10(6), 827–838.
12. Chen, Z., Wu, J., Wang, X., Wu, J., & Ren, Z. (2021). The effects of myofascial release technique for patients with low back pain: A systematic review and meta-analysis. Complementary therapies in medicine, 59, 102737. https://doi.org/10.1016/j.ctim.2021.102737
13. Carter, A., Popowski, K., Cheng, K., Greenbaum, A., Ligler, F. S., & Moatti, A. (2021). Enhancement of Bone Regeneration Through the Converse Piezoelectric Effect, A Novel Approach for Applying Mechanical Stimulation. Bioelectricity, 3(4), 255–271. https://doi.org/10.1089/bioe.2021.0019
14. Chaudhry, H., Schleip, R., Ji, Z., Bukiet, B., Maney, M., & Findley, T. (2008). Three-dimensional mathematical model for deformation of human fasciae in manual therapy. The Journal of the American Osteopathic Association, 108(8), 379–390. https://doi.org/10.7556/jaoa.2008.108.8.379
15. Dahl, M., Hansen, P., Stål, P., Edmundsson, D., & Magnusson, S. P. (2011). Stiffness and thickness of fascia do not explain chronic exertional compartment syndrome. Clinical orthopaedics and related research, 469(12), 3495–3500. https://doi.org/10.1007/s11999-011-2073-x
16. De Groef, A., Van Kampen, M., Vervloesem, N., De Geyter, S., Dieltjens, E., Christiaens, M. R., Neven, P., Geraerts, I., & Devoogdt, N. (2017). An evaluation tool for myofascial adhesions in patients after breast cancer (MAP-BC evaluation tool): Development and interrater reliability. PloS one, 12(6), e0179116. https://doi.org/10.1371/journal.pone.0179116
17. Dölken, M. (2002). Was muss ein Manualtherapeut über die Physiologie des Bindegewebes und die Entwicklung einer Bewegungseinschränkung wissen? Manuelle Medizin, 40, 169-176.
18. Gay, C. W., Robinson, M. E., George, S. Z., Perlstein, W. M., & Bishop, M. D. (2014). Immediate changes after manual therapy in resting-state functional connectivity as measured by functional magnetic resonance imaging in participants with induced low back pain. Journal of manipulative and physiological therapeutics, 37(9), 614–627. https://doi.org/10.1016/j.jmpt.2014.09.001
19. Jami L. (1992). Golgi tendon organs in mammalian skeletal muscle: functional properties and central actions. Physiological reviews, 72(3), 623–666. https://doi.org/10.1152/physrev.1992.72.3.623
20. Juhan, D. (1987). Job´s Body: A handbook for for Bodywork. Station Hill Press.
21. Konrad, A., Nakamura, M., & Behm, D. G. (2022). The Effects of Foam Rolling Training on Performance Parameters: A Systematic Review and Meta-Analysis including Controlled and Randomized Controlled Trials. International journal of environmental research and public health, 19(18), 11638. https://doi.org/10.3390/ijerph191811638
22. Konrad, A., Nakamura, M., Paternoster, F. K., Tilp, M., & Behm, D. G. (2022a). A comparison of a single bout of stretching or foam rolling on range of motion in healthy adults. European journal of applied physiology, 122(7), 1545–1557. https://doi.org/10.1007/s00421-022-04927-1
23. Konrad, A., Nakamura, M., Tilp, M., Donti, O., & Behm, D. G. (2022b). Foam Rolling Training Effects on Range of Motion: A Systematic Review and Meta-Analysis. Sports medicine (Auckland, N.Z.), 52(10), 2523–2535. https://doi.org/10.1007/s40279-022-01699-8
24. Konrad, A., Tilp, M., & Nakamura, M. (2021). A Comparison of the Effects of Foam Rolling and Stretching on Physical Performance. A Systematic Review and Meta-Analysis. Frontiers in physiology, 12, 720531. https://doi.org/10.3389/fphys.2021.720531
25. Kumka, M., & Bonar, J. (2012). Fascia: a morphological description and classification system based on a literature review. The Journal of the Canadian Chiropractic Association, 56(3), 179–191.
26. Lara-Palomo, I. C., Castro-Sánchez, A. M., Córdoba-Peláez, M. M., Albornoz-Cabello, M., & Ortiz-Comino, L. (2021). Effect of Myofascial Therapy on Pain and Functionality of the Upper Extremities in Breast Cancer Survivors: A Systematic Review and Meta-Analysis. International journal of environmental research and public health, 18(9), 4420. https://doi.org/10.3390/ijerph18094420
27. Mauntel, T.C., Clark, M.A., & Padua, D.A. (2014). Effectiveness of Myofascial Release Therapies on Physical Performance Measurements: A Systematic Review. Athletic Training & Sports Health Care, 6, 189-196.
28. Medeiros, F., Martins, W., Behm, D., Ribeiro, D., Marinho, E., Santos, W., & Viana, R. B. (2023). Acute effects of foam roller or stick massage on indirect markers from exercise-induced muscle damage in healthy individuals: A systematic review and meta-analysis. Journal of bodywork and movement therapies, 35, 273–283. https://doi.org/10.1016/j.jbmt.2023.04.016
29. Melzack, R., & Wall, P. D. (1965). Pain mechanisms: a new theory. Science (New York, N.Y.), 150(3699), 971–979. https://doi.org/10.1126/science.150.3699.971
30. Muder, D., & Vedung, T. (2014). Interosseous-lumbrical adhesions secondary to an infection: a case report. Journal of medical case reports, 8, 301. https://doi.org/10.1186/1752-1947-8-301
31. Myburgh, C., Larsen, A. H., & Hartvigsen, J. (2008). A systematic, critical review of manual palpation for identifying myofascial trigger points: evidence and clinical significance. Archives of physical medicine and rehabilitation, 89(6), 1169–1176. https://doi.org/10.1016/j.apmr.2007.12.033
32. Pagaduan, J. C., Chang, S. Y., & Chang, N. J. (2022). Chronic Effects of Foam Rolling on Flexibility and Performance: A Systematic Review of Randomized Controlled Trials. International journal of environmental research and public health, 19(7), 4315. https://doi.org/10.3390/ijerph19074315
33. Quintner, J. L., Bove, G. M., & Cohen, M. L. (2015). A critical evaluation of the trigger point phenomenon. Rheumatology (Oxford, England), 54(3), 392–399. https://doi.org/10.1093/rheumatology/keu471
34. Rolf, I. (1977). Rolfing: Re-establishing the Natural Alignment and Structural Integration of the Human Body for Vitality and Well-Being. Inner Traditions Bear and Company
35. Scheper, M. C., de Vries, J. E., Verbunt, J., & Engelbert, R. H. (2015). Chronic pain in hypermobility syndrome and Ehlers-Danlos syndrome (hypermobility type): it is a challenge. Journal of pain research, 8, 591–601. https://doi.org/10.2147/JPR.S64251
36. Schleip, R. (2003a). Fascial plasticity - A new neurobiological explanation: Part 1. Journal of Bodywork and Movement Therapies, 7(1), 11-19. https://doi.org/10.1016/S1360-8592(02)00067-0
37. Schleip, R. (2003b). Fascial plasticity – a new neurobiological explanation Part 2. Journal of Bodywork and Movement Therapies, 7, 104-116.
38. Schleip, R., Hedley, G., & Yucesoy, C. A. (2019). Fascial nomenclature: Update on related consensus process. Clinical anatomy (New York, N.Y.), 32(7), 929–933. https://doi.org/10.1002/ca.23423
39. Schroeder, A. N., & Best, T. M. (2015). Is self myofascial release an effective preexercise and recovery strategy? A literature review. Current sports medicine reports, 14(3), 200–208. https://doi.org/10.1249/JSR.0000000000000148
40. Shah, J. P., Danoff, J. V., Desai, M. J., Parikh, S., Nakamura, L. Y., Phillips, T. M., & Gerber, L. H. (2008). Biochemicals associated with pain and inflammation are elevated in sites near to and remote from active myofascial trigger points. Archives of physical medicine and rehabilitation, 89(1), 16–23. https://doi.org/10.1016/j.apmr.2007.10.018
41. Simons D. G. (2004). Review of enigmatic MTrPs as a common cause of enigmatic musculoskeletal pain and dysfunction. Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology, 14(1), 95–107. https://doi.org/10.1016/j.jelekin.2003.09.018
42. Simons, D. G., Hong, C. Z., & Simons, L. S. (2002). Endplate potentials are common to midfiber myofacial trigger points. American journal of physical medicine & rehabilitation, 81(3), 212–222. https://doi.org/10.1097/00002060-200203000-00010
43. Skinner, B., Moss, R., & Hammond, L. (2020). A systematic review and meta-analysis of the effects of foam rolling on range of motion, recovery and markers of athletic performance. Journal of bodywork and movement therapies, 24(3), 105–122. https://doi.org/10.1016/j.jbmt.2020.01.007
44. Sparks, C., Cleland, J. A., Elliott, J. M., Zagardo, M., & Liu, W. C. (2013). Using functional magnetic resonance imaging to determine if cerebral hemodynamic responses to pain change following thoracic spine thrust manipulation in healthy individuals. The Journal of orthopaedic and sports physical therapy, 43(5), 340–348. https://doi.org/10.2519/jospt.2013.4631
45. Thalhamer C. (2018). A fundamental critique of the fascial distortion model and its application in clinical practice. Journal of bodywork and movement therapies, 22(1), 112–117. https://doi.org/10.1016/j.jbmt.2017.07.009
46. Threlkeld A. J. (1992). The effects of manual therapy on connective tissue. Physical therapy, 72(12), 893–902. https://doi.org/10.1093/ptj/72.12.893
47. Typaldos, S. (2002). FDM: Clinical and theoretical application of the fascial distortion model within the practice of Medicine and Surgery. Orthopathic Global Health Publications.
48. Ughreja, R. A., Venkatesan, P., Balebail Gopalakrishna, D., & Singh, Y. P. (2021). Effectiveness of myofascial release on pain, sleep, and quality of life in patients with fibromyalgia syndrome: A systematic review. Complementary therapies in clinical practice, 45, 101477. https://doi.org/10.1016/j.ctcp.2021.101477
49. Vajapey, S., & Miller, T. L. (2017). Evaluation, diagnosis, and treatment of chronic exertional compartment syndrome: a review of current literature. The Physician and sportsmedicine, 45(4), 391–398. https://doi.org/10.1080/00913847.2017.1384289
50. Ward, R.C. (2003). Integrated neuromusculoskeletal release and myofascial release. In: R.C. Ward RC (Hrsg.), Foundations for osteopathic medicine (2. Aufl., S. 931-968). Lippincott, Williams & Wilkins, Philadelphia.
51. Wasserman, J. B., Copeland, M., Upp, M., & Abraham, K. (2019). Effect of soft tissue mobilization techniques on adhesion-related pain and function in the abdomen: A systematic review. Journal of bodywork and movement therapies, 23(2), 262–269. https://doi.org/10.1016/j.jbmt.2018.06.004
52. Weerapong, P., Hume, P. A., & Kolt, G. S. (2005). The mechanisms of massage and effects on performance, muscle recovery and injury prevention. Sports medicine (Auckland, N.Z.), 35(3), 235–256. https://doi.org/10.2165/00007256-200535030-00004
53. Wiewelhove, T., Döweling, A., Schneider, C., Hottenrott, L., Meyer, T., Kellmann, M., Pfeiffer, M., & Ferrauti, A. (2019). A Meta-Analysis of the Effects of Foam Rolling on Performance and Recovery. Frontiers in physiology, 10, 376. https://doi.org/10.3389/fphys.2019.00376
54. Wilke, J., Müller, A. L., Giesche, F., Power, G., Ahmedi, H., & Behm, D. G. (2020). Acute Effects of Foam Rolling on Range of Motion in Healthy Adults: A Systematic Review with Multilevel Meta-analysis. Sports medicine (Auckland, N.Z.), 50(2), 387–402. https://doi.org/10.1007/s40279-019-01205-7
55. Wilke, J., Schleip, R., Yucesoy, C. A., & Banzer, W. (2018). Not merely a protective packing organ? A review of fascia and its force transmission capacity. Journal of applied physiology (Bethesda, Md. : 1985), 124(1), 234–244. https://doi.org/10.1152/japplphysiol.00565.2017
56. Wilke, J., Vogt, L., & Banzer, W. (2018). Immediate effects of self-myofascial release on latent trigger point sensitivity: a randomized, placebo-controlled trial. Biology of sport, 35(4), 349–354. https://doi.org/10.5114/biolsport.2018.78055
57. Wiseman D. M. (2008). Disorders of adhesions or adhesion-related disorder: monolithic entities or part of something bigger--CAPPS?. Seminars in reproductive medicine, 26(4), 356–368. https://doi.org/10.1055/s-0028-1082394
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Kapitel 3 - Prävention von Sportverletzungen

1. Al Attar, W. S., Soomro, N., Pappas, E., Sinclair, P. J., & Sanders, R. H. (2016). How Effective are F-MARC Injury Prevention Programs for Soccer Players? A Systematic Review and Meta-Analysis. Sports medicine (Auckland, N.Z.), 46(2), 205–217. https://doi.org/10.1007/s40279-015-0404-x
2. Andersson, S. H., Bahr, R., Clarsen, B., & Myklebust, G. (2017). Preventing overuse shoulder injuries among throwing athletes: a cluster-randomised controlled trial in 660 elite handball players. British journal of sports medicine, 51(14), 1073–1080. https://doi.org/10.1136/bjsports-2016-096226
3. Andrade, R., Wik, E. H., Rebelo-Marques, A., Blanch, P., Whiteley, R., Espregueira-Mendes, J., & Gabbett, T. J. (2020). Is the Acute: Chronic Workload Ratio (ACWR) Associated with Risk of Time-Loss Injury in Professional Team Sports? A Systematic Review of Methodology, Variables and Injury Risk in Practical Situations. Sports medicine (Auckland, N.Z.), 50(9), 1613–1635. https://doi.org/10.1007/s40279-020-01308-6
4. Bahr, R., & Krosshaug, T. (2005). Understanding injury mechanisms: a key component of preventing injuries in sport. British journal of sports medicine, 39(6), 324–329. https://doi.org/10.1136/bjsm.2005.018341
5. Beardsley, C., & Contreras, B. (2014). The Functional Movement Screen: A Review. Strength and Conditioning Journal, 36, 72–80.
6. Bittencourt, N. F. N., Meeuwisse, W. H., Mendonça, L. D., Nettel-Aguirre, A., Ocarino, J. M., & Fonseca, S. T. (2016). Complex systems approach for sports injuries: moving from risk factor identification to injury pattern recognition-narrative review and new concept. British journal of sports medicine, 50(21), 1309–1314. https://doi.org/10.1136/bjsports-2015-095850
7. Bonazza, N. A., Smuin, D., Onks, C. A., Silvis, M. L., & Dhawan, A. (2017). Reliability, Validity, and Injury Predictive Value of the Functional Movement Screen: A Systematic Review and Meta-analysis. The American journal of sports medicine, 45(3), 725–732. https://doi.org/10.1177/0363546516641937
8. Cook, G., Burton, L., & Hoogenboom, B. (2006a). Pre-participation screening: the use of fundamental movements as an assessment of function - part 1. North American journal of sports physical therapy : NAJSPT, 1(2), 62–72.
9. Cook, G., Burton, L., & Hoogenboom, B. (2006b). Pre-participation screening: the use of fundamental movements as an assessment of function - part 2. North American journal of sports physical therapy : NAJSPT, 1(3), 132–139.
10. Cusimano, M. D., Nastis, S., & Zuccaro, L. (2013). Effectiveness of interventions to reduce aggression and injuries among ice hockey players: a systematic review. CMAJ : Canadian Medical Association journal = journal de l'Association medicale canadienne, 185(1), E57–E69. https://doi.org/10.1503/cmaj.112017
11. Dorrel, B. S., Long, T., Shaffer, S., & Myer, G. D. (2015). Evaluation of the Functional Movement Screen as an Injury Prediction Tool Among Active Adult Populations: A Systematic Review and Meta-analysis. Sports health, 7(6), 532–537. https://doi.org/10.1177/1941738115607445
12. Emery, C. A., & Pasanen, K. (2019). Current trends in sport injury prevention. Best practice & research. Clinical rheumatology, 33(1), 3–15. https://doi.org/10.1016/j.berh.2019.02.009
13. Fonseca, S. T., Souza, T. R., Verhagen, E., van Emmerik, R., Bittencourt, N. F. N., Mendonça, L. D. M., Andrade, A. G. P., Resende, R. A., & Ocarino, J. M. (2020). Sports Injury Forecasting and Complexity: A Synergetic Approach. Sports medicine (Auckland, N.Z.), 50(10), 1757–1770. https://doi.org/10.1007/s40279-020-01326-4
14. Gabbett T. J. (2016). The training-injury prevention paradox: should athletes be training smarter and harder?. British journal of sports medicine, 50(5), 273–280. https://doi.org/10.1136/bjsports-2015-095788
15. Griffin, A., Kenny, I. C., Comyns, T. M., & Lyons, M. (2020). The Association Between the Acute:Chronic Workload Ratio and Injury and its Application in Team Sports: A Systematic Review. Sports medicine (Auckland, N.Z.), 50(3), 561–580. https://doi.org/10.1007/s40279-019-01218-2
16. Grindstaff, T. L., Hammill, R. R., Tuzson, A. E., & Hertel, J. (2006). Neuromuscular control training programs and noncontact anterior cruciate ligament injury rates in female athletes: a numbers-needed-to-treat analysis. Journal of athletic training, 41(4), 450–456.
17. Haddon, Jr., W. (1980) Advances in the epidemiology of injuries as a basis for public policy. Public Health Report 95, 411–421.
18. Herman, K., Barton, C., Malliaras, P., & Morrissey, D. (2012). The effectiveness of neuromuscular warm-up strategies, that require no additional equipment, for preventing lower limb injuries during sports participation: a systematic review. BMC medicine, 10, 75. https://doi.org/10.1186/1741-7015-10-75
19. Leppänen, M., Aaltonen, S., Parkkari, J., Heinonen, A., & Kujala, U. M. (2014). Interventions to prevent sports related injuries: a systematic review and meta-analysis of randomised controlled trials. Sports medicine (Auckland, N.Z.), 44(4), 473–486. https://doi.org/10.1007/s40279-013-0136-8
20. Maupin, D., Schram, B., Canetti, E., & Orr, R. (2020). The Relationship Between Acute: Chronic Workload Ratios and Injury Risk in Sports: A Systematic Review. Open access journal of sports medicine, 11, 51–75. https://doi.org/10.2147/OAJSM.S231405
21. Meeuwisse, W.H. (1994). Assessing Causation in Sport Injury: A Multifactorial Model. Clinical Journal of Sport Medicine, 4, 166-170.
22. Meeuwisse, W. H., Tyreman, H., Hagel, B., & Emery, C. (2007). A dynamic model of etiology in sport injury: the recursive nature of risk and causation. Clinical journal of sport medicine : official journal of the Canadian Academy of Sport Medicine, 17(3), 215–219. https://doi.org/10.1097/JSM.0b013e3180592a48
23. Mendiguchia, J., Alentorn-Geli, E., & Brughelli, M. (2012). Hamstring strain injuries: are we heading in the right direction?. British journal of sports medicine, 46(2), 81–85. https://doi.org/10.1136/bjsm.2010.081695
24. Quatman, C. E., Quatman, C. C., & Hewett, T. E. (2009). Prediction and prevention of musculoskeletal injury: a paradigm shift in methodology. British journal of sports medicine, 43(14), 1100–1107. https://doi.org/10.1136/bjsm.2009.065482
25. Ruddy, J. D., Cormack, S. J., Whiteley, R., Williams, M. D., Timmins, R. G., & Opar, D. A. (2019). Modeling the Risk of Team Sport Injuries: A Narrative Review of Different Statistical Approaches. Frontiers in physiology, 10, 829. https://doi.org/10.3389/fphys.2019.00829
26. Sadigursky, D., Braid, J. A., De Lira, D. N. L., Machado, B. A. B., Carneiro, R. J. F., & Colavolpe, P. O. (2017). The FIFA 11+ injury prevention program for soccer players: a systematic review. BMC sports science, medicine & rehabilitation, 9, 18. https://doi.org/10.1186/s13102-017-0083-z
27. Steffen, K., Andersen, T.E., Krosshaug, T., van Mechelen, W., Myklebust, G., Verhagen, E.A., & Bahr, R. (2010). ECSS Position Statement 2009: Prevention of acute sports injuries. European Journal of Sport Science, 10, 223 - 236.
28. Stephenson, S. D., Kocan, J. W., Vinod, A. V., Kluczynski, M. A., & Bisson, L. J. (2021). A Comprehensive Summary of Systematic Reviews on Sports Injury Prevention Strategies. Orthopaedic journal of sports medicine, 9(10), 23259671211035776. https://doi.org/10.1177/23259671211035776
29. Thorborg, K., Krommes, K. K., Esteve, E., Clausen, M. B., Bartels, E. M., & Rathleff, M. S. (2017). Effect of specific exercise-based football injury prevention programmes on the overall injury rate in football: a systematic review and meta-analysis of the FIFA 11 and 11+ programmes. British journal of sports medicine, 51(7), 562–571. https://doi.org/10.1136/bjsports-2016-097066
30. Timmins, R. G., Bourne, M. N., Shield, A. J., Williams, M. D., Lorenzen, C., & Opar, D. A. (2016). Short biceps femoris fascicles and eccentric knee flexor weakness increase the risk of hamstring injury in elite football (soccer): a prospective cohort study. British journal of sports medicine, 50(24), 1524–1535. https://doi.org/10.1136/bjsports-2015-095362
31. van Mechelen, W., Hlobil, H., & Kemper, H. C. (1992). Incidence, severity, aetiology and prevention of sports injuries. A review of concepts. Sports medicine (Auckland, N.Z.), 14(2), 82–99. https://doi.org/10.2165/00007256-199214020-00002
32. Wang, C., Vargas, J. T., Stokes, T., Steele, R., & Shrier, I. (2020). Analyzing Activity and Injury: Lessons Learned from the Acute:Chronic Workload Ratio. Sports medicine (Auckland, N.Z.), 50(7), 1243–1254. https://doi.org/10.1007/s40279-020-01280-1
33. Whittaker, J. L., Booysen, N., de la Motte, S., Dennett, L., Lewis, C. L., Wilson, D., McKay, C., Warner, M., Padua, D., Emery, C. A., & Stokes, M. (2017). Predicting sport and occupational lower extremity injury risk through movement quality screening: a systematic review. British journal of sports medicine, 51(7), 580–585. https://doi.org/10.1136/bjsports-2016-096760

Kapitel 4 - Gehirnerschütterung

1. Brooks, M. A., Peterson, K., Biese, K., Sanfilippo, J., Heiderscheit, B. C., & Bell, D. R. (2016). Concussion Increases Odds of Sustaining a Lower Extremity Musculoskeletal Injury After Return to Play Among Collegiate Athletes. The American journal of sports medicine, 44(3), 742–747. https://doi.org/10.1177/0363546515622387
2. Büttner, F., Howell, D. R., Ardern, C. L., Doherty, C., Blake, C., Ryan, J., Catena, R., Chou, L. S., Fino, P., Rochefort, C., Sveistrup, H., Parker, T., & Delahunt, E. (2020). Concussed athletes walk slower than non-concussed athletes during cognitive-motor dual-task assessments but not during single-task assessments 2 months after sports concussion: a systematic review and meta-analysis using individual participant data. British journal of sports medicine, 54(2), 94–101. https://doi.org/10.1136/bjsports-2018-100164
3. Carroll, L. J., Cassidy, J. D., Holm, L., Kraus, J., Coronado, V. G., & WHO Collaborating Centre Task Force on Mild Traumatic Brain Injury (2004). Methodological issues and research recommendations for mild traumatic brain injury: the WHO Collaborating Centre Task Force on Mild Traumatic Brain Injury. Journal of rehabilitation medicine, (43 Suppl), 113–125. https://doi.org/10.1080/16501960410023877
4. Echemendia, R. J., Meeuwisse, W., McCrory, P., Davis, G. A., Putukian, M., Leddy, J., Makdissi, M., Sullivan, S. J., Broglio, S. P., Raftery, M., Schneider, K., Kissick, J., McCrea, M., Dvořák, J., Sills, A. K., Aubry, M., Engebretsen, L., Loosemore, M., Fuller, G., Kutcher, J., … Herring, S. (2017). The Sport Concussion Assessment Tool 5th Edition (SCAT5): Background and rationale. British journal of sports medicine, 51(11), 848–850. https://doi.org/10.1136/bjsports-2017-097506
5. Gardner, A. J., Iverson, G. L., Williams, W. H., Baker, S., & Stanwell, P. (2014). A systematic review and meta-analysis of concussion in rugby union. Sports medicine (Auckland, N.Z.), 44(12), 1717–1731. https://doi.org/10.1007/s40279-014-0233-3
6. Gardner, A. J., Quarrie, K. L., & Iverson, G. L. (2019). The Epidemiology of Sport-Related Concussion: What the Rehabilitation Clinician Needs to Know. The Journal of orthopaedic and sports physical therapy, 49(11), 768–778. https://doi.org/10.2519/jospt.2019.9105
7. Hawryluk, G. W., & Manley, G. T. (2015). Classification of traumatic brain injury: past, present, and future. Handbook of clinical neurology, 127, 15–21. https://doi.org/10.1016/B978-0-444-52892-6.00002-7
8. Howell, D. R., Lynall, R. C., Buckley, T. A., & Herman, D. C. (2018). Neuromuscular Control Deficits and the Risk of Subsequent Injury after a Concussion: A Scoping Review. Sports medicine (Auckland, N.Z.), 48(5), 1097–1115. https://doi.org/10.1007/s40279-018-0871-y
9. Kamins, J., Bigler, E., Covassin, T., Henry, L., Kemp, S., Leddy, J. J., Mayer, A., McCrea, M., Prins, M., Schneider, K. J., Valovich McLeod, T. C., Zemek, R., & Giza, C. C. (2017). What is the physiological time to recovery after concussion? A systematic review. British journal of sports medicine, 51(12), 935–940. https://doi.org/10.1136/bjsports-2016-097464
10. Kenzie, E. S., Parks, E. L., Bigler, E. D., Lim, M. M., Chesnutt, J. C., & Wakeland, W. (2017). Concussion As a Multi-Scale Complex System: An Interdisciplinary Synthesis of Current Knowledge. Frontiers in neurology, 8, 513. https://doi.org/10.3389/fneur.2017.00513
11. Kuhn, A. W., & Solomon, G. S. (2015). Concussion in the National Hockey League: a systematic review of the literature. Concussion (London, England), 1(1), CNC1. https://doi.org/10.2217/cnc.15.1
12. Kenzie, E. S., Parks, E. L., Bigler, E. D., Wright, D. W., Lim, M. M., Chesnutt, J. C., Hawryluk, G. W. J., Gordon, W., & Wakeland, W. (2018). The Dynamics of Concussion: Mapping Pathophysiology, Persistence, and Recovery With Causal-Loop Diagramming. Frontiers in neurology, 9, 203. https://doi.org/10.3389/fneur.2018.00203
13. Langdon, S., Königs, M., Adang, E. A. M. C., Goedhart, E., & Oosterlaan, J. (2020). Subtypes of Sport-Related Concussion: a Systematic Review and Meta-cluster Analysis. Sports medicine (Auckland, N.Z.), 50(10), 1829–1842. https://doi.org/10.1007/s40279-020-01321-9
14. Langevin, P., Frémont, P., Fait, P., Dubé, M. O., Bertrand-Charette, M., & Roy, J. S. (2020). Aerobic Exercise for Sport-related Concussion: A Systematic Review and Meta-analysis. Medicine and science in sports and exercise, 52(12), 2491–2499. https://doi.org/10.1249/MSS.0000000000002402
15. Lempke, L. B., Howell, D. R., Eckner, J. T., & Lynall, R. C. (2020a). Examination of Reaction Time Deficits Following Concussion: A Systematic Review and Meta-analysis. Sports medicine (Auckland, N.Z.), 50(7), 1341–1359. https://doi.org/10.1007/s40279-020-01281-0
16. Lempke, L. B., Johnson, R. S., Schmidt, J. D., & Lynall, R. C. (2020b). Clinical versus Functional Reaction Time: Implications for Postconcussion Management. Medicine and science in sports and exercise, 52(8), 1650–1657. https://doi.org/10.1249/MSS.0000000000002300
17. Marklund, N., & Hillered, L. (2011). Animal modelling of traumatic brain injury in preclinical drug development: where do we go from here?. British journal of pharmacology, 164(4), 1207–1229. https://doi.org/10.1111/j.1476-5381.2010.01163.x
18. McCrea M. (2001). Standardized mental status assessment of sports concussion. Clinical journal of sport medicine : official journal of the Canadian Academy of Sport Medicine, 11(3), 176–181. https://doi.org/10.1097/00042752-200107000-00008
19. McCrory, P., Meeuwisse, W., Dvořák, J., Aubry, M., Bailes, J., Broglio, S., Cantu, R. C., Cassidy, D., Echemendia, R. J., Castellani, R. J., Davis, G. A., Ellenbogen, R., Emery, C., Engebretsen, L., Feddermann-Demont, N., Giza, C. C., Guskiewicz, K. M., Herring, S., Iverson, G. L., Johnston, K. M., … Vos, P. E. (2017). Consensus statement on concussion in sport-the 5th international conference on concussion in sport held in Berlin, October 2016. British journal of sports medicine, 51(11), 838–847. https://doi.org/10.1136/bjsports-2017-097699
20. McGinn, M. J., & Povlishock, J. T. (2015). Cellular and molecular mechanisms of injury and spontaneous recovery. Handbook of clinical neurology, 127, 67–87. https://doi.org/10.1016/B978-0-444-52892-6.00005-2
21. McPherson, A. L., Nagai, T., Webster, K. E., & Hewett, T. E. (2019). Musculoskeletal Injury Risk After Sport-Related Concussion: A Systematic Review and Meta-analysis. The American journal of sports medicine, 47(7), 1754–1762. https://doi.org/10.1177/0363546518785901
22. Mucha, A., & Trbovich, A. (2019). Considerations for Diagnosis and Management of Concussion. The Journal of orthopaedic and sports physical therapy, 49(11), 787–798. https://doi.org/10.2519/jospt.2019.8855
23. Theadom, A., Mahon, S., Hume, P., Starkey, N., Barker-Collo, S., Jones, K., Majdan, M., & Feigin, V. L. (2020). Incidence of Sports-Related Traumatic Brain Injury of All Severities: A Systematic Review. Neuroepidemiology, 54(2), 192–199. https://doi.org/10.1159/000505424
24. Quatman-Yates, C.C., Cupp, A., Gunsch, C., Haley, T., Vaculik, S., & Kujawa, D. (2016). Physical Rehabilitation Interventions for Post-mTBI Symptoms Lasting Greater Than 2 Weeks: Systematic Review. Physical Therapy, 96, 1753 - 1763.
25. Quatman-Yates, C. C., Hunter-Giordano, A., Shimamura, K. K., Landel, R., Alsalaheen, B. A., Hanke, T. A., & McCulloch, K. L. (2020). Physical Therapy Evaluation and Treatment After Concussion/Mild Traumatic Brain Injury. The Journal of orthopaedic and sports physical therapy, 50(4), CPG1–CPG73. https://doi.org/10.2519/jospt.2020.0301
26. Reid, S. A., Farbenblum, J., & McLeod, S. (2022). Do physical interventions improve outcomes following concussion: a systematic review and meta-analysis?. British journal of sports medicine, 56(5), 292–298. https://doi.org/10.1136/bjsports-2020-103470
27. Reneker, J. C., Babl, R., & Flowers, M. M. (2019). History of concussion and risk of subsequent injury in athletes and service members: A systematic review and meta-analysis. Musculoskeletal science & practice, 42, 173–185. https://doi.org/10.1016/j.msksp.2019.04.004
28. Schneider, K. J., Emery, C. A., Black, A., Yeates, K. O., Debert, C. T., Lun, V., & Meeuwisse, W. H. (2019). Adapting the Dynamic, Recursive Model of Sport Injury to Concussion: An Individualized Approach to Concussion Prevention, Detection, Assessment, and Treatment. The Journal of orthopaedic and sports physical therapy, 49(11), 799–810. https://doi.org/10.2519/jospt.2019.8926
29. Schneider, K. J., Leddy, J. J., Guskiewicz, K. M., Seifert, T., McCrea, M., Silverberg, N. D., Feddermann-Demont, N., Iverson, G. L., Hayden, A., & Makdissi, M. (2017). Rest and treatment/rehabilitation following sport-related concussion: a systematic review. British journal of sports medicine, 51(12), 930–934. https://doi.org/10.1136/bjsports-2016-097475
30. Xie, L., Kang, H., Xu, Q., Chen, M. J., Liao, Y., Thiyagarajan, M., O'Donnell, J., Christensen, D. J., Nicholson, C., Iliff, J. J., Takano, T., Deane, R., & Nedergaard, M. (2013). Sleep drives metabolite clearance from the adult brain. Science (New York, N.Y.), 342(6156), 373–377. https://doi.org/10.1126/science.1241224

Kapitel 5 - Emotionen im Sport

1. Brand, R., & Schweizer, G. (2019). Sportpsychologie Verständnisgrundlagen für mehr Durchblick im Fach. Springer.
2. Davis, P. A., Woodman, T., & Callow, N. (2010). Better out than in: The influence of anger regulation on physical performance. Personality and Individual Differences, 49(5), 457–460. https://doi.org/10.1016/j.paid.2010.04.017
3. Ekman, P., Friesen, W. V., O'Sullivan, M., Chan, A., Diacoyanni-Tarlatzis, I., Heider, K., Krause, R., LeCompte, W. A., Pitcairn, T., Ricci-Bitti, P. E., Scherer, K., Tomita, M., & Tzavaras, A. (1987). Universals and cultural differences in the judgments of facial expressions of emotion. Journal of Personality and Social Psychology, 53(4), 712–717. https://doi.org/10.1037/0022-3514.53.4.712
4. Furley, P., & Schweizer, G. (2014). The expression of victory and loss: Estimating who’s leading or trailing from nonverbal cues in sports. Journal of Nonverbal Behavior, 38(1), 13–29. https://doi.org/10.1007/s10919-013-0168-7
5. Güllich, A., & Krüger, M. (2013). Sport das Lehrbuch für das Sportstudium. Springer Spektrum.
6. Haff, G., & Triplett, N.T. (2016). Essentials of strength training and conditioning. (4. Aufl.). Human Kinetics.
7. Hanin, Y. L. (1997). Emotions and athletic performance: Individual zones of optimal functioning model. European Yearbook of Sport Psychology, 1, 29–72.
8. Hanin, Y. L. (2007). Emotions and athletic performance: Individual zones of optimal functioning model. In D. Smith & M. Bar-Eli (Eds.), Essential readings in sport and exercise psychology (pp. 55–73). Human Kinetics.
9. Hänsel, F., Baumgärtner, S. D., Kornmann, J. M., Ennigkeit, F., & Lay, M. (2016). Sportpsychologie. Springer.
10. Lazarus, R. S. (1991). Progress on a cognitive-motivational-relational theory of emotion. American Psychologist, 46(8), 819–834. https://doi.org/10.1037/0003-066X.46.8.819
11. Lazarus, R. S. (2000). How emotions influence performance in competitive sports. The Sport Psychologist, 14(3), 229–252.
12. Lazarus, R., & Folkman, S. (1984). Stress, Appraisal, and Coping. New York: Springer.
13. Meyer, W.-U., Reisenzein, R. & Schützwohl, A. (2001). Einführung in die Emotionspsychologie (Band 1, 2. Aufl.). Bern: Huber.
14. Rathschlag, M., & Memmert, D. (2013). The influence of self-generated emotions on physical performance: an investigation of happiness, anger, anxiety, and sadness. Journal of sport & exercise psychology, 35(2), 197–210. https://doi.org/10.1123/jsep.35.2.197
15. Schachter, S. (1964). The interaction of cognitive and physiological determinants of emotional state. In L. Berkowitz (Eds.), Advances in experimental social psychology (pp. 49–80). New York: Academic Press.
16. Schachter, S., & Singer, J. (1962). Cognitive, social, and physiological determinants of emotional state. Psychological Review, 69(5), 379–399. https://doi.org/10.1037/h0046234
17. Schmidt-Atzert, L. (1996). Lehrbuch der Emotionspsychologie. Stuttgart:Kohlhammer.
18. Schüler, J., Wegner, M., & Plessner, H. (2020). Sportpsychologie: Grundlagen und Anwendung. Springer.
19. Woodman, T., Davis, P. A., Hardy, L., Callow, N., Glasscock, I., & Yuill-Proctor, J. (2009). Emotions and sport performance: an exploration of happiness, hope, and anger. Journal of sport & exercise psychology, 31(2), 169–188. https://doi.org/10.1123/jsep.31.2.169
20. Yu, L., Wang, J., Lai, K.R., & Zhang, X. (2015). Predicting Valence-Arousal Ratings of Words Using a Weighted Graph Method. Annual Meeting of the Association for Computational Linguistics.

Kapitel 6 - Selbstregulation im Sport

1. Auerbach, J. G., Faroy, M., Ebstein, R., Kahana, M., & Levine, J. (2001). The association of the dopamine D4 receptor gene (DRD4) and the serotonin transporter promoter gene (5-HTTLPR) with temperament in 12-month-old infants. Journal of child psychology and psychiatry, and allied disciplines, 42(6), 777–783. https://doi.org/10.1111/1469-7610.00774
2. Baumann, S. (2018). Psychologie im Sport: Psychische Belastungen meistern, Mentale Wettkampfvorbereitung, Konzentration und Motivation. Meyer & Meyer.
3. Beckmann, J., Elbe, A.-M., Szymanski, B., & Ehrlenspiel, F. (2006). Chancen und Risiken vom Leben im Verbundsystem von Schule und Leistungssport – Psychologische, soziologische und sportliche Leistungsaspekte. Köln: Sport und Buch Strauß.
4. Bertrams, A. & Dickhäuser, O. (2009). Messung dispositioneller Selbstkontroll-Kapazität. Eine deutsche Adaptation der Kurzform der Self-Control Scale (SCS-K-D). Diagnostica, 55 (1), 2-10. https://doi.org/10.1026/0012-1924.55.1.2
5. Bertrams, A., Englert, C. (2013). Umsetzung subjektiver Sporthäufigkeitsstandards. Sportwissenschaft, 43, 276–282. https://doi.org/10.1007/s12662-013-0304-x
6. Bertrams, A., Unger, A. & Dickhäuser, O. (2011). Momentan verfügbare Selbstkontrollkraft - Vorstellung eines Messinstruments und erste Befunde aus pädagogisch-psychologischen Kontexten. Zeitschrift für Pädagogische Psychologie, 25(3), 185-196. https://doi.org/10.1024/1010-0652/a000042
7. Baumeister, R. F., Bratslavsky, E., Muraven, M., & Tice, D. M. (1998). Ego depletion: is the active self a limited resource?. Journal of personality and social psychology, 74(5), 1252–1265. https://doi.org/10.1037//0022-3514.74.5.1252
8. Baumeister, R. F., Vohs, K. D., & Tice, D. M. (2007). The Strength Model of Self-Control. Current Directions in Psychological Science, 16(6), 351–355. https://doi.org/10.1111/j.1467-8721.2007.00534.x
9. Beckmann, J. (1987). Höchstleistung als Folge mißglückter Selbstregulation. In J. P. Jansen, W. Schlicht & H. Strang (Hrsg.), Handlungskontrolle und Soziale Prozesse im Sport (S. 52–63). Köln: bps.
10. Beckmann, J. (2003). HOSP. Unveröffentlichter Fragebogen, Universität Potsdam.
11. Beckmann, J. & Trux, J. (1991). Wen lasse ich wo spielen? Persönlichkeitseigenschaften und die Eignung für bestimmte Positionen in Sportspielmannschaften. Sportpsychologie, 5 (3), 18-21.
12. Beckmann, J. & Wenhold, F. (2008). HOSP: Fragebogen zur Erfassung der Handlungsorientierung im Sport. https://www.bisp-sportpsychologie.de/SharedDocs/Publikationen/SpoPsy/DE/Fragebogen/hosp_2008.pdf?__blob=publicationFile&v=2
13. Beckmann, J., & Wenhold, F. (2009). Handlungsorientierung im Sport (HOSP) – Manual. Köln: Sportverlag Strauß.
14. Bray, S. R., Graham, J. D., & Saville, P. D. (2015). Self-control training leads to enhanced cardiovascular exercise performance. Journal of sports sciences, 33(5), 534–543. https://doi.org/10.1080/02640414.2014.949830
15. Forstmeier, S., Rüddel, H. (2005). Zur Überlegenheit von Selbstregulation über Selbstkontrolle in Psychotherapie und psychosomatischer Rehabilitation. Verhaltenstherapie, 15(3),158-166.
16. Englert, C., & Bertrams, A. (2012). Anxiety, ego depletion, and sports performance. Journal of sport & exercise psychology, 34(5), 580–599. https://doi.org/10.1123/jsep.34.5.580
17. Englert, C., & Bertrams, A. (2015). Integrating attentional control theory and the strength model of self-control. Frontiers in psychology, 6, 824. https://doi.org/10.3389/fpsyg.2015.00824
18. Englert, C., & Rummel, J. (2016). I want to keep on exercising but I don’t: The negative impact of momentary lacks of self-control on exercise adherence. Psychology of Sport and Exercise, 26, 24–31. https://doi.org/10.1016/j.psychsport.2016.06.001
19. Englert, C., Zwemmer, K., Bertrams, A., & Oudejans, R. R. (2015). Ego depletion and attention regulation under pressure: is a temporary loss of self-control strength indeed related to impaired attention regulation?. Journal of sport & exercise psychology, 37(2), 127–137. https://doi.org/10.1123/jsep.2014-0219
20. Esser, G. (2008). Verhaltensdiagnostik. In G., Esser (Hrsg.), Lehrbuch der Klinischen Psychologie und Psychotherapie bei Kindern und Jugendlichen (S. 93 -99). Georg Thieme Verlag KG, Stuttgart
21. Gröpel, P., Baumeister, R. F., & Beckmann, J. (2014). Action Versus State Orientation and Self-Control Performance After Depletion. Personality and Social Psychology Bulletin, 40(4), 476–487. https://doi.org/10.1177/0146167213516636
22. Heckhausen, H., & Strang, H. (1988). Efficiency under record performance demands: Exertion control – An individual difference variable? Journal of Personality and Social Psychology, 55, 489–498.
23. Hunte, R., Cooper, S.B., Taylor, I.M., Nevill, M.E. & Boat, R. (2021) The mechanisms underpinning the effects of self-control exertion on subsequent physical performance: a meta-analysis. International Review of Sport and Exercise Psychology. https://doi.org/10.1080/1750984X.2021.2004610
24. Kanfer, F. H. (1970). Self-regulation: Research, issues, and speculations. In C. Neuringer, & J. L. Michael, (Eds.), Behavior modification in clinical psychology (pp. 178-220). New York: Appleton-Century-Crofts.
25. Kanfer, F. (1987). Selbstregulation und Verhalten. In: Heckhausen, H., Gollwitzer, P.M., Weinert, F.E. (eds) Jenseits des Rubikon. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-71763-5_16
26. Kanfer, F. H., Hagerman, S. (1981). The role of self-regulation. In L. P. Rehm, (Ed.), Behavior therapy for depression: Present status and future directions (pp. 659-686). New York: Academic Press.
27. Kanfer, F. H., & Karoly, P. (1972). Self-control: A behavioristic excursion into the lion's den. Behavior Therapy, 3(3), 389–416.
28. Kanfer, F.H., Reinecker, H., Schmelzer, D. (2012). Grundlagen der Selbstmanagement-Therapie. In: Selbstmanagement-Therapie. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-19366-8_2
29. Kanfer, F. H., & Saslow, G. (1965). Behavioral analysis: An alternative to diagnostic classification. Archives of General Psychiatry, 12(6), 529-538.
30. Karoly, P. (1993). Mechanisms of self-regulation: A systems view. Annual Review of Psychology, 44, 23–52.
31. King, K. M., Lengua, L. J., & Monahan, K. C. (2013). Individual differences in the development of self-regulation during pre-adolescence: connections to context and adjustment. Journal of abnormal child psychology, 41(1), 57–69. https://doi.org/10.1007/s10802-012-9665-0
32. Klöppel, Y.P., Van Raalte, J.L. (2018). Psychoregulation und Psychoregulatives Training. In: Güllich, A., Krüger, M. (eds) Sport in Kultur und Gesellschaft. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-53385-7_46-1
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47. Mischel, W. (1974). Processes in delay of gratification. In L. Berkowitz (Hrsg.), Advances in experimental social psychology (Bd. 7, S. 249– 292). New York: Academic Press.
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Kapitel 7 - Biomechanik

1. Alcazar, J., Csapo, R., Ara, I., & Alegre, L. M. (2019). On the shape of the force-velocity relationship in skeletal muscles: The linear, the hyperbolic, and the double-hyperbolic. Frontiers in physiology, 10, 769.
2. Brauner, T. (2022). Kinematik. In T. Brauner, J. Müller, & K. Beinert (Eds.), Sportwissenschaft (1st ed., pp. 141–152). Elsevier.
3. Chou, L. W., Kesar, T. M., & Binder-Macleod, S. A. (2008). Using customized rate-coding and recruitment strategies to maintain forces during repetitive activation of human muscles. Physical therapy, 88(3), 363-375.
4. Cleather, D. J. (2006). Adjusting powerlifting performances for differences in body mass. The Journal of Strength & Conditioning Research, 20(2), 412-421.
5. Funato, K., Kanehisa, H., & Fukunaga, T. (2000). Differences in muscle cross-sectional area and strength between elite senior and college Olympic weight lifters. Journal of sports medicine and physical fitness, 40(4), 312.
6. aus der Fünten, K., Faude, O., Hecksteden, A., Such, U., Hornberger, W., & Meyer, T. (2013). Anatomie und Physiologie von Körper und Bewegung. In A. Güllich & M. Krüger (eds.), Sport: Das Lehrbuch für das Sportstudium, 67-122.
7. McBride, J. M. (2016). Biomechanics of resistance training. In G. G. Haff & N. T. Triplett NT (eds.) Essentials of Strength Training and Conditioning (4th ed) Champaign, IL: Human Kinetics, 19-41.
8. Paulsen, F., & Waschke, J. (2017). Sobotta, Atlas der Anatomie des Menschen Band 1: Allgemeine Anatomie und Bewegungsapparat. Elsevier Health Sciences.
9. Scott, S. H., & Winter, D. A. (1991). A comparison of three muscle pennation assumptions and their effect on isometric and isotonic force. Journal of biomechanics, 24(2), 163-167.
10. Soligard, T., Schwellnus, M., & Alonso, J. M. (2016). Infographic. International Olympic Committee consensus statement on load in sport and risk of injury: how much is too much. Br J Sports Med, 50(17), 1042.
11. Wick, D. (2013). Biomechanik im Sport. Balingen: spitta.
12. Zebis, M. K., Andersen, L. L., Brandt, M., Myklebust, G., Bencke, J., Lauridsen, H. B., ... & Aagaard, P. (2016). Effects of evidence-based prevention training on neuromuscular and biomechanical risk factors for ACL injury in adolescent female athletes: a randomised controlled trial. British journal of sports medicine, 50(9), 552-557.

Kapitel 8 - Plyometrie: Was | Wie | Warum

1. Allerheiligen, B., & Rogers, R. (1995). Plyometrics program design. Strength and Conditioning, 17, 26-26.
2. Behm, D. G., Faigenbaum, A. D., Falk, B., & Klentrou, P. (2008). Canadian Society for Exercise Physiology position paper: Resistance training in children and adolescents. Applied Physiology, Nutrition, and Metabolism = Physiologie Appliquee, Nutrition Et Metabolisme, 33(3), 547–561. https://doi.org/10.1139/H08-020
3. Brandes, R., Lang, F., & Schmidt, R. F. (eds.). (2019). Physiologie des Menschen: mit Pathophysiologie. Springer-Verlag.
4. Bosco, C., Komi, P. V., & Ito, A. (1981). Prestretch potentiation of human skeletal muscle during ballistic movement. Acta Physiologica Scandinavica, 111(2), 135-140.
5. Carter, A. B., Kaminski, T. W., Douex Jr, A. T., Knight, C. A., & Richards, J. G. (2007). Effects of high volume upper extremity plyometric training on throwing velocity and functional strength ratios of the shoulder rotators in collegiate baseball players. The Journal of Strength & Conditioning Research, 21(1), 208-215.
6. Chu, D. A. (1998). Jumping into plyometrics. Human Kinetics.
7. Faigenbaum, A. D., Kraemer, W. J., Blimkie, C. J. R., Jeffreys, I., Micheli, L. J., Nitka, M., & Rowland, T. W. (2009). Youth resistance training: Updated position statement paper from the national strength and conditioning association. Journal of Strength and Conditioning Research, 23(5 Suppl), S60-79. https://doi.org/10.1519/JSC.0b013e31819df407
8. Guyton, A. C. & Hall, J.E. (2000). Textbook of Medical Physiology. Philadelphia: Saunders.
9. Hawley, J. A. (2009). Molecular responses to strength and endurance training: are they incompatible?. Applied physiology, nutrition, and metabolism, 34(3), 355-361.
10. Hewett, T. E., Stroupe, A. L., Nance, T. A., & Noyes, F. R. (1996). Plyometric training in female athletes: decreased impact forces and increased hamstring torques. The American journal of sports medicine, 24(6), 765-773.
11. Hill, A. V. (1970). First and last experiments in muscle mechanics. Cambridge University Press.
12. Kilani, H. A., Palmer, S. S., Adrian, M. J., & Gapsis, J. J. (1989). Block of the stretch reflex of vastus lateralis during vertical jumps. Human Movement Science, 8(3), 247-269.
13. Lephart, S. M., Abt, J. P., Ferris, C. M., Sell, T. C., Nagai, T., Myers, J. B., & Irrgang, J. J. (2005). Neuromuscular and biomechanical characteristic changes in high school athletes: a plyometric versus basic resistance program. British journal of sports medicine, 39(12), 932-938.
14. Myer, G. D., Ford, K. R., Palumbo, O. P., & Hewett, T. E. (2005). Neuromuscular training improves performance and lower-extremity biomechanics in female athletes. The Journal of Strength & Conditioning Research, 19(1), 51-60.
15. National Strength and Conditioning Association. (1993). Position statement: Explosive/plyometric exercises. NSCA J 15, 16.
16. Newton, R. U., Murphy, A. J., Humphries, B. J., Wilson, G. J., Kraemer, W. J., & Häkkinen, K. (1997). Influence of load and stretch shortening cycle on the kinematics, kinetics and muscle activation that occurs during explosive upper-body movements. European journal of applied physiology and occupational physiology, 75, 333-342.
17. Oxfeldt, M., Overgaard, K., Hvid, L. G., & Dalgas, U. (2019). Effects of plyometric training on jumping, sprint performance, and lower body muscle strength in healthy adults: A systematic review and meta‐analyses. Scandinavian journal of medicine & science in sports, 29(10), 1453-1465.
18. Petersdorf, T. (2022). Kraft. In Sportwissenschaft (pp. 201-210). Urban & Fischer.
19. Potach, D. H., Kastavelis, D., Karst, G. M., Latin, R. W., & Stergiou, N. (2009). The effects of a plyometric training program on the latency time of the quadriceps femoris and gastrocnemius short-latency responses. J Sports Med Phys Fitness, 49, 35-43.
20. Potach, D. H., & Chu, D. A. (2016). Program design and technique for plyometric training. In G. G. Haff & N. T. Triplett (eds.) Essentials of strength training and conditioning. Human Kinetics, 471-520.
21. Singla, D., Hussain, M. E., & Moiz, J. A. (2018). Effect of upper body plyometric training on physical performance in healthy individuals: a systematic review. Physical Therapy in Sport, 29, 51-60.
22. Svantesson, U., Grimby, G., & Thomee, R. (1994). Potentiation of concentric plantar flexion torque following eccentric and isometric muscle actions. Acta Physiologica Scandinavica, 152(3), 287-293.
23. Wilson, G. J., Murphy, A. J., & Giorgi, A. (1996). Weight and plyometric training: effects on eccentric and concentric force production. Canadian Journal of Applied Physiology, 21(4), 301-315.