MSAE211-MOVEMENT-SCIENCE.pdf

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MOVEMENT SCIENCE AND ERGONOMICS
MSAE211 - LECTURE | PRELIMS WEEK 1: MOVEMENT SCIENCE (BIOMECHANICS)

Body Movement
Combination of linear and rotary.
MOVEMENT SCIENCE
Ex. Walking

The study of how people move in different contexts
What other motions do I need to remember?
and of the factors related to the analysis,
improvement and recovery of physical activity.
Focus is on issues encountered in physical activity in Repeated motion
everyday life, related to work and free time, as well Same movement pattern that is done many times in
as recreational and top-level sports. a given time.
○ Reciprocal Motion
○ Oscillation
MECHANICS
○ Pendulum Motion

Scientific study and analysis of forces acting on
2. LOCATION
matter.

Divisions: Anatomical Body Position: standing erect palm
1. Statics. Bodies at rest or in uniform motion. facing forward.
2. Dynamics. Bodies accelerating-decelerating COG of the Body
Cardinal Planes
○ Frontal / Coronal
BIOMECHANICS
○ Sagittal / Midsagittal
○ Horizontal / Transverse
Biology + Mechanics

Special Cases
Divisions:
1. Kinematics
2. Kinetics Secondary Planes. Plane laid through points aside
from the COG.

KINEMATICS
Hand
Center of Sagittal Plane is 3rd Digit
Science of the motion of bodies in space.
Applies the rectangular coordinate system to Foot
describe the body in space. Center of Sagittal Plane is 2nd Toe

Wrist
DETERMINANTS OF MOTION Abduction is RD
Adduction is UD
Displacement of a body or one of its segments from
one point to another. Ankle
Upward movement is DF
Variables: Downward movement is PF
Type
Location Thumb
Magnitude Flexion / Extension - Frontal Plane
Direction Abduction / Adduction - Sagittal Plane
Rate (Rate of change at which the motion occurs)

3. MAGNITUDE OF MOTION
1. TYPES OF MOTION
Distance
Translatory How far a force moves a body.
Linear Displacement / Straight Line
In rotary motion, degrees or radians.
Rotary
Movement of a rigid segment around an axis.

MSAE211 Dianela, Alyssa Denise M. BSPT 2-Y1-2
MOVEMENT SCIENCE AND ERGONOMICS
MSAE211 - LECTURE | PRELIMS WEEK 1: MOVEMENT SCIENCE (BIOMECHANICS)

Goniometry
TWO SUBDIVISIONS OF KINEMATICS
Application of coordinate system to a joint to measure ROM.

In translatory motion, linear distance. Osteokinematics
Concerned with movement of bones.

4. DIRECTION
Arthrokinematics
Concerned with movement of the articular surface.
Clockwise, Counterclockwise
Flexion, Extension
JOINT SURFACES
Abduction, Adduction
Lateral Flexion
Medial (IR)
Lateral (ER) 1. OVOID / EGG SHAPE
Rotation to R or L
○ (+) sign: rotate to R and up One surface is convex, the other is concave.
○ (-) sign: rotate to L and down
Compression, Distraction Convex-Concave Rule
The direction of the slide depends upon the moving joint.

5. RATE AND CHANGE OF MOTION
Opposite. If the moving joint is convex.
Same. If the moving joint is concave.
Velocity
Rate at which a body or segment moves.
m/s, ft/s, deg/s 2. SELLAR / SADDLE

Acceleration Have both convex and concave surfaces on each
Rate at which a change in velocity occurs. articulating bone.
Either (+) or (-)
m/s per second; ft/s per second Example
CMC Joint of Thumb
Elbow Joint
DEGREES OF FREEDOM OF MOTION
SC Joint
Talocrural Joint
1° of Freedom
1 Plane, 1 Axis
IP Joint, Elbow Joint THREE TYPES OF MOVEMENTS OF JOINT SURFACES

2° of Freedom Rolling or Rocking
2 Planes, 2 Axes New points contact new points on the other surface.
Radiocarpal Joint
MCP Joint Sliding / Gliding
Same points contact new points on the other surface.
3° of Freedom
3 Planes, 3 Axes Spinning
Max. no that a single joint can posses in planar motion Same point contacts the same point on the other surface.
GH Joint
Acetabulofemoral Joint
CLOSED PACKED AND OPEN PACKED POSITIONS
Circumduction
2° or 3° of Freedom Closed Packed Position
Point of congruency of joint.
KINEMATIC CHAIN There’s maximum surface area of contact.
Attachments of ligaments are farthest apart and
under tension.
A combination of several joints uniting successive Capsular structures are taut, the joint is
segments. mechanically compressed and difficult to distract.

MSAE211 Dianela, Alyssa Denise M. BSPT 2-Y1-2
MOVEMENT SCIENCE AND ERGONOMICS
MSAE211 - LECTURE | PRELIMS WEEK 1: MOVEMENT SCIENCE (BIOMECHANICS)

Open Packed Position
PARTS OF FORCE VECTOR (ARROW)
Joint surfaces are incongruent
Ligament and capsules are slack and can be
distracted.

ACCESSORY MOTION / JOINT PLAY
→
Movement of joint surfaces Tail of Arrow
Cannot be performed voluntarily Represents the point of attachment of the F on another body.
Essential for N pain free joint function
Shaft
Frozen Shoulder Line of action of the Force, represents the magnitude of force.
Greater tuberosity may strike acromion instead of
sliding beneath it. Arrowhead
Loss of N joint play (movement) accompanied by Indicated the direction of F
pain (joint dysfunction)

PRIMARY SOURCES OF F OF MAJOR CONCERN FOR PT
JOINT AXES

Gravity or weight of body parts or attachments.
Not stationary, it moves as position changes Muscles
Largest movement is in the knee, elbow and wrist. External Resistance
Seldom perpendicular to long axes of bone but are Friction
frequently oblique.

THREE SECONDARY CONSEQUENCES OF THE PRIMARY
KINETICS FORCES

Concerned with force producing motion or maintain Joint Compression
equilibrium (N) Joint Distraction
A branch of dynamics which deals with forces that Pressure on Body Surface
correct or modify motion of bodies (B)

GENERAL FORCES
THEORIES OF MOTION
External Forces
Aristotle Arise from sources outside the body.
Explained the cause of animal and human motion.
Gravity
At Rest. Natural state ○ Constantly affects all objects
Motion. Required a mover ○ Should always be the 1st EF on the human
body to be considered.
Galileo ○ Pull of the earth on a body (or its
Concluded that external force was required to change the segment)
velocity of motion but not needed to maintain motion.
Wind
Water
FORCE Other People or Objects

A push or a pull that produces displacement. Internal Forces
Vector quantities having B magnitude and direction. Arise from sources within the body.
Essential to human function.
Scalar Quantities Serve to counteract EF that jeopardize the integrity of:
Have magnitude only (Ex. 10 Books) - Human Joint Structure
- Muscles
Vectors - Bones
To the R is (+), to the L is (-)

MSAE211 Dianela, Alyssa Denise M. BSPT 2-Y1-2
MOVEMENT SCIENCE AND ERGONOMICS
MSAE211 - LECTURE | PRELIMS WEEK 1: MOVEMENT SCIENCE (BIOMECHANICS)

Friction and Atmospheric PO
WEIGHT AND COG
○ Can act both externally and internally to
the body.

COMPOSITION OF FORCES

Resultant Force
Combined effect of adding or subtracting two or
more forces.
The simplest force that can produce the same
effects as all the forces acting together.
Equal to the sum of individual forces (𝑅 = Σ𝐹)
CENTER OF GRAVITY (COG)

LEVER
The single patient of a body about which every
particle of its mass is equally distributed.
A rigid bar being acted on by forces that tend to
Hypothetical point at which all mass would appear
rotate it at its pivot point.
to be concentrated.
The point at which the force of gravity would appear
to act.
In adults, slightly anterior to S2 or 55% of height.

Slightly higher in males than females
Higher in infants and children
The sum of the COG of individual segments (Σ𝑟 = 0)

Symmetrical Object
Located in the geometric center.

Asymmetrical Object
THREE FORCES OF LEVER
Located in the heavier end.

Axis or Pivot
Location of COG of Individual Segments
Weight or Resistance
Moving or Holding F
○ Mm. contraction Head
In Sphenoid Sinus
Wt. Arm
Distance from Pivot to Weight Head and Neck
On inferior surface of basioccipital bone
Force Arm
Distance from Pivot F to Axis HAT
Anterior to T11 Vertebrae & just below the Xiphoid Process (Its
weight is ~ 60% of BW)
MECHANICAL ADVANTAGE (MA)

Extended UE
A measure of the efficiency of the lever. Just above elbow
The ratio between the length of FA and the length of
WA Arm
MA = FA/WA Medial head of Triceps

Forearm
Pronator Teres insertion

Hand
Third metacarpal

MSAE211 Dianela, Alyssa Denise M. BSPT 2-Y1-2
MOVEMENT SCIENCE AND ERGONOMICS
MSAE211 - LECTURE | PRELIMS WEEK 1: MOVEMENT SCIENCE (BIOMECHANICS)

Extended LE
PRINCIPLES OF DECREASING P° THERAPEUTICALLY
Just above knee joint

Thigh 1. ↓ Magnitude of F
In adductor brevis (or magnus, VM) 2. ↑ Area of Application
3. ↓ Time of Application
Leg
Below popliteus
SPORTS BIOMECHANICS
Foot
Plantar Ligaments The study of body’s movement during sporting
activities.
To help athletes improve performance or avoid
STABLE, UNABLE AND NEUTRAL EQUILIBRIUM
injury.

FOUR FACTORS WHERE DEGREE OF STABILITY OR BIOMECHANICAL ANALYSIS
MOBILITY DEPENDS

Used by professional athletes to ensure they are
Height of COG from BOS reaching peak performance.
Size of BOS
Location of gravity line within BOS
Weight of the Body CONCERNS OF PROFESSIONALS

Stability Injury Prevention
Enhanced by ↓ COG, wide BOS, centered LOG and ↑ weight. Performance

Mobility
Enhanced by ↑ COG, narrow BOS and ↓ weight.
Sport biomechanics may include helping an
RELOCATION OF COG amputee find the most effective and efficient
prosthetics.

Everytime we add an object to the body by wearing Movement within the parameters of a specific
it or carrying it, the new COG for the combined body athletic event, such as a boxing match, are studied
and external mass will shift towards the additional by sports biomechanics.
weight.
Sports biomechanics may seek to reduce injuries
Ex. Cast to R LE - COG shift down and to R from sports such as sprinting.
Holding a suitcase - shift of COG up and to the R
Sports biometrics may help a sprinter find small
issues that can help improve her speed.
BASE OF SUPPORT

If small, there’s ↑ demand in NM system
If wide, it is advantageous in lifting and carrying

PRESSURE

Applied force per unit area (P=F/A) and expressed in
pounds per square inch (PSI) or kilogram per square
centimeter.
1 PSI = 50 mmHg

MSAE211 Dianela, Alyssa Denise M. BSPT 2-Y1-2