Exercise7_Integumentary system.pdf

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7
E X E R C I S E
The Integumentary
System

Learning Outcomes Go to Mastering A&P™ > Study
Area to improve your performance
▶ List several important functions of the skin, or integumentary system. in A&P Lab.
▶ Identify the following skin structures on a model, image, or microscope
slide: epidermis, dermis (papillary and reticular layers), hair follicles and hair,
sebaceous glands, and sweat glands.
▶ Name and describe the layers of the epidermis.

▶ List the factors that determine skin color, and describe the function of melanin.

▶ Identify the major regions of nails.

▶ Describe the distribution and function of hairs, sebaceous glands, and
sweat glands.
▶ Discuss the difference between eccrine and apocrine sweat glands.
> Lab Tools > Practice Anatomy Lab
▶ Compare and contrast the structure and functions of the epidermis and > Histology
the dermis. Instructors may assign new
Building Vocabulary coaching
activities, Pre-Lab Quiz questions, Art
Instructors may assign these and other Pre-Lab
Pre-Lab Quiz Quiz questions using Mastering A&P™ Labeling activities, Practice Anatomy
Lab Practical questions (PAL) for
Histology of the Integumentary System,
1. All the following are functions of the skin except:
and more using the Mastering A&P™
a. excretion of body wastes Item Library.
b. insulation
c. protection from mechanical damage
d. site of vitamin A synthesis Materials
2. Immune cells found in the epidermis are ▶ Skin model (three-dimensional, if
a. dendritic cells c. melanocytes available)
b. tactile epithelial cells d. keratinocytes ▶ Compound microscope
3. These cells produce a brown-to-black pigment that colors the skin ▶ Prepared slide of human scalp
and protects DNA from ultraviolet radiation damage. The cells are: ▶ Prepared slide of skin of palm or sole
a. dendritic cells c. melanocytes ▶ Sheet of 20# bond paper ruled to mark
b. keratinocytes d. tactile cells off cm2 areas
4. The portion of a hair that projects from the surface of the skin is ▶ Scissors
known as the: ▶ Povidone-iodine swabs, or Lugol’s iodine
a. bulb b. matrix c. root d. shaft and cotton swabs
5. Circle the correct underlined term. The epidermis / hypodermis largely ▶ Adhesive tape
consists of fat and insulates the integument. ▶ Disposable gloves
▶ Data collection sheet for plotting
distribution of sweat glands

T he integument is considered an organ system because it consists of multiple ▶ Porelon® fingerprint pad or portable
organs, the skin and its accessory organs. It is much more than an external inking foils
body covering; architecturally, the skin is a marvel. It is tough yet pliable, ▶ Ink cleaner towelettes
a characteristic that enables it to withstand constant insult from outside agents. ▶ Index cards (4 in. 3 6 in.)
The skin has many functions, most concerned with protection. It insulates and ▶ Magnifying glasses
cushions the underlying body tissues and protects the entire body from abrasion,
exposure to harmful chemicals, temperature extremes, and bacterial invasion. The
hardened uppermost layer of the skin prevents water loss from the body surface.

107

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 108 Exercise 7

The skin’s abundant capillary network plays an important role the skin pores in sweat. The skin also has important metabolic
in temperature regulation by regulating heat loss from the body duties. For example, it is the site of vitamin D synthesis for the
surface. body. Vitamin D plays a role in calcium absorption in the diges-
The skin has other functions as well. For example, it acts tive system. Finally, the sense organs for touch, pressure, pain,
as an excretory system; urea, salts, and water are lost through and temperature are located here.

Basic Structure of the Skin
The skin has two distinct regions—the superficial epidermis in a blister. Immediately deep to the dermis is the subcutaneous
composed of epithelium and an underlying connective tissue, layer, or hypodermis, which is not considered part of the skin.
the dermis (Figure 7.1). These layers are firmly “cemented” It consists primarily of adipose tissue. The main skin areas and
together along a wavy border. But friction, such as the rubbing structures are described below.
of a poorly fitting shoe, may cause them to separate, resulting
Epidermis
Structurally, the avascular epidermis is a keratinized stratified
Activity 1 squamous epithelium consisting of four distinct cell types and
four or five distinct layers.
Locating Structures on a Skin Model
7 Cells of the Epidermis
As you read, locate the following structures in the diagram
Keratinocytes (literally, keratin cells): The most abundant
(Figure 7.1) and on a skin model.
epidermal cells, their main function is to produce keratin

Hair shaft

Dermal papillae
Epidermis

Papillary
layer
Sweat pore

Dermis Appendages of skin
Reticular
layer Eccrine sweat gland
Arrector pili muscle
Sebaceous (oil) gland
Hair follicle
Hair root
Subcutaneous
layer
(hypodermis;
not part of skin)
Nervous structures
Sensory nerve fiber with Dermal vascular plexus
free nerve endings
Tactile corpuscle Adipose tissue
Lamellar corpuscle
Hair follicle receptor
(root hair plexus)

Figure 7.1 Skin structure. Three-dimensional view of the skin and the underlying tissue. The Instructors may assign this figure
epidermis and dermis have been pulled apart at the right corner to reveal the dermal papillae. as an Art Labeling Activity using
Mastering A&P™
Tactile corpuscles are not common in hairy skin but are included here for illustrative purposes.

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 The Integumentary System 109

Figure 7.2 The main structural features in the epidermis of
thin skin. (a) Photomicrograph depicting the four major epidermal
layers (4303). (b) Diagram showing the layers and relative
distribution of the different cell types. Notice that the keratinocytes
are joined by numerous desmosomes. The stratum lucidum, present
in thick skin, is not illustrated here.

Instructors may assign this figure as an Art
Labeling Activity using Mastering A&P™

Keratinocytes Dendritic cell

Stratum corneum
Most superficial layer; 20–30 layers
of dead keratinocytes, essentially flat
membranous sacs filled with keratin.
Glycolipids in extracellular space.

Stratum granulosum
One to five layers of flattened cells, 7
organelles deteriorating; cytoplasm
full of lamellar granules (release
lipids) and keratohyaline granules.

Stratum spinosum
Several layers of keratinocytes joined
by desmosomes. Cells contain thick
bundles of intermediate filaments
made of pre-keratin.

Stratum basale
Deepest epidermal layer; one row
of actively mitotic stem cells; some
newly formed cells become part of
the more superficial layers.

Dermis

(a) Dermis Melanin Tactile Sensory
granule epithelial nerve
cell ending
Desmosomes Melanocyte
fibrils. Keratin is a fibrous protein that gives the epidermis
its durability and protective capabilities. Keratinocytes are (b)
tightly connected to each other by desmosomes.
Far less numerous are the following types of epidermal cells Dendritic cells: Also called Langerhans cells, these cells
(Figure 7.2): arise from the bone marrow and migrate to the epidermis.
They ingest foreign substances and play a key role in acti-
Melanocytes: Spidery black cells that produce the brown- vating the immune response.
to-black pigment called melanin. The skin tans because
Tactile epithelial cells: Occasional spiky hemispheres that,
melanin production increases when the skin is exposed
in combination with sensory nerve endings, form sensitive
to ultraviolet radiation (UVR) in sunlight. The melanin
touch receptors located at the epidermal-dermal junction.
provides a protective pigment umbrella over the nuclei of
the cells in the deeper epidermal layers, thus shielding their Layers of the Epidermis
genetic material (DNA) from the damaging effects of ultra- The epidermis consists of four layers in thin skin, which covers
violet radiation. Freckles and moles (nevi) are areas where most of the body. Thick skin, found on the palms of the hands
melanin is more concentrated. and soles of the feet, contains an additional layer, the stratum

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 110 Exercise 7

Table 7.1 Layers of the Epidermis (from superficial to deep)

Epidermal layer Description
Stratum corneum (horny layer) The outermost layer consisting of 20–30 layers of dead, scalelike keratinocytes. They are constantly being
exfoliated and replaced by the division of the deeper cells.
Stratum lucidum (clear layer) Present only in thick skin. A very thin transparent band of flattened, dead keratinocytes with indistinct
boundaries.
Stratum granulosum (granular layer) A thin layer named for the abundant granules its cells contain. These granules are (1) lamellar granules,
which contain a waterproofing glycolipid that is secreted into the extracellular space; and (2) keratohyaline
granules, which help to form keratin in the more superficial layers. At the upper border of this layer, the cells
are beginning to die.
Stratum spinosum (spiny layer) Several layers of cells that contain thick, weblike bundles of intermediate filaments made of a pre-keratin
protein. The cells in this layer appear spiky because when the tissue is prepared, the cells shrink, but their
desmosomes hold tight to adjacent cells. Cells in this layer and the basal layer are the only ones to receive
adequate nourishment from diffusion of nutrients from the dermis.
Stratum basale (basal layer) A single row of cells immediately above the dermis. Its cells are constantly undergoing mitosis to form
new cells, hence its alternate name, stratum germinativum. Some 10–25% of the cells in this layer are
melanocytes, which thread their processes through this and adjacent layers of keratinocytes. Occasional
tactile epithelial cells are also present in this layer.
7

lucidum. From deep to superficial, the layers of the epidermis Skin Color
are the stratum basale, stratum spinosum, stratum granulosum,
stratum lucidum, and stratum corneum (Figure 7.2). The layers Skin color is a result of the relative amount of melanin in skin, the
of the epidermis are summarized in Table 7.1. relative amount of carotene in skin, and the degree of oxygen-
ation of the blood. Carotene is a yellow-orange pigment present
primarily in the stratum corneum and in the adipose tissue of the
Dermis hypodermis. Its presence is most noticeable when large amounts
The connective tissue proper making up the dermis consists of carotene-rich foods (carrots, for instance) are eaten.
of two principal regions—the papillary and reticular areas Skin color may be an important diagnostic tool. For
­(Figure 7.1). Like the epidermis, the dermis varies in thickness. example, flushed skin may indicate hypertension or
fever, whereas pale skin is typically seen in anemic individuals.
Papillary dermis: The more superficial dermal region com-
When the blood is inadequately oxygenated, as during asphyx-
posed of areolar connective tissue. It is very uneven and has
iation and serious lung disease, both the blood and the skin take
fingerlike projections from its superior surface, the dermal
on a bluish cast, a condition called cyanosis. Jaundice, in which
papillae, which attach it to the epidermis above. These
the tissues become yellowed, is almost always diagnostic for
projections lie on top of the larger dermal ridges. In the
liver disease, whereas a bronzing of the skin hints that a person’s
palms of the hands and soles of the feet, they produce the
adrenal cortex is hypoactive (Addison’s disease). +
fingerprints, unique patterns of epidermal ridges that remain
unchanged throughout life. Abundant capillary networks
in the papillary layer furnish nutrients for the ­epidermal
layers and allow heat to radiate to the skin surface. The pain Accessory Organs of the Skin
receptors (free nerve endings) and touch receptors (tactile
corpuscles in hairless skin) are also found here. The accessory organs of the skin—cutaneous glands, hair, and
Reticular dermis: The deepest skin layer. It is composed of nails—are all derivatives of the epidermis, but they reside pri-
dense irregular connective tissue and contains many arter- marily in the dermis. They originate from the stratum basale
ies and veins, sweat and sebaceous glands, and pressure and extend into the dermis.
receptors (lamellar corpuscles).
Nails
The abundant dermal blood supply allows the skin to play a
Nails are hornlike derivatives of the epidermis (Figure 7.3).
role in the regulation of body temperature. When body tempera-
Their named parts are:
ture is high, the arterioles serving the skin dilate, and the capillary
network of the dermis becomes engorged with the heated blood. Nail plate: The visible attached portion.
Thus body heat is allowed to radiate from the skin surface. Free edge: The portion of the nail that grows out away from
The dermis is also richly provided with lymphatic vessels and the body.
nerve fibers. Many of the nerve endings bear highly specialized
Hyponychium: The region beneath the free edge of the nail.
receptor organs that, when stimulated by environmental changes,
transmit messages to the central nervous system for interpreta- Nail root: The part that is embedded in the skin and adheres
tion. Some of these receptors—free nerve endings (pain recep- to an epithelial nail bed.
tors), a lamellar corpuscle, a tactile corpuscle, and a hair follicle Nail folds: Skin folds that overlap the borders of the nail.
receptor (also called a root hair plexus)—are shown in Figure 7.1. Eponychium: Projection of the thick proximal nail fold
(These receptors are discussed in depth in Exercise 22.) commonly called the cuticle.

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 The Integumentary System 111

Lateral Lunule Hair follicle wall
nail fold
Peripheral
connective tissue
(fibrous) sheath
Glassy membrane
Epithelial root
sheath
External root
sheath
Internal root
sheath
Hair root
(a)
Cuticle
Free edge Nail Eponychium Nail root Cortex
of nail plate (cuticle) Medulla
Proximal Nail
(a)
nail fold matrix Hair shaft

Arrector
pili muscle
7
Sebaceous
gland
Hair root

Hair bulb

Hyponychium Nail bed Phalanx (bone of fingertip) Hair follicle wall
(b) Peripheral
connective tissue
Figure 7.3 Structure of a nail. (a) Surface view of the distal (fibrous) sheath
part of a finger. The nail matrix that forms the nail lies beneath Glassy membrane
the lunule; the epidermis of the nail bed underlies the nail. Epithelial root
(b) Sagittal section of the fingertip. sheath
External root
sheath
Internal root
Nail bed: Extension of the stratum basale beneath the nail. sheath
Nail matrix: The thickened proximal part of the nail bed Hair root
containing germinal cells responsible for nail growth. As Cuticle
the matrix produces the nail cells, they become heavily Cortex
keratinized and die. Thus nails, like hairs, are mostly non- Medulla
living material.
Hair matrix
Lunule: The proximal region of the thickened nail matrix,
which appears as a white crescent moon. Everywhere else, Hair papilla
nails are transparent and nearly colorless, but they appear Melanocyte
pink because of the blood supply in the underlying dermis.
Subcutaneous
When someone is cyanotic because of a lack of oxygen in adipose tissue
the blood, the nail beds take on a blue cast.
(b)

Activity 2 Figure 7.4 Structure of a hair and hair follicle.
(a) Diagram of a cross section of a hair within its follicle.
Identifying Nail Structures (b) Diagram of a longitudinal view of the hair bulb of the hair
Identify the parts of a nail (as shown in Figure 7.3) on yourself follicle, which encloses the hair matrix, the actively dividing
or your lab partner. epithelial cells that produce the hair.

Hair consists of two primary regions: the hair shaft, the
Hairs and Associated Structures region projecting from the surface of the skin, and the hair root,
Hairs, enclosed in hair follicles, are found all over the entire which is beneath the surface of the skin and is embedded within
body surface, except for thick-skinned areas (the palms of the the hair follicle. The hair bulb is a collection of well-nourished
hands and the soles of the feet), parts of the external genitalia, epithelial cells at the base of the hair follicle (Figure 7.4).
the nipples, and the lips.

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 112 Exercise 7

The hair shaft and the hair root have three layers of keratin- tissue sheath and provides nutrition to the growing hair. It
ized cells: the medulla in the center, surrounded by the cortex, is called the hair papilla. A layer of actively dividing epi-
and the protective cuticle. Abrasion of the cuticle at the tip of thelial cells called the hair matrix is located on top of the
the hair shaft results in split ends. Hair color depends on the hair papilla.
amount and type of melanin pigment found in the hair cortex. Arrector pili muscle: Small bands of smooth muscle
Hair follicle: A structure formed from both epidermal and cells connect each hair follicle to the papillary layer of
dermal cells (Figure 7.4). Its epithelial root sheath, with the dermis (Figures 7.1 and 7.4). When these muscles
two parts (internal and external), is enclosed by a thick- contract (during cold or fright), the slanted hair follicle
ened basement membrane, the glassy membrane, and by is pulled upright, dimpling the skin surface with goose
a peripheral connective tissue (or fibrous) sheath, which is bumps. This phenomenon is especially dramatic in a
essentially dermal tissue. A small nipple of dermal tissue scared cat, whose fur actually stands on end to increase
protrudes into the hair bulb from the peripheral ­connective its apparent size.

Activity 3
Comparing Hairy and Relatively Hair-Free Skin Microscopically
Whereas thick skin has no hair follicles or sebaceous (oil) How is this stratified squamous epithelium different from that
glands, thin skin usually has both. The scalp, of course, has the observed in the esophagus (Exercise 6)?
7 highest density of hair follicles.
1. Obtain a prepared slide of the human scalp, and study it _____________________________________________________
carefully under the microscope. Compare your tissue slide
to Figure 7.5a, and identify as many as possible of the dia- _____________________________________________________
grammed structures in Figure 7.1.

Hair follicle Sebaceous gland Epidermis
Dermis

Epidermis
Stratum
corneum

Stratum
lucidum

Stratum
granulosum

Stratum
spinosum

Stratum
basale

Dermis

(a) (b)

Figure 7.5 Photomicrographs of skin. (a) Thin skin with hairs (403). (b) Thick skin (753).

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 The Integumentary System 113

How do these differences relate to the functions of these two 2. Obtain a prepared slide of hairless skin of the palm or sole
similar epithelia? (Figure 7.5b). Compare the slide to the photomicrograph in
Figure 7.5a. In what ways does the thick skin of the palm or
_____________________________________________________ sole differ from the thin skin of the scalp?

_____________________________________________________ _____________________________________________________

_____________________________________________________ _____________________________________________________

Cutaneous Glands Sweat (Sudoriferous) Glands
The cutaneous glands fall primarily into two categories: Sweat, or sudoriferous, glands are exocrine glands that are
the sebaceous glands and the sweat glands (Figure 7.1 and widely distributed all over the skin. Outlets for the glands are
Figure 7.6). epithelial openings called pores. Sweat glands are categorized
by the composition of their secretions.
Sebaceous (Oil) Glands
Eccrine sweat glands: Also called merocrine sweat glands,
The sebaceous glands are found nearly all over the skin, except
these glands are distributed all over the body. They pro-
for the palms of the hands and the soles of the feet. Their ducts
duce a clear secretion consisting primarily of water, salts
usually empty into a hair follicle, but some open directly on the
(mostly NaCl), and urea. Eccrine sweat glands, under the
7
skin surface.
control of the nervous system, are an important part of the
Sebum is the product of sebaceous glands. It is a mixture of
body’s heat-regulating apparatus. They secrete sweat when
oily substances and fragmented cells that acts as a lubricant to
the external temperature or body temperature is high.
keep the skin soft and moist (a natural skin cream) and keeps
When sweat evaporates, it carries excess body heat with it.
the hair from becoming brittle. The sebaceous glands become
particularly active during puberty, when more male hormones Apocrine sweat glands: Found predominantly in the axil-
(androgens) begin to be produced for both genders; thus the lary and genital areas, these glands secrete the basic compo-
skin tends to become oilier during this period of life. nents of eccrine sweat plus proteins and fat-rich substances.
Blackheads are accumulations of dried sebum, bacte- Apocrine sweat is an excellent nutrient medium for the
ria, and melanin from epithelial cells in the oil duct. microorganisms typically found on the skin. This sweat is
Acne is an active infection of the sebaceous glands. + initially odorless, but when bacteria break down its organic
components, it begins to smell unpleasant.

Sweat
pore
Sebaceous
gland
Dermal
connective Sebaceous Hair root in
tissue gland duct hair follicle

Eccrine
sweat
gland
Duct
Dermal connective
tissue
Secretory cells

(a) Photomicrograph of a sectioned (b) Photomicrograph of a sectioned
sebaceous gland (1003) eccrine sweat gland (1453)

Figure 7.6 Cutaneous glands.

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 114 Exercise 7

Activity 4 8. Once all the data have been collected, review the class results.
9. Prepare a lab report for the experiment. (See Getting
Differentiating Sebaceous and Started, on Mastering A&P).
Sweat Glands Microscopically
Using the slide thin skin with hairs and the photomicrographs
of cutaneous glands (Figure 7.6) as a guide, identify sebaceous Dermography: Fingerprinting
and eccrine sweat glands. What characteristics relating to loca- Each of us has a unique genetically determined set of finger-
tion or gland structure allow you to differentiate these glands? prints. Because fingerprinting is useful for identifying and appre-
hending criminals, most people associate this craft solely with
_____________________________________________________ criminal investigations. However, fingerprints are also invalu-
able for quick identification of amnesia victims, missing persons,
_____________________________________________________ and unknown deceased, such as people killed in major disasters.
The friction ridges responsible for fingerprints appear in
_____________________________________________________ several patterns, which are clearest when the fingertips are inked
and then pressed against white paper. Impressions are also made
when perspiration or any foreign material such as blood, dirt,
or grease adheres to the ridges and the fingers are then pressed

7 Activity 5 against a smooth, nonabsorbent surface. The three most com-
mon patterns are arches, loops, and whorls (Figure 7.7).
Plotting the Distribution of Sweat Glands
1. Form a hypothesis about the relative distribution of sweat
glands on the palm and forearm. Justify your hypothesis.
2. The bond paper for this simple experiment has been pre­
ruled in cm2—put on disposable gloves, and cut along the lines
to obtain the required squares. You will need two squares of
bond paper (each 1 cm 3 1 cm), adhesive tape, and a ­povidone-
iodine swab or Lugol’s iodine and a cotton-tipped swab.
3. Paint an area of the medial aspect of your left palm (avoid
the deep crease lines) and a region of your left forearm with
the iodine solution, and allow it to dry thoroughly. The painted (a) Plain arch (b) Tented arch
area in each case should be slightly larger than the paper
squares to be used.
4. Have your lab partner securely tape a square of bond paper
over each iodine-painted area, and leave the paper squares in
place for 20 minutes. (If it is very warm in the laboratory while
this test is being conducted, you can obtain good results within
10 to 15 minutes.)
5. After 20 minutes, remove the paper squares, and count the
number of blue-black dots on each square. The presence of a
blue-black dot on the paper indicates an active sweat gland. The
iodine in the pore is dissolved in the sweat and reacts chemically
with the starch in the bond paper to produce the blue-black (c) Loop (d) Loop
color. You have produced “sweat maps” for the two skin areas.
6. Which skin area tested has the greater density of sweat
glands?

_____________________________________________________

_____________________________________________________

_____________________________________________________
7. Tape your results (bond paper squares) to a data collection
sheet labeled “palm” and “forearm” at the front of the lab. Be
(e) Plain whorl (f) Double loop whorl
sure to put your paper squares in the correct columns on the
data sheet.
Figure 7.7 Main types of fingerprint patterns.
(a, b) Arches. (c, d) Loops. (e, f) Whorls.

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 The Integumentary System 115

Activity 6
Taking and Identifying Inked Fingerprints
For this activity, you will be working as a group with your lab Bulb of finger
partners. Though the equipment for professional fingerprint-
ing is fairly basic, consisting of a glass or metal inking plate,
printer’s ink (a heavy black paste), ink roller, and standard
8 in. 3 8 in. cards, you will be using supplies that are even

Start roll here

Start roll here
Roll Roll
easier to handle. Each student will prepare two index cards,

Ink

Ink
each bearing his or her thumbprint and index fingerprint of
the right hand.
1. Obtain the following supplies and bring them to your
bench: two 4 in. 3 6 in. index cards per student, Porelon®
fingerprint pad or portable inking foils, ink cleaner towelettes,
and a magnifying glass. (a) (b)

2. The subject should wash and dry the hands. Open the ink
Figure 7.8 Fingerprinting. Method of inking and printing
pad or peel back the covering over the ink foil, and position it
(a) the thumb and (b) the index finger of the right hand.
close to the edge of the laboratory bench. The subject should 7
position himself or herself at arm’s length from the bench edge
and inking object. 7. When all group members at a bench have completed the
above steps, they are to write their names on the backs of their
3. A second student, called the operator, stands to the left of
index cards. The students combine their cards, shuffle them,
the subject and with two hands holds and directs movement of
and transfer them to the opposite bench. Finally, students clas-
the subject’s fingertip. During this process, the subject should
sify the patterns and identify which prints were made by the
look away, try to relax, and refrain from trying to help the
same individuals.
operator.
4. The thumbprint is to be placed on the left side of the index How difficult was it to classify the prints into one of the three
card, the index fingerprint on the right. The operator should categories given?
position the subject’s right thumb or index finger on the side of
the bulb of the finger in such a way that the area to be inked ______________________________________________________
spans the distance from the fingertip to just beyond the first
joint, and then roll the finger lightly across the inked surface Why do you think this is so?
until its bulb faces in the opposite direction. To prevent smear-
ing, the thumb is rolled away from the body midline (from left
______________________________________________________
to right as the subject sees it; see Figure 7.8), and the index
finger is rolled toward the body midline (from right to left). The
same ink foil can be reused for all the students at the bench; the Was it easy or difficult to identify the prints made by the same
ink pad is good for thousands of prints. Repeat the procedure individual?
(still using the subject’s right hand) on the second index card.
______________________________________________________
5. If the prints are too light, too dark, or smeary, repeat the
procedure.
Why do you think this was so?
6. While other students in the group are making clear prints of
their thumb and index finger, those who have completed that ______________________________________________________
activity should clean their inked fingers with a towelette and
attempt to classify their own prints as arches, loops, or whorls.
Use the magnifying glass as necessary to see ridge details.

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 Instructors may assign a portion

7
of the Review Sheet questions
using Mastering A&P™
REVIEW SHEET
E X E R C I S E
The Integumentary System
Name _______________________________________________________ Lab Time/Date_____________________________________

Basic Structure of the Skin
1. Complete the following statements by writing the appropriate word or phrase on the blank line:

1. Epidermis
The superficial region of the skin is the_____________________, composed of _________________________

_________________________ _________________________ (3 words) tissue.

2. Hypodermis
The deeper region tissue is the __________________________, composed of connective tissue.

3. The most numerous cell of the epidermis is the ________________________________.
Keratinocytes

4. The two primary layers of the dermis are the ________________________________
Papillary dermis dermis, composed of areolar connective

Reticular dermis
tissue, and the _______________________________ dermis, composed of dense irregular connective tissue.

2. Four protective functions of the skin are:

It insulates and cushions the body'
s tissues.
a. __________________________________________ c. __________________________________________

defends the entire body from abrasion, chemical
b. __________________________________________ d. __________________________________________
exposure, temperature fluctuations, and
bacterial invasion.
3. Using the key choices, choose all responses that apply to the following descriptions. Some terms are used more than once.

Key: a. stratum basale d. stratum lucidum g. reticular dermis
b. stratum corneum e. stratum spinosum
c. stratum granulosum f. papillary dermis

_____________ 1. layer of translucent cells in thick skin containing dead keratinocytes

_____________ 2. two layers containing dead cells

_____________ 3. dermal layer responsible for fingerprints

_____________ 4. epidermal layer exhibiting the most rapid cell division

_____________ 5. layer including scalelike dead cells, full of keratin, that constantly slough off

_____________ 6. layer named for the numerous granules present

_____________ 7. location of melanocytes and tactile epithelial cells

_____________ 8. area where weblike pre-keratin filaments first appear

_____________ 9. deep layer of the dermis

_____________ 10. layer that secretes a glycolipid that prevents water loss from the skin

117

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4. Label the integumentary structures and areas indicated in the diagram.

5. Label the layers of the epidermis in thick skin. Then, complete the statements that follow.

a. Glands that respond to rising androgen levels are the _______________________ glands.

b. ___________________ ___________________ are epidermal cells that play a role in the immune response.

c. Tactile corpuscles are located in the ____________________________________ ____________________________________.

d. ___________________________ corpuscles are located deep in the dermis.

6. Which skin lubricant is secreted by sebaceous glands?

____________________________________________________________________________________________________________

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7. List the three major types of glands in the epidermis. _______________________________________________________________

____________________________________________________________________________________________________________

____________________________________________________________________________________________________________

Accessory Organs of the Skin
8. Match the key choices with the appropriate descriptions. Some terms are used more than once.

Key: a. arrector pili d. hair follicle g. sweat gland—apocrine
b. cutaneous receptors e. nail h. sweat gland—eccrine
c. hair f. sebaceous gland

_____________ 1. tiny muscles, attached to hair follicles, that pull the hair upright during fright or cold

_____________ 2. sweat gland with a role in temperature control

_____________ 3. sheath formed of both epithelial and connective tissues

_____________ 4. less numerous type of sweat-producing gland; found mainly in the pubic and axillary regions

_____________ 5. primarily dead/keratinized cells (two responses from key)

_____________ 6. specialized nerve endings that respond to temperature, touch, etc.

_____________ 7. secretes a lubricant for hair and skin

9. Describe two integumentary system mechanisms that help regulate body temperature. __________________________________

____________________________________________________________________________________________________________

____________________________________________________________________________________________________________

10. Several structures of the hair are listed below. Identify each by matching its letter with the appropriate area on the­
photomicrograph.

a. cortex

b. cuticle

c. hair matrix

d. hair papilla

e. medulla

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Plotting the Distribution of Sweat Glands
11. With what substance in the bond paper does the iodine painted on the skin react? ______________________________________

12. Which skin type has more sweat glands, thin or thick skin? Explain.___________________________________________________

13. What type of sweat glands are widely distributed in the body? _______________________________________________________

Dermography: Fingerprinting
14. Why can fingerprints be used to identify individuals? _______________________________________________________________

____________________________________________________________________________________________________________

15. Name the three common fingerprint patterns.

__________________________________ , __________________________________ and __________________________________

16. Henna tattoos are temporary tattoos that last about 2 weeks. Hypothesize why henna tattoos do not last as long as

permanent tattoos. ___________________________________________________________________________________________

____________________________________________________________________________________________________________

____________________________________________________________________________________________________________

17. + Albinism is a rare type of genetic disorder. Which layer of the skin is affected in albinism? _____________________________

____________________________________________________________________________________________________________

____________________________________________________________________________________________________________

18. + Tyrosinase is an enzyme found in melanocytes, and its reduced activity is linked to albinism. Explain why. _______________

___________________________________________________________________________________________________________

____________________________________________________________________________________________________________

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