Lecture 8: Skeletal System I Student Notes PDF

Summary

This document is a student's lecture notes on the skeletal system. It covers general functions, axial and appendicular skeletons, gross anatomy of bones, and microscopic anatomy of osseous tissue.

Full Transcript

Lecture 8: Skeletal System I
(A) General functions & Organization of the skeletal system LO1-2
(B) Axial skeleton LO3-6
(C) Appendicular skeleton LO7-8
FPPT.com
(D) Gross anatomy of bones LO9-12
(E) Microscopic anatomy of Osseus tissue LO13

Other references:
https://med.libretexts.org/Bookshelves/Anatomy_and_Physiology/Human_Anatomy_%28Lange_et_al.%29/06%3A_Axial_and_Appendicular_Skeleton/6.03%3A_The_Skull
https://teachmeanatomy.info/the-basics/ultrastructure/bone/
 LO1: State the major functions of the skeletal system.
The human skeletal system e.g. the skull protects the brain, and the rib
consists of bones, cartilage, cage protects the heart and lungs.
ligaments and tendons and
accounts for about 20% of
the body weight.

hematopoiesis (occurs in bone marrow)

phosphorus

The muscles attach to the bones at
tendons, and when the muscles
contract, they pull on the bones, causing
movement.
body
--allowing us to stand upright.
body organs

https://training.seer.cancer.gov/anatomy/skeletal/
LO2: Indicate the two major divisions of the skeletal system (axial and appendicular) and list the general
bone structures contained within each.

About 206 bones (adult)
2 Main Divisions

It forms the longitudinal
axis of the body.
It consists of the bones of the pectoral
Its principal subdivisions and pelvic girdles and the limbs.
are the skull,
It allows mobility for manipulation and
vertebral column, and
locomotion.
thoracic cage.
These bones serve as the base for the
It provides support and muscles to attach to create movement.
protection (by enclosure).

https://www.scientistcindy.com/the-appendicular-skeleton.html
Axial Skeleton It is formed by 22 bones.
Except for the temporomandibular
joints, all bones of the adult skull are
joined by sutures (immovable joint)

(thoracic cage)

12 pairs of ribs
protects the heart, lungs, and other vital
33 vertebrae organs in the chest cavity.
provides structural support,
houses the spinal cord

LadyofHats Mariana Ruiz Villarreal
 LO3: Identify the skull bones (22)

protect the brain

(8)
Parietal (2)
Temporal (2)
frontal,
occipital,
(14)
ethmoid,
sphenoid

provides openings for the respiratory
and digestive passages and attachment
points for facial muscles.

(Image credit: "Lateral View of the Skull" by Mark Schaeffer is licensed under CC BY-NC-SA 4.0, modification of images from Anatomy Standard under CC BY-NC 4.0.)
(Image credit: "Bones of the Skull - Lateral View" by Jennifer Lange is licensed under CC BY-NC-SA 4.0, modification of image from Anatomy Standard under CC BY-NC 4.0.) )
 form the external superior surface of Palatine bones (2): These
the nose contribute to the hard
2
palate
Lacrimal bones (2) --
contribute to the formation of
the tear duct. Vomer: flat, triangular
cheekbones bone, forms the back
of the nasal cavity and
inferior portion of the
nasal septum (the
partition separating the
Inferior nasal conchae (2) nostrils).
(turbinates): located within
the nasal cavity; help warm, (2)
humidify, and filter inhaled air. These bones form the upper
jaw and house the upper teeth

The lower jawbone
the only movable bone in the
facial skeleton--responsible for
chewing and speaking.
(Image credits: "Cranial Bones" and "Facial Bones" by Mark Schaeffer are licensed under CC BY-NC-SA 4.0, modification of images from Anatomy Standard under CC BY-NC 4.0.)
 LO4: Identify bone markings
(anatomical landmarks) in the skull
They reveal sites of muscle attachment, points of
articulation, and sites of blood vessel and nerve passage. supraorbital foramen
infraorbital foramen

Air-filled space
in bone Sinus

(pl. foramina)
International Journal of Morphology. 40. 181-187. 10.4067/S0717-95022022000100181.

mental foramen
Foramen Hole through bone
through which nerves and blood vessels pass.
Canal Fissure Slit through bone
Passage
in bone usually houses nerves and blood vessels.

e.g. e.g. superior and inferior orbital fissure.
optic canal

OC optic canal, SOF superior orbital fissure, IOF inferior orbital fissure
https://open.oregonstate.education/aandp/chapter/7-2-bone-markings/ https://link.springer.com/article/10.1007/s00276-020-02573-w
 Process A bulging bony outgrowth of a larger bone

Mastoid process --it's a bony projection that arises from the temporal bone
many head muscles are attached to it

Fossa A shallow depression in the bone surface.

Here it may receive another articulating bone or act to support
brain structures.

Bandovic, I., Holme, M. R., Black, A. C., & Futterman, B. (2023). Anatomy, Bone Markings. In StatPearls. StatPearls Publishing.
 Curvatures 7 LO5: Discuss the anatomy of the vertebral column and
↑ spine vertebrae. Identify bone markings in the vertebrae
flexibility
includes 24 12
movable
vertebrae

fibrocartilage
intervertebral
discs act as
shock
absorbers
and
provide
flexibility

https://www.sci-info-pages.com/anatomy-of-the-spine/
LO6: Discuss the anatomy of the thoracic cage

It is the bony structure of the chest-- manubrium
protects the organs of the thoracic cavity.

The bones of the thoracic cage include:

12 rib pairs, body
the sternum,
the thoracic vertebrae.

Xiphoid
process
The first seven rib pairs are called true ribs

false ribs floating ribs

https://humanbodylearning.com/rib-cage-anatomy-function/
 LO7: Name the bones that form each
Pectoral component of the appendicular skeleton

clavicle

scapula
Humerus- articulate with clavicle and
humerus
Radius & -forearm
ulna
attach the upper limbs to the axial skeleton

Hip bone:
Thigh--femur.
Leg- tibia & fibula
A heavy structure specialized
for weight bearing,
It secures the lower limbs to
the axial skeleton.
https://www.albert.io/blog/an-overview-of-the-appendicular-skeleton/ https://www.sawanonlinebookstore.com/pelvic-girdle-bony-pelvis/
 LO8: Compare and contrast the adult male
and female skeletons.
The pelvis is the deep, basin-like structure formed by the
hip bones, sacrum, and coccyx.

larger, heavier bones forms the birth canal

Quadriceps angle the angle formed between the quadriceps muscles and
the patella tendon.
https://doi.org/10.1371/journal.pone.0218387
 LO9: Relate the shapes of bones to their functions. Protection

sternum
ribs
skulls

Support weight; movement
Protect organs

Reinforce tendons

Stability, movement
(kneecap)

© 2018 Pearson Education, Inc.
tarsals
 LO10: State the components of a flat bone
Flat bones consist of a layer of spongy bone sandwiched between two thin layers of compact bone.

dense connective tissue membrane
Compact bone
enveloping most bones
Outer table

diploë
Inner table
Compact bone

Trabeculae
thin plates or rods
of bone that form a
honeycomb-like
network
compact bone

Spongy bone

Short and irregular bones resemble flat bones structurally.
 LO11: Identify the structural components of a long bone
makes up the outer layer of the bone

=shaft

The bone's articulating segment, usually at the
Spongy bone bone's proximal and distal poles.
=Cancellous tissue
=trabecular bone

the remnant of a growth plate (physis) in a mature bone
BONE

Soft, gelatinous tissue.
Fills the cavities of long bones and occupies the spaces of spongy bone.
2 Types: red and yellow.
https://www.visiblebody.com/blog/3d-skeletal-system-compact-bone-spongy-bone-and-osteons https://www.cancer.gov/publications/dictionaries/cancer-terms/def/bone-marrow
 Made mostly of fat.
Contains stem cells
that can become
cartilage, fat, or bone
cells.
Found in the central
cavities of long bones.

(membrane that covers entire bone)
thin vascular membrane that lines the
inner surfaces of bones

Contains blood stem cells.
Found in articular ends of long bones (also
in medullary cavities of flat and short
bones, vertebral bodies, spongy bone of
the cranium, sternum, ribs, and scapulae).
https://www.visiblebody.com/ https://www.cancer.gov/publications/dictionaries/cancer-terms/def/bone-marrow
 LO12: Identify bone Fovea capitis
markings in long bones Small pit
head *
Tubercle =Small, rounded process
Examples of processes formed
where tendons or ligaments attach: sulcus (Groove)

Head= rounded, prominent, bony
extension that forms part of a joint.
It is usually covered in hyaline cartilage
and a synovial capsule.
Rough surface

* Examples of processes formed to Fossa A shallow depression on the bone surface
articulate with adjacent bones:

Condyle = large rounded prominence that
articulates with a complementary
Facet condyle on another bone.
Flat surface It provides structural support to the
overlying hyaline cartilage.
https://open.oregonstate.education/aandp/chapter/7-2-bone-markings/ https://www.ncbi.nlm.nih.gov/books/NBK513259/
 LO13: Identify the internal structural components of compact and spongy bones.
2 Types of bone tissue: compact (dense or cortical) and spongy (cancellous)-names imply that the two types differ in density
Compact bone consists of closely packed osteons or haversian systems.

mature bone cells
Extracellular Matrix

Calcium & phosphate

These crystals associate with
the collagen fibers, making
bone hard and strong.

The osteon consists of a central canal called the osteonic
The structural unit houses blood vessels (haversian) canal, which is surrounded by concentric rings
(lamellae) of matrix.
Fan, Jingzhi & Abedi Dorcheh, Keyvan & Vaziri, Asma & Kazemi-Aghdam, Fereshteh & Rafieyan, Saeed & Sohrabinejad, Masoume & Ghorbani, Mina & Rastegar Adib, Fatemeh & Ghasemi, Zahra & Klavins, Kristaps & Jahed, Vahid. (2022). A Review of Recent Advances in Natural Polymer-Based Scaffolds for Musculoskeletal Tissue Engineering. Polymers. 14. 10.3390/polym14102097. https://training.seer.cancer.gov/anatomy/skeletal/tissue.html
 Between the rings of matrix (lamellae), the
bone cells (osteocytes) are located in
spaces called lacunae (singular: lacuna)

Small channels (canaliculi) radiate from the lacunae
to the haversian canal to provide passageways
through the hard matrix.

Sketchfab https://training.seer.cancer.gov/anatomy/skeletal/tissue.html
 Spongy (cancellous) bone
Spongy bone doesn't have osteons or Haversian canals.
Instead, the lamellae are organized into thin plates or rods
called trabeculae.
These trabeculae form a branching network throughout
the spongy bone.
↓weight of skeleton

housed in lacunae--not
arranged in a specific pattern

STEVE GSCHMEISSNER / Science Photo Library / Getty Images
connect to the adjacent cavities filled with red bone marrow instead of a central canal.