Anatomy Final

Question 1

Anatomical Position

Answer 1

Arms at side, palms facing forward and feet together

Question 2

Supine

Answer 2

Lying face up

Question 3

Prone

Answer 3

Lying face down

Question 4

Anterior/Ventral

Answer 4

Front or stomach surface

Question 5

Posterior/Dorsal

Answer 5

Back

Question 6

Superior

Answer 6

Higher, above

Question 7

Inferior

Answer 7

Lower, below

Question 8

Medial

Answer 8

Towards the midline of the body

Question 9

Lateral

Answer 9

Away from the midline of the body

Question 10

Proximal (Limbs)

Answer 10

Towards the origin of of a structure/ origin of attachment

Question 11

Distal (Limbs)

Answer 11

Away from the origin of of a structure/ origin of attachment

Question 12

Superficial

Answer 12

Near the surface

Question 13

Deep

Answer 13

Away from the surface

Question 14

Transverse sectional plane

Answer 14

Cuts the body into superior and inferior parts

Question 15

Frontal sectional plane

Answer 15

Cuts the body into ventral and dorsal parts

Question 16

Sagittal sectional plane

Answer 16

Cuts the body into left and right parts

Question 17

Homeostasis

Answer 17

Maintenance of a stable internal environment

Question 18

Homeostatic Autoregulation (Intrinsic)

Answer 18

Cells and tissues adjust to an environmental change

Question 19

Extrinsic Homeostasis

Answer 19

System outside of tissues and cells make adjustments.
Ex. nervous/’endocrine system

Question 20

Homeostatic Mechanism

Answer 20

1. Receptor - Receives stimuli
2. Control center - Receives and processes stimuli
3. Effector - Gives a response that either opposes or enhances stimuli

Question 21

Negative Feedback

Answer 21

Most homeostatic mechanism use negative feedback. Negative feedback negates or opposes the initial stimuli.
I.e. AC of the body

Question 22

Serous Membranes

Answer 22

Produces a thin lubricating liquid

Question 23

Visceral

Answer 23

Covers Organs

Question 24

Parietal

Answer 24

Lines cavity walls

Question 25

Pleural Membranes

Answer 25

Visceral and parietal membranes of the lungs

Question 26

Pericardium

Answer 26

Visceral and parietal membranes of the heart

Question 27

Peritoneum

Answer 27

Visceral and parietal membranes of the abdomen

Question 28

Ionic Bond

Answer 28

Transfer of electrons; attraction between two oppositely charged ions; weak bonds which easily dissociate.
Loss of an electron in the valance shell to bond.

Question 29

Covalent Bonds

Answer 29

Strong single and double bonds; can be polar or nonpolar

Question 30

Nonpolar Covalent Bonds

Answer 30

Electrons are equally shared between atoms; No Charge

Question 31

Polar Covalent Bonds

Answer 31

Electrons are shared unequally between atoms; results in polar molecules which have one negative and one positive end; Charge
Ex. Water

Question 32

Hydrogen Bonds

Answer 32

Weak attractive force between a hydrogen atom of one molecule and other atoms of other molecules.

Question 33

pH Scale

Answer 33

Acidic to Basic;
1-6.9: Acidic.
7.1-14: Basic
7: Neutral/Water

Question 34

Organic Molecules

Answer 34

Compounds which always contain Carbon, Hydrogen, and sometimes Oxygen

Question 35

Carbohydrates

Answer 35

Carbon, Hydrogen, and Oxygen. Carbon + Water. C:H:O = 1:2:1 Ratio
Includes sugars and starches; Glucose
Monosaccharides, Disaccharides, Polysaccharides.

Question 36

Lipids

Answer 36

Carbon and Hydrogen; C:H = 1:2. Insoluble in water and nonpolar
Triglycerides: stores energy
Phospholipid: Major component of cell membrane
Steroids: Cholesterol/Hormones

Question 37

Fatty Acids

Answer 37

Saturated: Solid
Unsaturated: Liquid; from plants

Question 38

Proteins

Answer 38

Central carbon C; Hydrogen atom H; Amino part NH2; Carboxylic acid COOH; Variable group R.
C, H, NH2, COOH, R

Question 39

Function of Proteins

Answer 39

1. Support - connective tissue
2. Movement - contractile proteins
3. Transport - carry substance in blood
4. Buffering - acts as acid or base
5. Metabolic Regulation - enzymes
6. Coordination and Control - hormones
7. Defense - antibodies

Question 40

Structure of Proteins

Answer 40

Primary structure: amino acids linked together to from polypeptide chains
Secondary structure: polypeptide chains fold and coil
Tertiary structure: Coiled chains twist and turn
Quaternary structure: Two tertiary structures held together

Question 41

Fibrous proteins

Answer 41

Structural proteins

Question 42

Globular proteins

Answer 42

Functional proteins

Question 43

Nucleotides

Answer 43

Sugar; phosphate; nitrogenous base

Question 44

Nucleic Acids

Answer 44

Stores and processes genetic information. DNA; RNA

Question 45

Plasma Membrane Phospholipid Bi-layer

Answer 45

Hydrophilic head; Hydrophobic tail. Gives cell stability

Question 46

DNA

Answer 46

Stores genetic information in the nucleus
Double Helix: Two polynucleotide chains
A-T, C-G. Complimentary chains

Question 47

RNA

Answer 47

Stores genetic information in the cytoplasm
Made from DNA, carries information to make proteins
Different base Uracil instead of Thymine

Question 48

Simple Diffusion

Answer 48

Movement of a substance from an area of high concentration to an area of low concentration.
- Does not require ATP
- Allows gases and lipids to pass through

Question 49

Facilitated Diffusion

Answer 49

Requires a carrier protein to pass through
- Does not require ATP
- Allows for carbohydrates and amino acids to pass through

Question 50

Osmosis

Answer 50

Diffusion of water across a selectively permeable membrane in response to solute differences
- Water moves with the gradient (more water to less water)
- Equilibrium
- Does not require ATP

Question 51

Active Transport/Solute Pump

Answer 51

• Involves a carrier protein
• Requires ATP
• Goes against the gradient (Low to high)

Question 52

Pinocytosis

Answer 52

Cell drinking
-Requires ATP

Question 53

Phagocytosis

Answer 53

Cell eating (WBCs)
-Requires ATP

Question 54

Exocytosis

Answer 54

Ejection of materials from the cell
- Requires ATP

Question 55

Cell Membrane Components

Answer 55

• Phospholipid Bi-Layer
• Proteins
• Glycoproteins
• Cholesterol

Question 56

Cell Membrane Protein Functions

Answer 56

1. Anchoring
2. Recognition
3. Enzymes
4. Receptors
5. Carrier
6. Channels

Question 57

Cytosol

Answer 57

Intracellular fluid

Question 58

Cell Organelles

Answer 58

Functional Structures
- membranous
- nonmebraneous

Question 59

Cytoskeleton

Answer 59

Strengthens and anchors the cell and it’s processes

Question 60

Microvilli

Answer 60

Finger like extensions which increase the surface area of a cell

Question 61

Centrioles

Answer 61

Bundles of microtubules active in cell division

Question 62

Cilia

Answer 62

Moves substances across the cell’s surface; flagellum

Question 63

Ribosomes

Answer 63

Site of protein synthesis

Question 64

Proteasomes

Answer 64

Breakdown of intracellular parts (organelles)

Question 65

Endoplasmic Reticulum

Answer 65

Series of interconnected tubes which acts as a communication and transport center

Question 66

Rough ER

Answer 66

• Associated with ribosomes
• Protein synthesis
• Sends transport vesicles to Golgi apparatus

Question 67

Smooth ER

Answer 67

• No ribosomes
• Synthesis and storage of ;
  Lipids
  Glycogen
  Steroid hormones
  Phospholipids, cholesterol
• detoxification

Question 68

Golgi Apparatus

Answer 68

Stack of membrane bound discs
- Modifies and packages secretion
- Renews and modifies cell membrane

Question 69

Lysosomes

Answer 69

Breakdown metabolic waste products
- Made by golgi apparatus

Question 70

Peroxisomes

Answer 70

Enzymes which break down free radicals

Question 71

Mitochondria

Answer 71

Site of aerobic cellular respiration (produce energy)
- cristae

Question 72

Nucleus

Answer 72

Contains the genetic material of the cell and directs the activities of the cell.
- Separated by cytoplasm by nuclear envelope

Question 73

Histones

Answer 73

Package and regulate DNA

Question 74

Transcription

Answer 74

DNA - mRNA
- Takes place in the nucleus

Question 75

Translation

Answer 75

mRNA - tRNA
- Change from RNA to a protein
- Takes place in the cytoplasm

Question 76

Mitosis

Answer 76

Cell division which results in two identical daughter cells.
- The longer the life span of a cell the slower the mitotic rate
- Abnormal cell division produces tumors

Question 77

Epithelial Tissues

Answer 77

Lines all free body surfaces
- Cells fit together closely
- Attached surface and free surface
- Attached by non-living membrane
- Avascular
- Regenerate easily

Question 78

Epithelial Tissue Functions

Answer 78

1. Physical protection
2. Control permeability
3. Provide sensation
4. Produces specialized secretions (mucous)
5. Movement of materials across surface (Cilia)

Question 79

Simple Epithelial

Answer 79

One layer of cells over basement membrane

Question 80

Stratified Epithelial

Answer 80

Many cell layers above basement membrane

Question 81

Squamous Epithelial

Answer 81

Flat cells

Question 82

Cuboidal Epithelial

Answer 82

Cube shaped cells

Question 83

Columnar Epithelial

Answer 83

Tall, thin cells

Question 84

Simple Squamous Epithelial

Answer 84

Single layer of flat cells
- Serous membrane
- secretes lubricating fluid
- lines blood vessels

Question 85

Simple Cuboidal Epithelial

Answer 85

Single layer of cube shaped cells
- Secretion and absorption
- glands, ducts, and kidney tubules

Question 86

Simple Columnar Epithelial

Answer 86

Single layer of tall, thin cells
- Secretion of digestive enzymes, absorption of nutrients
- Lining of GI tract

Question 87

Pseudostratified Ciliated Columnar Epithelial

Answer 87

Single layer of cells but some cells are longer than others
- often looks like double layer
- Secretion
- Lining of respiratory tract

Question 88

Stratified Squamous

Answer 88

Many layers of flat cells
- Protection, withstand abrasion
- Skin, lining of oral cavity

Question 89

Transitional Epithelial

Answer 89

Specialized to change in response to stretching
- Shape of cells depends on amount of stretching

Question 90

Connective Tissue

Answer 90

• Establish a structural framework
• Establish and interconnect other tissue
• protects and support delicate organs
• Stores energy reserves

Question 91

Fibroblasts

Answer 91

Produce connective tissue matrix

Question 92

Fibrocytes

Answer 92

mature and maintain matrix

Question 93

macrophage

Answer 93

Phagocytic white blood cells

Question 94

Adipocytes

Answer 94

Fat cells

Question 95

Mesenchymal cells

Answer 95

Stem cells

Question 96

Melanocytes

Answer 96

Produce Melanin

Question 97

Areolar Tissue

Answer 97

Holds organs and tissues together

Question 98

Adipose Tissue

Answer 98

Cushions, protects and stores lipids (energy)

Question 99

Hyaline Cartilage

Answer 99

Reduces friction between articulating bones

Question 100

Elastic Cartilage

Answer 100

Elastic Support

Question 101

Epidermis

Answer 101

Superficial skin surface
- epithelial tissue
- avascular

Question 102

Dermis

Answer 102

Underlies epidermis
- mostly connective tissue
- vascular

Question 103

Hypodermis

Answer 103

Underlies dermis
- mostly adipose or areolar tissue
- Anchors skin to underlying structure

Question 104

Keratinized cells

Answer 104

Makes epidermis water resistant

Question 105

Stratum Corneum

Answer 105

Outermost layer of epidermis

Question 106

Stratum Basale

Answer 106

Innermost layer of epidermis, mitosis take place here

Question 107

Papillary layer of the dermis

Answer 107

Provides nourishment to the epidermis
- contains sensory nerves
- causes finger prints

Question 108

Reticular layer of the dermis

Answer 108

Provides the dermis with durability

Question 109

Hair

Answer 109

Originates in hair follicle in the dermis out into the epidermis
- Arrector pili muscle

Question 110

Sebaceous Glands

Answer 110

Produce Sebum
- Lubricates hair and keeps skin soft

Question 111

Sudoriferous Glands

Answer 111

Produces sweat
- Appocrine sweat glands produce an odor
- Eccrine sweat glands do not produce an odor and are responsible for thermoregulation

Question 112

Nails

Answer 112

Keratinized epidermal cells

Question 113

Compact Bone

Answer 113

Dense organized bone tissue found in the shaft of a bone
- Found where stresses are limited in direction

Question 114

Spongy bone

Answer 114

Porous bone tissue located in the epiphysis of bones
- found where stresses are weaker or multi-directional

Question 115

Osteon Structure

Answer 115

Structural unit of a bone
- central canal - blood vessels
- lamellae - rings of bony matrix
- lacunae - cavities holding osteocytes
- canaliculi - small canals for the movement of substances

Question 116

Ossification

Answer 116

Converting other tissue to bone
- mostly with cartilage (calcification)
- endochondral
- intramembranous

Question 117

Epiphyseal Plate

Answer 117

allows for growth of long bone during childhood

Question 118

Bone Remodeling

Answer 118

Recycles and renews the organic and mineral components of the bone matrix
- Response to stress and body’s needs

Question 119

Osteocytes

Answer 119

Mature bone cells
- maintain matrix
- In lacunae
- connected by canaliculi

Question 120

Osteoblasts

Answer 120

Synthesize new matrix

Question 121

Osteoclasts

Answer 121

Dissolve bone matrix

Question 122

Fibrous Joints

Answer 122

Joined by fibrous connective tissue
- Immovable

Question 123

Cartilaginous Joints

Answer 123

Two bones joined by cartilage
- sklighlty moveable

Question 124

Synovial Joints

Answer 124

Joined by joint cavity
- freely moveable

Question 125

Synarthroses

Answer 125

Immovable joints, fibrous / cartilaginous
- Suture
- Gomphosis (teeth)
- Synchondrosis (Epiphyseal plate)
- Syntosis (two bones completely fused)

Question 126

Amphiarthroses

Answer 126

Slightly moveable joints, fibrous / cartilaginous
- syndesmosis (bones connected by a ligament)
- symphysis (bone separated by fibrocartilage)

Question 127

Diarthroses

Answer 127

Freely moveable joints, synovial joints
- Synovial joint
- most joints of appendicular skeleton

Question 128

Flexion (angular)

Answer 128

Decreases the angle between two parts

Question 129

Extension (angular)

Answer 129

Increasing the angle between two parts

Question 130

Hyperextension (angular)

Answer 130

Extending beyond the anatomical position

Question 131

Abduction

Answer 131

Movement away from the body’s midline

Question 132

Adduction

Answer 132

Movement towards the body’s midline

Question 133

Circumduction

Answer 133

Combination of flexion, adduction, extension, abduction

Question 134

Pronation

Answer 134

Palm up to down

Question 135

Supination

Answer 135

Palm down to up

Question 136

Skeletal Muscle

Answer 136

Attached to bone
- Voluntary
- Striated
- Multinucleated

Question 137

Smooth Muscle

Answer 137

Lines hollow organs
- Involuntary
- Non-striated
- One nucleus

Question 138

Cardiac Muscle

Answer 138

Found in the heart
- Involuntary
- Striated
- Intercalated discs

Question 139

Structure of Muscle Organ

Answer 139

1. Epimysium
2. Perimysium
3. Endomysium

Question 140

Perimysium

Answer 140

Surrounds muscle with dense fibrous connective tissue

Question 141

Perimysium

Answer 141

Surrounds bundles of muscle fibers

Question 142

Endomysium

Answer 142

Covers individual muscle fibers

Question 143

Sarcolemma

Answer 143

Cell membrane of a muscle fiber

Question 144

T-tubules

Answer 144

Tubes of the sarcolemma

Question 145

Sarcoplasmic reticulum

Answer 145

Elaborate smooth ER
- terminal cisternae
- stores Ca++

Question 146

Myofibrils

Answer 146

Organelle that contain bundles of myofilaments arranged into units called sarcomeres

Question 147

Sarcomere structure

Answer 147

Functional unit of muscle fiber (contracting)
- made up of myofilaments
- Thin actin filament
- Thick myosin filament

Question 148

Muscle Fiber Contraction

Answer 148

1. Actin slides past myosin
2. Ends of sarcomere come closer together, sarcomere shortens
3. All sarcomeres shorten; myofibril shortens
4. All myofibrils shorten and the muscle fiber shortens

Question 149

Sliding Filament Theory

Answer 149

1. Cyclic process begins with calcium release from SR
2. Calcium binds to troponin
3. Troponin moves, moving tropomyosin and exposing actin active site
4. Myosin head in high energy configuration has been waiting to interact with actin
5. Myosin head pivots (high  low) pulling actin over myosin
6. ATP allows release of cross bridge
7. Hydrolysis of ATP; Myosin head goes from low to high
8. Reattaches to actin and pivots again
9. Interaction will continue as long as Ca++ is present
   - Actin slides past myosin

Question 150

Neuromuscular Junction

Answer 150

Site where motor neuron and muscle fiber meet
-Synaptic (axon) terminals: Branched ends of motor neuron
-Synaptic cleft: Gap between motor neuron and sarcolemma
- Motor end plate: Sarcolemma modified with special channels and receptors for ACh

Question 151

Skeletal Muscle Neurotransmitter

Answer 151

Acetylcholine (ACh); opens Na+ gates when it attaches to receptors on motor end plate

Question 152

Events of Excitation

Answer 152

1. Arrival of the action potential (signal)
2. Release of Ach
3. ACh binding at the motor end plate; changes permeability to Na+
4. Generation of action potential in sarcolemma begins with the influx of Na+

Question 153

Excitation-Contraction Coupling

Answer 153

1. Ca++ binds to troponin which causes tropomyosin to move
2. High energy myosin heads can attach to actin
3. High energy myosin heads to Low energy myosin
   pulling actin towards center of sarcomere
4. ATP binds to Low energy myosin, releases myosin from myosin binding site on actin
5. Hydrolysis of ATP by myosin ATPase; Energy is transferred to myosin to high energy myosin head

Question 154

Recruitment

Answer 154

Increasing the number of active motor units

Question 155

Cretin Phosphate

Answer 155

Coupling creatine phosphate with ADP
CP + ADP = ATP + C

Question 156

Aerobic Respiration

Answer 156

• Presence of O2
• Occurs in mitochondria
• 34 molecules ATP for 1 molecule of glucose

Question 157

Anaerobic glycolysis

Answer 157

• Without O2 cardiovascular system cannot supply
• 2 ATP Produced per glucose molecule

Question 158

Afferent

Answer 158

Sensory (to CNS)

Question 159

Efferent

Answer 159

Motor (away from CNS)

Question 160

Neuron Function

Answer 160

1. Respond to stimuli
2. Conduct nerve impulses
   - High demand for 02

Question 161

Neuron Structure

Answer 161

Cell body: contains nucleus
Dendrites: receive stimuli
Axon: conduct impulses
Axon hillock: Initial segment
Collaterals: Branches
Telodendria: Fine extensions, secrete neurotransmitters

Question 162

Neuroglia of CNS

Answer 162

1. Ependymal Cells
2. Astrocytes
3. Microglia
4. Oligodendrocytes

Question 163

Ependymal Cells

Answer 163

• Lined fluid filled cavities of CNS
• Assist in producing, circulating, and monitoring cerebrospinal fluid

Question 164

Astrocytes

Answer 164

Maintain Blood –Brain barrier (BBB)
- Isolation of CNS from general circulation
- Regulate composition of interstitial fluid of CNS
- Structural support
- Form scar tissue

Question 165

Microglia

Answer 165

Phagocytic cells

Question 166

Oligodendrocytes

Answer 166

Myelination of CNS axons

Question 167

Neuroglia of PNS

Answer 167

1. Satellite Cells
2. Schwann Cells

Question 168

Satellite Cells

Answer 168

• Surround neuron cell bodies within ganglia
• Regulate exchange with interstitial fluid

Question 169

Schwann Cells

Answer 169

Myelinating cells of the PNS

Question 170

Myelin Sheath

Answer 170

-Fatty wrapping around axon
-Electrically insulates and protects
-Increases speed of transmission of signal
-Loss of myelin = loss of function

Question 171

Resting Transmembrane Potential

Answer 171

The plasma membrane at rest is polarized
- Outside=net positive; Inside= net negative; due largely to the distribution of Na+ and K+
- Most neurons it is -70mV
- Maintained by Na/K pump

Question 172

Depolarization

Answer 172

Inside becomes more positive
- may result in an action potential (long distance signal)

Question 173

Hyperpolarization

Answer 173

Inside becomes more negative
- inhibits an action potential

Question 174

Repolarization

Answer 174

Return to resting membrane potential

Question 175

Graded Potential

Answer 175

• Occur on the dendrites or cell body
• Involves chemically gated ion channels (environmentally)
  May be:
  1l. Depolarization ; open Na+ channels
  2. Hyperpolarization; open K+ channels
  Weaken as they travel
  Amount of depolarization depends on size of stimulus

Question 176

Action Potential

Answer 176

A self-propagated change in the transmembrane potential (Nerve Impulse)

Question 177

Steps of an Action Potential

Answer 177

1. region of excitable membrane (axon) depolarizes to threshold
2. Activation gates of voltage gated sodium channels open; Na+ rushes into cell (Depolarization)
3. Inactivation gates of voltage gated Na+ channels close at peak potential +30mV
4. Voltage gated K+ channels to open; K+ rushes out; Repolarization
   - Reestablishes resting membrane potential

Question 178

Structure of the Spinal Cord

Answer 178

31 spinal segments
- Area of spinal cord; gives rise to dorsal & ventral roots
- Spinal nerves extend off cord
- Union of dorsal & ventral roots
Cervical nerves
C1 – C8
Thoracic nerve
T 1 – T 12
Lumbar nerves
L1 – L5
Sacral nerves
S1 – S5
Coccygeal
C0

Question 179

Enlargements of Spinal Cord

Answer 179

Cervical enlargement – nerves to shoulders and arms
Lumbar enlargement – nerves to pelvis and legs

Question 180

Filum Terminale

Answer 180

Thin fibrous tissues anchoring cord in vertebral canal

Question 181

Cauda Equine

Answer 181

Collection of spinal nerves in lumbar region

Question 182

Conus Medullaris

Answer 182

Cone shaped ending of spinal cord

Question 183

White matter

Answer 183

Axons arranged in tracts and columns, myelinated fibers and some unmyelinated (conducting)

Question 184

Gray Matter

Answer 184

Cell bodies, unmyelinated axons, neuroglia, synapses
- integration and processing

Question 185

Tracts

Answer 185

Bundle of axons within the CNS

Question 186

Spinal Nerve

Answer 186

31 pairs of nerves
- Mixed nerves
- Result from the union of the dorsal (posterior)and ventral (anterior) roots

Question 187

Ventral Root to Ventral Horn

Answer 187

Motor
- Cell bodies of motor neurons in ventral horn

Question 188

Dorsal Root to Dorsal Horn

Answer 188

Sensory
Cell bodies of sensory neurons in dorsal horn

Question 189

Dorsal Root ganglion

Answer 189

Cell bodies of sensory neurons

Question 190

Ventral Rami

Answer 190

Part of nerve plexus which extends towards the front

Question 191

Dorsal Rami

Answer 191

Part of nerve plexus which innervates the back of body

Question 192

Structure of a Spinal Nerve

Answer 192

Bundle of nerve fibers (axons), blood vessels held together by layers of connective tissue
- union of dorsal (sensory) and (motor) ventral root
- epineurium
- perineurium
- endoneurium

Question 193

Reflex Arc Steps

Answer 193

1. Arrival of stimulus and activation of receptor
2. Activation of sensory neuron
3. Information processing
4. Activation of motor neuron
5. Response by effector

Question 194

Epidural Space

Answer 194

Separates dura mater from walls of vertebral canal
- filled with fat

Question 195

Dura Mater

Answer 195

Outer covering of spinal cord and nerves

Question 196

Arachnoid

Answer 196

Internal to dura mater
- Spider web extensions
- Forms subarachnoid space filled with CSF

Question 197

Pia Mater

Answer 197

Innermost meningeal layer
- Adheres directly to spinal cord surface

Question 198

Brain Stem

Answer 198

Processes information between spinal cord and cerebrum, or cerebellum
1. Midbrain
2. Pons
3. Medulla Oblongata
- White matter tracts

Question 199

Midbrain

Answer 199

Ear, eye, and head reflexes
- RAS (consciousness)

Question 200

Pons

Answer 200

Links cerebellum to cerebrum, brain stem, and spinal cord
- Respiratory Center

Question 201

Medulla Oblongata

Answer 201

Connects brain with spinal cord
- Cardiac reflex
- Vasomotor reflex
- respiratory reflex
White matter tracs

Question 202

Cerebellum

Answer 202

“Little brain”
-basic survival functions
- maintains balance and equilibrium
- monitors visual and auditory signals

Question 203

Arbor Vitae

Answer 203

White matter

Question 204

Diencephalon

Answer 204

Inner core; links cerebrum to brain stem

Question 205

Epithalamus

Answer 205

Choroid Plexus
- pineal gland (secretes melatonin)

Question 206

Thalamus

Answer 206

Relays sensory information to the primary sensory cortex

Question 207

Hypothalamus

Answer 207

1. Physical emotion expression
2. Controls unconscious function
3. Coordinates endocrine and nervous system together
4. Secretes hormones
5. Regulate body temperature
6. regulate circadian rhythm

Question 208

Cerebral Cortex

Answer 208

Controls all conscious thoughts and intellectual functions
Processes somatic sensory and motor information

Question 209

Frontal Lobe

Answer 209

• Movement
• Executive function
• Memory
• Personality

Question 210

Parietal Lobe

Answer 210

Processes sensory information

Question 211

Temporal lobe

Answer 211

Processes auditory information

Question 212

Occipital lobe

Answer 212

Processes visual information

Question 213

Broca’s Area

Answer 213

responsible for speech production

Question 214

Association Fibers

Answer 214

Connections within one hemisphere

Question 215

Projection Fibers

Answer 215

Connects cerebrum to lower areas

Question 216

Corpus Callosum

Answer 216

Connects two hemispheres

Question 217

Basal Nuclei

Answer 217

Paired masses of gray matter (nuclei) embedded in white matter of cerebrum

Question 218

Somatic Nervous System

Answer 218

1. One efferent neuron
2. Effects skeleton muscle
3. One neurotransmitter = ACh
4. One effect = excitation
5. Control center = cerebral motor cortex

Question 219

Autonomic Nervous System

Answer 219

1. Two linked efferent neurons
2. Synapse in ganglia
3. Effector organs = cardiac, smooth, and glands
4. ACh and NE
5. Excitation and inhibition
6. Control center = hypothalamus

Question 220

Sympathetic ANS

Answer 220

Fight or flight
- Thoracolumbar
- Ganglia close to spinal cord
- Short preganglionic
- Long postganglionic
- Widespread effect

Question 221

parasympathetic ANS

Answer 221

Rest and digest
- Craniosacral
- Long preganglionic
- Short postganglionic
- Localized effect

Question 222

Receptors

Answer 222

Allows cells to pick up neurotransmitters
- Cholinergic
- Adrenergic

Question 223

Difference between endocrine and exocrine glands

Answer 223

Exocrine have a duct while endocrine go straight into the blood

Question 224

Follicle Stimulating Hormone (FSH)

Answer 224

Stimulates follicle development and estrogen secretion in females and sperm production in males

Question 225

Luteinizing Hormone

Answer 225

Causes ovulation and progesterone production in females and androgen (testosterone) production in males

Question 226

Calcitonin/Parathyroid Hormone

Answer 226

Helps regulate calcium levels in body fluids

Question 227

Epinephrine/Noreepinephrine

Answer 227

1. Enhances and amplifies effects of SNS stimulation
2. Increases cardiac activity, blood pressure, blood glucose levels
3. Short term stress

Question 228

Antidiuretic Hormone/Aldosterone

Answer 228

Acts on kidney tubules promoting reabsorption of water from filtrate (urine)

Question 229

Insulin/Glucagon

Answer 229

Regulate blood sugar levels