440 likes | 521 Views
Developing & Training Sport Specific Speed. John P. Piper, MA, CSCS, ACSM-HFI Toppenish SD – Performance Training. The Toppenish Philosophy. Injury proof Improve work capacity (athletic fitness) Improve performance through athletic skill (vs. sports skill)
E N D
Developing & Training Sport Specific Speed John P. Piper, MA, CSCS, ACSM-HFI Toppenish SD – Performance Training
The Toppenish Philosophy • Injury proof • Improve work capacity (athletic fitness) • Improve performance through athletic skill (vs. sports skill) • Help each athlete have the best experience possible
The Elements • Performance Psychology • Performance Nutrition • Injury Prevention • Comprehensive approach to training the Components of Performance Fitness
Coordinating with Team Coaches • Questions and communication • What’s the problem? • What’s the Science? • How do we apply the science to move toward solutions? (Applying the Science)
Want speed? Start early “Speed is most efficiently patterned early in an athletes development. Therefore training should begin at the critical stage of development…bouts of exercise with full recovery. - Vern Gambetta
12 Components for developing Sports Specific Speed • #1 Movement Preparation for Speed Development • #2 Core Training • #3 Prehabilitation for Speed Development • #4 Strength & Endurance Training • #5 Power Development • #6 Straight-Ahead Speed • #7 Lateral Speed / Agility • #8 Metabolic demands • #9 Flexibility • #10 Recovery • #11 Nutrition • #12 Putting it all together
Running Speed, Straight-Ahead Speed Running speed is an interaction of an athletes stride length and stride frequency (stride rate). • Stride length – relates to body height and leg length (moderately trainable). • Stride rate – has a much greater impact on final velocity (highly trainable)
Injury from sprinting • injury occurs when sprinting due to the deceleration of body segments. • Hamstrings • Hip Flexors • Keys to prevention; strength & dynamic flexibility
Injury from Agility • Stopping or breaking forces • Eversion sprains • Non-contact ACL (PEP program, www.aclprevent.com/index.htm, www.training-conditioning.com) • Key to prevention: Proprioception
Component #1:Movement Preparation for Speed Movement prep prepares the body for the demands of training or competition. Prepare at the intensity that the body will be expected to perform. “Get ready to fly”
Movement Preparation • Ability to perform at a high level. • High energy activities that stimulate all systems – dynamic movements. • Dynamic movements that simulate performance movements – multi directional Jumps, slides, and change of direction • Prehab acceleration and deceleration training – decrease injury occurrence (ACL)
Movement Preparation Simple to Complex • Increase body temp., heart rate, respiration rate. - Jump Rope • General Movements - Skips, Hops, Jumps (45 pop) • Dynamic Flexibility - Hamstrings, Hips Flexors, Hip Rotators • Compound Movements • Multi-directional movements • Transitions - Quick, smooth changes from one pattern to another (sports specific)
Component #2Core Training • What is the core? “The core musculature can be defined as the 29 pairs of muscles that support the lumbo-pelvic-hip complex…The core is also referred to as the ‘power house’, or the foundation of all limb movement.”
Core Training How should the core be trained? • Strength vs. Stability • Multi-directional • Simple to complex • Lying to standing • Static to dynamic
Core Training • Core Bracing - Stand tall • Stabilization - Planks and holds • Flexion & Extension - Hip-ups and walk-outs • Rotation - Chops and swings
Component #3Pre-habilitation • Prehab acceleration and deceleration training – decrease injury occurrence (ACL)
Pre-habilitation for Speed Development • Hip Complex • Hamstring • Hip Flexors • Hip Rotators • Train the movement, not the muscle
Pre-habilitation • Hip Flexors - Dynamic flexibility movements • Hamstrings • Step Ups • Lunges • Hip Extensors & Rotators • Seated bands • Monster walks
Component #4Muscular Strength& Endurance • Resistance Training (not always weight training – body weight) should be a part of your training plan
Strength/Endurance In-season strength training… • Improves injury resistance. • Maintains a higher season-long fitness level. • Improves confidence and self-esteem (motivation).
Strength/Endurance Training • Simulate sport movement (2-3x per week; 1-3 sets of 10-15 reps) • Double leg movements • Squats • Deep Squats - Overhead Squat • Single leg movements - Lunges • Touch Downs • Cone Touches
Component #5Power • Can be easily fit into practice plan • Power is the ability generate force. Strength + Speed = Power. • Plyometrics (1-2x per week; 1-3 sets / 80-120 contacts, depending on age) • Teach jumping and landing • Injury prevention • Teach sport-specific explosiveness
Power Training • Vertical Power - Squat Jumps • Horizontal Power - Obstacle Jumps • What does your sport primarily involve?
Component #6Developing Straight-Ahead Speed 3 areas of focus; • Sprint techniques and mechanics • Speed Strength • Speed Endurance
Speed Techniques & Mechanics • Posture – Stand tall • Arm action – shoulders to pockets; punch arms • Leg action – Knee up, heel up, toe up (Triple extension)
Speed Strength • Assisted Speed - Objective: to develop stride rate • Resisted Speed - Objective: to develop stride length and acceleration
Speed Strength • Resisted Speed (1-2x per week; 4-6 reps) • Strap Pulls • Parachutes • Tire Pulls • Assisted Speed (1-2x per week; 4-6 reps) • Let-goes • Down Hill Runs • Bungee Cords
Component #7Lateral Speed - Agility • Agility is the ability to decelerate, accelerate, and change directions while maintaining body control without decreasing speed
Agility • Identify and develop the target movement patterns • Identify and develop key movement combinations • Identify key stimuli and subsequent reactions.
Developing Agility Areas of focus; • Posture - Athletic position • Visual focus - Look in direction of action • Arm action - Punch to sprint • Leg action • Step in direction of travel “hips and shoulders will follow eyes and feet”
Agility Training Starts, Stops, Restart • Reaction (falling, square, lateral, reverse) • Lines • Cones Turns • Box Drill • Touch Downs General Movement Patterns • Ladders Specific Movement Pattern • Daily work intervals
Component #8Metabolic Demands – Anaerobic Endurance • Lactic Acid build up is the major cause of peripheral fatigue in anaerobic sports. • Solution: develop ability to recycle lactic acid.
Metabolic Demands • Metabolic Endurance (work capacity) • Out of season preparation for increased work capacity • Absolute Speed - Maximum efforts with full recovery • Speed Endurance - Sustained effort equal to or exceeding game efforts. • How long will your athletes have to produce effort? • What distance will they travel in a competition?
Speed Endurance • Needs to be sport specific • Ability to hold top speed for duration of competition segment • Analysis of competition film • By sport position • Examples; • Baseball • Soccer • Basketball • Must have a sport specific aerobic base to build on (appropriate work capacity)
Component #10Recovery ? What’s recovery? “Training recovery is the recovery between successive work-outs or competitions…the period between the end of one work out and the beginning of the next.”
Recovery “Control what you can control” • You can control what goes on at practice. • Recovery practices • Daily fluid intake • Practice nutrition
Recovery Practices • Stretching • Yoga • Foam Rollers • PVC • Golf Balls
Component #11Nutrition • Pre Training • During Training • Post Training • Influence – Intake, Body Composition
“If you see a turtle on a fence post you know that he didn’t get there by himself.” - Former WSU Director We can wait for the talented, or we can develop their talents.
Component #12Putting it all together (?) • What are the speed demands of your sport? • What will be your area of focus (based on; age, training age, sport) • In-season or out-of-season? • Give it time to work • Keep data, give feedback
Contact Information John P. Piper, MA, CSCS, ACSM-HFI Toppenish SD – Performance Coach 509/945-1128 jpiper@toppenish.wednet.edu
References American College of Sports Medicine, American Dietetic Association, Dietitians of Canada. (2000). Nutrition and athletic performance – Joint position statement. Medicine & Science in Sport & Exercise. Vol. 32, No. 12, pp. 2130-2145. Bompa, T.O. (2000). Total training for young champions. pp. 93-113. Human Kinetics, Champaign, IL. Bishop, P.A., Jones, E., Woods, A.K. (2008). Recovery from training: A brief review. Vol. 22, No. 3, pp. 1015-1024. Journal of Strength & Conditioning Research. Brown, L.E., Ferrigno, V.A., Santana, J.C. (2000). Training for speed agility and quickness. Pp 79. Human Kinetics. Champaign, IL. Faries, M.D., Greenwood, M. (2007). Core training: stabilizing the confusion. Vol. 29, No. 2, pp 10-25. Strength & Conditioning Journal. Ischander, M. et. al. (July,2007). Progressive dehydration causes a progressive decline in basketball skills performance. Medicine & Science in Sports & Exercise, Vol. 39, #7, pp 1114-1123. American College of Sports Medicine.
References Jeffreys, I. (October, 2006). Motor learning – Applications for agility, part I. Vol. 28, #5, pp 72-76. National Strength & Conditioning Association. Jefferys, I. (December, 2006). Motor learning – Applications for agility, part II. Vol. 28, #6, pp 10-14. National Strength & Conditioning Association. McBride-Triplett, T. (no date). Lactic acid: understanding the burn during exercise. Vol. 3, No. 4, pp Performance Training Journal.