Anatomy notes week 4 [1 slide per page].pdf

Transcript

Organ systems
The Integumentary System
 skin, hypodermis, hair, nails, glands, muscle,

and nervous system sense receptors
1. Skin – two layers
A. Epidermis – stratified squamous epithelium
 derived from ectoderm
 avascular

Primarily composed of keratinocytes
 cells that produce lots of

keratin; a fibrous
protein with protective properties

A. Epidermis
 separated into five distinct strata (four

in thin skin)

i) stratum basale – basal layer; attached to the dermis
a) single row of keratinocytes (~90% of total)
 stem cells that divide by mitosis
 one

daughter cell pushed toward surface following
each cell division (takes ~25–45 days to reach surface)

b) melanocytes (~10%)
 produce

melanin (pigment)

 albinism –

inability to produce the various melanins

A. Epidermis
ii) stratum spinosum – spiny layer
 irregular shaped keratinocytes with many

intermediate (pre-keratin) filaments
iii) stratum granulosum – granular layer
 thin

(3–5 cell) layer containing many dark-staining
keratohyaline granules (help form keratin)

Note: cells above granulosum are far away from blood supply
iv) stratum lucidum – clear layer
 thin

(2-3 cells thick) band of flat, dead clear keratinocytes

A. Epidermis
v) stratum corneum – surface layer
 thick (~30 cells thick) band of flat, soft keratin

containing cells
 continually shed

and replaced from below

 glycolipids between cells creates waterproof

layer

Thin skin – hair follicles and sebaceous glands present
 no stratum lucidum apparent

Thick skin – palm of hand, sole of foot
 no

hair follicles or sebaceous glands

The Integumentary System: skin
B. Dermis – CT proper; derived from mesoderm
i) papillary layer – outer, thin loose areolar layer
 vascular –

supplies epidermis with O2 and nutrients

 has

projections (dermal papillae and ridges) that extend
into the epidermis of thick skin – create your ‘fingerprints’

ii) reticular layer
 deep, thick dense irregular CT (fibrous collagen layer)
 contains

blood vessels, nerves, and glands (plus hair
follicles and arrector pili muscles in thin skin)

Hypodermis – subcutaneous layer (= superficial fascia)
 layer

of adipose and areolar CT underlying the skin

 loosely binds integumentary system to underlying structures

Skin colouration

keratinocytes

i) melanin – red, brown, and black pigment types

melanin

 responsible

for most variation in skin colour
among people (i.e. not number of melanocytes)

 formed in melanocytes; transferred to keratinocytes
 freckles, moles; tan (in response to UV exposure)

ii) carotene – yellowish orange colour
 accumulates in

stratum corneum; dietary origin

iii) hemoglobin – blood pigment
 blood in dermal capillaries
 most evident in fair-skinned people (e.g. blushing)

melanocyte

2. Epidermal derivatives
A. Hair – composed of hard-keratin containing epithelial cells
 has

a root (in dermal layer) and a shaft (projects from skin)

B. Hair follicles – invagination of epidermis (root sheath)
surrounded by a CT sheath
shaft
i) hair bulb – expanded region at base of the hair root
ii) hair matrix – single layer of rapidly dividing cells
sheath
 are derived from stratum basale cells

root

bulb

 site of hair growth; also contains melanocytes

matrix

iii) hair papilla – dermal tissue projecting into the matrix
 contains blood supply for hair matrix cells and

signals for its regulation

papilla

2. Epidermal derivatives

oil gland

Associated with each hair follicle is:

arrector
pili

a) root hair plexus – nerve endings
b) sebaceous (oil) gland – opens into follicle
c) arrector pili muscle – smooth muscle
 contraction causes

‘goosebumps’

C. Nails – scale-like modification of the epidermis
Heavily keratinized stratum corneum cells arising from the
nail matrix
nail root
nail body
free edge

nerve

sweat pore

2. Epidermal derivatives
D. Exocrine glands
i) sebaceous (oil)
 found

sebaceous

mainly with hair follicles

 secrete sebum

(oil, salt, and protein mixture)

 softens and lubricates hair and skin; antibacterial

ii) sudoriferous (sweat) – secretion is ~99% H2O
 secretory portion of gland found in dermis with a duct

opening on the surface (sweat pore)
 helps

regulate body temperature via evaporation

 removes

some body wastes (urea, ammonia)

sudoriferous

D. Exocrine glands
cerumen

iii) ceruminous
 modified sweat glands in the auditory canals


its secretion mixes with sebum to form cerumen (ear wax),
a waxy substance with antimicrobial/antifungal properties

iv) mammary (milk) – a nutritious secretion
 modified sweat glands

mammary
glands

adipose

ducts

3. Cutaneous Sense Receptors
Components of the nervous system specialized to respond
to external stimuli
A. Mechanoreceptors – sensitive to mechanical stimuli
i) touch receptors
 root hair plexuses around hair follicle
 nonencapsulated (free)

nerve endings that detect hair

movement
 Meissner’s

corpuscles – fingertips, soles, nipples

 encapsulated sensory

neurons in the dermal
papillae used for discriminative touch

3. Cutaneous Sense Receptors
ii) pressure receptors
 Pacinian corpuscles –

fingertips, soles, nipples

 large encapsulated receptors in

the deep dermis

and hypodermis
 some free nerve endings deep in the dermis also

sense pressure
B. Thermoreceptors – sensitive to temperature changes
 free

nerve endings in dermal papillae

C. Nociceptors – pain
 typically free nerve endings in dermis, though all

receptor types indicate ‘pain’ if overstimulated

Skeletal and Muscular Systems
Skeleton divided into axial and appendicular portions
Homework: Learn and know directional terms
 i.e. medial, lateral, proximal, anterior (ventral), etc.

1. Axial skeleton – skull, hyoid, vertebral column, and thorax
 80

bones

A) Skull
i) cranial bones (8 bones); surround brain
frontal (1)

parietal (2)

ethmoid (1)

temporal (2)

sphenoid (1)

occipital (1)

A) Skull
ii) facial bones (14 bones)
mandible (1)

zygomatic (2)

maxillae (2)

lacrimal (2)

nasal (2)

vomer (1)
inferior nasal conchae (2)
palantine (2)

ethmoid
palantine
(behind maxilla)

A) Skull
iii) auditory ossicles (6 bones) – used for sound transmission
 malleus (2),

incus (2), and stapes (2)

B) Hyoid bone – assists in swallowing
 does not articulate with any other bone
 attachment site for muscles of the tongue, neck, and

pharynx

1. Axial skeleton

spinous process

transverse
process

lamina

C) Vertebral column
General structure of most vertebrae
7

processes
spinous (1)

pedicle

superior
articular
process

foramen

transverse (2)

body

superior (2) and inferior (2)
articular processes (and their facets; sites of
articulation with adjacent vertebrae)
 arch composed of 2 laminae (between spinous

and transverse
process) and 2 pedicles (body to transverse process)

 vertebral foramen (for
 body

spinal cord)

(centrum); thick anterior region

C) Vertebral column
i) cervical region – 7 vertebrae (C1–C7)
Smallest, lightest vertebrae
a

transverse foramen runs through each
transverse process
 for vertebral arteries, veins, and nerves
transverse foramen

a) atlas (C1)
 has

no centrum or spinous process

 articulates with skull (occipital condyles)
 allows for

flexion and extension of neck (‘yes’ nod)

atlas

C) Vertebral column
b) axis (C2)

dens

a

knoblike dens (odontoid process) on body
projects superiorly, articulating with the atlas

 creates a

pivot (swivel) joint, allowing a ‘no’ shake

c) C3– C7
 ‘typical’ vertebrae

axis

C) Vertebral column
ii) thoracic region – 12 vertebrae (T1–T12)
 possess

long, slender spinous processes

 body

and transverse processes have
costal facets
 for articulation with ribs

iii) lumbar region – 5 vertebrae (L1–L5)
 large thick bodies; short,

heavy spinous processes

 provide support for upper body; limited rotation ability

C) Vertebral column
iv) sacrum – 5 fused vertebrae
 articulates with ilium and 5th

lumbar vertebra

v) coccyx – 3-5 (but mostly 4) fused vertebrae
 tailbone

Intervertebral foramen – lateral openings
between adjacent vertebrae
 form the exit holes for spinal

Intervertebral
foramen

nerves

Curvature of the Spinal Column
“S shaped” (lateral view)
1. Cervical and lumbar sections
 are concave posteriorly (convex anteriorly)
2. Thoracic and sacrum sections
 are convex posteriorly

(concave anteriorly)

Abnormal curvatures:
i) scoliosis – lateral bend of the spinal column
ii) kyphosis – extensive dorsal thoracic curve (hunchback)
iii) lordosis – extensive lumbar curve (sway back)

1. Axial skeleton
D) Thoracic cage – ‘bony thorax’
 forms

a protective cage around the vital organs of the thorax

 attachment point

for muscles of the neck, back, chest,

and shoulder
1. Sternum – ‘breast bone’
 fusion

of three bones:

i) manubrium – superior
ii) body – middle
iii) xiphoid process – inferior

D) Thoracic cage
2. Ribs – ♂ 12 pairs; ♀___ pairs
 articulate posteriorly with

corresponding thoracic vertebra
i) 7 pairs of true ribs – superior
 directly attach anteriorly to sternum

via costal cartilage (hyaline)

8
9
10

12

11

ii) 5 pairs of false ribs – inferior
 ribs

8 to 10 attach to the sternum indirectly via costal
cartilage of rib 7

 ribs

11 and 12 are not attached to the sternum

 ‘floating

ribs’; are embedded in muscle

2. Appendicular skeleton
 upper and lower limb girdles; 126 bones

A. Pectoral girdle
i) clavicle – ‘collarbone’
 articulates with the manubrium
 connects the

and acromion process

axial and appendicular skeletons

ii) scapula – ‘shoulder blades’
a) spine – runs along posterior surface
b) acromion process – articulates with clavicle
c) glenoid fossa – articulates with the head of the humerus
d) coracoid process – attachment point for chest and
upper arm muscles

2. Appendicular skeleton
B. Pelvic girdle – paired os coxae or ‘hips’
Three fused bones: ilium (superior),
ischium (inferior), and pubis (anterior)
Contains three key joints:
ilium

i) sacroiliac
 synovial joint

between the sacrum and ilium

ii) pubic symphysis

acetabulum

ischium

 cartilaginous joint uniting the anterior medial

os coxae (i.e. between the pubic bones)

pubis

iii) acetabulum – point of fusion between the three coxal bones
 synovial ball and socket joint for the head of the femur

2. Appendicular skeleton
C. Upper and lower limbs (in the anatomical position)
(left) Arm
humerus
ulna
radius
carpals (8)
‘wrist’
metacarpals (5)
‘palm’

phalanges (14)

(right) Leg
femur
patella (anterior; ‘kneecap’)
tibia
fibula
tarsals (7)
‘ankle’

talus; articulates
with tibia/fibula

calcaneus =
heel bone
metatarsals (5)
‘sole’
tibia
fibula
talus
phalanges (14)
calcaneus

thumb (pollex)

big toe (hallux)