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Reider, Bruce
Gridiron greenery
Am J Sports Med
. May 2012;40(5):987-989
Links
DOI:
10.1177/0363546512446795
PubMed:
22547156
WoS:
000303323900005
Cited Works (20)
Year
Entry
2012
Dragoo JL, Braun HJ, Durham JL, Chen MR, Harris AHS. Incidence and risk factors for injuries to the anterior cruciate ligament in National Collegiate Athletic Association football: data from the 2004-2005 through 2008-2009 National Collegiate Athletic Association injury surveillance system.
Am J Sports Med
. May 2012;40(5):990-995.
2011
Williams S, Hume PA, Kara S. A review of football injuries on third and fourth generation artificial turfs compared with natural turf.
Sports Med
. November 2011;41(11):903-923.
1972
Bramwell ST, Requa RK, Garrick JG. High school football injuries: a pilot comparison of playing surfaces.
Med Sci Sports
. 1972;4(3):166-169.
1996
Torg JS, Stilwell G, Rogers K. The effect of ambient temperature on the shoe-surface interface release coefficient.
Am J Sports Med
. 1996;24(1):79-82.
2009
Villwock MR, Meyer EG, Powell JW, Fousty AJ, Haut RC. Football playing surface and shoe design affect rotational traction.
Am J Sports Med
. 2009;37(3):518-525.
1974
Torg JS, Quedenfeld TC, Landau S. The shoe-surface interface and its relationship to football knee injuries.
Am J Sports Med
. 1974;2(5):261-269.
1974
Mueller FO, Blyth CS. North Carolina high school football injury study: equipment and prevention.
J Sports Med Phys
. January–February 1974;2(1):1-10.
1971
Torg JS, Quedenfeld T. Effect of shoe type and cleat length on incidence and severity of knee injuries among high school football players.
Res Quart
. 1971;42(2):203-211.
1992
Powell JW, Schootman M. A multivariate risk analysis of selected playing surfaces in the National Football League: 1980 to 1989.
Am J Sports Med
. 1992;20(6):686-694.
1996
Lambson RB, Barnhill BS, Higgins RW. Football cleat design and its effect on anterior cruciate ligament injuries: a three-year prospective study.
Am J Sports Med
. 1996;24(2):155-159.
2006
Livesay GA, Reda DR, Nauman EA. Peak torque and rotational stiffness developed at the shoe-surface interface: the effect of shoe type and playing surface.
Am J Sports Med
. March 2006;34(3):415-422.
1986
Andréasson G, Lindenberger U, Renström P, Peterson L. Torque developed at simulated sliding between sport shoes and an artificial turf.
Am J Sports Med
. 1986;14:225-230.
1990
Levy IM, Skovron ML, Agel J. Living with artificial grass: a knowledge update, I: basic science.
Am J Sports Med
. July 1990;18(4):406-412.
2003
Orchard J, Powell JW. Risk of knee and ankle sprains under various weather conditions in American football.
Med Sci Sports Exer
. 2003;35(7):1118-1123.
1997
Scranton PE Jr, Whitesel JP, Powell JW, Dormer SG, Heidt RS Jr, Losse G, Cawley PW. A review of selected noncontact anterior cruciate ligament injuries in the National Football League.
Foot Ankle Int
. December 1997;18(12):772-776.
1973
Cameron BM, Davis O. The swivel football shoe: a controlled study.
J Sports Med Phys
. January–February 1973;1(2):16-27.
2004
Meyers MC, Barnhill BS. Incidence, causes, and severity of high school football injuries on FieldTurf versus natural grass: a 5-year prospective study.
Am J Sports Med
. 2004;32(7):1626-1638.
1996
Heidt RS Jr, Dormer SG, Cawley PW, Scranton PE Jr, Losse G, Howard M. Differences in friction and torsional resistance in athletic shoe-turf surface interfaces.
Am J Sports Med
. 1996;24(6):834-842.
1974
Adkison JW, Requa RK, Garrick JG. Injury rates in high school football: a comparison of synthetic surfaces and grass fields.
Clin Orthop Relat Res
. 1974;99:131-136.
2010
Meyers MC. Incidence, mechanisms, and severity of game-related college football injuries on FieldTurf versus natural grass: a 3-year prospective study.
Am J Sports Med
. April 2010;38(4):687-697.