Exercise science final w/ meghans quizlet
superior
(cranal) toward the upper part of the body
posterior
(dorsal) back
anterior
(ventral) front
connective
this tissue binds, supports, and protect things (i.e. bone, cartilage, and blood). the four sub categories of connective tissue include: dense connective tissue, loose connective tissue, cartilage, and blood.
endosytosis
to come into a cell
What are the 6 functions of the skeleton?
1.attachment 2.protection 3.blood cell production 4.movement 5.support 6.mineral reservoir B-S-P-A-M-M (helpful mnemonic?)
How many bones are in the human body?
206
anatomical planes
3 planes: 1. median/sagittal 2. frontal 3. transverse
extension
to increase the joint angle, to straighten
flexion
to lessen the joint angle (i.e. fetal position)
exosytosis
to move out of a cell
diffusion
to pass through, rate of diffusion depends on the size (smaller=easier travel) of the molecule and it's movement (temperature=more movement). This is passive transport
medial
towards the center of the body
inferior
towards the lower part of the body
extracellular matrix
A conglomerate of materials outside the cells. "Molecules secreted by cells that provides structural and biochemical support to the surrounding cells."
lateral
towards the side of the body
superficial
towards the surface
Anatomical axes
An axis is a straight line around which an object rotates (frontal, sagittal, longitudinal) i.e. somersault is across front axes along sagittal plane.
What are the two main parts of the skeletal system?
Axial and appendicular
sodium potassium pump
It is a well-known pump in active transport that pushes sodium and potassium back to their proper places when action potential moves down the axon terminal of a nerve cell following hyperpolarization
circumduction
tri-planar, circular motion at the hip or shoulder
vesicular transport
May be active (transport), something inside the cell will form a membrane around itself, attach to the actual cell membrane, then spit out the material (exit the cell).
Jumping Jacks are?
On the frontal plane (adduction/abduction)
Ice skating is?
On the horizontal plane (rotation)
Running/walking is?
On the sagittal plane (flexion/extension)
Anatomical position
One's direct, uniform stance, discussion is relative to this stance.
pronation
turning arm or foot downward
rotation
turning on a single axis
General Rule:
The axis of rotation is perpendicular to the plane of movement.
inversion
turning sole of foot inward
eversion
turning sole of foot outward
epithelial
The function of this tissue is to cover body's surfaces (skin).
The 4 main type of tissue:
epithelial, connective, muscle, and nervous
supination
turning the arm or foot upward
sesamoid bone
These are short bones embedded in tendons where large amounts of pressure develop. (i.e. the patella).
Terms of position and direction
These are used to describe objects in relation to something else.
Muscle tissue
Tissue that facilitates movement
nervous tissue
Tissue used to regulates and controls bodily functions and activity.
joint
where two or more bones meet
medullary (bone marrow) cavity
in long bone, contains bone marrow
bone marrow
in long bone, flexible tissue found inside bones that produces blood cells.
glucose
a carrier of materials through the membrane
synovial joint
a freely moveable joint (i.e. elbow, knee)
plasma membrane
a layer surrounding the cell
pinosytosis
a.k.a. cell drinking. A mode of endocytosis in which small particles are brought into the cell
phagosytosis
a.k.a. cell eating (i.e. white blood cells eat the bad material found in blood, it attacks invaders).
dorsiflexion
ankle movement bringing lot towards the shin
plantarflexion
ankle movement pointing for downward
ACL
anterior cruciate ligament: connection to the tibia, common injury in female athletes.
order from smallest to largest, the units in a body
atoms-->molecules-->organelles-->cells-->tissues-->organs-->organ system-->organism
distal
away from the center of the body
hyperextension
beyond anatomical position, extended even further
adduction
body part moving towards the midline of the body
proximal
closer to the center of the body
ligament
connects bone to bone, the bond of tough fibers.
tendon
connects muscle to bone, specialized skeletal structures that generally transmit muscular pull to bones (i.e. achilles tendon).
deep
deep, internal or inside (often referring to a cut)
reposition
describes the movement of the thumb towards the index finger.
fibrous joint
does not move, is fixed (i.e. skull)
prone
face down
supine
face up
what are the 3 main types of joints?
fibrous, cartilaginous, and synovial
cartilage (sub-type)
flexible compared to bones, but weaker. Many bones start as cartilage (i.e. earlobe, disks in the backbone). definition: cartilage is a hard, strong connective tissue that provides support and a sliding area for joints.
passive transport
going down a concentration gradient, easier movement because no energy is required.
concentration gradient
how much of a material is on either side of the cell (Inside vs. outside)
cartilaginous joint
little bits of the joint move (i.e. spine)
what are the 4 types of bones?
long (femur), short (carpal), flat(scapula), irregular (vertebrae, pelvis)
depression
lowering a part
phospholyus bylayer
made of hydrophobic and hydrolyfic cells.
opposition
movement of the thumb away from the index finger.
radial deviation
movement of wrist towards radium or lateral side
ulnar deviation
movement of wrist towards ulna or medial side
retraction
moving a part backwards
protraction
moving a part forward
abduction
moving body part away from the body's midline.
foot neutral
natural foot stance
loose connective tissue (sub-type)
not as many fibers, less dense, but has more blood than dense conn. tissue.
3 parts of the cell:
nucleus, plasma membrane, cytoplasm
foot supination
on the outside of the foot
foot pronation
on the sole (the inside)
unilateral
one side of the body
periosteum
part of long bone, provides blood and a point for muscular attachment
articular cartilage
part of long bone, reduces friction to absorb shock
aqua pores
pores for the transportation of water
elevation
raising a part
bilateral
referring to both sides of the body
active transport
requires energy to move objects through the cell, goes against the concentration gradient.
external rotation
rotation at the hip or shoulder away from the midline
internal rotation
rotation at the hip or shoulder towards the midline
lateral flexion
side-bending left or right (i.e. at the neck or hips)
semi-permeable
some stuff may pass through, depends on the size and concentration gradient.
facilitated diffusion
something helps the diffusion process (i.e. a channel or pore in the membrane of a cell).
blood vessels
supplies oxygenated blood
appendicular skeleton
the appendicular skeleton include the upper and lower extremities, the pelvic bone, and the shoulders. It's job is to provide movement and support, act as a mineral reservoir, and store fat and energy.
axial skeleton
the axial skeleton include the skull, vertebrae, ribs, and sternum. It's job is to protect vital organs.
osmosis
the diffusion of water
epiphysis
the end of the long bone (made of cancellous/spongy bone)
diaphysis
the shaft of the long bone (made of compact bone)
simple diffusion
things simply pass through (very small, most commonly a lipid of fat-soluble molecules). This is an example of passive transport
dense connective tissue (sub-type)
this connective tissue has very little blood (it heals slowly), contains an extracellular matrix, and has fibers (this is what makes it dense) (i.e. tendons and ligaments). Lack of blood is the reason ligaments and tendons do not heal as quickly.
