Overuse knee injuries in bicycling - Dansk Sportsmedicin

dansksportsmedicin.dk

Overuse knee injuries in bicycling - Dansk Sportsmedicin

Referencer til artikel i Dansk Sportsmedicin nr. 3/2011:

"Overuse knee injuries in bicycling"

af Benjamin Clarsen, PT, MSc, Oslo Sports Trauma Research Center, Oslo.

1. Norsk Cykkelforbund Lisenshistorikk 2000-2009

2. Dannenberg A, Needle S, Mullady D, Kolodner K. Predictors of

injury among 1638 riders in a recreational long-distance bicycle

tour: Cycle Across Maryland. Am J Sports Med. 1996;24:747-53.

3. Kulund D, Brubaker C. Injuries in the Bikecentennial tour. Phys

Sportsmed. 1978;6:74-78.

4. Weiss B. Nontraumatic injuries in amateur long distance bicyclists.

Am J Sports Med. 1985;13:187-92.

5. Wilber C, Holland G, Madison R, Loy S. An epidemiological

analysis of overuse injuries among recreational cyclists. Int J Sports

Med. 1995;16:201-6.

6. Clarsen B, Bahr R, Krosshaug T. Overuse Injuries in Professional

Road Cyclists. Am J Sports Med. 2010;38:2494-4501

7. Holmes J, Pruitt A, Whalen N. Cycling Knee Injuries. Common

mistakes that cause injuries and how to avoid them. Cycling

Science 1991;3:11-14.

8. Holmes J, Pruitt A, Whalen N. Lower extremity overuse in bicycling.

Clin Sports Med. 1994;13:187-205.

9. Mellion M. Common cycling injuries. Management and

prevention. Sports Med. 1991;11:52-70.

10. Ericson M, Nisell R. Patellofemoral joint forces during

ergometer cycling. Physical Therapy 1987;67:1365-69

11. Bailey M, Maillardet F, Mesenger N. Kinematics of cycling in

relation to anterior knee pain and patellar tendonitis. J Sports Sci

2003;21:649-57.

12. Wheeler J, Gregor R, Broker J. The effect of clipless float

design on shoe/pedal interface kinetics and overuse knee injuries

during cycling. J App Biomech 1995;11:119-141.


13. Gregor R, Wheeler J. Biomechanical factos associated with

shoe/pedal interfaces: implications for injury. Sports Med

1994;17:117-131.

14. Peveler W, Pounders J, Bishop P. Effects of saddle height on

anaerobic power production in cycling. J Strength Cond Res

2007;21:1023-1027.

15. Peveler (article on economy)

16. Bailey M, Messenger N. Coronal plane kinematics of cycling

and their relationship to injury. J Sports Sci 1995;14:3-4.

17. Hannaford D, Moran G, Hlavac H. Video analysis and

treatment of overuse knee injury in cycling: a limited clinical

study. Clin Pod Med Surg 1986;3:671-678.

18. Sanderson D, Black A, Montgomery J. The effects of Varus

and valgus wedges on coronal plane knee motion during steady

state cycling. Clin J Sports Med 1994;4:120-124.

19. O’Neill B, Graham K, Moresi M et al. Custom formed orthoses

in cycling. J Med Sci Sports 2011;E Pub ahead of print.

doi:10.1016/j.jsams.2011.04.002

20. Holmes J, Pruitt A, Whalen N. Illiotibial band friction syndrome

in cyclists. Am J Sports Med 1993;21:419-424.

21. Farrell K, Reisinger K, Tillman M. Force and repetition in

cycling: possible implications for iliotibial band friction syndrome.

Knee 2003;10:103-109.

22. Witvrouw E, Werner S, Bellemans J, et al. Clinical classification

of patellar pain syndrome: Guidelines for non-operative

treatment. Knee Surg Sports Traumatol Arthrosc. 2005;13:122-30.

23. Nalsund J, Naslund U, Odenbring S, et al. Comparison of

symptoms and clinical findings in subgroups of individuals with

patellofemoral pain. Physiother Theory Pract. 2006;22:105-18.

24. Holmes SW, Clancy W. Clinical classification of patellofemoral

pain and dysfunction. J Orth Sports Phys Ther 1998;28:299-306.

25. Brushøj C, Homlich P, Nielsen M, Albrecht-Beste E. Acute

patellofemoral pain: Aggrivating activities, clinical examination,

MRI and ultrasound findings. Br J Sports Med 2008;42:64-67.

More magazines by this user
Similar magazines