CHAPTHER 5: CORE MUSCLES
5.1 FUNCTION OF CORE MUSCLE
DEFINITION OF CORE MUSCLE
Lumbo-pelvic-hip complex
Location of center of gravity (CoG)
Efficient core allows for:
a) Maintenance of normal length-tension relationships
b) Maintenance of normal force couples
c) Maintenance of optimal arthro kinematics
d) d) Optimal efficiency in entire kinetic chain during movement
FUNCTIONAL ANATOMY OF CORE MUSCLE
LUMBAR SPINE MUSCLES
Transversospinalis
group
connect and stabilize vertebra
Erector spinae
provide intersegmental stabilization
Quadratus lumborum
Extends, stabilises, and laterally flexes the lumbar spine
Latissumus dorsi
to pull the arm towards the pelvis
ABDOMINAL MUSCLE
Rectus abdominus
Decelerates trunk flexion and lateral flexion
External obliques
Contralateral rotation and ipsilateral lateral
flexion, decelerate trunk extension, and
lateral flexion
Internal obliques
Ipsilateral rotation, lateral flexion,
decelerates extension, rotation, and lateral
flexion
Transverse abdominus
Ttabilization against rotations and
translational
HIP MUSCLE
Psoas
• Produces hip flexion,
external rotation, lumbar
extension, lateral flexion,
and rotation.
• Decelerates hip
extension, and internal
rotation
Gluteus Medius
â–ªFrontal plane stabilizer
â–ªControls femoral
adduction & internal
rotation
Gluteus Maximus
â–ª Accelerate hip extension & external rotation
â–ª Decelerate hip flexion & internal rotation
â–ª Decelerates tibial internal rotation with Tensor Fascia
latae (TFL)
â–ª Stabilizes sacroiliac (SI)joint
Hamstring
â–ª Concentrically flex the knee,
extend the hip & rotate the
tibia
â–ª Eccentrically decelerate
knee extension, hip flexion
& tibial rotation
â–ª Work synergistically with
the ACL to stabilize tibial
translation
THE CORE
Neuromuscular efficiency
1. Ability of CNS to allow agonists, antagonists, synergists, stabilizers & neutralizers to work efficiently &
interdependently
2. Established by combination of postural alignment & stability strength
3. Optimizes body’s ability to generate & adapt to forces
4. Dynamic stabilization is critical for optimal neuromuscular
efficiency
Core stabilization concepts
1.The body’s stabilization system should utilize the strength, power, neuromuscular control, and muscular endurance in the prime mover.
2.If the extremity are strong, the core are weak, there will be not enough force can be produce.
3.A weak core is fundamental of inefficient movement
(biomechanics) and lead to injury.
4.If neuromuscular efficiency is GOOD, it allows body to decelerate gravity, ground reaction forces, and momentum at the right joint, right plane and at the right time.
Postural Consinderation
Core functions to maintain postural alignment & dynamic postural
equilibrium
Segmental deficit results in predictable dysfunction
GUIDELINE FOR CORE STABILIZATION
Emphasize muscle contraction spectrum
Concentric (force production)
Eccentric (force reduction)
Isometric (dynamic stabilization)
Goal of program
To develop optimal levels of
functional strength & stabilization
Program variation
Plane of motion
Range of motion
Load
Body position
Amount of control & speed
Feedback
Duration and frequency
Exercise selection
Safe
Challenging
Stress multiple planes
Proprioceptively rich program
Activity specific
Exercise progression
1.Slow to fast
2.Simple to complex
3.Stable to unstable
4.Low force to high force
5.Eyes open to eyes closed
6.General to specific
7.Static to dynamic
Core Stabilization Program
Level 1: STABILIZATION
Level 2: STRENGTH
Level 3: POWER
PROPRIOCEPTION AND FLEXIBILITY
DEFINITION
WHAT IS PROPRIOCEPTION
The sense of knowing where your
body part is in space
Proprioceptors are sensors
that provide information
about joint angle, muscle
length and muscle tension
WHAT IS FLEXIBILITY
Ability to move a joint or series of joint through a
full, non restricted, paint free range of motion
IMPORTANCE
Importance of Proprioception exercise
Improve both movement of speed and
position
Help in body balancing
Maintains joint stability through the
feedback of position and movement
sense, and assists in coordination of
movement
Importance of Flexibility exercise
Increase range of motion
Improve performance in physical activities
Helps to heal and prevent back pain
SPECIFIC EXERCISE
Types of exercise enhance to enhance proprioception
Balancing Exercise
Exercises Whiles Closing The Eyes
Strengthening Exercises
Plyometric Movements And Drills
Type of exercise to increase flexibility
Dynamic Stretching
Static Stretching
Passive Exercise-
Active Exercise
5.4 ROLES OF MUSCULAR STRENGTH AND ENDURANCE
DEFINITION
Muscular strength
Ability of a muscle to generate force against some
resistance
Muscular endurance
Ability to perform repetitive muscular contractions
against some resistance for an extended period of
time
MUSCULAR STRENGTH VS MUSCULAR ENDURANCE
Strength
Heavier weights with a lower number of repetitions
Endurance
Relatively lighter weights with a greater number of
repetitions.
TYPES OF SKELETAL MUSCLE CONTRACTION
Isometric
Concentric
Eccentric
FACTORS THAT DETERMINE LEVELS OF MUSCULAR STRENGTH AND ENDURANCE
Size of the muscle
Number of muscle fiber
Neuromuscular efficiency
Biomechanical consideration
Age
Overtraining
Fast twitch vs slow twitch fibers
PHYSIOLOGY OF STRENGTH DEVELOPMENT
Muscle Hyperthrophy
Other physiological adaptation to resistance
exercise
Tendon & ligament increased
Mineral content of bone increased
Maximal oxygen uptake improved
TECHNIQUE OF RESISTANCE TRAINING
Isometric Exercise
Progressive Resistive Exercise
Isokinetic Exercise
Plyometric Exercise
ROLES OF CARDIOVASCULAR ENDURANCE
DEFINITION
Ability to perform whole-body activities for extended periods of time without
undue fatigue
CARDIOVASCULAR COMPONENTS
1.Heart
2.Blood Vessels
3.Blood
Training effects on the cardiovascular system
Decrease in resting heart rate
Decreased heart rate at specific workloads
Increased stroke volume
Unchanged cardiac output
Decrease recovery time
Increased capillarization
Specific exercise can be done
Continuous Training
Interval Training
Fartlek training
Par Cours