group 8 bymed
TRANSCRIPT
BIOMECHANICAL APPLICATIONS IN SHOE
TECHNOLOGIESOne Step Into A Stronger Body
• Our Mission:Promoting health and mobility through biomechanical research and education
BIOMECHANICS?
• Biomechanic is literally the mechanics of biological organisms.It is the science that describes and predicts the motions of living bodies.
• Sport bioemechanis is a subarea of bioengineering that analysises the relationship between the muscle-skeleton system of human body and other structures that body related with.
Lower Leg Anatomy
• There are 3 several parts of the lower leg being researched in biomechanics.
• ANKLE
• FOOT
• KNEE
ANKLE
• The ankle joint is made up of 3 bones that touch with each other. The tibia, fibula, and talus. Along with bones, anatomy also includes the ligament.Ligaments are most commonly injured during an ankle
sprain. • .
FOOT
• The foot is made up of many different bones but there are some areas in foot which are commonly injured;
• Toes
• Matatarsals
• Tendonitis
Knee
• Your knee is a hinge type joint that allows for the movements. There are four major ligaments in your knee.
• MCL
• LCL
• ACL
• PCL
MOST COMMON SPORT INJURIES
Hamstring Strain
Sprained Ankle
Meniscus Tear
Anterior Cruciate Ligament
Hernia
ONE SMALL STEP,SEVERAL
MAJOR BENEFITS
BIOMECHANICAL SHOES
• Biomechanical shoes combine extra width and extra depth with good biomechanical function.
EASY TONE
RUN TONE
TRAIN TONE
MBT
T-MAC 4
Our aim is creating a sport shoe that decreases the possibility of some
injuries and also increases the efficiency of the traning.
3 Major Steps
• Testing
• Understanding forces
• Designing
Balance Pods
Balance Pods
Ankle Barrier