Musculoskeletal System PDF

Summary

This document provides a detailed overview of the musculoskeletal system. It covers topics including skeletal system functions, bone histology, bone cells, bone development, types of bones, and more. The content is suitable for undergraduate study.

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MUSCULOSKELETAL
SYSTEM
Dr. Nehemiah B. Mula
SKELETAL SYSTEM
There are 206 bones in the body
Functions of the Skeletal System
○ Body support
○ Organ protection
○ Body movement
○ Mineral storage
○ Blood Cell production
BONE HISTOLOGY
Bone Matrix
○ 35% organic
Collagen and proteoglycans
○ 65% inorganic
Calcium phosphate crystals
called hydroxyapatite
○ Balance should be maintained
between the organic and inorganic
component
Too much collagen → bone
becomes too flexible
Too much mineral → brittle
bone
BONE CELLS
3 types of bone cells
○ Osteoblasts
Bone-building cells
Produce collagen and
proteoglycan
Secrete matrix vesicle which
contains high concentration of
Calcium and Phosphate →
Hydroxyapatite crystals
Participate in bone formation
called Ossification
BONE CELLS
3 types of bone cells
○ Osteocytes
Bone cells trapped in the
cellular matrix
Housed in spaces called
lacunae
Accounts for 90-95% of bone
cells
○ Osteoclasts
Bone-destroying cells
Active in bone resorption
Woven and Lamellar Bone
Woven Bone
○ First type of bone that osteoblasts form
during ossification
○ Weak; collagen fibers are randomly
oriented in many directions
○ Broken down by osteoclasts to form a
stronger, more permanent bone structure

Lamellar Bone
○ Mature bone; organized into thin,
concentric sheets or layers called lamellae
○ Collagen fibers are arranged in a more
organized manner
Spongy and Compact Bone
Spongy Bone (Cancellous bone)
○ Consist of interconnecting rods or plates of
bone called trabeculae
○ has a porous, honeycomb-like structure that
is filled with marrow
○ Between the trabeculae are spaces filled
with red bone marrow (for blood production)
○ Found in flat bones (skull, sternum, ribs)

Compact Bone
○ Solid, outer layer surrounding each bone
○ Has more matrix and is denser with fewer
pores than spongy bone
○ Has a functional unit called osteon or
haversian system
Classification of Bones according to shape
Long Bones
○ Bones that are longer than wide
○ Consist of a shaft, diaphysis, epiphysis
○ Humerus, femur, radius, ulna
Short Bones
○ Roughly cube-shaped bones composed
mainly of spongy bone
○ Carpals (wrist), tarsals (ankle)
Flat Bones
○ Contain an interior framework of spongy
bone sandwiched between 2 layers of
compact bone
○ Sternum, skull, ribs
Classification of Bones according to shape
Irregular Bones
○ Has a peculiar or differing shapes
○ Vertebrae, ossicles of the ears
Sesamoid Bones
○ Enclosed in tendon and fascia
○ Found adjacent to joints
○ Patella (kneecap)
Structure of Long Bones
Diaphysis
○ Center portion of the bone
○ Composed primarily of of compact bone,
surrounding a hollow center called medullary
cavity
○ Primary ossification center (site where bones
develop from)
Epiphysis
○ Ends of long bones
○ Mostly spongy bone with an outer layer of
compact bone
○ Long bones of the arm, forearm, and thigh
has one or more epiphysis
○ Long bones of hands and foot has one
epiphysis only
Structure of Long Bones
Epiphyseal Plate
○ Also known as growth plate
○ Located between the epiphysis and diaphysis
○ Where growth in length takes place

Red and Yellow Marrow
○ Red marrow
Connective tissue in the spaces of
spongy bone or in the medullary cavity
Site of blood cell production
○ Yellow marrow
Fat stored within the medullary cavity
Structure of Long Bones
Periosteum
○ Connective tissue membrane covering the
outer surface of a bone
○ Has 2 layers:
Outer layer is made up of dense
irregular collagenous connective
tissue containing blood vessels and
nerves
Inner layer is a single layer of bone
cells
Endosteum
○ Single layer of tissue covering the internal
surfaces of all cavities within bones
Parts of the Long Bone
Bone Development
Bone formation in the fetus follows two patterns:
○ Intramembranous Ossification
Bone formation starts within embryonic
connective tissue membranes
○ Endochondral Ossification
Starts with a cartilage model
 Intramembranous Ossification
Ossification starts from embryonic mesenchyme
membrane
Seen in the skull bones, part of mandible,
diaphysis of clavicle
Centers of Ossification
○ Where intramembranous ossification begins
○ Expand to form a bone by gradually ossifying
the membrane
Endochondral Ossification
Begins with the formation of a cartilage model
Seen in the bones of the base of the skull, parts of the mandible, epiphyses of
the clavicle, and most of the remaining skeletal system develop through
endochondral ossification
Endochondral and Intramembranous Ossification
Bone Growth
Growth in Bone Length
○ Long bones and bony projections increase in length because of
growth at the epiphyseal plate.
○ Grow by creating new cartilage in the epiphyseal plate
○ New cartilage calcifies and ossifies following the same process
of endochondral ossification
Growth in Bone Width
○ Long bones increases in diameter because of the appositional
bone growth beneath the periosteum
○ Osteoblasts from the periosteum lay down bone under the
periosteum which gradually increases the amount of bone
surrounding the medullary cavity and overall thickness of the
bone
Bone Remodelling
Process where old bone is replaced with new
bone
Osteoclast removes old bone and osteoblast
deposit new bone
Converts woven bone into lamellar bone
Basic Multicellular Unit
○ Temporary assembly of osteoclast and
osteoblast that travels through or across the
surface of the bone
○ Remove old bone matrix and replace it with new
bone matrix
Overview of the Bones in the Body
206 bones in an adult human body
Bones are segregated into the axial and
appendicular skeleton
○ Axial Skeleton
Skull, ear ossicles, hyoid bone, vertebral
column, thoracic cage
○ Appendicular Skeleton
Consists of the bones of the upper and lower
limbs and the two girdles (pectoral and pelvic)
The girdles are zones where limbs are
attached to the body
 CRANIAL BONES FACIAL BONES

PAIRED UNPAIRED PAIRED UNPAIRED

Parietal Frontal Palatine Vomer
Temporal Occipital Lacrimal Mandible
Sphenoid Maxilla
Ethmoid Nasal
Inferior nasal
concha
Zygomatic
Bone Fractures
Fracture is a break or disruption in the continuity
of the bone or disruption of the architecture of the
bone
May result from a trauma or pathologic disease of
the bone
May be open or closed fracture
Can be classified as displaced or non-displaced
Transverse Fracture
Fracture runs horizontally

Spiral Fracture
Helical fracture from twisting of the
bone

Comminuted
Bone is broken into at least 3 fragments

Greenstick
Fracture with break on one side and
bent on the other
Thank you!

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