COMPARISON OF THE BACKWARD OVERHEAD MEDICINE BALL THROW TO POWER PRODUCTION IN COLLEGE FOOTBALL PLAYERS

The purpose of this study was to determine the relationship of the backward overhead medicine ball (BOMB) throw to power production in college football players. Forty National Collegiate Athletic Association Division II college football players were studied at the end of an 8-week off-season conditioning program for power output determined from a counter-movement vertical jump on a force plate and for maximal distance in the standing BOMB throw. Although the reliability of the BOMB test was high (interclass correlation coefficient = 0.86), there was a significant learning effect across 3 trials (p < 0.01). Peak and average powers generated during the vertical jump correlated moderately but significantly with the best BOMB throw distance (r = 0.59 and 0.63, respectively). Considering power relative to body mass or lean body mass failed to produce significant correlations with BOMB throw distance (r = 0.27 and 0.28, respectively). Therefore, the BOMB throw may have limited potential as a predictor of total body explosive power in college football players.

[1]  D H Perrin,et al.  The Relationships among Isometric, Isotonic, and Isokinetic Concentric and Eccentric Quadriceps and Hamstring Force and Three Components of Athletic Performance. , 1991, The Journal of orthopaedic and sports physical therapy.

[2]  E A Harman,et al.  Cross-validation of three jump power equations. , 1999, Medicine and science in sports and exercise.

[3]  Edward C. Frederick,et al.  A Profile of Ground Reaction Forces in Professional Basketball , 1994 .

[4]  D. Davis,et al.  PHYSICAL CHARACTERISTICS THAT PREDICT FUNCTIONAL PERFORMANCE IN DIVISION I COLLEGE FOOTBALL PLAYERS , 2004, Journal of strength and conditioning research.

[5]  Mark A. Newman,et al.  RELATIONSHIPS BETWEEN ISOKINETIC KNEE STRENGTH,SINGLE‐SPRINT PERFORMANCE, AND REPEATED‐SPRINT ABILITY IN FOOTBALL PLAYERS , 2004, Journal of strength and conditioning research.

[6]  Jerry L Mayhew,et al.  EFFECT OF COMPETITIVENESS ON FORTY‐YARD DASH PERFORMANCE IN COLLEGE MEN AND WOMEN , 2007, Journal of strength and conditioning research.

[7]  R Mann,et al.  A kinetic analysis of the ground leg during sprint running. , 1980, Research quarterly for exercise and sport.

[8]  Barry A. Stockbrugger,et al.  Validity and Reliability of a Medicine Ball Explosive Power Test , 2001, Journal of strength and conditioning research.

[9]  T Abe,et al.  Architectural characteristics of muscle in black and white college football players. , 1999, Medicine and science in sports and exercise.

[10]  T. Abe,et al.  Relationship between body composition, blood volume and maximal oxygen uptake. , 2010, Equine veterinary journal. Supplement.

[11]  Michael H. Stone,et al.  Performance Factors, Psychological Assessment, Physical Characteristics, and Football Playing Ability , 1993 .

[12]  R. Latin,et al.  COMPARISON OF SELECTED PHYSICAL FITNESS AND PERFORMANCE VARIABLES BETWEEN NCAA DIVISION I AND II FOOTBALL PLAYERS , 2004, Journal of strength and conditioning research.

[13]  A. E. Coleman,et al.  Assessing Running Speed and Body Composition in Professional Baseball Players , 1992 .

[14]  L. Burkett,et al.  The National Football League Combine: A Reliable Predictor of Draft Status? , 2003, Journal of strength and conditioning research.

[15]  EQUIPMENT AND RUNNING SURFACE ALTER SPRINT PERFORMANCE OF COLLEGE FOOTBALL PLAYERS , 2005, Journal of strength and conditioning research.

[16]  G. Terzis,et al.  Relationship between shot put performance and triceps brachii fiber type composition and power production , 2003, European Journal of Applied Physiology.

[17]  Peter N. Frykman,et al.  Estimation of Human Power Output from Vertical Jump , 1991 .

[18]  Slobodan Jaric,et al.  Muscle Strength Assessment From Functional Performance Tests: Role of Body Size , 2003, Journal of strength and conditioning research.

[19]  W G Hopkins,et al.  Measures of Reliability in Sports Medicine and Science , 2000, Sports medicine.

[20]  T. Lohman Skinfolds and body density and their relation to body fatness: a review. , 1981, Human biology.

[21]  Tudor O. Bompa,et al.  Periodization Training for Sports , 1999 .

[22]  John B Cronin,et al.  STRENGTH AND POWER PREDICTORS OF SPORTS SPEED , 2005, Journal of strength and conditioning research.

[23]  Antti Mero,et al.  Age-related differences in 100-m sprint performance in male and female master runners. , 2003, Medicine and science in sports and exercise.

[24]  J. Weir Quantifying test-retest reliability using the intraclass correlation coefficient and the SEM. , 2005, Journal of strength and conditioning research.

[25]  Dimitris Chatzopoulos,et al.  THE EFFECT OF A COMBINED HIGH‐INTENSITY STRENGTH AND SPEED TRAINING PROGRAM ON THE RUNNING AND JUMPING ABILITY OF SOCCER PLAYERS , 2005, Journal of strength and conditioning research.

[26]  R. Diana,et al.  Assessing Anaerobic Power in Collegiate Football Players , 1990 .

[27]  Anthony J. Blazevich,et al.  Predicting Sprint Running Times From Isokinetic and Squat Lift Tests: A Regression Analysis , 1998 .

[28]  Jacob Cohen Statistical Power Analysis for the Behavioral Sciences , 1969, The SAGE Encyclopedia of Research Design.

[29]  John W Chow,et al.  EFFECTS OF HIP FLEXOR TRAINING ON SPRINT, SHUTTLE RUN, AND VERTICAL JUMP PERFORMANCE , 2005, Journal of strength and conditioning research.

[30]  Representative simple reaction and movement time scores. , 1976, Research quarterly.

[31]  D. Baker,et al.  The Relation Between Running Speed and Measures of Strength and Power in Professional Rugby League Players , 1999 .

[32]  A E Chapman,et al.  Kinetic limitations of maximal sprinting speed. , 1983, Journal of biomechanics.

[33]  A. Lees,et al.  The interpretation of relative momentum data to assess the contribution of the free limbs to the generation of vertical velocity in sports activities. , 1996, Journal of sports sciences.

[34]  J. Hoffman,et al.  COMPARISON OF OLYMPIC VS. TRADITIONAL POWER LIFTING TRAINING PROGRAMS IN FOOTBALL PLAYERS , 2004, Journal of strength and conditioning research.

[35]  Terry J. Housh,et al.  The Effect of Rest Interval Length on Repeated Maximal Bench Presses , 1994 .

[36]  Mark G.L. Sayers,et al.  Running techniques for field sport players , 2000 .

[37]  W B Young,et al.  Is muscle power related to running speed with changes of direction? , 2002, The Journal of sports medicine and physical fitness.

[38]  K. Berg,et al.  Comparison of Physical and Performance Characteristics of NCAA Division I Basketball and Football Players , 1995 .

[39]  F. C. Piper,et al.  Assessing Bench Press Power in College Football Players: The Seated Shot Put , 1993 .

[40]  Andrew C. Fry,et al.  Physical Performance Characteristics of American Collegiate Football Players , 1991 .

[41]  P. Lachenbruch Statistical Power Analysis for the Behavioral Sciences (2nd ed.) , 1989 .

[42]  Kris Berg,et al.  Physiological Determinants of 40‐Meter Sprint Performance in Young Male Athletes , 1996 .

[43]  A. Fry,et al.  Effect of Rest Interval Length on Repeated 1 Repetition Maximum Back Squats , 2003, Journal of strength and conditioning research.

[44]  Barry A. Stockbrugger,et al.  Contributing Factors to Performance of a Medicine Ball Explosive Power Test: A Comparison Between Jump and Nonjump Athletes , 2003, Journal of strength and conditioning research.

[45]  M. Stone,et al.  A hypothetical model for strength training. , 1981, The Journal of sports medicine and physical fitness.