Unit 1

Question 1

Define Anatomical Position

Answer 1

When no two bones are crossed. Standing or laying dine with palms up.

Question 2

Define Prone and Supine positions

Answer 2

Prone: face down/laying
Supine: face up/laying

Question 3

What are the three Anatomical planes and definitions.

Answer 3

Median/Midsaggital/saggital- divides body into right and left sides.

Frontal/Coronal: divides body into front and back

Transverse/horizontal: divides body into top & bottom.

Question 4

What directions are anterior and posterior? Superior and inferior? Medial and Lateral? Proximal and Distal?

Answer 4

Anterior: front of body
Posterior: back/behind body
Superior: towards head/up
Inferior: towards feet/down
Medial: towards midline
Lateral: away from midline
Proximal: towards trunk of limb
Distal: away from trunk of limb

Question 5

What are contralateral and ipsilateral position?

Answer 5

Contralateral: opposite sides of body/ Right leg and Left arm.
Ipsilateral: same sides of body/ right leg and arm

Question 6

Define Dermatomes.

Answer 6

Regions of skin innervated by a single spinal nerve.
Sensation of touch for different areas of nerves on skin.

Question 7

Define Myotomes. What types of nerves?

Answer 7

Muscles and their related actions innervated by a single spinal nerve. Peripheral nerves.

Question 8

What are the four types of tissues and their functions/characteristics.

Answer 8

Epithelial- it is the outer layer, it covers surfaces inside and out, it lines the blood vessels and organs. This tissue is cellular, polar, attached, avascular, and highly regenerative.

Connective: protects, binds together, supports, fills in spaces. Diverse types, protein, cellular components.

Muscle: needed for movement. contractile, responds to stimulation from nervous tissue.

Nervous: has neurons and glial cells. Neurons- controls activities and process info. It is excitable. Glial cells- support and protect neurons. Non excitable.

Question 9

What are the five different structures epithelium can take?

Answer 9

Simple Squamos- row of squished.
Stratified Squamos- stack of squished.
Simple Cuboidal- row of cubes
Stratified Cuboidal- stack of cubes
Simple Columnar- row of tall columns
Stratified Columnar- stack of columns
Pseudostratified: one layer thick but appears stratified in columns. contains cilia.

Question 10

Key characteristics of connective tissues.

Answer 10

-tissue cells are not in contact with each other, surrounded by fluid.
- highly vascularized
- protein fibers add structure and strength

Question 11

What are the three 3 basic components of connective tissues

Answer 11

-cells, protein fiber, and ground substance

Question 12

What are the cells and fibers found in connective tissue?

Answer 12

Cells
- fibroblasts (fiber-creators)
- adipocytes (fat cells)
Fibers
- collagen, elastic, and reticular

Question 13

Info on Collagen Fibers

Answer 13

-made of the protein collagen
-tough, flexible, resists stretching
- in dissection, collagen has a pearly white appearance.

Question 14

Info on Elastin Fibers

Answer 14

-stretchy like rubber bands
imparts the ability to stretch and recoil back to original shape.

Question 15

Wound healing (connective tissue)

Answer 15

Clotting proteins and plasma proteins begin to clot and form scab.
Collagen bridge allows for epithelial cells to multiply and migrate.
Scar tissue replaces collagen bridge.

Question 16

Define tendons and ligaments (and fascia)

Answer 16

Tendons- connects muscle to bone, has collagen fibers which reduces elasticity.
Ligaments: connects bones to bones, rigid to reduce tears.
Fascia- found between the skin and the muscles, it also subdivides muscles. Connective tissues are arranged in enveloping sheets that surround structures

Question 17

Define superficial and deep fascia.

Answer 17

superficial fascia- found deep to the skin universally in the body, rich in adipose tissue, loose in organization.

Deep fascia- almost universal, devoid of adipose and extends inward to subdivide muscles and wrap around neurovascular bundles.

Question 18

What are the three types of cartilages and where are they found?

Answer 18

Hyaline cartilages: bone to bone connections, in between elastic and rigid. Most abundant

Elastic cartilages: most flexible, found in ears.

Fibrocartilages: most rigid, found at knee joint. Shock absorbing

Question 19

What are chondroblasts and chondrocytes and where are their found.

Answer 19

Chondroblasts: produce the matrix of cartilage, they become chondrocytes once they make enough matrix to encase themselves in lacunae.

Chondrocytes: mature cartilage cells that maintain the matrix.

Question 20

Features of Cartilage Matrix

Answer 20

Avascular
Resistant to compression: compression helps maintain cartilage by promoting fluid movement to cells (like squeezing a water bottle).
Tears easily.

Question 21

What are the key functions of cartilage

Answer 21

-providing a gliding surface for joints
- providing a model for bone formation/ growth
-skeletal structure where flexibility or resistance to breaking is useful (adds flexibility to bones)

Question 22

What is the outer layer of bone.

Answer 22

Periosteum

Question 23

What are the five specialized bone functions

Answer 23

Protection of vital structures- form rigid walls of cavities (ribs)

Support for body: vertebral column forms
structural framework for trunk

Mechanical basis for movement: provide attachments for muscles and provides levers for other bones.

Blood cells: red bone marrow in ends of long bones

Mineral storage: calcium, phosphorus, and magnesium. Calcium is necessary for muscle contraction.

Question 24

Where does bone grow

Answer 24

Ossification center in middle and ends of bones. Growth plate of hyaline cartilage.

Question 25

With age, what occurs to bones.

Answer 25

Childhood- more fibrous, less mineral, easily deformed or fractured.

Adulthood- mineralization is well balanced and bones are durable

Elders- lose mineralization, fractures increase.

Question 26

2 growth parts of Long Bones

Answer 26

Diaphysis- growth between 2 parts (shaft of bone)

Epiphysis- growth at end (rounded ends)

Question 27

Define spongy and compact bone

Answer 27

Spongy- inner bone, made up of trabeculae filled with marrow.
Compact- outer bone, smooth and solid

Question 28

Define nerve and tract

Answer 28

nerve: a bundle of axons in the peripheral nervous system

tract: a bundle of axons in the central nervous system.

Question 29

Difference between CNS and PNS

Answer 29

CNS- consists of the brain and spinal cord
:brain stem, cerebellum and cerebrum
PNS- all nerves that exit from brain and spinal cord
:12 pairs cranial nerves and 31 pairs spinal nerves

Question 30

What are the two types of cells in nervous tissue.

Answer 30

Neurons: conduct nerve impulses from one part of the body to another
Glial Cells: support neurons in the environment.

Question 31

Three structure of the neuron structure

Answer 31

Cell body- nucleus
Dendrites- short processes off the body that receive nerve impulses
Axon- long process through which the neuron sends an impulse.

Question 32

What makes myelin sheaths in PNS and CNS?

Answer 32

Schwan cells make myelin sheaths in PNS
Oligodendrocytes make myelin sheaths in CNS.

Question 33

What are the two bone classification systems?

Answer 33

Axial- skull/vertebral column/ sternum &ribs. Center (no appendage)
Appendicular: appendages, pectoral girdle, pelvic girdle.

Shape: long, short, flat, irregular, sesamoid.

Question 34

Long Bones

Answer 34

Tubular, found in appendages, growth from epiphysis. Fingers

Question 35

Short Bones

Answer 35

Cuboidal
Found only in wrist and ankle

Question 36

Flat Bones

Answer 36

usually serve protective functions
found in the axial skeleton (sternum and ribs)

Question 37

Irregular Bones

Answer 37

any shape other than long, flat, or short.
Usually many tendinous attachments.

Question 38

Sesamoid Bones

Answer 38

-develop in tendons where tendons cross long bones
-they protect the tendons from excessive wear

Question 39

3 types of muscle tissue

Answer 39

Skeletal muscle: cells attach to bones. Long and multinucleated. control force range.

Smooth muscle: cells form sheets within organs and blood vessels. Cells are shorter, contract together as unit. Mononucleated.

Cardiac Muscle: found only within the heart. Contract together as a unit.

Question 40

How do skeletal muscles move. What are extensors and flexors.

Answer 40

muscles will move insertion point of bone closer to origin point during flexion.

Flexion: shortening joint angle
Extension: increasing joint angle

Question 41

Muscle Location(intrinsic and extrinsic)

Answer 41

Muscles can be found within the region where their action occurs are called intrinsic muscles-located directly where action occurs.

Muscles found outside the area where their action occurs are called extrinsic- not located in area of action but still have effect

Question 42

Arrangements of muscle fibers

Answer 42

Pennate: more force produce, large cross section, short length, stacked
Parallel: more shortening possible, small cross section, long length

Question 43

Define abduction and adduction

Answer 43

abduction- move away from body
adduction- bring back to body

Question 44

Define elevation and depression

Answer 44

Elevation: raise
Depression: lower

Question 45

Define circumduction, medial (internal) rotation, lateral (external) rotation

Answer 45

Circumduction: rotational motion made possibly by ball and socket joints

Internal rotation: movement where the anterior surface of a limb rotates toward the midline

External: movement where the anterior surface of a limb rotates away from the midline

Question 46

What are the two Uniaxial joints? Biaxial?
Triaxial?

Answer 46

Uniaxial: Hinge and Pivot(trochoid)
Biaxial: Condyloid and Saddle
Triaxial: Plane and Ball & Socket

Question 47

What movements can Hinge and Pivot joints do? Examples

Answer 47

Hinge: flexion/extension. Think of something fitting perfectly in a cup. an example would be the elbow joint.

Pivot: side to side rotation. Example would be the C2 (axis) rotation of your neck

Question 48

What movements can Condyloid and Saddle joints do? Examples.

Answer 48

Condyloid: forward/backward and side to side movements. think foot ball in a dish. Flexion/extension abduction/adduction. Example Metacarpo-phalangeal joint (finger to knuckle)

Saddle: rocking side to side and front/back. Two U pieces together. Example: thumb joint

Question 49

What movements can Plane and Ball & Socket joint do ? Examples

Answer 49

Plane: slide up/down, side/side, and rotate around. This joint usually acts uniaxial. Example: clavicle

Ball & Socket: abduction and adduction, circumduction, side to side. Example: shoulder

Question 50

What are the three layers between skull and brain?

Answer 50

Dura Mater, Arachnoid mater, Pia Mater

Question 51

Features of Dura mater, arachnoid mater, and pia mater

Answer 51

DM: 2 layers: periosteal layer and meningeal layer
AM: “spider legs” lift the membrane off of brain to reduce pressure from cerebral spinal fluid.
PM: directly on cerebrum. deep to subarachnoid space where cerebrospinal fluid flows.

Question 52

what does the subarachnoid space house?

Answer 52

cerebrospinal fluid

Question 53

what are the “peaks” and “valleys” of the brain called?

Answer 53

Sulci: valley
Gyri: peak

Question 54

What are the three large components of the “brain”

Answer 54

cerebrum, cerebellum, and brain stem

Question 55

What is gray matter and white matter in the brain.

Answer 55

Gray matter: outer layer, is made of cell bodies.
White matter: inner layer, axons of cells.

Question 56

What is gray matter and white matter in the spinal cord?

Answer 56

White matter: outer layer, houses cell bodies
Gray Matter: inner layer, houses axons

Question 57

Functions of cerebrum

Answer 57

thoughts, reasoning, language, memory, judgement, voluntary, visual, auditory.

Question 58

What are the five lobes of the cerebrum and their functions?

Answer 58

Frontal lobe: Primary motor cortex, pre-motor cortex, personality, cognition, planning

Parietal Lobe: somatosensory cortex (sense of touch).

Temporal: olfactory and auditory information, sense of smell and hearing.

Occipital: primary visual cortex, visual input.

Insula: sense of taste.

Question 59

Where and what are the Central and Lateral Sulcus?

Answer 59

Central: separates anterior and posterior hemispheres of cerebellum. Can be easily seen between frontal and parietal lobes.

Lateral: separates superior and inferior hemispheres of cerebellum. Can be seen separating frontal/parietal lobes with temporal lobe.

Question 60

Roles of hypothalamus and their nuclei

Answer 60

-control over autonomic nervous system
-control of endocrine system
- Nuclei control body temp, emotional behavior, and food/water intake.

Question 61

What is the Limbic system and what are its subparts?

Answer 61

a collection of deep brain structures that regulate emotions, memories and emotional responses to sensory stimuli.
Connects to the reticular formation to coordinate physical responses to fear.

contains amygdala and hippocampus

Question 62

What are the functions of the amygdala and hippocampus?

Answer 62

amygdala: fear center. process fear and coordinates appropriate nervous system response. recognizes menacing facial expressions

hippocampus: forms, consolidates and retrieves memories.

Question 62

What is thalamus and where is it located?

Answer 62

paired oval structures lateral to the midline.
Acts as a filter for somatosensory information. Direct sensory info to the correct lobe. Send info about the origin of the sensation
It can edit, amplify or diminish information heading to the cerebral cortex.

Question 63

What does the midbrain do ?

Answer 63

it contains many centers of control for limb, eye motor movements.

Question 64

What does the Pons do?

Answer 64

sensory and motor tracts that connect the brain to the spinal cord.

Question 65

What is the primary function of the medulla oblongata?

Answer 65

Communication between brain and spinal cord involves tracts through Medulla.
Descending motor tracts and Ascending sensory. Allows for autoregulation of cardiac and respiratory center.

Question 66

What are the three types of fibrous synarthroses? Examples

Answer 66

Sutures: Fibrous connective tissue joins two bones, found in the skull, immoveable.
Syndesmoses: two bones are joined by a wide sheet or membrane. found between ulna and radius
Gomphoses: surfaces of the bones are adapted to each other, like a peg and socket: How teeth connect to jaw.

Question 67

Define uni, bi, and multipennate muscles.

Answer 67

Unipennate: muscle fibers are oriented at one fiber angle.
Bipennate: muscle fibers are oriented at two fiber angles.
Multipennate: bundle of muscle fibers

Question 68

What are the two types of synarthroses?

Answer 68

synchondroses: hyaline cartilage directly connects two bones (growth plates)
Symphyses: pad of fibrocartilage connects two bones. Common in weight bearing locations.