General Histology: Bone (Supporting CT) PDF - Lecture Notes, 11/9/2024

Summary

This document provides a lecture on bone histology. It covers the structural characteristics of bone. It also details how to prepare bone tissue for microscopic examination.

Full Transcript

11/9/2024

Course Title : General Histology

Lecture Title : Bone (supporting CT)
Lecturer Name : Omayma Kamel Afifi
Professor of Histology & Cell Biology, Faculty of Medicine, Tanta University
Associate Trainer In IBCT and NCFLD
Arbitrator in the Promotion Committee of the Supreme Council
Reviewer in NAQAAE

Prof Dr Omayma Kamel Afifi

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Lecture ILOs/ Objectives:

Identify the structural characteristics of the bone & how to prepare
Distinguish between different types of bone cells
Differentiate between the microscopic structure of different bone types.
Differentiate between cartilage and bone

Prof Dr Omayma Kamel Afifi

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II-Bone
A specialized CT whose extracellular matrix is calcified.
1- Protects & supports vital organs of the body as brain &
spinal cord

2- A storage site for the calcium & phosphate.

3- Contains bone marrow which acts as a haemopoietic
organ.

4- Serves as a lever for skeletal muscles.

Prof Dr Omayma Kamel Afifi
11/9/2024

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Preparation of bone tissue for microscopic examination:
‫بحث الصور عن‬
decalcified bone
‫نتيجة‬
labeled

▪Decalcified sections: the bone is treated with dilute acid
solution (5% nitric acid). Then, sections are prepared & stained
in ordinary manner. Cells & organic components are preserved.
▪Ground section: grinding a thin piece of bone until it become
transparent. Sections are obtained & examined with the
microscope. No stains, the bone cells are destroyed, so lacunae
& canaliculi appear black due to the entrapped air.

Prof Dr Omayma Kamel Afifi
11/9/2024

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Structure of bone tissue
Bone is composed of:
a) Bone cells (4 types; origin, site, L/M, E/M, function of each cell)
1-Osteogenic (quiescent stem cells)
2-Osteoblast (bone formation)
3-Osteocyte (mature cells)
4-Osteoclast (bone resorption)
b) Extracellular calcified matrix: Collagen fibers (type I) & Ground substance.
Covered externally by periosteum & Lined by endosteum
Prof Dr Omayma Kamel Afifi
11/9/2024

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Periosteum Endosteum
External covering, formed of Lines all internal surfaces or
two layers: bone cavities within the bone
1.Outer fibrous: dense CT Single cellular layer: osteogenic
2.Inner cellular: osteogenic cells cells & & osteoblasts.
Image result for periosteum and endosteum

Functions: both are important for bone nutrition, growth & repair.
Prof Dr Omayma Kamel Afifi
11/9/2024

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Bone matrix: (extracellular matrix)
Inorganic Components:
▪ About 50-60% of the dry weight of bone.
▪ Composed mainly of calcium salts (ca hydroxyapatite) & phosphate.
Organic Components:
▪ About 40-50% of the dry weight of bone. Composed of:
- Collagen fibers type I in the form of collagen bundles.
- Ground substance:
a.Glycosaminoglycans [GAGs]. B.Proteoglycans. c. Glycoproteins.
The matrix acidophilic (collagen) in Hx &E sections & it is PAS +ve.
Prof Dr Omayma Kamel Afifi
11/9/2024

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Bone cells

Prof Dr Omayma Kamel Afifi
11/9/2024

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1- Osteogenic cells

Origin Mesenchyme (UMC(
Site Osteogenic layer of periosteum & endosteum
L/M Small spindle-shaped, with pale nuclei & basophilic cytoplasm
E/M Abundant free ribosomes, mitochondria, RER.
Function Stem cell; can undergo mitotic division & differentiate into osteoblasts
Prof Dr Omayma Kamel Afifi
11/9/2024

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2- Osteoblasts

Origin Osteogenic cells
Site On the surfaces of bone (like arrangement of simple cuboidal)
L/M Active, deeply basophilic cytoplasm with -ve Golgi image, large, pale rounded
nucleus, very thin cytoplasmic processes extending to those of adjacent cells
E/M, Actively secreting cells (abundant rER, well-developed Golgi, numerous
secretory vesicles, many ribosomes & mitochondria. nucleus with extended
chromatin),
Function Synthesis of the organic bone matrix, secrete alkaline phosphatase enzyme
which precipitate ca salts in the matrix Prof Dr Omayma Kamel Afifi
11/9/2024

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3-Osteocytes (mature)

Origin Osteoblasts when surround themselves with the matrix.
Site Each osteocyte are imprisoned in a lacuna within calcified bony matrix,
one cell in each lacuna, processes in canaliculi to contact the processes of
adjacent cells
L/M Smaller than osteoblasts, less basophilic, flattened & deeply stained nucleus
E/M Poor in organelles; scanty RER, & Golgi, central nucleus with condensed
chromatin, processes joined inside canaliculi by gap junctions
Function Maintain the bone Matrix Prof Dr Omayma Kamel Afifi
11/9/2024

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4-Osteoclasts

Origin Fusion of blood monocytes
Site Bone surface in shallow depressions (Howship's lacunae)
L/M Giant motile branched cells, multinucleated (up to 50 nuclei), acidophilic
cytoplasm, surface facing bone is irregular (ruffled or striated border).
E/M Many zones; ruffled border (cell membrane enfolding), clear zone (actin
filaments), vesicular zone (endocytic vesicles, lysosomes & vacuoles, basal
zone (organelles & multiple nuclei) Prof Dr Omayma Kamel Afifi
Function 11/9/2024
Bone resorption & remodeling
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Prof Dr Omayma Kamel Afifi
11/9/2024

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Microscopic types of bone

1.Spongy (cancellous) bone: irregular bone trabeculae enclosing spaces
filled with bone marrow.
2.Compact bone: solid dense mass of bone without cavities.
Both types are present in every bone, in varying distribution & amount

Prof Dr Omayma Kamel Afifi
11/9/2024

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Microscopic structure of decalcified compact bone:
e.g. the diaphysis of long bones
Composed of four lamellar systems:

1-Outer circumferential lamellae: just beneath the
periosteum

2-Inner circumferential lamellae: between endosteum
& the marrow cavity

3-Haversian system (osteon): parallel to the long axis of
bone
4-Interstitial lamellae: in-between Haversian systems.
Prof Dr Omayma Kamel Afifi
11/9/2024

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Prof Dr Omayma Kamel Afifi
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Haversian system (osteon):
- Concentric lamellae of regularly arranged collagenous fibers around a
vascular Haversian canal.
- Each canal is lined with endosteum (osteoblasts & osteogenic cells) &
contains blood vessels & nerves with C.T.
- The canal run parallel to the long axis of the bone & connected with each
other, periosteum & endosteum by Volkmann's canals.
- Volkmann's canals are, transverse or oblique, lined with endosteum &
contain blood vessel, nerves & C.T.

Prof Dr Omayma Kamel Afifi
11/9/2024

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Microscopic structure of spongy (cancellous) bone:

1- Bone trabeculae (irregular bone lamellae that branch & unit with one
another enclosing marrow spaces & scattered osteocytes between these
lamellae). No Haversian system.
2- Bone marrow cavities: multiple between the bone trabeculae.
Prof Dr Omayma Kamel Afifi
11/9/2024

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Types according to development & healing
Primary (1ry) (Immature; woven) Secondary (2ry) (mature or lamellar)
First bone to appear in development, fracture & repair Replace the 1ry bone
Temporary, replaced by 2ry, except in few areas Permanent
(e.g. near sutures). Usually in adults.
a) More Cells (osteocytes). a)More calcified (more stronger)
b) Irregular Collagen. b)Regular collagen
c) Less Calcium (Less mineral). c)Evenly acidophilic
d) More proteoglycans & glycoproteins (the d)Organized to compact or spongy
matrix is unevenly stained, with areas of
basophilia)

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Disturbance of the normal balance between Bone formation (by
osteoblasts) & Bone resorption (by osteoclasts) resulting in:
Osteopetrosis (too much bone) Osteoporosis (low bone density)
Genetic disease (lack of a ruffled Aging disease; more rapidly in
border of osteoclasts) women after menopause
Bone resorption is defective Bone formation is defective
The bones are dense, heavy Bone density decreases
Prevents enlargement of marrow Fragile bone with an increased
cavities, leading to hematological susceptibility to fracture
failure

Prof Dr Omayma Kamel Afifi

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Cartilage Bone
1.Soft, elastic, flexible 1.Hard, inelastic & tough
2.Nonvascular 2.Vascular
3.Two main cell` types: chondroblast & 3.Four cell` types: osteogenic, osteoblast,
chondrocytes osteocyte & osteoclast
4.Homogenous non-lamellar matrix 4.Lamellar matrix
5.Organic matrix 5.Organic & nonorganic matrix
6.No calcium 6.Has calcium
7.Each lacuna has more than one cells up 7.Each lacuna has one cell
to 8
8.No canaliculi 8.Has canaliculi
9.Haversian & Volkman canals are absent 9.Haversian & volkman canals are present
10.Three types (hyaline, elastic & (in compact)
fibrocartilage) 10.Two types (compact & spongy), or
primary & secondary
Prof Dr Omayma Kamel Afifi
11/9/2024

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Volkman's canals are characterized by which of the following?
A- Contains no blood vessels.
B- Are at the centre of the osteon.
C- Communicate with Haversian canals.
D- Are arranged parallel to the bone surface
Osteoclasts are characterized by which of the following?
A- Derived from fusion of monocytes.
B- Bone forming cells.
C- Large cells with a single kidney shaped nucleus.
D-Present in the bone matrix

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Osteoblasts synthesize the collagen fibers, mainly of type:
A- I B- II C- III D- IV
Which of the following cells is joined with each other by gap junctions
inside canaliculi?
A.Osteoblasts
B.Osteocytes
C.Osteoclasts
D.Osteogenic
Thank You
Enumerate types of bone cells?
Mention three differences between cartilage and bone?

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