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Stanitski, Carl L.; McMaster, James H.; Ferguson, Roger J.
Synthetic turf and grass: a comparative study
Am J Sports Med
. 1974;2(1):22-6
Links
DOI:
10.1177/036354657400200103
PubMed:
4468319
Cited By (26)
Year
Entry
2009
Pérez-Soriano P, Llana-Belloch S, Cortell-Tormo JM, Pérez-Turpin JA. Biomechanical factors to be taken into account to prevent injuries and improve sporting performance on artificial turf.
J Hum Sport Exer
. 2009;4(2):78-92.
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.
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
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.
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.
1999
Thacker SB, Stroup DF, Branche CM, Gilchrist J, Goodman RA, Weitman EA. The prevention of ankle sprains in sports.
Am J Sports Med
. November 1999;27(6):753-760.
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.
2006
Ramirez M, Schaffer KB, Shen H, Kashani S, Kraus JF. Injuries to high school football athletes in California.
Am J Sports Med
. July 2006;34(7):1147-1158.
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.
2010
Wannop JW, Worobets JT, Stefanyshyn DJ. Footwear traction and lower extremity joint loading.
Am J Sports Med
. 2010;38(6):1221-1228.
2012
Hershman EB, Anderson R, Bergfeld JA, Bradley JP, Coughlin MJ, Johnson RJ, Spindler KP, Wojtys E, Powell JW. An analysis of specific lower extremity injury rates on grass and FieldTrf playing surfaces in National Football League games: 2000-2009 seasons.
Am J Sports Med
. October 2012;40(10):2200-2205.
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.
2009
Wannop JW, Luo G, Stefanyshyn D. Wear influences footwear traction properties in Canadian high school football.
Footwear Sci
. 2009;1(3):121-127.
2010
Drakos MC, Hillstrom H, Voos JE, Miller AN, Kraszewski AP, Wickiewicz TL, Warren RF, Allen AA, O'Brien SJ. The effect of the shoe-surface interface in the development of anterior cruciate ligament strain.
J Biomech Eng
. January 2010;132(1):011003.
2006
Ford KR, Manson NA, Evans BJ, Myer GD, Gwin RC, Heidt RS Jr., Hewett TE. Comparison of in-shoe foot loading patterns on natural grass and synthetic turf.
J Sci Med Sport
. December 2006;9(6):433-440.
1975
Bonstingl RW, Morehouse CA, Nievel BW. Torques developed by different types of shoes on various playing surfaces.
Med Sci Sports
. Summer, 1975;7(2):127-131.
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.
2009
Villwock MR, Meyer EG, Powell JW, Fouty AJ, Haut RC. The effects of various infills, fibre structures, and shoe designs on generating rotational traction on an artificial surface.
Proc Inst Mech Eng Part P-J Sports Eng Tech
. 2009;223(1):21-29.
2002
Orchard J. Is there a relationship between ground and climatic conditions and injuries in football?
Sports Med
. 2002;32(7):419-432.
1996
Mallette TE.
Frictional and Tractional Characteristics of Various Shoe-Surface Interface Combinations on Wet and Dry Natural and Artificial Turf
[Master's thesis]. East Lansing, MI: Michigan State University; 1996.
1996
Warren AJ.
The Friction and Traction Characteristics of Various Shoe-Surface Combinations With Different Vertical Loads
[Master's thesis]. East Lansing, MI: Michigan State University; 1996.
2009
Meyer EG.
Biomechanical Response of the Knee to Injury Level Forces in Sports Loading Scenarios
[PhD thesis]. East Lansing, MI: Michigan State University; 2009.
2009
Villwock MR.
Rotational Traction At the American Football Shoe-Surface Interface and Its Application to Ankle Injury
[Master's thesis]. East Lansing, MI: Michigan State University; September 2009.
2012
Wannop JW.
Footwear Traction and Lower Extremity Non-Contact Injury
[PhD thesis]. Calgary, AB: University of Calgary; August 2012.
2014
Schrier NM.
Using Kinetics to Determine Slip Probability in a Movement Associated With a High Risk of Slip Occurrence
[Master's thesis]. Calgary, AB: University of Calgary; September 2014.
2012
Brock EA.
Biomechanical Differences of Two Common Football Movement Tasks in Studded and Non-Studded Shoe Conditions on Infilled Synthetic Turf
[Master's thesis]. Knoxville, TN: The University of Tennessee; August 2012.