Tissue Repair

Question 1

Proliferation of cells and tissues to replace lost structures

Answer 1

Regeneration

Question 2

Tissue response to injury consisting of regeneration and fibrosis or connective tissue deposition (scar formation)

Answer 2

Repair

Question 3

Extensive deposition of collagen in the setting of chronic inflammation, severe injury, and permanent damage

Answer 3

Fibrosis (scarring)

Question 4

Regenerative capacity:

• continuously lost and replace (proliferating of residual cells or maturation of stem cells)
• exhibited by surface epithelium, hematopoietic stem cells

Answer 4

Labile

Question 5

Regenerative capacity:

• maintained in a state of quiescence (G0 in cell cycle)
• limited capacity to proliferate (except hepatocytes)
• proliferate in response to injury or tissue loss
• exhibited by liver, kidney, pancreas, endothelium, fibroblasts, smooth muscle

Answer 5

Stable

Question 6

Regenerative capacity:

• terminally differentiated (left the cell cycle)
• non-proliferating
• exhibited by neurons, striated muscle

Answer 6

Permanent

Question 7

First step of repair by connective tissue deposition, involving the formation of new blood vessels from existing ones via growth factor VEGF

Answer 7

Angiogenesis

(3 steps of repair by connective tissue deposition

1. Angiogenesis
2. Formation of granulation tissue
3. Remodelling of scar)

Question 8

Second step of repair by connective tissue deposition, involving fibroblasts and loose connective tissue from the extracellular matrix, with continuing angiogenesis and infiltration of infammatory cells (hallmark of repair)

Answer 8

Formation of granulation tissue

(3 steps of repair by connective tissue deposition

1. Angiogenesis
2. Formation of granulation tissue
3. Remodelling of scar)

Question 9

Third and final step of repair by connective tissue deposition, involving the formation of the fibrous scar, balancing ECM degradation by metalloproteinases and ECM protein synthesis by tissue inhibitorso of metalloproteinases (TIMPs)

Answer 9

Remodelling of scar

(3 steps of repair by connective tissue deposition

1. Angiogenesis
2. Formation of granulation tissue
3. Remodelling of scar)

Question 10

The “central cell” in tissue repair, producing PDGF, FGF2, and TGF-b

Answer 10

Macrophage

Question 11

7 factors that impede tissue repair

Answer 11

1. Infections
2. Diabetes mellitus
3. Vitamin C deficiency
4. Glucocorticoids (inhibit TGF-b)
5. Pressue
6. Poor perfusion
7. Foreign bodies

Question 12

Abnormality in tissue repair formed from the inadequacy of granulation tissue formation

Answer 12

Wound dehiscence and ulcer

Question 13

Abnormality in tissue repair formed from the excessive formation of repair components

Answer 13

Keloids and hypertrophic scars

Question 14

Abnormality in tissue repair formed from exuberant granulation tissue

Answer 14

Proud flesh

Question 15

Abnormality in tissue repair formed from excessive wound contraction

Answer 15

Contracture

Question 16

Cell cycle checkpoint for DNA damage

Answer 16

G1/S checkpoint

Question 17

Cell cycle checkpoint for damaged/unduplicated DNA

Answer 17

G2/M checkpoint

Question 18

Collection of molecules secreted by the cellular environment whose main functions are as follows:

• mechanical support
• control of cell proliferation
• scaffolding for tissue renewal/repair
• establishment of tissue microenvironment
• storage and presentation of regulatory molecules
• forms the interstitial matrix and the basement membrane
• made of fibrous structural proteins (collagen, elastin), water-hydrated gels (proteoglycan, hyaluronan), and adhesive glycoproteins (fibronectin, BM laminin, integrin)

Answer 18

Extracellular matrix (ECM)

Question 19

Most abundant protein in the human body that organizes and strengthens the ECM, extensively modified, and the only protein that undergoes FINAL modification in the rough endoplasmic reticulum (not in the Golgi apparatus)

Answer 19

Collagen

Question 20

Collagen type most associated with bone, skin, tendon, dentin, fascia, cornea, and LATE WOUND REPAIR

Answer 20

Collagen type 1

(Mnemonic:
Type 1 - bONE, sk1n, tendONE, dent1n, fasc1a
Type 2 - carTWOlage
Type 3 - reTHREEculin
Type 4 - "under the floor", BM)

Question 21

Collagen type most associated with cartilage (includine hyaline), vitreous body, nucleus pulposus

Answer 21

Collagen type 2

(Mnemonic:
Type 1 - bONE, sk1n, tendONE, dent1n, fasc1a
Type 2 - carTWOlage
Type 3 - reTHREEculin
Type 4 - "under the floor", BM)

Question 22

Collagen type most associated with reticulin, blood vessels, uterus, fetal tissue, GRANULATION

Answer 22

Collagen type 3

(Mnemonic:
Type 1 - bONE, sk1n, tendONE, dent1n, fasc1a
Type 2 - carTWOlage
Type 3 - reTHREEculin
Type 4 - "under the floor", BM)

Question 23

Collagen type most associated with the basement membrane and basal lamina

Answer 23

Collagen type 4

(Mnemonic:
Type 1 - bONE, sk1n, tendONE, dent1n, fasc1a
Type 2 - carTWOlage
Type 3 - reTHREEculin
Type 4 - "under the floor", BM)

Question 24

Healing that involves only the epithelial layer - primary mechanism is EPITHELIAL REGENERATION

Answer 24

Healing by first intention

Question 25

Healing that involves more extensive cell and tissue loss - mechanism is COMBINATION of epithilial regeneration and scarring

Answer 25

Healing by second intention