Anatomy and Physiology EXAM1

Question 1

define anatomy

Answer 1

the study of the structures & the shape of the body and its parts

Question 2

define physiology

Answer 2

the study of how the body and its parts work or function

Question 3

define organ

Answer 3

a structure composed of 2+ tissue types that perform a specific function

Question 4

define the integumentary system

Answer 4

the external covering of the body, or the skin, including the hair and fingernails

Question 5

define the skeletal system

Answer 5

bones, cartilage, and joints. support the body and provides framework

Question 6

define the muscular system

Answer 6

formed of skeletal muscles that contract to lead to movement

Question 7

define nervous system

Answer 7

fast acting control consisting of the spinal cord, brain, nerves, and sensory receptors

Question 8

name and use directional referencing terms

Answer 8

superior: top
inferior: bottom

anterior/dorsal: front
posterior/ventral: back

lateral: outside
medial: middle

Question 9

define the different cuts of a brain, as an example

Answer 9

sagittal: divide right and left hemispheres
coronal/frontal: divide into front and back

Question 10

define homeostasis

Answer 10

the maintenance of relatively stable, or optimal, conditions in the body in response to changes

Question 11

Is sweating a negative or positive feedback loop?

Answer 11

negative, it has the net effect of trying to reduce the heat of the body

Question 12

what is an example of a positive feedback loop?

Answer 12

childbirth, the mother cannot stop “having the baby” after the process of birth has started

Question 13

Know the terms receptor, control center, and effector

Answer 13

Receptor: recieves info
Control center: makes decisions
effector: responds based on control center

Question 14

define the process of Ingestion using
mastication and deglutition

Answer 14

Ingestion: the taking in/eating of food
Mastication(chewed)
Deglutition (swallowing)

Question 15

describe digestion and the two types of it that occur in the body

Answer 15

Digestion is th breaking down of food for digestion. It involves peristalsis (wave-like contraction that propels food through the digestive system.)

2 types:
Mechanical digestion: physically breaking up food
Chemical digestion

Question 16

define Propulsion

Answer 16

food is moved through the digestive system using muscular contractions

Question 17

name the organs of the alimentary canal and accessory digestive organs, and identify each on a diagram or model

Answer 17

alimentary canal is another name for the digestive system
- Mouth (salivary glands; creates bolus)
- Esophagus (2 sphincters at top and bottom; smooth) muscle)
- Stomach (thick musclualris layer as it has 3 layers for protection; acidic; mechanical digestion)
- Small intestine (villi and circular fold increase SA for absorption; chemical digestion)
- Large intestine (smooth; voluntary and involuntary sphincters; water absorption; fecal formation)
- Rectum
- don’t forget accessory organs!

Question 18

what are the accessory organs and their functions?

Answer 18

• Pancreas (endocrine and exocrine gland; produces juices and brush border enzymes that dump into the duodenum to help digest food)
• Liver (processing, storing, detoxification of food)
• Gall Bladder (hols bile produced by the liver and pumps into the duodenum)
• Appendix (store gut bacteria)

Question 19

describe the 4 layers comprising the GI tract.

Answer 19

Lumen (innermost layer)
*Mucosa (mucus membrane)
*Submucosa (has blood, lymphatic vessels, and nerves)
*Muscularis (smooth muscle moves food through system)
*Serosa (connective tissue)

Question 20

explain the four unique qualities of muscle tissue and why they are important

Answer 20

Contractility (ability to shorten when stimulated)
Excitability (responsiveness to stimulus)
Extensibility (ability to be stretched)
Elasticity (ability to recoil after being stretched)

Question 21

describe the three different muscle types in humans and explain their differences

Answer 21

• Smooth muscle (in digestive tract; involved in opening and closing eyes; slower; uninucleated)
• Cardiac muscle (found only in the heart; striated; specialized; repeated, rhythmic contractions; involuntary)
• Skeletal muscle (attached to bones; long, striated; voluntary; widespread; makes up a lot of body weight; faster to slower; maintain posture, generates heat, and stabilizes)

Question 22

Describe and be able to label the anatomy of skeletal muscle (including fascicles, muscle cells, myofibrils, epimysium, endomysium, and perimysium)

Answer 22

Deep to superficial:
Sarcomere
Myofibril
Muscle fiber
Fsacicle
Endomysium (surrounds fascicle)
Parimysium (binds fascicles together)
Epimysium (binds everything to form a tendon)
Tendon attaches to bone

Question 23

Describe how excitation and contraction coupling works at the NMJ

Answer 23

ACh Release: Action potential in neuron triggers ACh release
ACh Binding: ACh binds to receptors on muscle fiber.
Action Potential: Triggers muscle cell action potential.
Calcium Release: Action potential causes calcium release by binding to troponin, which removes tropomyosin
Myosin heads binds with use of ATP
Titin holds tension
Muscle Contraction: Calcium initiates muscle contraction.
AChE: clears ACh from synapse
Muscle Relaxation: End of nerve signal leads to muscle relaxation.

Question 24

describe the process of muscle contraction (cross-bridge cycling)– including the actions of thick filaments (myosin), thin filaments (actin) and how they interact

Answer 24

Signal Initiation: Nerve impulse triggers action potential.
Calcium Release: Action potential opens calcium channels in muscle cell.
Thin Filament Activation: Calcium binds to troponin, exposing binding sites on thin filaments (actin).
Cross-Bridge Formation: Myosin heads (thick filaments) bind to actin (thin filaments).
Power Stroke: Myosin heads pivot, pulling thin filaments towards the center.
Release and Reset: ATP binds to myosin, detaching it from actin, and resetting the myosin head.
Repetition: The process repeats, causing sliding of filaments and muscle contraction.

Question 25

define label the anatomy of a muscle cell and be able to identify it

Answer 25

Sarcolemma: Cell membrane of muscle cell.
Sarcoplasm: Cytoplasm containing organelles.
Myofibrils: Thread-like structures for contraction.
Sarcoplasmic Reticulum (SR): Stores and releases calcium.
T-Tubules: Transmit nerve signals for contraction

Question 26

Explain how strength is determined of muscle contractions, with a specific understanding of the terms tetanus and recruitment

Answer 26

Control strength of contraction by increasing the frequency of signals (tetanus) or by increasing the number of motor units that are recruited for a single contraction
- Graded muscle responses: variation in muscle tension that results from a variable demand

Question 27

define tetanus

Answer 27

Prolonged, continuous muscle contraction without relaxation due to rapid and repetitive stimulation.

Question 28

explain the cause of muscle fatigue

Answer 28

Muscle fatigue: can no longer generate or sustain an expected power output even if stimulated
Unknown cause. Some ideas are an ionic imbalance, NMJ problems, running out of ATP, or lactic acid buildup.

Question 29

what role does EPOC (post-exercise oxygen consumption) have in restoring energy balance?

Answer 29

EPOC: increase in oxygen consumption to replenish PCr and oxidize lactic acid. this leads to regeneration of pyruvate and the replenish of glycogen store in the liver
- influenced by exercise intensity, age, gender, etc.
- tends to last 15 min to 45 post exercise

Question 30

define what a myelinated neuron is and explain how myelination affects the transmission of an action potential

Answer 30

Myelinated neuron: a protective sheath called myelin around nerve fibers (axons) in the nervous system.
is composed of lipids (fats)
acts as an insulator and enhances the speed and efficiency of nerve impulses
helps neurons transmit signals more quickly and with less energy expenditure.

Question 30

explain the concept of a threshold stimulus and the three phases of an action potential

Answer 30

1. Depolarization: Membrane becomes positive. Na+ flows in
2. Repolarization: Returns to resting state. Na+ gate closes, K+ finally opens and lets out K+
3. Hyperpolarization: Briefly more negative than resting state.
   *Return to resting potential (-70) until threshold (-55) is reached again

Question 31

describe how an action potential is propagated down an axon

Answer 31

Depolarization: Stimulus opens sodium channels, causing a positive charge.
Propagation: Action potential jumps (saltatory) or travels continuously.
Repolarization: Sodium channels close, potassium channels open, restoring negativity.
Continuation: Process repeats along axon until reaching terminals for neurotransmitter release.

Question 32

explain how voltage-gated channels operate during an action potential.

Answer 32

Sodium Channels (Na+):
- Open: During depolarization (rising phase).
- Close: Shortly after opening (inactivation) and remain closed during repolarization.
Potassium Channels (K+):
- Open: During repolarization (falling phase).
- Close: Once the membrane potential returns to its resting state.

Question 33

describe the CNS vs the PNS

Answer 33

CNS: brain and spinal cord
PNS: all neurons sending signals to and from the body

Question 34

describe a membrane potential, how it is maintained, and why it is important.

Answer 34

Membrane Potential: Voltage difference across a cell’s membrane.
Maintenance: Achieved through selective ion permeability, ion pumps, and leak channels.
Importance:
Essential for nerve and muscle function
Drives cell signaling (action potentials)
Maintains ion balance

Question 35

describe the anatomy and functional significance of peripheral nervous system neurons, including the terms nerves and ganglion

Answer 35

PNS: all neurons outside the brain and spinal cord. transmit sensory information to the CNS and relay motor commands from the CNS to muscles and glands, enabling long-distance communication
Nerves: bundles of neuron fibers
ganglia: clusters of nerve cell bodies.

Question 36

describe the general anatomy of a neuron

Answer 36

Cell Body: Contains the nucleus and organelles.
Dendrites: Branch-like extensions that receive signals.
Axon: Long fiber that transmits signals.
Axon Terminal: End of axon, releases neurotransmitters.

Question 37

name the Three General Types of Neurons

Answer 37

1. Sensory Neurons: Transmit sensory information from receptors to the CNS.
2. Interneurons: Process and relay signals within the spinal cord of the CNS.
3. Motor Neurons: Carry signals from the CNS to effectors like muscles or glands.

Question 38

describe the signaling path through the peripheral nervous system.

Answer 38

Sensory Receptors detect stimuli.
Sensory Neurons Transmit signals to the CNS.
CNS interneuron processes information
Motor Neurons send signals to effectors
muscles/glands respond

Question 39

describe how the type of muscle fiber creates physiological limits on muscle performance

Answer 39

Muscle Fiber Type: The distribution of fast-twitch and slow-twitch muscle fibers in an individual’s muscles can set limits on endurance and strength.
- Slow-twitch fibers= endurance
- Fast-twitch fibers= strength training; powerful but fatigue quickly.

Question 40

what is the advantage of having gut microbes? how do you promote the microbiome?

Answer 40

Advantage: breaks down food that the body cannot and protects against germs
- promote by healthy, high fiber diet with probiotics (yogurt)

Question 41

describe simple columnar epithelium tissue

Answer 41

• found in the stomach and intestines
• facilitates absorption and secretion of nutrients
  (pink columns)

Question 42

describe stratified squamous epithelium tissue

Answer 42

• lines esophagus, mouth, and high abrasion areas
• protects tissues
  (pink; very dense and dotted)

Question 43

describe areolar connective tissue

Answer 43

• connects and supports organs
• found everywhere and is flexible
  (pink and streaked, like hairs)

Question 44

describe smooth muscle tissue

Answer 44

• movement and valves
• peristalsis (food movement)
  (pink and smooth)

Question 45

describe the general hierarchical structure from a muscle cell to a tendon

Answer 45

one muscle cell
muscle fiber
myofibril
fascicle
bundle of muscle fibers
muscle
tendon (connects muscle to bone)

Question 46

what are skeletal muscles responsible for? what are 3 common characteristics of them?

Answer 46

• producing movement
• stabilizing body position
• producing heat
• elongated, multinucleated, straited

Question 47

what connective tissue is part of a skeletal muscle ( deep to superficial) ?

Answer 47

Endomysium: Innermost connective tissue layer, surrounds individual muscle fibers.

Perimysium: Middle layer, encases bundles of muscle fibers (fascicles).

Epimysium: Outermost layer, envelops the entire muscle and connects it to tendons.

Question 48

What is the correct muscle terminology that corresponds to these general terms?
muscle cell
cell membrane
cytoplasm
modified endoplasmic reticulum

Answer 48

muscle cell - muscle fiber
cell membrane - sarcolemma
cytoplasm - sarcoplasm
modified endoplasmic reticulum - sarcoplasmic reticulum

Question 49

define a myofibril

Answer 49

structure in muscle cells responsible for muscle contraction
- composed of actin and myosin proteins
- organized into repeating units called sarcomeres.

Question 50

how did the animation shown in class of the muscle fiber misrepresent cross-bridge cycling?

Answer 50

the video shows the sliding happening simultaneously, which is wrong.
**cross-bridge cycling happens asynchronously, where some myosin heads are bound while others are released, to hold tension

Question 51

define hypertrophy

Answer 51

muscles get bigger when fibers become thicker (from added myofibrils), which adds more nuclei for increased protein synthesis

Question 52

define afferent vs efferent

Answer 52

afferent: signals delivered to CNS
efferent: signals delivered away from CNS

Question 53

define neuron and neuroglia

Answer 53

Neuron: Nerve cell transmitting signals.

Neuroglia (Glia): Supportive cells in the nervous system.

Question 54

what are the 3 properties of all neurons?

Answer 54

• excitable (receive signals)
• conductive (send signals)
• secretory (release NT to send signals)

Question 55

what does the acronym SAME DAVE mean?

Answer 55

(sensory-afferent, motor-efferent; dorsal-afferent, ventral-efferent)

Question 56

what is a ganglion? what is it called in the CNS?

Answer 56

ganglion: collection of neuronal cell bodies in the PNS
- in the CNS: called “nuclei”

Question 57

what is the toxin that prevents action potentials?

Answer 57

tetrodotoxin; found in fugu sushi. blocks NS cell signaling and can lead to flaccid paralysis

Question 58

which voltage gates are slow and which are fast?

Answer 58

slow: Na+ inactivation and K+ activation
fast: Na+ activation