A+P

Question 1

***Four Types of Human Tissue

Answer 1

(1) Muscle Tissue
(2) Nervous Tissue
(3) Epithelial tissue
(4) Connective Tissue

Question 2

Functions/characteristics of Muscle Tissue

Answer 2

(a) Generates the physical force to make the body structures move
(b) Arranged in bundles
(c) Contractile cells that provide the ability to move the body in three dimensions
(d) Well supplied with blood vessels (lots of energy & waste requirements).

Question 3

Functions/characteristics

of Nervous Tissue

Answer 3

(a) Detects changes inside/outside the body

(b) Initiates & transmits nerve impulses that coordinate body

Question 4

*** Functions/characteristics of Epithelial tissue

Answer 4

(a) Integumentary System
(b) Epithelium:
(c) Epithelial Tissue:

Question 5

Functions/characteristics

of Connective Tissue

Answer 5

(a) Protects and supports the body and its organs
(b) Binds organs together
(c) Stores energy reserves as fat
(d) Provides immunity

Question 6

1) Skin, Hair, Nails

2) Accessory Structures

Answer 6

Integumentary System

Question 7

1) Medical term for skin and main portion of the integumentary system.

Answer 7

Epithelium:

Question 8

1) Covers body surfaces; lines body cavities, hollow organs and ducts (tubes); and forms glands

Answer 8

(c) Epithelial Tissue:

Question 9

(1) They provide contact or adhesion between neighboring cells or between a cell and extracellular matrix.
(2) They maintain paracellular barrier of epithelia (barrier in between cells) and control transport of materials or signals between cells (paracellular transport).
(3) Cell junctions are dense in epithelial tissues because the tissue needs to maintain both
strength and integrity in a wide variety of conditions.

Answer 9

Cell Junction

Question 10

Form barrier against water and antigens passing between individual epithelial cells

Answer 10

Tight Junctions

Question 11

Cell-cell adhesions continuously assembled & disassembled so cells can respond changes in their microenvironment.

Answer 11

Adherens Junctions

Question 12

Form stable adhesive junctions between cells.

Answer 12

Desmosomes

Question 13

Allows various molecules & electrical signals to pass freely between cells

Answer 13

Gap Junctions

Question 14

Facilitate the stable adhesion of basal epithelial cells to the underlying basement membrane.

Answer 14

Hemidesmosomes

Question 15

***Epithelial tissue is broadly categorized as either:

Answer 15

(a) Covering and lining epithelium

(b) Glandular epithelium

Question 16

Covering and lining epithelium:

Answer 16

(a) Covers external surfaces of the body and some internal organs
(b) Lines body cavities, blood vessels, and ducts
(c) Lines interior of respiratory, GI, urinary and reproductive systems
(d) Integral part of sense organs for hearing, vision and touch

Question 17

Secreting portion of the glands, such as sweat glands

Answer 17

Glandular epithelium

Question 18

***Most superficial layer of cells

Answer 18

Apical

Question 19

***Deepest layer of the cell

Answer 19

Basal

Question 20

• **(a) Thin extracellular structure composed mostly of protein fibers
• **(b) Located between the epithelium and underlying connective tissue layer
• **(c) Helps to bind and support the epithelium

Answer 20

Basement membrane

Question 21

2 ways of classifying epithelial tissue:

Answer 21

Morphology

Stratification

Question 22

Classification of epithelial cells based on shape

Answer 22

Morphology

Question 23

Classification of epithelial cells based on number of layers

Answer 23

Stratification

Question 24

***Shaped like pancakes

Answer 24

Squamous

Question 25

***Shaped like the tesseract in Captain America

Answer 25

Cuboidal

Question 26

***Shaped like the column block in Tetris

Answer 26

Columnar

Question 27

***Changes shape like the T-1000 in T2: Judgement Day

Answer 27

Transitional

Question 28

• **(1) Thin, flat shape allows rapid passage of substances through them
  (2) Can be keratinized or non-keratinized; “wet” or “dry” depending on their location in the body
  (3) Found in areas such as the lining of the esophagus, mouth and cervix

Answer 28

Squamous Epithelium

Question 29

(1) Tall as they are wide and shaped like cubes or hexagons
(2) Frequently have microvilli at apical surface
(3) Function in either secretion or absorption
(4) Found in areas such as the salivary glands and thyroid follicles

Answer 29

Cuboidal Epithelium

Question 30

(1) Taller than they are wide
(2) Protect underlying tissues
(3) Apical surfaces may have cilia or microvilli
(4) Often specialized for secretion and absorption
(5) Lines most organs of the GI tract, respiratory tract, and fallopian tubes

Answer 30

Columnar epithelium

Question 31

(1) Able to change shape from flat to cuboidal and back depending on tension & distention of tissue.
* **(2) Useful for organs such as the urinary bladder, when it is stretching (distend) to a larger size and then as it collapses to a smaller size.

Answer 31

Transitional Epithelium

Question 32

**(1) A single layer of cells that functions in a diffusion, osmosis, filtration, secretion and absorption.
**(2) Secretion: production and release of substances
**(3) Absorption: intake of fluids or other substances
**(4) Osmosis: movement of water across a semipermeable membrane from an area of lower
solute concentration to an area of higher solute concentration.
***(5) Diffusion: movement of particles from an area of high concentration to an area of low Concentration

Answer 32

Simple Epithelium

Question 33

• **(1) Pseudo (false) stratified (layered)
• **(2) It is simple epithelium that appears be stratified because the nuclei lie at different levels & not all cells reach the apical surface.
• **(3) However, it is still simple epithelium because all the cells rest on the basement membrane.
  (a) Cells that extend to the apical surface may contain cilia
• **(4) One specialized type of pseudostratified cell are goblet cells, which secrete mucus and are an integral part of mucous membranes.

Answer 33

Pseudostratified Epithelium

Question 34

(1) Cilia provide two forms of locomotion depending on the cell:
(a) Movement of the cell itself (like bacteria) or some parasites ***
(b) Movement of particles or substances across or around the cell
(2) In mammals, cilia help remove contaminants or move particles by moving fluids over the cell layers.
(a) The lining of the nasopharynx and the trachea are covered in cilia to remove mucus, bacteria, and other debris from the lungs.
(b) Fallopian tubes are lined with cilia to assist in helping fertilization by moving the egg towards the uterus.

Answer 34

Ciliated Epithelial Cells

Question 35

1) increase the surface area of a cell by multiplying the area from 2 dimensions to 3
dimensions. **
(2) on cellular surfaces enable the absorption and secretion of far more nutrients/material because they expand the active surface area by orders of magnitude.
(3) Other uses:
(a) Help anchor sperm to the egg and allow for easier fertilization.
(b) In white blood cells, ___ act as an anchoring point and aid in the migration of white blood cells.
(c) ___on other cell surfaces may sweep unwanted materials toward an absorptive area of the cell.

Answer 35

Microvilli on Epithelial Cells

Question 36

a highly-insoluble fibrous protein with water-proofing qualities & high friction resistance.

Answer 36

Keratin

Question 37

Epithelial cells infused with keratin in the stratum basale of the epidermis are called

Answer 37

Keratinocytes

Question 38

Keratinocytes lose their nucleus and organelles to make room for keratin. Are they still living

Answer 38

No

Question 39

Keratinized or non-keratinized:

(a) Found on wet/interior surfaces exposed to considerable wear & tear.
(b) Found in the lining of mouth cavity, tongue, pharynx, esophagus and vagina.

Answer 39

Non-keratinized epithelium

Question 40

Keratinized or non-keratinized:
(a) Found on dry/outer surfaces where resistance to both friction & water is needed.
(b) Outer epidermis consists of keratinocytes that provide protection against water, friction,
abrasion, and microorganisms.

Answer 40

Keratinized stratified epithelium

Question 41

(1) Supports & physically connects other tissues/cells together to form the organs of the body.

Answer 41

Connective Tissue

Question 42

↑ cells ↓ extracellular space (matrix)

Answer 42

Epithelial

Question 43

↓ cells ↑ extracellular space (matrix)

Answer 43

Connective

Question 44

Connective tissues typically have three components:

Answer 44

(a) Resident Cells
(b) Extracellular Matrix (ECM)
(c) Protein fibers

Question 45

extracellular material produced by the connective tissue cells embedded within it

Answer 45

Matrix

Question 46

Major component of the matrix is

Answer 46

ground substance crisscrossed by protein fibers

Question 47

CT CELLS

(1) Most common cells in connective tissue
(2) Produce & maintain most of the tissue’s extracellular components
(3) Synthesizes & secretes collagen** and elastin
(4) Major component of the reparative capacity of connective tissue

Answer 47

Fibroblasts

Question 48

CT CELLS

(1) AKA fat cells or adipose cells or adipose tissue
(2) Specialized for cytoplasmic storage of lipid as neutral fats, or less commonly for production of heat. ***
(3) Large population of adipocytes (adipose connective tissue) serves to cushion and insulate the skin and other organs.

Answer 48

Adipocytes

Question 49

CT CELLS

(1) Components of loose connective tissues, often located near small blood vessels in the skin.
(2) Function in localized release of compounds important to inflammatory response, innate immunity, and tissue repair.***

Answer 49

Mast Cells

Question 50

CT CELLS

(1) Abundant (25% of all protein in body) ***
(2) Very strong and resistant to shear forces
(3) Key element of all connective tissues, as well as epithelial basement membranes

Answer 50

Collagen Fibers

Question 51

CT CELLS

(1) Composed of elastin
(2) Strength and elasticity
(3) Have rubberlike properties that allow tissue containing these fibers to be stretched or distended and return to their original shape.

Answer 51

Elastic Fibers

Question 52

CT CELLS

(1) Compromised of glycogen and glycoprotein (2) Provide strength and support in the walls of small blood vessels **
(3) Stroma supporting framework of many soft organs; most notably the immune system, liver, endocrine glands, spleen, lymph nodes

Answer 52

Reticular Fibers

Question 53

(1) Line entire GI, respiratory, reproductive, and much of the urinary system.
(2) Epithelial layer secretes mucous (mucin) via goblet cells.

Answer 53

Mucous Membranes

Question 54

Mucous Membrane functions:

Answer 54

(a) General: Prevents cavities from drying out
(b) Resp: traps particles in the respiratory tract
(c) GI: lubricates and absorbs food as it moves through the tract, secretes digestive enzymes
(d) Derm: helps bind the epithelium to underlying structures

Question 55

Lines body cavity that doesn’t open directly to exterior & covers organs that lie within the cavity.

Answer 55

Serous Membranes

Question 56

Serous Membranes

Attached to cavity wall

Answer 56

Parietal

Question 57

Serous Membranes

Part that covers and attaches to the organs

Answer 57

Visceral

Question 58

Serous Membranes

Secretes serous fluid and provides lubrication for organ movement

Answer 58

Mesothelium

Question 59

Serous Membranes

Lining thoracic cavity and covering the lungs.

Answer 59

Pleura

Question 60

Serous Membranes

Lining the heart cavity and covering the heart.

Answer 60

Pericardium

Question 61

Serous Membranes

Lining abdominal cavity and abdominal organs

Answer 61

Peritoneum

Question 62

(1) Lines joints.
(2) Composed of areolar connective tissue and adipose tissue with collagen fibers.
(3) No epithelial layer.
(4) Secrete synovial fluid.

Answer 62

Synovial Membranes

Question 63

This fluid reduces friction, lubricates & nourishes cartilage, and removes microbes/debris from the joint cavity

Answer 63

Synovial fluid

Question 64

Layers of the Skin

Answer 64

(1) Epidermis
(2) Dermis
(3) Subcutaneous (hypodermis)

Question 65

(1) Surface layer
(2) Comprised of epithelial tissue
Consists primarily of continually regenerating keratinocytes
(a) Different layers of the epidermis represent keratinocytes at differing stages in their
approximately 30-day lifecycle.
(b) Epidermal Thickness varies by location and age:
(3) 75 to 150 µm in thin skin (eyelids) to 0.4 to 1.5 mm in thick skin (palms and soles)
(a) Epidermis lacks any vascular structures & obtains all nutrients from the dermal vasculature by diffusion

Answer 65

Epidermis

Question 66

(1) Lies inferior/deep to the epidermis
(2) Comprised of connective tissue
(a) Primarily consists of dense irregular connective tissue and functions to cushion the body from stress and strain
(3) A basement membrane always occurs between the stratum basale of the epidermis and the dermis
(4) Nutrients for keratinocytes diffuse into the avascular epidermis from the dermal vasculature through the basement membrane

Answer 66

Dermis

Question 67

(a) Lies inferior/deep to dermis

(b) Is not part of the skin

Answer 67

Subcutaneous (hypodermis)

Question 68

Layers of the Epidermis

Answer 68

(1) Stratum Corneum
(2) Stratum Lucidum
(3) Stratum Granulosum
(4) Stratum Spinosum
(5) Stratum Basale

Question 69

Layers of the Epidermis

(a) Cells consist mostly of keratin
(b) Cells are shed & replaced from below

Answer 69

Stratum Corneum

Question 70

Layers of the Epidermis

(a) Found only in palms & soles of hands & feet

Answer 70

Stratum Lucidum

Question 71

Layers of the Epidermis

(a) Losing cell organelles and nuclei
(b) Infusion of waterproofing lipids

Answer 71

Stratum Granulosum

Question 72

Layers of the Epidermis

(a) Cells beginning to flatten

Answer 72

Stratum Spinosum

Question 73

Layers of the Epidermis

(a) Stem cell layer; new cells arise here

Answer 73

Stratum Basale

Question 74

Layers of the Dermis

(1) the layer of the dermis directly underneath the
epidermis
(a) Contains the terminal endings of capillaries, lymph vessels and sensory neurons. These extend from the dermis toward the epidermis in the dermal papillae

Answer 74

Papillary layer (loose areolar tissue)

Question 75

Layers of the Dermis

(1) is thicker than the overlying papillary dermis; comprised of a dense concentration of collagenous, elastic, and reticular fibers that weave throughout it
(a) These protein fibers give the dermis its strength, extensibility, and elasticity
(b) Within the reticular region are the roots of the hair, sebaceous glands, sweat glands, receptors, nails, and blood vessels

Answer 75

Reticular layer

Question 76

(1) Specialized cells of the epidermis & hair follicle; primary function is synthesis and transfer of melanin to adjacent keratinocytes

Answer 76

Melanocytes

Question 77

(1) Touch and pressure are sensed by four types of mechanoreceptors in the skin
(2) expanded dendritic endings in epidermis of glabrous skin that respond to sustained pressure and touch
(3) Consist of tactile disc and neuron for touch sensation

Answer 77

Merkel Cells

Question 78

(1) Typically found within the stratum spinosum
(2) Form a mobile and dense network of cells that samples any antigens that attempt to pass through the epidermis
(3) These monocyte-derived cells represent a large part of the skin’s adaptive immunity

Answer 78

Dendritic Cells

Question 79

(1) Found on most skin surfaces except palmar surfaces of hands/fingers or plantar surfaces of feet/toes
(2) comprised of fused keratinized cells Surrounded by the hair follicle
(3) Genetic/hormonal influences largely determine pattern/distribution of hair
(4) Protection for the scalp, eyes, and nostrils

Answer 79

Hair

Question 80

Release secretions directly into the bloodstream

Answer 80

Endocrine glands:

Question 81

Release secretions onto an epithelial surface via a duct

Answer 81

Release secretions onto an epithelial surface via a duct

Question 82

(a) Sebaceous

b) Sudoriferous (sweat glands

Answer 82

Derm-specific exocrine glands:

Question 83

An exocrine gland in the skin that opens into a hair follicle and secretes an oily/waxy sebum lubricates the hair in humans and other mammals

(2) Found in all areas of the skin except the palms of the hands and soles of the feet
(3) work in conjunction with apocrine glands in thermoregulation

Answer 83

Sebaceous Glands

Question 84

(1) Cover nearly the entire body surface; especially dense on the palms, soles, forehead, and upper limbs (500/cm2)
(2) Empty directly onto the skin surface, not from hair follicles
(3) Serves as major thermoregulation component of the integumentary system
(4) Sweat is a dilute electrolyte solution comprised of H2O, NaCl, and minimal waste products
(5) Minimal Odor from eccrine sweat

Answer 84

Sudoriferous – Eccrine Glands

Question 85

(1) Largely confined to the axillae, perineum, and concentrated in hairy areas
(2) Attached to the hair follicle; sweat empties onto the skin via the follicle opening
(3) sweat is cloudy, viscous, and initially odorless. However, serves as a nutrient source for microbes and attains its characteristic odor upon being degraded by bacteria.
(4) do not become functional until puberty and have a hormonal activation pattern

Answer 85

Sudoriferous – Apocrine Glands

Question 86

Distal margin of nail plate

Answer 86

Free edge:

Question 87

(1) Portion of the nail that is visible; colored pink because of underlying capillaries
(a) Surrounded by a soft tissue border known as the lateral and proximal nail folds

Answer 87

Nail body (plate)

Question 88

Visible part of the matrix; whitish crescent at base of nail plate

Answer 88

Lunula (little moon)

Question 89

Semi-circular layer of epithelial cells (stratum corneum) covering the proximal portion of nail plate

Answer 89

Cuticle

Question 90

Thickened area of stratum corneum beneath the free edge that attaches the free edge to the fingertip

Answer 90

Nail bed

Question 91

Portion of the nail that is not visible

Answer 91

Nail root

Question 92

Proximal portion of the epithelium deep to the nail root where new nail cells are produced

Answer 92

Nail matrix

Question 93

Nails – Function

Answer 93

(a) Protects distal phalanxes & surrounding soft tissues from injuries
(b) Enhances precise & delicate finger movements by exerting counter-pressure on pulps of the fingers when grasping and manipulating objects
(c) Enables “extended precision grip” for pulling, and certain cutting or scraping actions

Question 94

Actual nail growth rate is highly dependent on

Answer 94

age, sex, season, exercise level, diet, and

other factors

Question 95

Fingernails grow approx. ____ per month & require _____ to regrow completely

Answer 95

3.5 mm

3-6 months

Question 96

Toenails grow approx. ___ per month & require ____ to regrow completely

Answer 96

1.6 mm

12-18 months

Question 97

Lack of oxygen in the blood will make the skin appear

Answer 97

bluish or cyanotic (cyan = blue)

Question 98

due to a buildup of the yellow pigment bilirubin, indicated liver disease

Answer 98

Jaundice (jaund = yellow)

Question 99

due to an engorgement of capillaries in the dermis with blood.
Due to skin injury, exposure to heat, inflammation, or allergic reaction

Answer 99

Erythema (eyth = red)

Question 100

may occur in condition such as shock and anemia

Answer 100

Pallor or paleness

Question 101

There are three main pigments that influence skin pigmentation:

Answer 101

(a) Melanin (epidermis)
(b) Carotene (dermis)
(c) Hemoglobin (red blood cells within capillaries of dermis)

Question 102

(1) High melanin rate =
(2) High carotene rate =
(3) High hemoglobin rate =

Answer 102

darker brown to black skin tones

yellow to reddish tones

red to pinkish tone

Question 103

(1) Primary determinant of skin color, hair color and eye color
(2) Causes the skin color to vary from pale yellow to reddish-brown to black

Answer 103

Melanin

Question 104

yellow colored, lipid-soluble compounds found in red, orange, yellow and green vegetables and fruit.

Answer 104

Carotenoids

Question 105

Excessive intake of these foods can cause Carotenemia:

Answer 105

(a) Characterized by yellow-orange discoloration of the skin

The skin color can return to normal with dietary modification

Question 106

the iron-containing oxygen-transport protein in erythrocytes (red blood cells)

Answer 106

Hemoglobin

• (2) Sudden drop in oxygenation can affect skin color, initially causing pallor
  (3) Prolonged decreased oxygen levels increases deoxygenated hemoglobin, subsequently causing cyanosis

Question 107

UV light exposure stimulates

Answer 107

melanin production; increasing both the amount and darkness of the melanin pigment imparted into the epidermis

Question 108

UV overexposure is a predisposing factor for

Answer 108

skin cancer

Question 109

(1) A genetic (recessive-inherited) condition characterized by little or no melanin pigment in the eyes, skin or hair
(2) Occurs worldwide and affects people of all races. Males and females alike can have the condition.

Answer 109

Albinism

Question 110

Main health complications or albinism consist of:

Answer 110

(a) Sunburns easily during UV exposure

(b) Increased risk for skin cancer over their lifetime

Question 111

(1) Acquired depigmentation the skin characterized by loss of melanocytes
(2) Affects 0.5–1% of the population and occurs in all races, however, far more dramatic presentation in darker skinned individuals
(3) Thought to be a systemic autoimmune disorder in which antibodies attack the melanocytes

Answer 111

Vitiligo

Question 112

How do tattoos work

Answer 112

(1) Pigment injected through the epidermis and activates an immune response, resulting in phagocytes & macrophages engulfing pigment particles
(2) Macrophages containing the pigment in the papillary dermis are trapped in the collagen matrix, forming a homogenized layer below the dermal/epidermal boundary
(3) The trapped pigment particles in the papillary dermis are stable, however, the pigment tends to migrate deeper into the reticular dermis over decades
(4) This pigment migration accounts for the degraded (faded) appearance of tattoos in older adults

Question 113

Homeostatic temperature regulation occurs by two methods:

Answer 113

(a) Transfer of heat via sweating (evaporation)

(b) Maximizing or minimizing heat loss (radiation) via flow of blood in the dermis

Question 114

High environmental temperature

Sweat production increases from the skin surface and helps lower the body temperature

Answer 114

(↑ evaporation)

Question 115

High environmental temperature

Dermal blood vessels dilate to allow more blood flow and increase heat loss from the
body

Answer 115

(↑ radiation)

Question 116

Low environmental temperature

Sweat production from eccrine sweat glands decrease

Answer 116

(↓ evaporation)

Question 117

Low environmental temperature

Dermal blood vessels constrict to decrease blood flow through the skin and reduce heat loss

Answer 117

(↓ radiation)

Question 118

produced in the epidermis that protects from microbes, abrasion, heat, water loss, and chemicals

Answer 118

Keratin (protein)

Question 119

released by lamellar granules inhibit evaporation of water from the skin surface and prevent dehydration

Answer 119

Lipids (fats)

Question 120

provides protection against damaging effects of UV light

Answer 120

Melanin (pigment)

Question 121

prevent hair from drying out, are mildly bactericidal

and have acidic pH

Answer 121

Sebum (fat, wax esters, fatty acids)

Question 122

Cutaneous Sensation

Answer 122

(1) Tactile sensations (exteroceptors)
(2) Thermal sensations
(3) Pain

Question 123

(a) Touch (Mechanoreceptors)
(b) Pressure (baroreceptors)
(c) Vibration (Meissner Corpuscles

Answer 123

Tactile sensations (exteroceptors)

Question 124

(a) Warmth (thermoreceptors)

b) Coolness (thermoreceptors

Answer 124

Thermal sensations:

Question 125

(a) Impending or actual tissue damage (Nociceptors

Answer 125

Pain:

Question 126

What activates vitamin D

Answer 126

Exposure of the skin to ultraviolet radiation

Question 127

What is Vitamin D converted into

Answer 127

Vitamin D is converted to calcitriol which aids in the absorption of calcium and phosphorus

Question 128

(a) The interaction between invading microbes and the reaction of the body’s immunologic response
(b) Specifically requires some form of microbe (either pathogenic or opportunistic) to invade the cellular environment

Answer 128

Infection

Question 129

(a) The immunovascular response, without regard to the cause, to any potentially harmful stimuli (e.g., pathogens, allergens, toxins, burns, frostbite, etc.)

Answer 129

Inflammation

(b) Inflammation is a generic response; it is not tailored to the specific stimuli (which is why see it ALL THE TIME in medicine)

Question 130

Inflammation - 5 signs:

Answer 130

(a) Localized Hyperthermia (due to increased blood flow)
(b) Erythema (due to dilation of blood vessels)
(c) Localized Edema (due to increased vessel permeability & extravasation of fluid)
(d) Pain (due to chemical mediators like bradykinin)
(e) Loss of function (due to all the above)

Question 131

an aggregation of macrophages formed from chronic inflammation. Immune system attempts to isolate foreign substances that it cannot eliminate (pathogens, foreign objects, keratin, suture fragments).

Answer 131

Granulomatous inflammation (cystic)

Question 132

(a) Characterized by the presence of an amorphous mass (abscess) composed of active neutrophils, cellular debris and microbes
(b) Generally caused by certain pyogenic bacteria (Staphylococcus aureus) and often forms an abscess

Answer 132

Suppurative Inflammation (abscesses)

Question 133

(a) Inflammation occurring near epithelium that results in necrotic loss of surface tissue that exposes lower layers
(b) The subsequent excavation in the epithelium is known as an ulcer

Answer 133

Ulcerative inflammation (ulcers)

Question 134

Derm Inflammation Patterns

Answer 134

(1) Granulomatous inflammation (cystic)
(2) Suppurative Inflammation (abscesses)
(3) Ulcerative inflammation (ulcers)

Question 135

(1) The inevitable physiologic changes of the skin that occur with time and are influenced by genetic and hormonal factors
(2) This form of aging is not preventable and happens to everyone

Answer 135

Intrinsic Aging

Question 136

(1) The preventable structural & functional changes of the skin that occur with exposure to:
(a) Environmental factors
(b) Lifestyle (tobacco, ETOH, illicit drugs, etc.)
(c) Social determinants
(d) Elective cosmetic surgeries
(2) Most important source of preventable extrinsic aging is ultraviolet radiation exposure
(a) Termed “photo-aging”

Answer 136

Extrinsic Aging

Question 137

(1) Reduction of collagen fiber production enhances rate and amount of UV exposure (photodamage)
(2) Reduction of elastin fiber production decreases the elastic recovery and resilience in aged skin
(3) Abnormalities in ground substance of the connective tissue results in decreased skin hydration and characteristic elderly xerosis (dry skin)

Answer 137

Dermal Aging

Question 138

The restoration of tissue architecture after an injury. Encompasses two separate processes:

Answer 138

regeneration & replacement.

Question 139

(a) Damaged tissue is completely restored to its pre-injury/normal state via new growth.
(b) can happen continuously.

Example: Sloughed-off gastrointestinal epithelial cells, for example, are replaced by new cells arising from stem cells in the intestinal crypts.

Answer 139

Regeneration

Question 140

(a) Severely damaged or non-regenerable tissue is repaired by laying down connective tissue, resulting in scarring

Example: Severe burns will require tissue replacement and will scar

Answer 140

Replacement

Question 141

Tissue Repair Rates

(a) Most rapidly regenerating and repairing tissue and has capacity for continuous renewal

Example: The Thing in The Thing (1982) or Wolverine/Deadpool

Answer 141

Epithelial Tissue

Question 142

Tissue Repair Rates

(a) Adequate renewal capacity; slower than epithelial tissues and prone to hyperproliferation (scarring)

Example: John Wick in every movie

Answer 142

Connective Tissue

Question 143

Tissue Repair Rates

(a) Relatively poor capacity for renewal. Tissue does not divide rapidly enough to replace extensively damaged muscle fibers.

Example: Batman in The Dark Knight Rises

Answer 143

Muscular Tissue

Question 144

Tissue Repair Rates

(a) Poorest capacity for renewal because it does not undergo mitosis to replace damaged neurons

Example: Jake Sully in Avatar

Answer 144

Nervous Tissue

Question 145

Healing – Inflammation Phase

Answer 145

(1) Inflammatory phase (1-3 days post injury):
(a) Serves mainly to clear bacteria & debris from the wound and to prepare wound environment for repair
(2) Platelet & fibrin clot forms in the injured space, providing hemostasis and inducing both cellular and chemical inflammatory responses. Severed nerves also provide signals that increase inflammation in the injured area.
(3) Mast Cells release chemical mediators causing local capillary vasodilation, increasing permeability and augmenting local blood flow and migration of inflammatory cells to the injured area
(4) Neutrophils phagocytose cellular debris, bacteria, and foreign material, and release multiple factors that further the inflammatory reaction. After neutrophils are done, they are removed via physical sloughing or are phagocytosed themselves by macrophages.

Question 146

Healing – Proliferative Phase

Answer 146

(1) Proliferative phase (2 to 10 days post injury):
(a) Purpose is to construct granulation tissue to fill the defect caused by the wound
(2) Fibroblasts are the major cellular agent in this phase and produce Type III collagen to provide structural integrity to the new tissue
(3) Collagen provides contractile force to minimize wound surface area during healing. Once enough extracellular matrix has been laid down most fibroblasts undergo apoptosis.
(4) Keratinocytes from wound edges migrate onto wound surface and advance across the wound, leaving proliferating keratinocytes behind until they reach the keratinocytes on opposite wound edge

Question 147

Healing – Early Remodeling Phase

Answer 147

(1) 2–3 weeks post-injury: tissue defects have been replaced with granulation tissue & covered by new epithelial cells
(2) Wound tissue now consists of disorganized collagen and extracellular matrix proteins without dermal appendages (hair follicles/sweat glands) and is covered with epithelium
(3) Surface of the wound contracts, causing base of the wound to be wider than the surface
(4) Fibroblasts, macrophages, and endothelial cells in wound space begin to apoptosis or exit wound

Question 148

Healing – Late Remodeling Phase

Answer 148

(1) Remodeling Phase (months to > 1 year):
(2) The type III collagen laid down by the fibroblasts are replaced with type I collagen and collagen fibrils become more organized
(3) As collagen rearranges, the tensile strength of the wound increases from 20% at 3 weeks after injury, to 70–80% at 6 weeks, but never reaches the full strength of uninjured tissue
(4) Over time, collagen fiber rearrangement makes the scar become less thick & firm
(5) The initial capillaries formed in the inflammatory phase regress and the scar becomes and less erythematous

Question 149

(1) Relies on dermal edges that are close together and easily approximated

Answer 149

Healing by Primary Intention

Question 150

Healing by Primary Intention

Pros
Cons

Answer 150

(2) Pros:
(a) Most often results in a complete return to function with minimal scarring & loss of skin appendages
(b) Sutures, staples, and dermal adhesive are readily available to the IDC
(3) Cons:
(a) Requires relatively clean wounds without major avulsion or asymmetric/jagged edges
(b) Easily mismanaged by providers who lack experience and proper technique
(c) Potential for scarring & poor cosmetic outcome due to patient non-compliance

Examples: Sutures, staples, dermal adhesive

Question 151

(1) Relies on formation of granulation tissue to fill the space between the wound opening or edges

Answer 151

Healing by Secondary Intention

Question 152

Healing by Secondary Intention

Pros
Cons

Answer 152

(2) Pros:
(a) Decreases chance of wound infection by allowing exudate drainage from the wound
(b) Closure of choice when dealing with a large wound made by infection
(3) Cons:
(a) Wounds take much longer to heal
(b) Greater likelihood of scar formation because edges are not approximated
(c) Wounds must be regularly examined and re evaluated to ensure proper care