Download preparing for icd-10-cm anatomy and pathophysiology training

PREPARING FOR ICD-10-CM
ANATOMY AND
PATHOPHYSIOLOGY TRAINING
© RMACI, 2015
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INTRODUCTION TO ANATOMY AND PATHOPHYSIOLOGY
The transition to the International Classification of Diseases, 10th Edition, Clinical
Modification (ICD-10-CM) promises to be one of the most significant changes to the
administration of healthcare billing and reimbursement process. The entire structure of
the diagnosis reporting system will change, effective October 1, 2015.
This Anatomy and Pathophysiology Training video and the accompanying manual is the
first step in the transition process. ICD-10-CM is substantially different than ICD-9-CM
in a number of ways.
CHARACTERISTIC
Number of
characters
ICD-9
3–5 digits in length
ICD-10
3–7 characters in length
Approximately 13,000
codes
Approximately 68,000
available codes
Types of characters
First digit can be alpha (E
or V) or numeric; digits
2–5 are numeric; most
codes are all numeric
Character 1 is alpha;
character 2 is numeric;
characters 3–7 are alpha or
numeric
Code capacity
Limited space for adding
new codes
Flexible for adding new codes
Lacks detail
Very specific
Lacks laterality
Has laterality
Number of codes
Specificity
Laterality
designations (right
vs. left vs. bilateral)
These are very straightforward characteristics that can be easily identified when
comparing the two coding systems. However, one major element that is not
immediately recognizable is the fact that ICD-10-CM is more “clinically” driven. Health
care is very different in the 21st century than it was in 1979, when ICD-9-CM was
introduced. Illnesses and diseases that were not identified in 1979 are now treated on
a regular basis. Medical tests, vaccines, and procedures are now performed daily that
had never been conceived of at that time. One major reason for the change to ICD-10,
in addition to the reasons indicated above, is to help health care providers use diagnosis
codes that are more consistent with the daily reality of clinical practice. This means
that ICD-10-CM code selection will be more intuitive for physicians and other health
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care providers because codes are organized more logically than they were organized in
ICD-9.
That logical organization is based on two factors—patient anatomy and
pathophysiology. However, we must first define these terms.
KEY DEFINITIONS
Anatomy—The study of the structure of the human body. The study of anatomy is
understanding all of the pieces that comprise the human body. This includes the
bones, muscles, nerves, etc. that every human has, or should have. In order to
properly select ICD-10-CM codes, one must have a basic understanding of the human
anatomy because the codes are organized based by anatomical system and/or by
anomalies (abnormalities) to that anatomy.
Physiology—The study of the function of the human body. Whereas “anatomy”
examines the parts of the body, physiology studies how those parts work. It is vital to
understand how parts work normally in order to report the diagnosis(es) when there is
a malfunction or dysfunction in the body.
Pathophysiology—The physiology of abnormal states. Many times, the purpose of
medical care is to diagnose and treat the abnormal function of a body system or
systems. A basic understanding of common “pathologies” will help those involved in
the billing/coding process more accurately assist in the use of the proper diagnosis
code(s).
THE BASICS OF MEDICAL TERMINOLOGY
To those who have not undergone formal medical training, many “medical words” may
seem difficult to understand and, in some cases, frightening. However, there are three
common parts to almost all medical terms. Once we understand the basic structure,
understanding what these medical terms mean becomes much easier.
Almost all medical terminology has two or three parts. They are:
PREFIX + ROOT WORD + SUFFIX
Almost all root words have their origin in either Greek or Latin. Every medical term has
a root word and most have either a prefix or suffix. Some have both a prefix and
suffix. By putting the pieces together and understanding the meanings of the prefixes,
suffixes, and roots, you can understand the nature of the illness, even if you have not
previously studied that specific word.
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We will begin with some common and general terms and then we will narrow our focus
in the latter half of this video/manual to address issues specific to your specialty.
ROOT WORDS
Root words come from one of five places:
• Roots of the body
• Roots of color
• Roots of description
• Roots of position
• Roots of quantity
ROOTS OF THE BODY
Body part or component
Greek root in English
Latin root in English
abdomen
lapar(o)-
abdomin-
aorta
aort(o)-
aort(o)-
arm
brachi(o)-
-
artery
arteri(o)-
-
-
dors-
cyst(o)-
vesic(o)-
haemat-, hemat- (haem-,
hem-)
sangui-, sanguine-
thromb(o)-
-
blood vessel
angi(o)-
vascul-, vas-
bone
oste(o)-
ossi-
bone marrow, marrow
myel(o)-
medull-
brain
encephal(o)-
cerebr(o)-, pector-
breast
mast(o)-
mamm(o)-
ot(o)-
aur(i)-
oo-
ov-
ophthalm(o)-
ocul(o)-
eyelid
blephar(o)-
cili-, palpebr-
fallopian tubes
salping(o)-
-
fat, fatty tissue
lip(o)-
adip-
dactyl(o)-
digit-
cholecyst(o)-
fell-
gland
aden(o)-
-
head
cephal(o)-
capit(o)-
back
bladder
blood
blood clot
ear
eggs, ova
eye
finger
gallbladder
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Body part or component
Greek root in English
Latin root in English
heart
cardi(o)-
cordi-
intestine
enter(o)-
-
kidney
nephr(o)-
ren-
liver
hepat(o)-, (hepatic-)
jecor-
lungs
pneumon-
pulmon(i)-, (pulmo-)
myel(o)-
medull-
psych-
ment-
mouth
stomat(o)-
or-
muscle
my(o)-
-
nail
onych(o)-
ungui-
nerve; the nervous
system
neur(o)-
nerv-
nose
rhin(o)-
nas-
ovary
oophor(o)-
ovari(o)-
rib cage
thorac(i)-, thorac(o)-
-
skin
dermat(o)-, (derm-)
cut-, cuticul-
skull
crani(o)-
-
stomach
gastr(o)-
ventr(o)-
orchi(o)-, orchid(o)-
-
throat (upper throat
cavity)
pharyng(o)-
-
throat (lower throat
cavity/voice box])
laryng(o)-
-
uterus
hyster(o)-, metr(o)-
uter(o)-
vagina
colp(o)-
vagin-
vein
phleb(o)-
ven-
vulva
episi(o)-
vulv-
wrist
carp(o)-
carp(o)-
marrow, bone marrow
mind
testis
Frequently, vowels (usually the letter “O”) are added to the end of the root in order to
facilitate a connection to a suffix that begins with a consonant.
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ROOTS OF COLOR
Color
Greek root in English
Latin root in English
black
melano-
nigr-
blue
cyano-
–
chlor(o)-
vir-
erythr(o)-, rhod(o)-
rub-, rubr-
cirrh(o)-
–
white
leuc-, leuk-
alb-
yellow
xanth(o)-
flav-, jaun- [French]
Greek root in English
Latin root in English
bad, incorrect
cac(o)-, dys-
mal(e)-
bent, crooked
ankyl(o)-
prav(i)-
big
mega-, megal(o)-
magn(i)-
cold
cry(o)-
frig(i)-
dead
necr(o)-
mort-
female, feminine
thely-
-
fast
tachy-
celer-
flat
platy-
plan(i)-
great
mega-, megal(o)-
magn(i)-
hard
scler(o)-
dur(i)-
heavy
bar(o)-
grav(i)-
huge
megal(o)-
magn(i)-
cac(o)-, dys-
mal(e)-
long
macr(o)-
long(i)-
narrow
sten(o)-
angust(i)-
short
brachy-
brev(i)-
small
micr(o)-
parv(i)- (rare)
slow
brady-
tard(i)-
green
red
red-orange
ROOTS OF DESCRIPTION
Description
incorrect, bad
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ROOTS OF POSITION
Description
Greek root in English
Latin root in English
around
peri-
circum-
left
levo-
laev(o)-, sinistr-
middle
mes(o)-
medi-
right
dexi(o)-
dextr(o)-
peri-
circum-
surrounding
DESCRIPTIVE WORDS—POSITION
Description
Definition
anterior/ventral
at or near the front surface of the body
posterior/dorsal
at or near the back surface of the body
superior
above
inferior
below
lateral
side
distal
farthest from center
proximal
nearest to center
medial
middle
supine
face up or palm up
prone
face down or palm down
sagittal
transverse
coronal
vertical body plane, divides the body into equal right and left sides
horizontal body plane, divides the body into top and bottom sections
vertical body plane, divides the body into front and back sections
ROOTS OF QUANTITY
Description
Greek root in English
Latin root in English
diplo-
dupli-
iso-
equi-
few
oligo-
pauci-
half
hemi-
semi-
many, much
poly-
multi-
twice
dis-
bis-
double
equal
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COMMON PREFIXES AND SUFFIXES
Prefix/Suffix
a-/an-algia
arth-/arthro-asthenia
-centesis
-ectomy
-emia
-gram
-graphy/-graph
hyperhypo-ia/-iasis
-itis
macromega-/-megaly
micro-ology/-ologist
-oma/-omata
-opathy
-opexy
-oplasty
-orrhaphy
-orrhea
-osis
-ostomy
-otomy
-otripsy
-pepsia
-phagia
-plasia
-plegia
-pnea
-scopy/-scopic
Meaning
without/none
pain
pertaining to the joints or limbs
weakness
puncture a cavity to remove fluid
to cut out (remove)
blood
image (X-ray, CT, MRI, Ultrasound)
recording an image
excessive, above
deficient, below
condition, abnormality
inflammation
large
enlarged
small
to study/specialize in
tumor, bulk, volume
disease of
surgical fixation
surgical repair
surgical repair/suture
flow or discharge
abnormal condition
to make a mouth (opening)
to cut into
crushing, destroying
digestion
eating
growth
paralysis
breathing
to look, observe
Examples
anemia, anencephalic
neuralgia
arthritis
myasthenia
amniocentesis
appendectomy, tonsillectomy
anemia
mammogram
mammography
hypergastric
hypogastric
pneumonia
tonsillitis, appendicitis
macrostomia
organomegaly
microstomia
cardiologist, nephrologist
melanoma
arthropathy
nephropexy
rhinoplasty
herniorrhaphy
amenorrhea
cyanosis
colostomy
tracheotomy
lithotripsy
dyspepsia
polyphagia
hyperplasia
paraplegia
apnea
colonoscopy
More specific roots, prefixes, and suffixes will be discussed when we begin to address
the anatomy and pathophysiology associated with individual specialties.
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REVIEW ITEMS
1. When a patient has inflammation of the kidney, what is it called?
___________________________________________
2. What does it mean when a patient has a colposcopy?
___________________________________________
3. When a patient has a vesical fistula, what organ is affected?
___________________________________________
4. When a patient has a blood disorder, what type of specialist will they most likely
see? _______________________________________
5. When a patient has thrombophlebitis, what does it mean?
___________________________________________
6. What does pneumonia mean?
___________________________________________
7. What organ system is affected by arteriosclerosis?
___________________________________________
8. What is wrong with the patient when they have a megaloureter?
___________________________________________
9. How is pharyngitis different than laryngitis?
___________________________________________
10. When a patient has polycystic ovaries, what abnormality is occurring?
___________________________________________
11. What does it mean when a patient has arthropathy?
___________________________________________
12. What does it mean if the patient reports polyphagia?
___________________________________________
(Answers are found on page 12.)
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THE ORGANIZATION OF ICD-10-CM AND ITS RELATIONSHIP TO
ANATOMY AND PATHOPHYSIOLOGY
As indicated previously, ICD-10-CM is much more clinically oriented than ICD-9-CM.
That is not to say that the organization of ICD-10-CM is dramatically different. The
following chart illustrates the comparison between the two code sets.
Description
Certain Infectious and Parasitic Diseases
Code
Range
A00-B99
Equivalent
ICD-9
Codes
001-139
2
Neoplasms
C00-D49
140-239
3
Disease of the Blood and Blood Forming
Organs and Certain Disorders Involve the
Immune Mechanism
Endocrine, Nutritional, and Metabolic Diseases
D50-D89
280-289
E00-E89
240-279
Mental and Behavior Disorders
Diseases of the Nervous Systems
Diseases of the Eye and Adnexa
Diseases of Ear and Mastoid Process
Diseases of the Circulatory System
Diseases of the Respiratory System
Diseases of the Digestive System
Diseases of the Skin and Subcutaneous Tissue
Diseases of the Musculoskeletal System and
Connective Tissue
Diseases of the Genitourinary System
Pregnancy, Childbirth, and the Puerperium
Certain Conditions Originating in the Perinatal
Period
Congenital Malformations, Deformations, and
Chromosomal Abnormalities
Symptoms, Signs, and Abnormal Clinical and
Laboratory Findings, Not Elsewhere Classified
Injury, Poisoning, and Certain Other
Consequences of External Causes
External Causes of Morbidity
F01-F99
G00-G99
H00-H59
H60-H95
I00-I99
J00-J99
K00-K95
L00-L99
M00-M99
290-319
320-389
320-389
320-389
390-459
460-519
520-579
680-709
710-739
N00-N99
O00-O9A
P00-P96
580-629
630-679
760-779
Q00-Q99
740-759
R00-R99
780-799
S00-T88
800-999
V01-Y99
E800-E999
Factors Influencing Health Status and Contact
with Health Services
Z00-Z99
V01-V91
ICD-10
Chapter
1
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
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The fundamental structures of the code sets are not vastly different. ICD-9-CM has 17
chapters and 2 chapters of supplementary classifications (the V & E codes). ICD-10-CM
has 21 chapters. The differences are as follows:
• The former supplementary chapters have been incorporated as an integral part
of the code set (chapters 20 & 21).
• Chapter 6 in ICD-9-CM (Diseases of the Nervous System and Sense Organs) has
been split into three chapters in ICD-10-CM.
o Chapter 6—Diseases of the Nervous Systems
o Chapter 7—Diseases of the Eye and Adnexa
o Chapter 8—Diseases of the Ear and Mastoid Process
• The chapters have been slightly reordered.
The chapters that require significant anatomic knowledge are:
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Diseases of the Nervous Systems
7
8
9
10
11
12
13
Diseases of the Eye and Adnexa
Diseases of Ear and Mastoid Process
Diseases of the Circulatory System
Diseases of the Respiratory System
Diseases of the Digestive System
Diseases of the Skin and Subcutaneous Tissue
Diseases of the Musculoskeletal System and
Connective Tissue
Diseases of the Genitourinary System
Pregnancy, Childbirth, and the Puerperium
Certain Conditions Originating in the Perinatal
Period
Congenital Malformations, Deformations, and
Chromosomal Abnormalities
14
15
16
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The chapters that require significant knowledge concerning pathophysiology are:
1
Certain Infectious and Parasitic Diseases
5
18
Mental and Behavioral Disorders
Symptoms, Signs, and Abnormal Clinical and
Laboratory Findings, Not Elsewhere Classified
Injury, Poisoning, and Certain Other
Consequences of External Causes
External Causes of Morbidity
19
20
11
The chapters that require a combination of anatomy and pathophysiology knowledge
are:
2
Neoplasms
3
Disease of the Blood and Blood Forming
Organs and Certain Disorders Involve the
Immune Mechanism
Endocrine, Nutritional, and Metabolic Diseases
4
21
Factors Influencing Health Status and Contact
with Health Services
12
ANSWERS TO REVIEW ITEMS
1. When a patient has inflammation of the kidney, what is it called?
_______nephritis_ ____________________________
2. What does it mean when a patient has a colposcopy?
_______to look at or observe the vagina (& cervix)__
3. When a patient has a vesical fistula, what organ is affected?
___________bladder _________________________
4. When a patient has a blood disorder, what type of specialist will they most likely
see? ________hemotologist____________________
5. When a patient has thrombophlebitis, what does it mean?
___inflammation of the vein caused by a blood clot__
6. What does pneumonia mean?
__condition/abnormality of the lungs_____________
7. What organ system is affected by arteriosclerosis?
______cardiovascular (arteries)__________________
8. What is wrong with the patient when they have a megaloureter?
_______an enlarged ureter_____________________
9. How is pharyngitis different than laryngitis?
_upper throat inflammation vs. lower throat inflammation_
10. When a patient has polycystic ovaries, what abnormality is occurring?
_multiple cysts formed on the ovaries_____________
11. What does it mean when a patient has arthropathy?
____abnormality of a joint___________________
12. What does it mean if the patient reports polyphagia?
____excessive eating/appetite_________________
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ANATOMY AND PATHOPHYSIOLOGY FOR DERMATOLOGY
The Dermatologist specializes in the treatment of conditions related to the
Integumentary System
The approach to the anatomy and physiology training for this specialty will be as
follows:
• Anatomy—what are the major organs that are part of the system and how are
they supposed to work?
• Terminology—what are the major medical terms associated with these
organs/this system?
• Pathophysiology—what are the common diseases or dysfunctions that occur in
association with these organs?
The component parts/functions of the system that will be addressed are as follows:
• Integumentary System
• Neoplasms of the Skin and Subcutaneous Tissues
SKIN AND SUBCUTANEOUS TISSUES (INTEGUMENTARY SYSTEM)
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The integumentary system is an organ system consisting of the skin, hair, nails, and
exocrine glands. The skin is only a few millimeters thick yet is by far the largest organ
in the body. The average person’s skin weighs 10 pounds and has a surface area of
almost 20 square feet. Skin forms the body’s outer covering and forms a barrier to
protect the body from chemicals, disease, UV light, and physical damage. Hair and
nails extend from the skin to reinforce the skin and protect it from environmental
damage. The exocrine glands of the integumentary system produce sweat, oil, and wax
to cool, protect, and moisturize the skin’s surface.
INTEGUMENTARY SYSTEM ANATOMY
Epidermis
The epidermis is the most superficial layer of the skin that covers almost the entire
body surface. The epidermis rests upon and protects the deeper and thicker dermis
layer of the skin. Structurally, the epidermis is only about a tenth of a millimeter thick
but is made of 40 to 50 rows of stacked squamous epithelial cells. The epidermis is an
avascular region of the body, meaning that it does not contain any blood or blood
vessels. The cells of the epidermis receive all of their nutrients via diffusion of fluids
from the dermis.
The epidermis is made of several specialized types of cells. Almost 90% of the
epidermis is made of cells known as keratinocytes. Keratinocytes develop from stem
cells at the base of the epidermis and begin to produce and store the protein keratin.
Keratin makes the keratinocytes very tough, scaly and water-resistant. At about 8% of
epidermal cells, melanocytes form the second most numerous cell type in the
epidermis. Melanocytes produce the pigment melanin to protect the skin from
ultraviolet radiation and sunburn. Langerhans cells are the third most common cells in
the epidermis and make up just over 1% of all epidermal cells. Langerhans cells’ role is
to detect and fight pathogens that attempt to enter the body through the skin. Finally,
Merkel cells make up less than 1% of all epidermal cells but have the important
function of sensing touch. Merkel cells form a disk along the deepest edge of the
epidermis where they connect to nerve endings in the dermis to sense light touch.
The epidermis in most of the body is arranged into 4 distinct layers. In the palmar
surface of the hands and plantar surface of the feet, the skin is thicker than in the rest
of the body and there is a fifth layer of epidermis. The deepest region of the epidermis
is the stratum basale, which contains the stem cells that reproduce to form all of the
other cells of the epidermis. The cells of the stratum basale include cuboidal
keratinocytes, melanocytes, and Merkel cells. Superficial to stratum basale is the
stratum spinosum layer where Langerhans cells are found along with many rows of
spiny keratinocytes. The spines found here are cellular projections called desmosomes
that form between keratinocytes to hold them together and resist friction. Just
superficial to the stratum spinosum is the stratum granulosum, where keratinocytes
begin to produce waxy lamellar granules to waterproof the skin. The keratinocytes in
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the stratum granulosum are so far removed from the dermis that they begin to die from
lack of nutrients. In the thick skin of the hands and feet, there is a layer of skin
superficial to the stratum granulosum known as the stratum lucidum. The stratum
lucidum is made of several rows of clear, dead keratinocytes that protect the underlying
layers. The outermost layer of skin is the stratum corneum. The stratum corneum is
made of many rows of flattened, dead keratinocytes that protect the underlying
layers. Dead keratinocytes are constantly being shed from the surface of the stratum
corneum and being replaced by cells arriving from the deeper layers.
Dermis
The dermis is the deep layer of the skin found under the epidermis. The dermis is
mostly made of dense irregular connective tissue along with nervous tissue, blood, and
blood vessels. The dermis is much thicker than the epidermis and gives the skin its
strength and elasticity. Within the dermis there are two distinct regions: the papillary
layer and the reticular layer.
The papillary layer is the superficial layer of the dermis that borders on the epidermis.
The papillary layer contains many finger-like extensions called dermal papillae that
protrude superficially towards the epidermis. The dermal papillae increase the surface
area of the dermis and contain many nerves and blood vessels that are projected
toward the surface of the skin. Blood flowing through the dermal papillae provide
nutrients and oxygen for the cells of the epidermis. The nerves of the dermal papillae
are used to feel touch, pain, and temperature through the cells of the epidermis.
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The deeper layer of the dermis, the reticular layer, is the thicker and tougher part of
the dermis. The reticular layer is made of dense irregular connective tissue that
contains many tough collagen and stretchy elastin fibers running in all directions to
provide strength and elasticity to the skin. The reticular layer also contains blood
vessels to support the skin cells and nerve tissue to sense pressure and pain in the skin.
Hypodermis
Deep to the dermis is a layer of loose connective tissues known as the hypodermis,
subcutis, or subcutaneous tissue. The hypodermis serves as the flexible connection
between the skin and the underlying muscles and bones as well as a fat storage
area. Areolar connective tissue in the hypodermis contains elastin and collagen fibers
loosely arranged to allow the skin to stretch and move independently of its underlying
structures. Fatty adipose tissue in the hypodermis stores energy in the form of
triglycerides. Adipose also helps to insulate the body by trapping body heat produced by
the underlying muscles.
Hair
Hair is an accessory organ of the skin made of columns of tightly packed dead
keratinocytes found in most regions of the body. The few hairless parts of the body
include the palmar surface of the hands, plantar surface of the feet, lips, labia minora,
and glans penis. Hair helps to protect the body from UV radiation by preventing sunlight
from striking the skin. Hair also insulates the body by trapping warm air around the
skin.
The structure of hair can be broken down into 3 major parts: the follicle, root, and
shaft. The hair follicle is a depression of epidermal cells deep into the dermis. Stem cells
in the follicle reproduce to form the keratinocytes that eventually form the hair while
melanocytes produce pigment that gives the hair its color. Within the follicle is the hair
root, the portion of the hair below the skin’s surface. As the follicle produces new hair,
the cells in the root push up to the surface until they exit the skin. The hair shaft
consists of the part of the hair that is found outside of the skin.
The hair shaft and root are made of 3 distinct layers of cells: the cuticle, cortex, and
medulla. The cuticle is the outermost layer made of keratinocytes. The keratinocytes of
the cuticle are stacked on top of each other like shingles so that the outer tip of each
cell points away from the body. Under the cuticle are the cells of the cortex that form
the majority of the hair’s width. The spindle-shaped and tightly packed cortex cells
contain pigments that give the hair its color. The innermost layer of the hair, the
medulla, is not present in all hairs. When present, the medulla usually contains highly
pigmented cells full of keratin. When the medulla is absent, the cortex continues
through the middle of the hair.
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Nails
Nails are accessory organs of the skin made of sheets of hardened keratinocytes and
found on the distal ends of the fingers and toes. Fingernails and toenails reinforce and
protect the end of the digits and are used for scraping and manipulating small objects.
There are 3 main parts of a nail: the root, body, and free edge. The nail root is the
portion of the nail found under the surface of the skin. The nail body is the visible
external portion of the nail. The free edge is the distal end portion of the nail that has
grown beyond the end of the finger or toe.
Nails grow from a deep layer of epidermal tissue known as the nail matrix, which
surrounds the nail root. The stem cells of the nail matrix reproduce to form
keratinocytes, which in turn produce keratin protein and pack into tough sheets of
hardened cells. The sheets of keratinocytes form the hard nail root that slowly grows
out of the skin and forms the nail body as it reaches the skin’s surface. The cells of the
nail root and nail body are pushed toward the distal end of the finger or toe by new
cells being formed in the nail matrix. Under the nail body is a layer of epidermis and
dermis known as the nail bed. The nail bed is pink in color due to the presence of
capillaries that support the cells of the nail body. The proximal end of the nail near the
root forms a whitish crescent shape known as the lunula where a small amount of nail
matrix is visible through the nail body. Around the proximal and lateral edges of the nail
is the eponychium, a layer of epithelium that overlaps and covers the edge of the nail
body. The eponychium helps to seal the edges of the nail to prevent infection of the
underlying tissues.
Sudoriferous Glands
Sudoriferous glands are exocrine glands found in the dermis of the skin and commonly
known as sweat glands. There are 2 major types of sudoriferous glands: eccrine sweat
glands and apocrine sweat glands. Eccrine sweat glands are found in almost every
region of the skin and produce a secretion of water and sodium chloride. Eccrine sweat
is delivered via a duct to the surface of the skin and is used to lower the body’s
temperature through evaporative cooling.
Apocrine sweat glands are found in mainly in the axillary and pubic regions of the body.
The ducts of apocrine sweat glands extend into the follicles of hairs so that the sweat
produced by these glands exits the body along the surface of the hair shaft. Apocrine
sweat glands are inactive until puberty, at which point they produce a thick, oily liquid
that is consumed by bacteria living on the skin. The digestion of apocrine sweat by
bacteria produces body odor.
Sebaceous Glands
Sebaceous glands are exocrine glands found in the dermis of the skin that produce an
oily secretion known as sebum. Sebaceous glands are found in every part of the skin
except for the thick skin of the palms of the hands and soles of the feet. Sebum is
produced in the sebaceous glands and carried through ducts to the surface of the skin
18
or to hair follicles. Sebum acts to waterproof and increase the elasticity of the skin.
Sebum also lubricates and protects the cuticles of hairs as they pass through the
follicles to the exterior of the body.
PHYSIOLOGY OF THE INTEGUMENTARY SYSTEM
Keratinization
Keratinization, also known as cornification, is the process of keratin accumulating within
keratinocytes. Keratinocytes begin their life as offspring of the stem cells of the stratum
basale. Young keratinocytes have a cuboidal shape and contain almost no keratin
protein at all. As the stem cells multiply, they push older keratinocytes towards the
surface of the skin and into the superficial layers of the epidermis. By the time
keratinocytes reach the stratum spinosum, they have begun to accumulate a significant
amount of keratin and have become harder, flatter, and more water resistant. As the
keratinocytes reach the stratum granulosum, they have become much flatter and are
almost completely filled with keratin. At this point the cells are so far removed from the
nutrients that diffuse from the blood vessels in the dermis that the cells go through the
process of apoptosis. Apoptosis is programmed cell death where the cell digests its own
nucleus and organelles, leaving only a tough, keratin-filled shell behind. Dead
keratinocytes moving into the stratum lucidum and stratum corneum are very flat, hard,
and tightly packed so as to form a keratin barrier to protect the underlying tissues.
Temperature Homeostasis
Being the body’s outermost organ, the skin is able to regulate the body’s temperature
by controlling how the body interacts with its environment. In the case of the body
entering a state of hyperthermia, the skin is able to reduce body temperature through
sweating and vasodilation. Sweat produced by sudoriferous glands delivers water to the
surface of the body where it begins to evaporate. The evaporation of sweat absorbs
heat and cools the body’s surface. Vasodilation is the process through which smooth
muscle lining the blood vessels in the dermis relax and allow more blood to enter the
skin. Blood transports heat through the body, pulling heat away from the body’s core
and depositing it in the skin where it can radiate out of the body and into the external
environment.
In the case of the body entering a state of hypothermia, the skin is able to raise body
temperature through the contraction of arrector pili muscles and through
vasoconstriction. The follicles of hairs have small bundles of smooth muscle attached to
their base called arrector pili muscles. The arrector pili form goose bumps by
contracting to move the hair follicle and lifting the hair shaft upright from the surface of
the skin. This movement results in more air being trapped under the hairs to insulate
the surface of the body. Vasoconstriction is the process of smooth muscles in the walls
of blood vessels in the dermis contracting to reduce the flood of blood to the skin.
Vasoconstriction permits the skin to cool while blood stays in the body’s core to
maintain heat and circulation in the vital organs.
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Vitamin D Synthesis
Vitamin D, an essential vitamin necessary for the absorption of calcium from food, is
produced by ultraviolet (UV) light striking the skin. The stratum basale and stratum
spinosum layers of the epidermis contain a sterol molecule known as 7dehydrocholesterol. When UV light present in sunlight or tanning bed lights strikes the
skin, it penetrates through the outer layers of the epidermis and strikes some of the
molecules of 7-dehydrocholesterol, converting it into vitamin D3. Vitamin D3 is
converted in the kidneys into calcitriol, the active form of vitamin D.
Protection
The skin provides protection to its underlying tissues from pathogens, mechanical
damage, and UV light. Pathogens, such as viruses and bacteria, are unable to enter the
body through unbroken skin due to the outermost layers of epidermis containing an
unending supply of tough, dead keratinocytes. This protection explains the necessity of
cleaning and covering cuts and scrapes with bandages to prevent infection. Minor
mechanical damage from rough or sharp objects is mostly absorbed by the skin before
it can damage the underlying tissues. Epidermal cells reproduce constantly to quickly
repair any damage to the skin. Melanocytes in the epidermis produce the pigment
melanin, which absorbs UV light before it can pass through the skin. UV light can cause
cells to become cancerous if not blocked from entering the body.
Skin Color
Human skin color is controlled by the interaction of 3 pigments: melanin, carotene, and
hemoglobin. Melanin is a brown or black pigment produced by melanocytes to protect
the skin from UV radiation. Melanin gives skin its tan or brown coloration and provides
the color of brown or black hair. Melanin production increases as the skin is exposed to
higher levels of UV light resulting in tanning of the skin. Carotene is another pigment
present in the skin that produces a yellow or orange cast to the skin and is most
noticeable in people with low levels of melanin. Hemoglobin is another pigment most
noticeable in people with little melanin. Hemoglobin is the red pigment found in red
blood cells, but can be seen through the layers of the skin as a light red or pink color.
Hemoglobin is most noticeable in skin coloration during times of vasodilation when the
capillaries of the dermis are open to carry more blood to the skin’s surface.
Cutaneous Sensation
The skin allows the body to sense its external environment by picking up signals for
touch, pressure, vibration, temperature, and pain. Merkel disks in the epidermis connect
to nerve cells in the dermis to detect shapes and textures of objects contacting the skin.
Corpuscles of touch are structures found in the dermal papillae of the dermis that also
detect touch by objects contacting the skin. Lamellar corpuscles found deep in the
dermis sense pressure and vibration of the skin. Throughout the dermis there are many
free nerve endings that are simply neurons with their dendrites spread throughout the
dermis. Free nerve endings may be sensitive to pain, warmth, or cold. The density of
these sensory receptors in the skin varies throughout the body, resulting in some
20
regions of the body being more sensitive to touch, temperature, or pain than other
regions.
Excretion
In addition to secreting sweat to cool the body, eccrine sudoriferous glands of the skin
also excrete waste products out of the body. Sweat produced by eccrine sudoriferous
glands normally contains mostly water with many electrolytes and a few other trace
chemicals. The most common electrolytes found in sweat are sodium and chloride, but
potassium, calcium, and magnesium ions may be excreted as well. When these
electrolytes reach high levels in the blood, their presence in sweat also increases,
helping to reduce their presence within the body. In addition to electrolytes, sweat
contains and helps to excrete small amounts of metabolic waste products such as lactic
acid, urea, uric acid, and ammonia. Finally, eccrine sudoriferous glands can help to
excrete alcohol from the body of someone who has been drinking alcoholic beverages.
Alcohol causes vasodilation in the dermis, leading to increased perspiration as more
blood reaches sweat glands. The alcohol in the blood is absorbed by the cells of the
sweat glands, causing it to be excreted along with the other components of sweat.
KEY TERMS
Term
Adip/o, lip/o, steat/o
Cutane/o, dermat/o,
derm/o
Hidr/o
Kerat/o
Melan/o
Myc/o
Onych/o
Scler/o
Squam/o
Epi-oid
Meaning
Fat
Skin
Examples
Skin
Subcutaneous tissue, dermatitis
Sweat
Horny tissue, hard
Black
Fungus
Nail
Hardening
Scale
Above or upon
Resembling
Keratosis
Melanoma
Dermatomycosis
Onychomycosis
Scleroderma
Squamous cells
Outer layer of skin
Dermoid
Common Signs and Symptoms
• Disturbance of skin sensation-a variance from the normal state, including lack of
•
•
•
•
•
sensation, hypersensitivity, paresthesia (pins and needles), etc.
Rash—a skin eruption
Swelling, masses, or lump—an abnormal growth that is localized to the skin and
underlying layers of tissue
Cyanosis—a bluish coloration of the skin
Pallor—clammy skin
Flushing—an excessive pink or red tone to the skin
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PATHOPHYSIOLOGY OF THE INTEGUMENTARY SYSTEM
• Abscess--an enclosed collection of liquefied tissue, known as pus, somewhere in
the body. It is the result of the body's defensive reaction to foreign material.
There are two types of abscesses, septic and sterile. Most abscesses are septic,
which means that they are the result of an infection. Septic abscesses can occur
anywhere in the body. Only a germ and the body's immune response are
required. In response to the invading germ, white blood cells gather at the
infected site and begin producing chemicals called enzymes that attack the germ
by digesting it. These enzymes act like acid, killing the germs and breaking them
down into small pieces that can be picked up by the circulation and eliminated
from the body. Unfortunately, these chemicals also digest body tissues. In most
cases, the germ produces similar chemicals. The result is a thick, yellow liquid—
pus—containing digested germs, digested tissue, white blood cells, and enzymes.
• Acne--Acne is a skin disease marked by pimples on the face, chest, and back. It
is the most common skin disease. Increased levels of androgens (male
hormones) cause the sebaceous glands to secrete an excessive amount of
sebum into hair follicles. The excess sebum combines with dead, sticky skin cells
to form a hard plug that blocks the follicle. Bacteria that normally lives on the
skin then invades the blocked follicle. Weakened, the follicle bursts open,
releasing the sebum, bacteria, skin cells, and white blood cells into the
surrounding tissues. A pimple then forms.
• Alopecia Areata--Is an autoimmune skin disease that causes the body’s
immune system to attack the hair follicles, causing baldness in patches.
• Athlete’s foot--Athlete’s foot is a common fungus infection in which the skin
between the toes becomes itchy and sore, cracking and peeling away. Properly
known as tinea pedis, the infection received its common name because the
infection causing fungi grow well in warm, damp areas such as in and around
swimming pools, showers, and locker rooms (areas commonly used by athletes).
• Burns--There are few threats more serious to the skin than burns. Burns are
injuries to tissues caused by intense heat, electricity, UV radiation (sunburn), or
certain chemicals (such as acids).
• Cellulitis--Cellulitis is a spreading bacterial infection just below the skin surface.
It is most commonly caused by Streptococcus pyogenes or Staphylococcus
aureus. The word "cellulitis" actually means "inflammation of the cells."
Specifically, cellulitis refers to an infection of the tissue just below the skin
surface. In humans, the skin and the tissues under the skin are the most
common locations for microbial infection. Skin is the first defense against
invading bacteria and other microbes. An infection can occur when this normally
strong barrier is damaged due to surgery, injury, or a burn. Even something as
small as a scratch or an insect bite allows bacteria to enter the skin, which may
lead to an infection. Usually, the immune system kills any invading bacteria, but
sometimes the bacteria are able to grow and cause an infection.
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•
Once past the skin surface, the warmth, moisture, and nutrients allow bacteria to
grow rapidly. Disease-causing bacteria release proteins called enzymes which
cause tissue damage. The body's reaction to damage is inflammation which is
characterized by pain, redness, heat, and swelling. This red, painful region grows
bigger as the infection and resulting tissue damage spread. An untreated
infection may spread to the lymphatic system (acute lymphangitis), the lymph
nodes (lymphadenitis), the bloodstream (bacteremia), or into deeper tissues.
Cellulitis most often occurs on the face, neck, and legs.
Dermatitis--Dermatitis is any inflammation of the skin. There are many types of
dermatitis and most are characterized by a pink or red rash that itches. Two
common types are contact dermatitis and seborrheic dermatitis.
o Contact dermatitis is type of skin inflammation that results from exposure
to irritants (irritant contact dermatitis) or allergens (allergic contact
dermatitis). Irritant contact dermatitis can be divided into forms caused
by chemical irritants and those caused by physical irritants. Common
chemical irritants implicated include solvents (alcohol, xylene, turpentine,
esters, acetone, ketones, and others); metalworking fluids (neat oils,
water-based metalworking fluids with surfactants); latex; kerosene;
ethylene oxide; surfactants in topical medications and cosmetics (sodium
lauryl sulfate); alkalis (drain cleaners, strong soap with lye residues).
Physical irritant contact dermatitis may most commonly be caused by low
humidity from air conditioning. Also, many plants directly irritate the
skin.
Although less common than ICD, ACD is accepted to be the most
prevalent form of immunotoxicity found in humans. By its allergic nature,
this form of contact dermatitis is a hypersensitive reaction that is atypical
within the population. The mechanisms by which these reactions occur are
complex, with many levels of fine control. Their immunology centres on
the interaction of immunoregulatory cytokines and discrete subpopulations
of T lymphocytes. Allergens include nickel, gold, balsam of Peru
(Myroxylon pereirae), chromium and the oily coating from plants of the
Toxicodendron genus: poison ivy, poison oak, and poison sumac.
o Seborrheic dermatitis, an advanced form of seborrhea, is a noncontagious skin disease that causes excessive oiliness of the skin, most
commonly in the scalp, caused by overproduction of sebum, the
substance produced by the body to lubricate the skin where hair follicles
are present. Seborrhea is the form of the disease where oiliness only
occurs without redness and scaling. The disease commonly occurs in
infants, middle-aged people, and the elderly, and is commonly known in
infants as cradle cap.
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Lymphangitis--an inflammation of one or more lymphatic vessels, usually
resulting from an acute streptococcal infection of one of the extremities. It is
characterized by fine red streaks extending from the infected area to the axilla or
groin and by fever, chills, headache, and myalgia. The infection may spread to
the bloodstream. Penicillin and hot soaks are usually prescribed; aseptic
technique is important to avoid contagion.
Paronychia--Is an often tender infection or inflammation around the base of
the nail fold. It can start suddenly (acute paronychia) or gradually (chronic
paronychia).
Chronic paronychia is a gradual process and much more difficult to treat. It may
start in one nail fold but often spreads to several others. Each affected nail fold
(the skin that lies next to the nail) becomes swollen and lifted above the nail. It
may be red and tender from time to time, and sometimes a little thick pus
(white, yellow or green) can be expressed from under the cuticle.
•
•
•
•
Pruritus--intense itching, as a symptom of systemic disease (e.g. drug
hypersensitivity, obstructive jaundice, endocrine disease, renal dysfunction
and some malignancies), skin disease (e.g. psoriasis, eczema, urticaria, lichen
planus, scabies) or as a side-effect of opioid analgesics
Psoriasis--Psoriasis is a chronic (long-term) skin disease characterized by
inflamed lesions with silvery-white scabs of dead skin. Normal skin cells
mature and replace dead skin cells every twenty-eight to thirty days.
Psoriasis causes skin cells to mature in less than a week.
Ulcer--a local defect, or excavation of the surface, of an organ or tissue,
produced by sloughing of necrotic inflammatory tissue. It can be caused
either by prolonged exterior pressure or other causes (nonpressure ulcer).
Warts--Warts are small growths caused by a viral infection of the skin or
mucous membrane. The virus infects the surface layer. Warts are contagious.
They can easily pass from person to person. They can also pass from one
area of the body to another on the same person. Hand warts grow around
the nails, on the fingers, and on the backs of the hands. They appear mostly
in areas where the skin is broken. Foot warts (also called plantar warts)
usually appear on the ball of the foot, the heel, or the flat part of the toes.
Foot warts do not stick up above the surface like hand warts. If left
untreated, they can grow in size and spread into clusters of several warts. If
located on a pressure point of the foot, these warts can be painful.
NEOPLASMS OF THE SKIN AND SUBCUTANEOUS TISSUES
Neoplasms are an abnormal new growth of tissue that grows by cellular proliferation
more rapidly than normal, continues to grow after the stimuli that initiated the new
growth cease, shows partial or complete lack of structural organization and functional
24
coordination with the normal tissue, and usually forms a distinct mass of tissue which
may be either benign or malignant.
There are four classifications of neoplasms:
• Benign--A benign neoplasm is a mass of cells (tumor) that lacks the ability to
invade neighboring tissue or metastasize. These characteristics are required for a
tumor to be defined as cancerous and therefore benign tumors are noncancerous. Also, benign tumors generally have a slower growth rate than
malignant tumors and the tumor cells are usually more differentiated (cells have
normal features). Benign tumors are typically surrounded by an outer surface
(fibrous sheath of connective tissue) or remain with the epithelium. Common
examples of benign tumors include moles (nevi) and uterine fibroids
(leiomyomas).
Although most benign tumors are not life-threatening, many types of benign
tumors have the potential to become cancerous (malignant) through a process
known as tumor progression. For this reason and other possible negative health
effects, some benign tumors are removed by surgery.
•
Malignant—Malignant neoplasms are a mass of cells (tumor) that have the
ability to invade neighboring tissue or metastasize to other organs. Skin
neoplasms are named after the type of skin cell from which they arise. Basal cell
cancer originates from the lowest layer of the epidermis, and is the most
25
•
•
•
common but least dangerous skin cancer. Squamous cell cancer originates from
the middle layer, and is less common but more likely to spread and, if untreated,
become fatal. Melanoma, which originates in the pigment-producing cells
(melanocytes), is the least common, but most aggressive, most likely to spread
and, if untreated, become fatal.
Carcinoma in situ-- a cluster of malignant cells that has not yet invaded the
deeper epithelial tissue or spread to other parts of the body. If untreated long
enough, it can spread to other organs.
Uncertain—Early in the diagnostic process, some neoplasms have
characteristics of both benign and malignant neoplasms. Therefore, until further
diagnostic tests occur, a physician may not be able to be more specific in
diagnosis assignment.
Unspecified—This classification of neoplasm is used when a neoplasm is
identified, but no additional information is yet available to establish a diagnosis.
Coding for neoplasms of the skin is based on its location(s) on the body and the type of
neoplasm.
CAUSES OF SKIN CANCER
Skin cancer is the most common cancer in the United States. According to the National
Cancer Institute (NCI), over one million people in the U.S. are diagnosed with skin
cancer every year. Research has led to better methods of diagnosing and treating this
disease. The NCI says skin cancer is now almost 100 percent curable if found early and
treated promptly.
Ultraviolet (UV) radiation from the sun is the main cause of skin cancer. There are two
types - UVA and UVB. Sunlamps and tanning booths which are artificial forms of UV
radiation, can also cause skin cancer.
People with a family history of skin cancer are generally at a higher risk of developing
the disease. People with fair skin and a northern European heritage appear to be most
susceptible.
PHYSIOLOGY AND PATHOPHYSIOLOGY ISSUES FOR ICD-10
The introduction of ICD-10 will produce a substantial increase in specificity related to
certain conditions and situations. Some of the issues include:
Laterality
In many cases, ICD-10 requires the physician and coder to indicate which side of the
body is being treated
26
When laterality is reported, “left” always means the patient’s left side and “right” always
means the patient’s right-side. The diagram immediately above illustrates how “side” is
defined. The medical record must indicate side, whenever possible, to facilitate
appropriate code selection.
When reporting melanomas and other malignant neoplasms of the skin, laterality is
always required, in addition to the specific location (e.g. right upper limb, including
shoulder vs. right lower limb, including hip). If a specific side is not reflected in the
medical record, an “unspecified” code must be used, which is usually suboptimal when
seeking payment from third party payers.
Type/Location
In ICD-10-CM, a dramatically higher degree of specificity is necessary in relationship to
the type and location of conditions, such as abscesses, cellulitis/lymphangitis, and
disorders of pigmentation. Some examples of required specificity include:
•
•
•
In ICD-9-CM, carbuncles and furuncles are reported using the same code. In
ICD-10-CM, distinct codes are required for each.
In ICD-9-CM, cellulitis/acute lymphangitis of the trunk are reported with a single
code. In ICD-10-CM, the distinction is made between cellulitis and lymphangitis
and there are 8 separate codes available for each condition to report the exact
location.
In ICD-9-CM, there is no specific section for disorders of pigmentation. In ICD10-CM, there is a separate section and 11 codes available to report the various
disorders.
27
Ulcers
In ICD-9-CM, there are substantial differences in the way in which ulcers are reported,
as compared to ICD-10-CM. The differences include:
Laterality
Pressure ulcers
Non-pressure ulcers
ICD-9-CM
Not used
General location reported,
with a secondary code
used to indicate the stage.
General code used, based
only on location.
ICD-10-CM
Always required, when
appropriate
Staging is included in the
pressure ulcer codes
(single code used).
Code using location is
reported, which also
includes the severity of the
condition
• Breakdown of skin
• Fat layer exposed
• Necrosis of muscle
• Necrosis of bone
Stage 1 ulcers are not open wounds. The skin may be painful, but it has no breaks
or tears. The skin temperature is often warmer. A stage 1 ulcer can feel either
firmer or softer than the area around it.
28
In stage 2 ulcers, the skin breaks open or wears away, which is usually tender and
painful. The ulcer expands into deeper layers of the skin. It can look like a scrape
(abrasion), blister, or a shallow crater in the skin. Sometimes this stage looks like a
blister filled with clear fluid.
During stage 3, the ulcer becomes worse and extends into the tissue beneath the
skin, forming a small crater. Fat may show in the sore, but not muscle, tendon, or
bone.
In stage 4, the pressure ulcer is very deep, reaching into muscle and bone and
causing extensive damage. Damage to deeper tissues, tendons, and joints may
occur.
There are also pressure ulcers that are "unstageable," meaning that the stage is not
clear. In these cases, the base of the ulcer is covered by a thick layer of other tissue
and pus that may be yellow, gray, green, brown, or black. The provider cannot see
the base of the sore to determine the stage.