KIN 3514 Midterm
True or false? Athletes have to fit in perfectly into a given category (sports athletes cannot have combinations of traits in all 3 categories)
False
Osteoporosis
When resorption exceeds deposition (bone density is reduced and bone structure is weakened (lower bone stiffness) - increases risk of fracture - related to hormonal factors (decrease estrogen, bones weak) - nutritional imbalances - lack of exercise
Can an object accelerate with no velocity?
Yes
Oblique plane
a plane that is any type of angle other than horizontal or vertical angle
complex kinetic chain
a segment is linked to more than two other segments (ex- the torso)
tibiofemoral structure
anatomical axis, q-angle
Pennation angle
angle made between muscle fibers and line of pull of the muscle
acetabular anteversion
angle of that orientation is more forward, (male range: 8 degrees, female range: 14 degrees), increased angulation is associated with reduced joint stability and early onset of osteoarthritis
force arrows
are labeled according to type, point in direction of the force, havea length that is in proportion to their relative strength (longer arrows = stronger forces)
zone of weakness
area in the femoral neck that has fewer trabecular fibers crossing
Parallel/Fusiform muscle fibers
arranged along the long axis of a muscle, allow for greater range of shortening and greater shortening velocities, often used for fast and extensive movements. normally long muscles which cause long movements, not very strong but have good endurance
Pennate muscle fibers
arrangements diagonal to the longitudinal axis of the muscle; more fibers present in a given muscle, greater force production, but slower movements and smaller range of motion
power-velocity relationship
as power increases, force decreases (takes less force because you have more power)
Sarcomere Force-length relationship
myosin pulls on actin to bring actin closer to the midline during concentric and opposite during eccentric
OSteopenia
natural age-dependent loss of bone density; begins between ages 30-40; women lose 8% bone. mass per decade, men lse 3%); the epiphyses, vertebrae, and jaw are most affected; results in fragile limbs, reduction in height, tooth loss
midfoot
navicular, 3 cuneiforms, cuboid (function: assist in the formation of the transverse arch, assist in forming a midfoot lever to transmit forces from the hindfoot to the forefoot)
plastic region
no longer linear, even after the load is removed deformations are not reversed, if the applied force continues past the plastic region, the tissue will eventually fail
isometric contraction
no movement, length of sarcomeres does not change
linear strain
occurs as a result of a change in the object's length
shear strain (gamma)
occurs as a result of a change in the orientation of the object's molecules
eversion
occurs when the lateral side of the sole of the foot is lifted
Rotation
occurs when the system is restricted to move around a fixed axis- therefore in a circular path, also called angular motion
torsion stress
occurs when torques act about the long axis of the object at each end. (internal resistance to twisting)
hip-bone structure
trabecular system, zone of weakness
elastic modulus (Young's modulus)
- Stiffness of a material (ratio of stress to strain) - Good predictor of materials ability to resist bending or change in shape - Important property for dental bridges, orthodontic wires
Steps to draw a FBD
1) isolate object of interest 2) pick a point at the center of the object 3) identify forces on an object 4) draw in forces as vectors 5) draw in coordinate axes
foot structures
28 bones, 2 sesamoid bones and 27 articulation, >100 ligaments hindfoot, midfoot, calcaneus
medial meniscus is __ time as thick as the lateral meniscus
3
tendon and ligament composition
70% water, 25% collagen
Ellipsoid joint
Allows movement in 2 planes (flexion/extension, abduction/adduction), can be found in wrists and fingers
q-angle
Angle formed by drawing a line from the center of the patella to the anterior superior iliac spine, and from the tibial tubercle through the center of the patella; men average a 14-degree angle whereas women average about 17 degrees.
Somatotype
Another word for body type; a way of describing a body build
Since the form of the body directly affects sport performance,
Athletes have different body characteristics depending on the type of sport
Effects of Aging on Bones
Bones become thinner and weaker with age
Vectors
Can be used to describe forces in free-body diagrams; direction and magnitude
Hooke's Law
F=kx (When x is 0 or smaller, no cross bridge will attach in this region)
stress (sigma)
Internal resistance to deformation, not measures as just a force, but a force acting over a unit cross-sectional area of material
Photoscopic Method
Method of assessing somatotypes: William Sheldon, 4000 pictures of young people
Anthropometric Method
Method of assessing somatotypes: rating form, body dimensions. (height, weight, skinfold thickness, width, girth)=
Joints
Parts of the body where two or more bones meet to allow movement
What is the plane of motion for most of the joint actions that occur during sprint running? What is the corresponding axis for motion for these joint actions?
Sagittal plane and transverse axis
Which mechanical stress cause the most bone injuries?
Shear stress (ex- in football, a striker can be tackled back and forth by opponents)
Hinge joint
Simple joint, 1 DOF (flexion and extension); approximate a round cylinder that fits into a matching shallow trough
Wolff's Law
States that most tissues in a healthy person or animal will adapt to loads placed upon it
Sarcomeres
Thin filaments in a hexagonal array around the thick filaments (myosin), each thin filament (actin filament) can form "cross-bridges" with thick filaments
Limitation of BMI
This is an inaccurate measure of body fat content and does not take into account body composition (muscle mass, bone density, etc.)
Structure of the hip joint
acetabulum is normally directed laterally, anteriorly, and inferiorly
What joint action occurs at the shoulder joint and what are the plane and axis of motion during the pulling up phase of a wide-grip pull up?
adduction in frontal plane around the anteroposterior axis
Saddle joint
allows 2 planes of movement (flexion/ extension, ad/abduction). forun in carpometacarpal joint of the thumb
ball and socket joint
allows movement in 3 planes and is the most mobile of the synovial joints (flexion/extension, ab/adduction, rotation)
Abduction
along frontal plane, around anteroposterior axes, causes limb movements in frontal planes through the largest range of motion (away from the body)
Adduction
along frontal, around anteroposterior, causes limb movement back toward the anatomical position
lateral flexion
along frontal, around anteroposterior, occurs at trunk and neck
Pivot joint
also allow movement in one plane 1 DOF, (rotation, pronation, and supination): approximate a pin inserted into a hole or a cylinder that fits into a shallow trough
knee joint function
alters the length of the lower extremity, locomotion
Kinetic chain
an engineering concept used to describe human movement; each segment of the body is considered a rigid link system
bone is strongest where fibers are
at a 90 degree angle
inversion
at the ankle joint, occurs when the medial side of the sole of the foot is lifted
hip joint- articulating surface
ball and socket joint, acetabulum (pelvis side), femoral head
anisotropic characteristics
behavior of bone varies with the direction of the force applied (ex- bones are strongest in compression and weakest in shear)
Viscoelastic Characteristics
bone adapts differently depending on loading rates and duration; able to absorb more energy at faster rates of loading
epiphyseal cartilage
cartilage ends of long bones ossify soon after birth, except for the cartilage that separates from the rest of the bone. This cartilage eventually disappears (long bone stops growing in length between ages of 10-25)
Endochondral ossification
cartilage is replaced by bone
linear strain (epsilon)
change in length/ original length
General motion
combination of linear and angular motion (most human motion)
which mechanical stresses occur most frequently during daily activities?
compression- but injuries from pure compressive stress are uncommon
Advanced methods of anthropometry
computerized tomography (CT), magnetic resonance imaging (MRI), ultrasound, DEXA, 3D body scanner
wihout meniscus:
contact area is reduced by 50% (stress = force / area). the load ont he femoral condyle is doubled, toad on tibial condyles may increase 6-7 times, friction increases by 20%
hyaline cartilage
cover articulation ends of bone, consists of 60-80% H2O and a matrix of collagen and proteoglycan; has anisotropic and viscoelastic characteristics, has low coefficient of friction allowing movement between bones smoothly. functions: absorb shock and provide an extremely smooth surface to make movement easier, transmit the compressive loads from bone to bone joints
Ergonomics
create safe machinery and protective equipment using anthropometry
frontal (coronal)
divides into front and back sections (anterior and posterior); allows for side to side movements
Sagittal (side)
divides into right and left sections (or lateral both ways); split through middle
transverse (horizontal)
divides into upper or lower sections (superior or inferior); allows for spinning motion like throwing a frisbee
pronation of the foot
dorsiflexion at the ankle(sagittal), eversion in the tarsals(frontal), abduction of the forefoot(transverse)
simple kinetic chain
each segment participates in no more than two linkages (ex- the arm)
cartilage types
elastic, fibrous, hyaline
large q-angle in landing from a jump or cutting maneuver
excessive hip adduction and internal rotation during weight bearing have the potential to affect the kinetics/kinematics of the entire lower extremity. This is an indicator of potential injury including ACL tears and patellofemoral pain
Isokinetic movement
exercise refers to. movement at a constant speed regardless of the force applied; measures the power produced by maximal effort knee extension.flexion at varying velocities of contraction
hyperextension
extension is continued to the point that beyond the anatomical position
elastic cartilage
external ear, several other organs, maintains shape
a large q-angle is always a biomechanical factor that can increase injury risk
false
compression is the most common. examples:
femur and tibia are under compression, as a result of your body weight pushing down on the proximal end and the reaction force from below pushing up on the distal end. During a push up, forces push up on each end of the humerus, and it is axially loaded in compression
structure of the knee joint
femur, patella, medial collateral ligament, lateral collateral ligament, anterior cruciate ligament (ACL), lateral meniscus, medial meniscus, fibula, tibia
Range of motion examples
flexion/extension, pronation/supination, radial and ulnar deviation
shear stress (tau)
force / cross-sectional area at the analysis plane
force-velocity relationship
force decreases as velocity increases
abduction of the leg at the hip (side leg raise) is movement in the ___ plane around the ___ axis
frontal, anteroposterior
abduction of the arm at the shoulder is the movement in the ___ plane in the ___ axis
frontal, anterposterior
tendon and ligament function
guide normal movement and restrict abnormal movement, maintain joint congruence, sending joint loading/strains
ulnar deviation
hand movement in a frontal plane toward the little finger
radial deviation
hand movement in a frontal plane toward the thumb
flat bones
have flat surfaces and are thinner in one dimension; designed for protection and provides a large surface for muscle attachment (ex- skull, scapula, ilium, sacrum)
Endomorph
high body fat, soft body, round shoulders, wide hips, slim wrists, and ankles
When you swing a baseball bat, what is the plane of motion for the action occurring at your leading shoulder? What is the axis of motion? What joint action occurs at the leading shoulder during the swing?
horizontal abduction (lateral rotation) in transverse plane around longitudinal axis
bending
in general, multiple stresses occur in an object or human body, and this creates complex patterns, like bending stress, creates both compression and tension stresses
meniscus reduces
incongruency
meniscus function
increase joint stability, shock absorption, reduce friction, distribute force, surface area --> reduce stress (force/area)
Large cross-sectional area
indicates more sarcomeres are contributing to contractile force
depression
inferior movement of the scapula
fibrous cartilage
intervertebral discs, resists compression, shock absorption, reduced friction between bony surfaces very tough and strong tissue, predominantly found in the intervertebral disks, pubic symphysis, or meniscus; can withstand a high load; also forms to improve fit between bones
internal rotation
inward or medial rotation along transverse plane around longitudinal axes
function of joints
join bones together while controlling the motion allowed between them; transfer between bones and joints
functional classification of joints
joints are classified according to how much they. move (ex- skull, pubic bones in pelvis dont move at all)
ligament fiber arrangement
larger elastic components and this always makes them less stiff and slightly weaker than tendons
knee joint
largest joint, consist of: tibiofemoral joint patellofemoral joint
Ectomorph
little body fat and muscle, narrow shoulders and hips, thin, flat chest
Mesomorph
low body fat, muscular body, broad shoulders, narrow hips, strong forearms and thighs
elastic region
low strain values, linear, fully reversed when the load is removed
Body Mass Index (BMI)
mass of body over height in meters squared
Dynamic measures
measurements are taken while the body is engaged in some physical activity (functional anthropometric data)
medial or lateral meniscus accepts more load
medial
forefoot
metatarsals, phalanges, medial and lateral sesamoid (function: adapts to uneven surfaces, assist in balance and dynamic control)
Translation (linear)
motion along one of the x,y, or z axes in which all points of the system move at the same time, in the same directions, and the same distance with respect to the defined reference frame, also called linear motion
horizontal abduction (horizontal extension)
move away from the midline of the body; does not commence from anatomical position (starts with arms straight in front)
synovial joints
moveable joints; most common type of joint in the body - low friction articulation - can withstand significant wear and tear and provide shock absorption
flexion
movement around transverse axis that decreases the angle of a joint
extension
movement around transverse axis that increases the angle of a joint
plane or gliding joint
movement is "nonaxial" and no rotation takes place; found in carpls (had) and tarsals (foot)
abduction of shoulder
movement of scapula away from the midline (rounding back)
adduction of shoulder
movement of scapula toward the midline (pinching shoulder blades)
horizontal adduction (horizontal flexion)
movement toward the midline of the body; does not commence from anatomical position (starts with arms straight in front)
external rotation
outward or lateral rotation along transverse plane around longitudinal axes
Static measures
passive measures of the dimensions of the human body while in a fixed position (more easily determined)
structure of the hip complex
pelvic girdle and hip joint (articulating surface)
supination of the foot
plantar flexion at the ankle, inversion in the tarsals, adduction of the forefoot
concentric contraction
sarcomere shortens
trabecular system
present in the head and neck of femur, resist compressive stress that occurs on the femur
Functions of muscle
produce movement, maintain postures, stabilize joints (ex- isometric contraction, generate force without filaments shortening) - non-movement related: support and protect organs, maintenance of body temperature, control entrances and exits of the body
parallel arrangement
provide stiffness and has high resistance to tensile stress, but has little resistance to compression and shear
ankle/foot joint function
provides a stable base while conforming to UNEVEN surfaces (pronation, supination), shock absorbs through foot flexibility (pronate when feet hit the ground), transmits rotational forces into forward progression (like propulsive force)
anatomical axis
relationship between femoral and tibial axes gives slight valgus angle
deposition
response to increased stress (increase load, bones become stronger), due to weight bearing exercise; osteoblasts dominate
pronation
rotating the forearm so that palm is faced down and forearm is flexed; along transverse and around longitudinal
supination
rotating the forearm so that the palm face up; along transverse and around longitudinal
anteroposterior axis
running from anterior to posterior (perpendicular to frontal plane)
transverse axis
running from left to right (perpendicular to sagittal plane)
longitudinal axis
running from top to bottom (perpendicular to transverse plane)
What plane does your forearm lie in throughout the movement?
sagittal plane
flexion of the arm at the shoulder is movement in the ___ plane around the ___ axis
sagittal, transverse
flexion of the leg at the hip is movement in the ___ plane around the ___ axis
sagittal; transverse
eccentric contraction
sarcomere lengthens
synovial membrane
secretes synovial fluid into the joint to lubricate, reduce friction, and provide nutrition (main source of bone nutrition)
creep (strain) and stress relaxation effect
shows how cartilage is damaged under pressure initial period: strain increases, rapid fluid exudation increases and secretes synovial fluid, exudation stop: deformation stop, stress relaxation: deformation reduced If force continues to by applied, strain will be increased significantly and cartilage will be damaged.
Sliding filament and cross-sectional theory
skeletal muscles contract by sliding of actin filaments upon myosin filaments
short bones
small, solid, and block-like; hand and foot bones (the carpals and tarsals); important in shock absorption and transmission of forces
large pennation angles result in
smaller force being transmitted to the tendon, but greater physiological cross-sectional area)
sesamoid bones
special type of short bone, circular; provides attachment points (egx- patella)
Anthropometric Method equipment
stadiometer, weighing scale, skinfold caliper, sliding caliper, measuring tape
tendon fiber arrangement
stiffer and has high resistance to tensile stress
shear (transverse) stress (tau)
stress that resists sliding movement of parallel layers of material relative to each other ( internal resistance to prevent sliding of layers of object) (f/a)
kinetics
study of force- what's pushing/pulling
Antrhopometry
study of measurement (quantitative) of the human body used to study differences between race, age, and sex
kinematics
study of the spatial and temporal characteristics of motion; does not consider forces that lead to the observed motion
elevation
superior movement of the scapula
examples of bending
supports (heel and metatarsophalangeal joints), load (tibia, talus) compressive stress (bone of the foot), tension stress (plantar fascia, dorsal muscles)
Hip joint function
supports the weight of the head, arms, and trunk; stabilizes by controlling the alignment of the leg and provides great ROM, force transmission, locomotion
hindfoot
talus and calcaneus (function: initial foot contact, the progress into the midfoot and forefoot through loading response)
What are articular connective tissues?
tendons (muscle to bone), ligaments (bone to bone) they are passive structures (we don't have voluntary control of them)
when a compressive force is applied to cartilage,
tensile stress increases near the outer surface of the cartilage. the tensile strength of collagen holds the cartilage together under compressive loads because the collagen fibers are arranged near the exterior surfaces of the cartilage
Irregular bones
termed due to shape and provide for a variety of functions (support, distribute loads, protect spinal cord, muscle attachment)
speed
the distance traveled divided by the time it took to travel the distance (distance/time) "how fast an object is moving"
articular cartilage can withstand high compressive and tensile force, mainly because of
the fluid inside the collagen fibers
Eccentric force is greater than concentric force because
the proportion of cross-bridge is greater in the eccentric (rate of cross-bridge detachments (g) is decreased)
strain
the quantification of the deformation of a material (when objects are subjected to external forces, they deform)
velocity
the rate of change of displacement (displacement/time) "the rate at which an object changes its position"
acceleration
the rate of change of velocity (change in velocity/time)
multiplanar joint movement
the structure/geometry of most joints allows movement in multiple planes simultaneously
Newtonian anthropometry
this data is used in mechanical analysis of the loads on the human body; related to strength measures (Ex- grip strength and comfort)
anatomical reference axis
three reference axes for describing human motion (each is perpendicular to one of the three planes of motion)
ankle structure
tibiotalar joint (hinge joint: 1 DOF, articulations include proximal tibia/fibular, and distal talus)
ACL: failure
toe regions, linear (elastic region), plastic region, failure
plantar flexion
toes and foot toward the sole. occurs only at the ankle joint (along sagittal plane)
the total area under the stress-strain curve is a measure of
toughness
What axis is perpendicular to a sagittal plane?
transverse axis
rotation of the torso at the lumbar spine (trunk twist) is movement in the ___ plane around the ___ axis.
transverse, longitudinal
with the arms extended at the side at shoulder height, and bringing them forward and out, is movement in the ___ plane around the ___ axis
transverse, longitudinal
static q-angle doesn't really tell you much about the person's strength or biochemical perspective
true
True or false? Bone is stronger if a load is applied quickly, but weaker if a load is applied slowly
true (ex- slow loads can cause bone fractures, and fast loads cause ligament ruptures)
in what sports situations does tension stress occur?
tug of war, hanging by a bar in gymnastics
pelvic girdle
two coxa (or innominate bones), pubic symphysis - amphiarthrodial joint (not freely moveable)
Plane
two dimensional surface with an orientation defined by the spatial coordinates of three discrete points not all contained on the same line (imaginary flat surface)
resorption
type of bone remodeling; response to decreased stress (decrease load, bone becomes weak) due to disuse, immobilization, microgravity; osteoclasts dominate
dorsiflexion
upward flexion of the foot (along sagittal plane)
Forensics and criminolgy
use anthropometry as a form of identity analysis through skeletal measurements to determine biologic facts
epiphyseal lines
what epiphyseal plates grow into, visible on x rays
compression stress
when an object is axially loaded in compression, the object tends to deform by shortening in the direction of these external forces (internal resistance to shortening)
tension stress
when an object is axially loaded in tension (pull), the object tends to deform by stretching or elongating in the direction of the external loads. (ex- hang from a chin-up bar, the humerus is loaded axially in tension) (internal resistance to elongating)
