1. CONNECTIVE TISSUE
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2. Objective
The main objective is to identify different types of connective tissue cells, protein fibres and connective tissue types that provide unique properties to different tissue varieties.

3. SLIDE 118 Areolar connective tissue
Slide as seen at lowest magnification. Areolar or Loose connective tissue.
1.0 mm

4. SLIDE 118 Areolar connective tissue
Slide as seen at lowest magnification. Areolar or Loose connective tissue.
1.0 mm

5. SLIDE 118 Areolar connective tissue
Area from slide as seen with x4 objective lens.
Identify areas of adipose cells, blood vessels and fibroblasts with collagen fibre matrix.
250 µm

6. SLIDE 118 Areolar connective tissue
Area from slide as seen with x4 objective lens.
Identify areas of adipose cells, blood vessels and fibroblasts with collagen fibre matrix.
connective tissue
with fibroblasts
and collagen C
C : capillaries and
small blood
vessels C
adipose cells
250 µm

7. SLIDE 118 Areolar connective tissue
Area from slide as seen with x4 objective lens.
Identify areas of adipose cells, blood vessels and fibroblasts with collagen fibre matrix.
connective tissue
with fibroblasts
and collagen C
C : capillaries and
small blood
vessels C
adipose cells
250 µm

8. SLIDE 118 Areolar connective tissue
Try to identify the following cell types:
Adipose cells
Red and white blood cells
Fibroblasts
Macrophages
Mast cells
50 µm

9. SLIDE 118 Areolar connective tissue
Try to identify the following cell types:
Adipose cells
Red and white blood cells
Fibroblasts
Macrophages
Mast cells
adipose cells
50 µm

10. SLIDE 118 Areolar connective tissue
Try to identify the following cell types:
Adipose cells
Red and white blood cells
Fibroblasts see next picture
Macrophages see slide 144
Mast cells follows slide 144
white blood cells
(dark stained nuclei)
red blood cells
adipose cells
50 µm

11. SLIDE 118 Areolar connective tissue
Try to identify the following cell types:
Fibroblasts
Fibrocytes
25 µm

12. SLIDE 118 Areolar connective tissue
Try to identify the following cell types:
Fibroblasts : usually spindle shaped cells, the most representative cell type in
Fibrocytes : connective tissue. Inactive fibroblasts termed fibrocytes.
fibroblasts
25 µm

13. SLIDE 118 Areolar connective tissue
Try to identify the following cell types:
Fibroblasts : usually spindle shaped cells, the most representative cell type in
Fibrocytes : connective tissue. Inactive fibroblasts termed fibrocytes.
fibrocytes
fibroblasts
25 µm

14. SLIDE 144 Macrophages in spleen (mouse)
The tissue on this slide has been injected with carbon particles to label macrophages. You should only observe the macrophages in this section and do not worry about other structures at this stage.
Canine Abdomen D S L Sp
D : Diaphragm
L : Liver
S : Stomach
Sp : Spleen
25 µm

15. SLIDE 144 Macrophages in spleen (mouse)
The tissue on this slide has been injected with carbon particles to label macrophages. You should only observe the macrophages in this section and do not worry about other structures at this stage.
Why do these black macrophages show such variability in cell shape and size?
macrophages
25 µm

16. SLIDE 144 Macrophages in spleen (mouse)
The tissue on this slide has been injected with carbon particles to label macrophages. You should only observe the macrophages in this section and do not worry about other structures at this stage.
Why do these black macrophages show such variability in cell shape and size?
When actively phagocytic, these cells increase in size, their pseudopodia giving them
an irregular shape.
macrophages
25 µm

17. DEMONSTRATION SLIDE for Mast cells
In this slide mast cells are stained with toluidine blue.
The cytoplasm of mast cells is granular, but does not stain in normal H&E sections.
The granules will stain metachromatically with stains such as toluidine blue used here.
25 µm

18. SLIDE 58 Stained spread preparation
This slide is not sectioned material, but is a thin spread of tissue stained on the slide.
What sort of connective tissue is it?
0.5 mm

19. SLIDE 58 Stained spread preparation
This slide is not sectioned material, but is a thin spread of tissue stained on the slide.
What sort of connective tissue is it?
Loose connective tissue also called areolar tissue.
0.5 mm

20. SLIDE 58 Stained spread preparation
Areolar connective tissue.
You should see two types of protein fibres in this preparation.
Which one of these is thinner and branched compared with lighter staining thicker wavy fibres?
100 µm

21. SLIDE 58 Stained spread preparation
Areolar connective tissue.
You should see two types of protein fibres in this preparation.
Which one of these is thinner and branched compared with lighter staining thicker wavy fibres?
Thinner branching elastic fibres and lightly staining wavy collagen fibres.
E : elastic fibres C E
C : collagen fibres
capillary
100 µm

22. SLIDE 58 Stained spread preparation
Areolar connective tissue.
What holds these protein fibres and cells together in this preparation?
50 µm

23. SLIDE 58 Stained spread preparation
Areolar connective tissue.
What holds these protein fibres and cells together in this preparation?
Ground substance, an amorphous gel filling the spaces between cells, fibres and vessels mainly glycoproteins and proteoglycans. A A
capillary
A : adipocytes A
50 µm

24. SLIDE 58 Stained spread preparation
Areolar connective tissue.
How did you distinguish the blood capillaries from the protein fibres?
25 µm

25. SLIDE 58 Stained spread preparation
Areolar connective tissue.
How did you distinguish the blood capillaries from the protein fibres?
The capillaries are cellular, the endothelial cells forming the walls are visible as are often the circulating red and white blood cells. C C
C : capillaries F
adipocytes
F : fibroblasts C
25 µm

26. SLIDE 58 Stained spread preparation
Areolar connective tissue.
How did you distinguish the blood capillaries from the protein fibres?
The capillaries are cellular, the endothelial cells forming the walls are visible as are often the circulating red and white blood cells.
The protein fibres are generally thinner and acellular. C C
C : capillaries F
adipocytes
F : fibroblasts C
25 µm

27. SLIDE 116 Subcutaneous tissue (subcutis)
What sort of connective tissue is it?
1.0 mm

28. SLIDE 116 Subcutaneous tissue (subcutis)
What sort of connective tissue is it?
Subcutaneous connective tissue is another example of loose connective tissue.
This section also contains large clusters of purple staining lymphoid tissue.
areas of adipocytes
lymphoid tissue
1.0 mm

29. SLIDE 116 Subcutaneous tissue
Section showing a large cluster of purple staining lymphoid tissue.
protein fibres and cells
adipocytes
lymphoid
tissue
250 µm

30. SLIDE 116 Subcutaneous tissue
There is an abundance of protein fibres staining deep blue in this section.
What sort of protein fibre is it and how is it arranged?
25 µm

31. SLIDE 116 Subcutaneous tissue
There is an abundance of protein fibres staining deep blue in this section.
What sort of protein fibre is it and how is it arranged?
Bundles of type 1 collagen fibres running in many directions.
What are the red cells?
transverse bundles
of collagen
longitudinal bundles
of collagen
25 µm

32. SLIDE 116 Subcutaneous tissue
There is an abundance of protein fibres staining deep blue in this section.
What sort of protein fibre is it and how is it arranged?
Bundles of type 1 collagen fibres running in many directions.
What are the red cells?
Mostly fibroblasts but also macrophages and mast cells have stained purple/red.
transverse bundles
of collagen
red/purple staining cells
longitudinal bundles
of collagen
25 µm

33. SLIDE 121 Tendon (Dense regular connective tissue)
This section contains both the muscle and the tendon.
What colour are the muscle cells?
Equine Hindlimb
La : Lateral Digital Extensor Muscle Belly & Tendon
Lo : Long Digital Extensor Muscle Belly & Tendon
1.0 mm

34. SLIDE 121 Tendon (Dense regular connective tissue)
This section contains both the muscle and the tendon.
What colour are the muscle cells?
Deep pink.
tendon
muscle
1.0 mm

35. SLIDE 121 Tendon (Dense regular connective tissue)
What is the most abundant constituent of the tendon?
50 µm

36. SLIDE 121 Tendon (Dense regular connective tissue)
What is the most abundant constituent of the tendon?
Mainly thick collagenous fibres, collagen type 1.
What is the orientation of protein fibres in the tendon?
collagen bundles
fibroblasts or
tenocytes
50 µm

37. SLIDE 121 Tendon (Dense regular connective tissue)
What is the most abundant constituent of the tendon?
Mainly thick collagenous fibres, collagen type 1.
What is the orientation of protein fibres in the tendon?
Parallel bundles of closely packed collagen fibres.
collagen bundles
fibroblasts or
tenocytes
50 µm

38. SLIDE 121 Tendon (Dense regular connective tissue)
A higher magnification view showing the deep pink staining striated muscle with tendon cells insinuated between the bundles of protein fibres.
collagen
tendon cells
fibroblasts
muscle
25 µm

39. SLIDE 78 Dermis of skin (Dense irregular connective tissue)
Why is this connective tissue described as irregular?
1.0 mm

40. SLIDE 78 Dermis of skin (Dense irregular connective tissue)
Why is this connective tissue described as irregular?
It consists of bundles of fibres running in a random orientation.
epidermis
dermis : area of dense
irregular connective tissue
hypodermis :
subcutaneous
1.0 mm

41. SLIDE 78 Dermis of skin (Dense irregular connective tissue)
What are the pale pink stained dense interwoven bundles of protein fibres composed of?
100 µm

42. SLIDE 78 Dermis of skin (Dense irregular connective tissue)
What are the pale pink stained dense interwoven bundles of protein fibres composed of?
Mostly collagen type 1.
collagen bundles
in the dermis
100 µm

43. SLIDE 78 Dermis of skin (Dense irregular connective tissue)
What is the purple staining major cell type found beneath the surface epidermis?
50 µm

44. SLIDE 78 Dermis of skin (Dense irregular connective tissue)
What is the purple staining major cell type found beneath the surface epidermis?
Fibroblasts are the predominant cell type present.
fibroblasts
collagen
50 µm

45. SLIDE 122 Ligamentum Nuchae (Elastic connective tissue)
Most of the protein fibres have stained yellow in this section.
Nuchal Ligament Preparation
100 µm

46. SLIDE 122 Ligamentum Nuchae (Elastic connective tissue)
What are these protein fibres composed of?
50 µm

47. SLIDE 122 Ligamentum Nuchae (Elastic connective tissue)
What are these protein fibres composed of?
Elastin.
Also note the presence of fibroblasts that have stained black.
fibroblasts
50 µm

48. SLIDE 118 Adipose unilocular (white)
Look for the cytoplasm and the nucleus.
Where is the nucleus situated in these cells?
Canine Abdomen
Spleen retracted to expose gastrosplenic ligament (G)
containing much adipose tissue.
50 µm

49. SLIDE 118 Adipose unilocular (white)
Look for the cytoplasm and the nucleus.
Where is the nucleus situated in these cells?
Flattened nucleus at the side of the cell.
What is the major component of these cells?
Look for the cytoplasm and the nucleus.
Where is the nucleus situated in these cells?
nuclei of adipocytes
50 µm

50. SLIDE 118 Adipose unilocular (white)
Look for the cytoplasm and the nucleus.
Where is the nucleus situated in these cells?
Flattened nucleus at the side of the cell.
What is the major component of these cells?
Lipid.
Why do they appear empty in this section? L
nuclei of adipocytes L L
L : site of lipid droplets
50 µm

51. SLIDE 118 Adipose unilocular (white)
Look for the cytoplasm and the nucleus.
Where is the nucleus situated in these cells?
Flattened nucleus at the side of the cell.
What is the major component of these cells?
Lipid.
Why do they appear empty in this section?
Lipids require special fixatives (such as osmium). In most preparations lipid is lost
during processing. L
nuclei of adipocytes L L
L : site of lipid droplets
50 µm

52. SLIDE 86 Adipose multilocular (brown)
Why is this tissue called multilocular?
Whole slide
1.0 cm
250 µm

53. SLIDE 86 Adipose multilocular (brown)
Why is this tissue called multilocular?
Cells contain multiple lipid droplets.
Whole slide
1.0 cm
250 µm

54. SLIDE 86 Adipose multilocular (brown)
Are all the adipocytes multilocular in this preparation or do you find any interspersed unilocular adipocytes as well?
50 µm

55. SLIDE 86 Adipose multilocular (brown)
Are all the adipocytes multilocular in this preparation or do you find any interspersed unilocular adipocytes as well?
Most appear to be multilocular, possibly some unilocular could be present.
lipid droplets
variable in size
50 µm

56. SLIDE 21 Reticular fibres in liver
Liver lobules at low magnification.
Canine Liver
Diaphragmatic surface
G – Gall Bladder
250 µm

57. SLIDE 21 Reticular fibres in liver
Reticular fibres are only visible with special staining techniques.
In this example a silver stain has been used.
100 µm

58. SLIDE 21 Reticular fibres in liver
Note the loose interwoven network created by the reticular fibres that are stained black.
What is this protein fibre composed of?
50 µm

59. SLIDE 21 Reticular fibres in liver
Note the loose interwoven network created by the reticular fibres that are stained black.
What is this protein fibre composed of?
Collagen type III.
50 µm

60. SLIDE 21 Reticular fibres in liver
Note the loose interwoven network created by the reticular fibres that are stained black.
Why is this protein fibre most appropriate in these tissues?
25 µm

61. SLIDE 21 Reticular fibres in liver
Note the loose interwoven network created by the reticular fibres that are stained black.
Why is this protein fibre most appropriate in these tissues?
Reticular fibres support tissues and organs, protecting cells and structures subjected to volume changes.
hepatocytes
reticular fibres
sinusoids
25 µm

62. SLIDE 125 Reticular fibres in lymph node
Dog Head
The larger of the two sections on this slide.
Under very low magnification. M
M- Mandibular Lymph Node
2.5 mm

63. SLIDE 125 Reticular fibres in lymph node
Under low magnification.
1.0 mm

64. SLIDE 125 Reticular fibres in lymph node
Note the loose interwoven network created by the reticular fibres that are stained black.
What is it composed of?
50 µm

65. SLIDE 125 Reticular fibres in lymph node
Note the loose interwoven network created by the reticular fibres that are stained black.
What is it composed of?
Collagen type III.
reticular fibres
50 µm

66. Lecturer. Dr Tej Dhoot.
First Year Histology Connective Tissue. J.Bredl
Gross Anatomy Correlates. Dr S.Frean
Histology Slides and Stains. Tanya Hopcroft.
modified , 2003/4/5.
Compressed version , 2007.