1. Holding it all together!
Connective Tissue
Holding it all together!

2. Connective tissue is found everywhere!
Main classes/types:
1. Connective tissue proper
2. Cartilage
3. Bone
4. Blood

3. Properties 1. common origin Mesenchyme 2. degrees of vascularity
3. great degree of “non-living” extracellular matrix

4. Connective Tissue Binds structures Provides support and protection
Serve as frameworks, fill spaces, store fat, produce blood cells, protect against infection, repair damaged tissue
Abundance of matrix btw cells
Blood supply varies.

5. Structural elements: Ground substance (matrix) Fibers Cells
Wide range of varying tissue!
Different structuresdifferent functions!

6. Ground Substance Unstructured material Fills spaces/contains fibers
Composed of:
interstitial fluid
cell adhesion proteins glue like function
Proteoglycansprotein core (point of attachment) “GAGs” (interlock trapping water)

7. Major Cell Types: Blasts vs. Cytes
1. Blast Cells
Fibroblasts- large star shaped cells that produce fibers by secreting proteins into the matrix of CT tissue.
Chondroblast – build cartilage tissue
Osteoblast – build osseous (bone tissue)
Blasts build!!!!!

8. More Cells Fat Cells/Adipocytes – store energy/nutrients
White Blood Cells – respond to injury and infection to protect and heal the tissue
Mast Cells – stick around blood vessels, detect foreign microorganisms and start the inflammatory response against them.
Macrophages – “big eaters” phagocytize lots of foreign material, from bacteria, to old cells, proteins, and dust.

9. Fibroblast—laying matrix

13. CONNECTIVE TISSUE-FIBER TYPES
A. Collagenous fibers- Thick threads of protein (collagen)
Grouped in long parallel bundles, they are flexible, but only slightly elastic.
Great tensile strength (ligaments and tendons)

14. B. Elastic fibers-
Composed of protein elastin
These fibers branch, forming complex networks.
(weaker than collagenous fiber, however they stretch and can return back to there shape.)

15. Elastic Fibers

16. C. Reticular Fibers
Very thin collagenous fibers
Highly branched, form supporting networks
(LIKE A NET)

17. Reticular Fibers

18. When it comes to CT you can have a variety of types….
Loose CT
Areolar tissue
Reticular tissue
Adipose tissue
Dense CT  regular and irregular
Cartilage types: Hyaline, Elastic, Fibrocartilage

19. I. Loose Connective Tissue
Forms delicate thin membranes throughout the body
Main cellFibroblasts separated by a gel-like matrix
Binds skin to underlying organs and fills spaces between muscles
Lies beneath epithelium

20. 1. Areolar = “packaging material of the body” Prototype for CT Having all types of fibers, cells, etc.
Function
1. support and binds other tissue
2. holds body fluids; job of matrix/ground substance
3. Defend against infection
4. storing nutrients as fat

23. 2 Loose Connective: Reticular
Has a network of reticular fibers.
Typically loose ground substance
Function is to typically support other cell types such as white blood cells and mast cells.
Thus it is found in lymphoid organs, such as lymph nodes, bone marrow, and spleen.

24. 3 Adipose Tissue (considered loose connective)
FATspecialized form of CT, develop when certain cells store fat in droplets within their cytoplasm.
Beneath the skin, stored in many other locations as well.
Cushions, insulates, stores energy.

26. 4 and 5 Dense Connective Tissueregular or irregular
Closely packed, thick, collagenous fibers and a close network of elastic fibers. Relatively few cellsmost of which are fibroblasts. Poorly vascularized
4. Regular = Parallel Organized fibers Tendons and ligaments. Note some ligaments have more elastic fibers in them and in fact these tissue are sometimes called elastic connective tissue.
5. Irregular = Dermis of skin and Fibrous Coverings around some organs
VERY STRONG TISSUE

29. Cartilage
Rigid CTprovides support, frameworks, and attachments, protects underlying tissue and forms structural models for developing bone.
Cartilage matrixabundant, largely composed of colagenous fibers embedded in a gel-like ground substance . A large percentage of water up to 80%. Lots of GAGs (proteoglycans)
Avascular, receives nourishment from membranes surrounding it. (Perichondrium)

30. Cartilagea special case
SPECIAL CARTILAGE CELLS
CHONDROBLASTS, form developing/growing cartilage
CHONDROCYTES, occupy small chambers called lacunae

31. Cartilage structures are enclosed in a covering of CTperichondrium (contains the blood vessels that deliver nutrients)
THE INTERCELLULAR MATRIX DISTINGUISHES THE TYPE OF CARTILAGE! 

32. 6 Hyaline Cartilage *most common type *very fine collagenous fibers
(looks like white glass)
Location: end of bones, joints, soft part of nose, trachea

33. 7 Elastic Cartilage Dense network of elastic fibers
Much more flexible than hyaline cartilage
Location: framework of ear, parts of larynx

34. 8 Fibrocartilage Tough tissue, contains many collagenous fibers
-shock absorber for structures subjected to pressure.
Location: vertebrae (discs), knees, pelvic girdle.