Pitching Mechanics / Injuries / Thrower Info Flashcards
What are the best predictors of injury with pitchers?
- Previous injury
- Pitching fatigue
Differences that contribute to increased force production between older and younger pitchers?
As getting older they are throwing harder but mechanics are not changing. Some of the mechanics can be developed from 8-10 years old.
Wind Up
- Preparation for force generation
- Lift lead leg
- Minimal EMG
Stride Phase
- Starts when hand leaves glove
- Initiate velocity with a step
- Lead foot moves forward
- Pelvis rotates towards home plate
Cocking
- Transfer of energy from LE to trunk
- Begins with front foot strike
- Torso rotates towards one plate
- Shoulder abd and elevation, starting to go into ER
- You’re winding of the shoulder and storing potential energy
Late Cocking: UT/SA acting to elevate shoulder, eccentric control from IR’s
Acceleration
- Transfer energy onto ball
- Start of IR
- Elbow starts to extend, wrist starts to flex
- Shoulders coming forward to face home plate
- Still eccentric control c IR
Deceleration
- Starts at ball release
- Lots of distraction on arm
- Lots of eccentric control from ER’s, periscapular mm
Follow Through
- Arm crosses the body
- Forward trunk flexion
- Need to be ready to field
Critical Points in Throwing
- Late cocking
- Peak shoulder rotation torque
- Peak elbow valgus torque
- Critical for SLAP and UCL tears - Deceleration
- Peak compressive forces several times body weight
- excessive mm activation (RTC and periscapular)
- Muscle forces about 1.5 times body weight
What are the KINETIC variables most related to injury with pitching?
- Elbow valgus torque
- Shoulder ER torque
- Pitch velocity
KINEMATIC variable related to KINETIC problems?
- Knee flexion angle (should be 38-50 at foot contact)
- Too much decreases effectiveness of throw
- Too little and you don’t transfer force to leg (more shoulder/elbow torques) - Trunk rotation (Pelvis rotates before trunk but generally accepted that trunk should not start to turn before foot contact)
- There should be separation between pelvis rotating and trunk rotation
- Peak pelvis rotation (from 0% at foot contact to 100% at release) occured at 28-35% and peak trunk at 47-53%
- If you open up too soon it’s flying open at the shoulders - Elbow flexion when releasing ball
- There is less variability amongst pitchers
- More elbow flexion = more elbow torque
5 varialbles associated with most increase in kinetic variables on the body?
3 or more of these was associated with less torque on elbow and shoulder and improved pitching efficiency.
- Leading with the hips (going into stride phase), hips move first instead of the upper body to use lower body generation
- Hand on top position (coming out of glove)
- Elbow stays high through stride and early cocking
- Closed shoulder position (can’t see chest at foot contact)
- Lead foot towards home plate
Pitch Count Numbers and Rest
Positions most provocative in OH throwers
- Fully ER’d/cocked position
- Ball release
What happens to ROM in pitchers after they throw?
IR decreases by several degrees immediately after but ER not affected. Likely due to large forces during pitching from ER’s.
