DMCH121-F24 Lecture 1 - Normal Skin and Nail (1).pdf

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DMCH121
LECTURE 1
NORMAL SKIN & NAIL
DEVELOPED BY: CESAR MENDEZ DPM FACFAS EDITED BY: ELIOT TO DCH MCLSC
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SKIN FACTS

 Largest organ of the body
 Weighing an average of 4 kg
 Covering an area of 2 sq.m.
 Either glabrous (smooth and without
hair) or hairy

https://medlineplus.gov/ency/imagepages/19679.htm
THE SKIN

Functions:
1. Protection (e.g., trauma, infection)
2. Sensation
3. Thermoregulation
4. Excretion
5. Metabolism (e.g., vitamin D production)
6. Social interaction

https://www.bbraun.co.uk/en/patients/wound-healing/knowledge-series.html
FUNCTIONS OF THE SKIN: PROTECTION

 Acts as physical barrier against:
 Trauma
 Bacterial invasion
 Excessive loss of fluids and proteins
 Also protects tissues and structures
from mechanical injury

https://nationaleczema.org/blog/what-is-my-skin-barrier/
FUNCTIONS OF THE SKIN: PROTECTION

 Skin cells involved with immune
protection:
 Langerhans cells
 Tissue macrophages
 Mast cells
 Skin pigmentation protects against
UV radiation
 Melanin = Guard against damaged
caused by UV-A (long form of UV
radiation)
 More predominant in dark skin vs. light
skin individuals

https://int.eucerin.com/about-skin/basic-skin-knowledge/skins-protective-barrier
FUNCTIONS OF THE SKIN: SENSATION

 Skin is filled with nerve endings that feel:
 Pain
 Pressure
 Temperature
 Nerve fibres originate from nerve roots
along the spine
 Supply areas of skin called dermatomes
 The body’s network of dermatomes
document sensory function
 Loss or reduction of sensation → ↑
Chance of injury

https://neupsykey.com/receptors-and-effectors/
FUNCTIONS OF THE SKIN: THERMOREGULATION

 Skin regulate body temperature through an
orchestrated effort involving:
 Nerves
 Blood vessels
 Glands
 Skin acts as a barrier between internal vs.
external environments
 When skin is exposed to cold (or when
internal temperature falls):
 Blood vessels constrict → Blood flow is reduced
→ Body heat is preserved
 When skin becomes too hot (or internal
temperature rises):
 Tiny arteries in the skin dilates → ↑ Blood flow +
sweat production → Body cools

https://neupsykey.com/receptors-and-effectors/
FUNCTIONS OF THE SKIN: EXCRETION

 Skin assists in thermoregulation by excretion of:
 Waste products
 Electrolytes
 Water
 More than 2 million skin pores work to release water and body wastes to the air
 Each day, an adult loses about 500mL of water through the skin
FUNCTIONS OF THE SKIN: METABOLISM

 When exposed to sunlight, the skin synthesizes vitamin D
 Then transmitted to other areas of the body
 Assists in mineralization of bones and teeth

https://www.sciencedirect.com/science/article/pii/S209012321400023X
FUNCTIONS OF THE SKIN:
SOCIAL INTERACTION

 Skin has psycho-social function:
 Closely linked to aspects of body image, physical attraction and communication
 Damage to skin can perpetuate functional and physiologic consequences
 Also, an impact on self-esteem
 Please download and
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Which of the
following is a
FUNCTION of the
skin? (Check all that
apply)

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THE HUMAN SKIN

 Composed of:
 Skin:
 Epidermis
 Dermis
 Skin appendages

 Sub-cutaneous fat
 Fascia
 Muscle

https://my.clevelandclinic.org/health/body/10978-skin
THE HUMAN SKIN

 Layers:
 Epidermis
 Basement membrane/Basal lamina
 Stratum germinativum
 ~30 days from cell production to sloughing

 Stratum spinosum
 Stratum granulosum
 *Stratum lucidum
 Only on palms and soles

 Stratum corneum
 ~14 days from the bottom to shedding

Baranoski, S. & Ayello, E.A. (2020). Wound Care Essentials (5th Ed.)
THE HUMAN SKIN

Epidermis

Dermis
THE HUMAN SKIN
THE EPIDERMIS

 Thin, outermost layer of the skin
 Continually regenerate (Q21-28
days) from basal cell layer
 Sheds the outermost cell layer during
hand washing
 Function:
1. Barrier to water loss
2. Protects against mechanical damage,
chemicals and pathogens

https://my.clevelandclinic.org/health/body/21901-epidermis
THE EPIDERMIS (EPITHELIAL LAYER)

 FOUR (five on palms and soles) strata/layers:
1. Stratum corneum
2. Stratum lucidum (only on palms and soles)
3. Stratum granulosum
4. Stratum spinosum
5. Stratum germinativum (basale)
 FOUR cell types:
1. Keratinocytes = Produces keratin
2. Melanocytes = Synthesizes pigment (melanin)
3. Langerhans’s cells = Immunoreaction
4. Merkel’s cells = Mechanoreceptors

Come Let’s Get Sun Burnt!
THE EPIDERMIS (EPITHELIAL LAYER)

 Strata/Layers:
 Stratum corneum
 Horny (i.e., tough) cell layer
 Stratum lucidum
 Palms and soles
 Stratum granulosum
 Granular cell layer
 Stratum spinosum
 Prickle cell layer
 Stratum germinativum/basale
 Basal cell layer

https://courses.lumenlearning.com/suny-ap1/chapter/layers-of-the-skin/
THE EPIDERMIS (EPITHELIAL LAYER)
THE EPIDERMIS (EPITHELIAL LAYER)

https://plasticsurgerykey.com/anatomy-and-physiology-of-the-integumentary-system/
THE EPIDERMIS (EPITHELIAL LAYER)
STRATUM GERMINATIVUM/BASALE

 Deepest epidermal layer
 Firmly attached to the underlying dermis
 Single row of cuboidal keratinocytes
 With melanocytes and Merkel cells
interspersed
 Cells in this layer are highly mitotic
 I.e., They’re dividing often
 A.k.a. stratum germinativum
STRATUM GERMINATIVUM/BASALE

https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Human_Anatomy_%28Lang
e_et_al.%29/04%3A_Integumentary_System/4.02%3A_Layers_of_the_Skin
STRATUM SPINOSUM

 Second deepest layer
 8-10 layers of cells
 Cells of the lower layers can
still be mitotic
 As cells get pushed upward,
they begin to flatten and begin
to make the precursors of
keratin
 A.k.a. the “prickly layer,”
because in tissue sections, they
shrink and pull back
 Exposed desmosomes
connecting adjacent cells
appear to resemble spikes
or spines

https://labmedicineblog.com/2016/06/03/show-us-some-skin/
STRATUM GRANULOSUM

 3-5 cell layers thick
 Cell morphology begins to
change dramatically as cells
continue to flatten and
their nuclei and organelles
disintegrate
 Accumulate granules
containing a precursor of
keratin + granules
containing a waterproofing
agent

https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Human_Anatomy_%28Lang
e_et_al.%29/04%3A_Integumentary_System/4.02%3A_Layers_of_the_Skin
STRATUM LUCIDUM

 3-5 layers of flat, dead keratinocytes
 Appears clear in the light microscope
 Cells lack nuclei and organelles which
typically stain well

https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Human_Anatomy_%28Lang
e_et_al.%29/04%3A_Integumentary_System/4.02%3A_Layers_of_the_Skin
STRATUM CORNEUM

 Outermost stratum
 20 – 30 layers of flat (squamous), highly
keratinized, dead cells.
 A.k.a. the cornified layer
 The process by which cells in the stratum
basale divide and then advance upward
becoming more and more keratinized and less
and less alive is known as cornification
 Functions:
1. Protects against mechanical abrasion
 Cells can absorb impacts and simply flake off if
necessary
2. Prevents pathogen entry
3. Prevents desiccation (drying out)

https://labmedicineblog.com/2016/06/03/show-us-some-skin/
 Please download and
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Which of the
following is the
THINNEST layer of
normal human skin?

ⓘ Start presenting to display the poll results on this slide.
THE CELLS OF THE EPIDERMIS

 FOUR main cell types:
 Keratinocytes
 Produce keratin

 Melanocytes
 Synthesize pigments (melanin)

 Langerhans's cells
 Immunoreaction

 Merkel’s cells
 Mechanoreceptors

https://quizlet.com/182377832/histology-skin-flash-cards/
KERATINOCYTES

 Most numerous epidermal cell
 Found in all layers of the epidermis
 Tightly connected to one another by
desmosomes
 Provides continuity, strength, and protection
 Is the reason skin flakes off in sheets rather
than as individual cells
 Chief function is the production of keratin
 Tough fibrous protein → Gives strength and
confers a lot of protective ability

https://www.news-medical.net/health/What-is-the-Epidermis.aspx
KERATINOCYTES

 New cells are continuously made in
the deepest layer pushing the older
cells up
 As the keratinocytes move farther
from the deepest layer, they make
the keratin that eventually
dominates their cell contents
 When they have reached the upper
layer, they are nothing more than
scale-like bags of keratin

https://theory.labster.com/keratinocyte/
MELANOCYTES

 Spider-shaped epithelial cells that
synthesize the protein pigment melanin
 Found in the deepest layer of the
epidermis
 Melanin is made and then packaged into
membrane-bound granules called
melanosomes
 Granules are transferred to the
keratinocytes in the 2 deepest layers of
the epidermis
MELANOCYTES

 Melanin granules accumulate on
the “sunny side” of the nucleus of
the keratinocytes
 Melanin granules protect the
DNA within the nucleus from
being damaged by the ultraviolet
radiation from the sun
MELANOCYTES

https://www.researchgate.net/figure/In-the-skin-epidermis-melanocytes-produce-the-pigment-
melanin-in-organelles-called_fig3_371168151
MERKEL CELLS

 Clear cells found in the stratum
basale/germinativum
 Connected to other skin cells by
desmosomes
 Each Merkel cell is connected to an
afferent nerve terminal
 Forms the Merkel disk
 Most plentiful in the basal layers of:
 Fingers, toes, lips, oral cavity and
outermost sheath of hair follicles
(i.e., touch areas)

https://www.cancer.gov/publications/dictionaries/cancer-terms/def/merkel-cell
MERKEL CELLS

 Exact function is unclear → Believed
to be neuroendocrine
 I.e., Release hormones into the blood in
response to neural stimuli
 Slowly adapting sensory touch
receptors in cutaneous sensation
 May also be involved:
 Metabolic support of associated neurons
 Neuron development and regeneration
after injury
 Neurotransmission for autonomic nerves,
blood vessels and inflammatory cells

https://www.nature.com/articles/nature13250
LANGERHANS CELLS

 Scattered in the suprabasal layers of the
epidermis among keratinocytes
 Less numerous (3-5% of epidermal cells) than
keratinocytes
 Derived from bone marrow → Continuously
repopulate the epidermis https://pubs.rsna.org/doi/10.1148/rg.283075108

 Dendritic shape (like melanocytes) with clear
cytoplasm
 Contains Birbeck granules (looks like tennis
racquets) = Distinguishing feature

https://www.sciencephoto.com/media/426167/view/langerhans-cell-tem
LANGERHANS CELLS

 Immunologic function
 Recognize foreign antigens
 Bind antigen to their surface and process it
 Bear the process antigen and migrate into
lymphatics

Grossman & Porth. (2014).
 Become known as Dendritic cells when inside the
regional lymph node

 Become antigen-presenting cells

 Innervated by the autonomic nervous system
 I.e., Skin’s immune system is altered under stress
 E.g., Acne when people are under stress
 Please download and
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Which of the
following statements
is/are FALSE? (Check
all that apply)

ⓘ Start presenting to display the poll results on this slide.
THE DERMIS

 Thickest skin layer
 Strong, structural matrix
 Composed of three major protein fibers →
Provides mechanical strength to skin
 Collagen, elastin and reticular
 Consists of blood vessels, nerves, hair, nails
and skin glands
 Function(s):
1. Provides support and nutrition to the
epidermis
2. Regulates heat, immune response and
sensation (receptors for pain and cold
sensations)

https://my.clevelandclinic.org/health/body/22357-dermis
THE DERMIS – PAPILLARY & RETICULAR LAYERS

 The papillary dermis is the upper
1/5 of the dermis
 Consists of loose (areolar) CT
 Provides an arena for immune cells
to fight invaders
 Projects upward (as dermal
papillae) to interdigitate and form a
strong connection with the
epidermis
 Heavily invested with blood vessels
– they constrict in cold weather
and dilate in warm weather
 Also contains multiple sensory
receptors

https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Human_Anatomy_%28Lang
e_et_al.%29/04%3A_Integumentary_System/4.02%3A_Layers_of_the_Skin
THE DERMIS – PAPILLARY & RETICULAR LAYERS

 Rete ridges:
 Undulating microstructures at the epidermal-dermal junction

https://www.sciencedirect.com/science/article/abs/pii/S1742706122007589
THE DERMIS – PAPILLARY & RETICULAR LAYERS

 Reticular dermis is lower 4/5
 Consists of dense irregular
connective tissue
 The prominent, horizontally
running collagenous fibres
 Give the skin strength and
resiliency
 Elastin gives the skin the ability
to stretch and recoil
 The majority of the appendages
of the skin are contained within
the dermis

Red = Papillary
Blue = Reticular
THE DERMIS – PAPILLARY & RETICULAR LAYERS

 Dermal matrix:
 Collagen
 Elastin
 Ground substance (proteoglycans)
 Epidermal appendages
 E.g., Sweat glands, hair follicles etc.
 Neurovasculature
THE DERMIS

 Collagen and elastin
 Provide support to the dermis
 Together determines the skin’s
physical characteristics
 Collagen in the papillary layer of the
dermis are non-elastic
 Provides high tensile strength
 ~70% of skin’s dry weight = Collagen
 Wavy elastic fibers interconnect
with collagen in the lower dermis
and at the epidermal margin
 Allows skin to remain pliable, and
enables extensibility in the dermis
 Please download and
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The dermis: (Check
all that apply)

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THE SUBCUTANEOUS LAYER

 Composed of adipose (fatty)
connective tissue
 Located directly beneath the dermis
 Fat cells (lipocytes) are separated by
fibrous septa
 Traversed by blood vessels, nerves,
and lymphatics
 Function(s):
1. Insulates from heat and cold
2. Absorbs shock
3. Acts as caloric reservoir → Used
during illness or starvation
 Thins considerable during aging
ADNEXA

 Adnexa = Area which houses the following:
 Glands
 Vessels
 Nerves
 Hair
 Nails

https://www.researchgate.net/figure/Prominent-skin-adnexal-structures-Adapted-from-
Anatomy-of-the-Skin-by-Biorendercom_fig1_358208577
SEBACEOUS GLANDS

 Simple alveolar glands found everywhere
 Except palms of the hands and soles of the feet
 Secrete an oily, lipid-rich secretion called sebum
 Fun fact: Lanolin is actually sheep sebum
 Typically secreted into a hair follicle or
occasionally onto the body surface
 Softens and lubricates the skin
 Also decreases the skin’s permeability to water
and is quite bactericidal
ECCRINE SWEAT GLANDS
(SUDORIFEROUS GLANDS)

 Two types (both merocrine):
 Eccrine sweat glands (onto skin surface)
 Apocrine sweat glands (into hair follicle)
 2 to 3 million over body surface
 Not in mucous membranes, nail beds, nipples
and portions of the external genitalia
 Maximally distributed on palms and soles
 Functions:
1. Respond to psychogenic and thermal
stimulation
2. Regulates body temperature (by excreting
sweat to the skin surface)
MEROCRINE SWEAT GLANDS

 Mecocrine gland = Organ that
secretes chemicals without damaging
its own cells
 Eccrine more numerous than apocrine
sweat glands
 Especially prominent on the palms,
soles, and forehead
 Simple, coiled, tubular glands
 Duct empties into a funnel-shaped
pore at the skin surface.
 Major function of merocrine sweating
is to cool the body (thermoregulation)

https://www.researchgate.net/figure/Basic-structure-of-sweat-glands-The-eccrine-sweat-gland-is_fig1_318503906
THE ACID MANTLE

 Eccrine sweat is a dilute watery solution of some salts (including NaCl), vitamin
C, antibodies, small amounts of nitrogenous wastes (urea, uric acid, and
ammonia), and lactic acid
 pH of sweat is 4-6 creating a film on the body known as the acid mantle
 Such an acidic environment is bacteriostatic (prevents bacterial reproduction/growth)

https://goodieco.com/blogs/goodieco/what-you-need-to-know-about-your-skin-barrier-and-why-you-should-care
VASCULATURE OF THE SKIN

 Arranged into THREE horizontal plexuses
that are interconnected
1. Superficial vascular plexus in the papillary-
reticular junction
2. Deep vascular plexus in the lower reticular
dermis
3. Subcutaneous plexus (larges and deepest)

 Functions:
1. Temperature regulation
2. Blood pressure regulation
3. Nutrition

https://www.researchgate.net/figure/Cutaneous-vasculature-a-A-diagram-of-healthy-skin-highlighting-three-primary-layers_fig1_330451590
HAIR AND HAIR FOLLICLES

 The hair follicle surrounds much of the
hair root
 Contains an outer connective tissue
sheath + an inner epithelial root sheath.
 At the base of the hair follicle is a single
layer of mitotic cells derived from the
stratum basale
 This is the hair matrix
 All the cells of the hair are derived from the
hair matrix.
 Just beneath the hair matrix is an obvious
dermal papilla called the hair papilla
 Contains the blood vessels that nourish the
matrix and the cells of the hair follicle

https://www.researchgate.net/figure/Schema-of-the-healthy-lower-anagen-scalp-hair-follicle-Different-compartments-of-the-HF_fig1_361062959
HAIR AND HAIR FOLLICLES

 Wrapped around the bulb of the
follicle is a network of sensory
nerve endings
 Aka hair root plexus
 Allow the hairs to serve a sensory
function

https://courses.lumenlearning.com/suny-dutchess-anatomy-physiology/chapter/somatosensation/
HAIR AND HAIR FOLLICLES

 Attached to each hair is a bundle of smooth muscle
 Aka arrector pili muscle
 In times of fright or cold, these muscles contract and
cause the hair to stand on end (and produces goose
bumps)
 Increases airflow in mammals with significant hair
and increases the apparent size of an animal with
significant hair
 Vestigial in humans
 I.e., Structure that have no apparent function; Appears to
be residual parts of past ancestor

https://stock.adobe.com/ca/images/function-of-the-arrector-pili-muscle/807959349
HAIR AND HAIR FOLLICLES

https://www.nursinghero.com/study-guides/cuny-csi-ap-1/hair-and-nails
HAIR AND HAIR FOLLICLES

The arrow indicates an arrector pili muscle. In this picture, you should
also try to identify the shaft, root, follicle, hair papilla, and sebaceous gland.
CUTANEOUS NERVE SUPPLY

 Motor (efferent system)
 Controls blood supply and
appendages
 Sensory (afferent system)
 Controls pain, touch, itch, temperature
 THREE cutaneous/afferent receptors:
1. Free nerve endings
 Itch + Temperature + Pain

2. Hair nerve endings
 Touch

3. Encapsulated nerve endings
 Touch + Vibration
CUTANEOUS NERVE SUPPLY

 THREE different afferent receptors
 Free nerve endings
 Hair nerve endings
 Encapsulated nerve endings

https://www.researchgate.net/figure/Cutaneous-touch-receptors-Mechanosensory-afferents-innervating-mammalian-skin-display_fig1_51603914
NERVE ENDINGS

 Encapsulated
 Meissner corpuscles
 Light and soft touch sensations
 In the dermal papillae of hands
and feet

 Pacinian corpuscles
 Deep, firm touch and vibration
 On palms, soles and digits

 Ruffini corpuscles
 Detects stretch, joint activity and
warmth

Grossman, S. & Porth, C.M. (20140. Porth’s Pathophysiology. 9th Edition.
NERVE ENDINGS

 Unencapsulated
 Merkel’s disks/receptors
 Slow-adapting mechanoreceptor
 Touch (pressure and texture)

http://opentextbc.ca/biology/wp-content/uploads/sites/96/2015/03/Figure_36_02_02.png
CHECK YOUR KNOWLEDGE

Match the following:
Pain Stretch
Free nerve endings
Texture Temperature
Meissner corpuscles

Pacinian corpuscles Itch
Light touch
Ruffini corpuscles
Vibration
Deep touch
Merkel’s discs
Joint activity
CHECK YOUR KNOWLEDGE

Match the following:

Free nerve endings Pain Itch Temperature

Meissner corpuscles Light touch

Pacinian corpuscles Deep touch Vibration

Ruffini corpuscles Stretch Joint activity

Merkel’s discs Texture
CUTANEOUS NERVE SUPPLY

 Controls blood supply and appendages
 Derived from autonomic nervous system

https://www.sciencedirect.com/science/article/abs/pii/B9780444534910000304
THE FASCIAL & MUSCLE LAYERS

The Fascia
 Very tough, yet flexile skin layer
 Consists of fiber creators
 Function(s):
 Connects subcutaneous tissue and above layers to muscle

The Muscles
 High metabolic demand
 Very sensitive to reduced blood flow
 Function(s):
 Keeps muscle moving by absorbing oxygen
THE SKIN

Orsted, H.L. et al. (2017). Foundations of Best Practice for Skin and Wound Management
THE NAIL PLATE

 It is translucent in areas
where it is not attached to
the nail bed
 Distal free edge
 Lunula
 Areas of the nail plate
attached to the vascular nail
bed appear pink

https://www.informedhealth.org/structure-of-the-nails.html
THE NAIL PLATE

 Nail plate is hard, strong, and flexible
 Hardness and strength due to high
content of hard keratins and cystine-
rich high-sulfur proteins
 Flexibility depends on its water
content, but the plate is unable to
hold water because of its low lipid
content
STRUCTURE AND FUNCTION OF THE NAIL

1. Protect the distal phalanges
2. Facilitate fine grasping and pinching
3. Efficient natural weapon
4. Contribute to aesthetic appearance
of hands and feet
STRUCTURE OF THE NAIL

 Proximal nail fold covers proximal third of the nail plate
 The nail plate results from maturation and keratinization of the nail matrix epithelium
and is firmly attached to the nail bed which partially contributes to its formation

https://courses.lumenlearning.com/wm-biology2/chapter/glands/
STRUCTURE OF THE NAIL

 Hyponychium:
 The anatomic area between the nail
bed and the distal groove, where the
nail plate detaches from the dorsal digit
 Eponychium:
 A thin cuticular fold of stratum
corneum from the proximal nail fold
overlapping the matrix
STRUCTURE OF THE NAIL

 The transverse nail plate originates from
THREE separate areas:
 Proximal nail matrix → Dorsal nail plate
 Distal nail matrix → Intermediate nail plate
 Nail bed → Ventral nail plate
STRUCTURE OF THE NAIL

 Nail matrix:
 Synthesizes the nail plate substance
 Extends under the proximal nail fold 5
to 10mm in depth
 Lunula
 White semicircular area at the
proximal end of the nail plate
 Distal aspect of the matrix
 Junction point between the nail matrix
and the nail bed

https://www.informedhealth.org/structure-of-the-nails.html
ANATOMY OF THE TOENAIL
ANATOMY OF THE TOENAIL
NAIL GROWTH

 The nail plate thickens progressively from its emergence its distal margin
 Mean toenail thickness:
 Men : 1.65 +/- 0.43mm
 Women: 1.38 +/- 0.20mm
 Thickness depends on the length of the matrix and nail bed
 Increased thickness with age
 Matrix disorders generally cause thinning of nails
 Nail bed disorders generally cause thickening of nails
NAIL GROWTH

 Nails develops during the ninth embryonic week from the epidermis of the
dorsal tip of the digit
 Slow at birth, increases during childhood, maximizes between the second and
third decades, and decreases after 50
 Nail growth rate depends on the matrix
 Mean nail growth:
 Fingernails 3mm per month
 Toenails 1mm per month
NAIL GROWTH

 Growth rates vary due to disease, drug use and trauma
 Systemic illness, malnutrition, peripheral vascular and neurologic diseases, “nail
trauma” onychomycosis, and antimitotic drugs will slow growth rates
 Pregnancy, “nail trauma”, psoriasis, treatment with certain drugs (e.g., retinoids,
itraconazole) will accelerate growth rates
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REFERENCES

 Dockery, G.L. (1997). Cutaneous Disorders of the Lower Extremity. Philadelphia:
W.B. Saunders Company
 Grossman, S. & Porth, C.M. (2014). Porth’s Pathophysiology. (9th edition).
Philadelphia, PA: Wolters Kluwer
 Orsted, H.L., Keast, D.H., Forest-Lalande, L., Kuhnke, J.L., O’Sullivan-Drombolis,
D., Jin, S., et al. Skin: Anatomy, physiology and wound healing. In: Foundations of
Best Practice for Skin and Wound Management. A supplement of Wound Care
Canada; 2017. 26