Module 2-Path Continued

Question 1

What is cholestasis?

Answer 1

Accumulation of bilirubin in bile canaliculi of hepatocytes

Question 2

What are the components of bile?

Answer 2

Bilirubin, bile salts, phospholipids, cholesterol and electrolytes

Question 3

What are some causes of cholestasis?

Answer 3

Obstruction of bile duct 
Cholecystitis 
Bile duct collapse 
Liver Failure 
Gall stones (Cholelithiasis) 
Biliary Atresia

Question 4

When looking at an H and E stain of cholestasis is the bilirubin intracellular or extracellular?

Answer 4

Extracellular because it is not in the hepatocytes but it can become intracellular

Question 5

Cholestasis can be due to obstruction of common bile duct by gallstones, what kind of bilirubin will you find built up in the patient?

Answer 5

Conjugated/direct bilirubin (product of hemoglobin catabolism)
Endogenous pigment found extracellularly
Skin (yellow), gallbladder (Green) and intestine (Brown)

Question 6

How does a patient present with cholestasis usually?

Answer 6

Jaundice (icterus), steatorrhea (pale b/c no stercobilin), dark urine and malabsorption of fat soluble vitamins

Question 7

Malabsorption of fat soluble vitamins, A/D/E/K result in what direct effects?

Answer 7

A –> causes night blindness
D–> causes hypocalcemia/arrhythemias
E –> no antioxidants
K –> causes bleeding

Question 8

What are hemosiderin deposits?

Answer 8

Endogenous pigment from catabolism of hemoglobin
Denatured form of ferritin
Normally stores in RES (Spleen, bone marrow and Kupffer cells of the liver)

Question 9

What is the pathogenesis for hemosiderin deposits?

Answer 9

1. Excessive intracellular iron (Hemosiderosis) due to: excess intestinal iron absorption, hemolysis of RBCs and blood transfusions
2. Hemochromatosis: extreme iron overload

Question 10

Another pathogenesis for hemosiderin deposits is left ventricular hypertrophy, explain this

Answer 10

Aortic Stenosis –>Left Ventricular Hypertrophy –> left heart failure –> blood backs up into alveolar space –> pulmonary edema –> at 2 weeks hemosiderin laden macrophages in alveolar space (heart failure cells) with alveolar fibrosis (due to collagen) if less then 2 weeks(Acute) then transudate and RBCs in alveolar space (Driving force of transudate is hydrostatic pressure)

Question 11

How does one present with these hemosiderin laden macrophages

Answer 11

Dyspnea
Orthopnea b/c fluid in alveolar space when laying down
Paroxysmal nocturnal dyspnea

Question 12

What investigations would you use for hemosiderin deposits?

Answer 12

Stain blue on Prussian Blue and golden-brown on H and E b/c hemosiderin contains iron

Question 13

Most common cause of left heart failure?

Answer 13

right heart failure (distended jug veins, hepatomegaly, ascites, peripheral edema)

Question 14

In regards to hemochromatosis, what are the primary and secondary causes?

Answer 14

Primary: C282Y mutation of HFE gene (regulates iron absorption)
Secondary: Excess intestinal iron absorption, hemolysis of RBCs, or blood transfusions

Question 15

What is the pathogenesis for hemochromatosis?

Answer 15

Excessive absorption of iron – >saturation of iron binding protein –> deposition of hemosiderin in tissue

Question 16

What are the 6 organs that hemochromatosis can affect?

Answer 16

Heart --> heart failure cells 
Liver --> cirrhosis 
Pancreas --> diabetes (bronze) 
Skin --> bronze appearance
Kidney --> kidney failure 
Brain --> anterior pituitary (testical atrophy, adrenal atrophy, thyroid atrophy)

Question 17

What is the etiology of pulmonary antharcosis?

Answer 17

Inhalation of coal dust or carbon particles

and remember because its inhalation its an exogenous pigment) (intracellular

Question 18

What is the pathogenesis for pulmonary antharcosis?

Answer 18

Phagocytized by alveolar macrophages/dust cells (incapable of digesting the pigment) –> travels to regional lymph nodes and accumulates

Question 19

What is the presentation for pulmonary antharcosis?

Answer 19

Asymptomatic/no inflammation

seen in urban dwellers, smokers and coal miners

Question 20

When coal workers develop pneumoconiosis (Black lung) what happens?

Answer 20

carbon mixed with silica

patients would be SOB

Question 21

In regards to Tattoos, is the pigment innert?

Answer 21

Yep which means no inflammation

Question 22

what is the etiology of a tattoo?

Answer 22

Injection of insoluble metallic vegetable pigments into skin

Question 23

What is the pathogenesis for tattoos?

Answer 23

Remember it is exogenous but intracellular
engulfed by dermal macrophage –> unable to digest pigments –> remain in the dermis for life
Note —> Langerhans cells are another name for dermal macrophages

Question 24

When you get a tattoo what is the reason for acute inflammation?

Answer 24

needle causes acute inflammation

Question 25

What viruses can you get from tattoo?

Answer 25

HIV, HEP B and C (Those are the blood borne heps)

Question 26

Melanin is produced and stored where?

Answer 26

Produced –> by melanocytes
Stored -> in organelle (melanosome)
black in color

Question 27

What are some characteristics of melanin?

Answer 27

Acts as a protective barrier from UV light
Freckles: melanin accumulates in basal epithelial cells of skin
Can also accumulate in nevus cells or dermal macrophages (langerhans cells)
Can become tumors of the skin contain melanin (malignant melanoma)

Question 28

Lipofusion is considered what kind of pigment?

Answer 28

Wear and Tear Pigment; hallmark of aging

light-brownish in color

Question 29

Lipofuscin is an insoluble pigment produced due to what?

Answer 29

Free radical damage associated with again

Question 30

Where is lipofusion stored?

Answer 30

In lysosomes; does not interfere with cell function

Question 31

In what organs is lipofusion most visible?

Answer 31

Liver
Cardiac
Brain

Question 32

What are three ways in which tissues can be restored?

Answer 32

1. removal of exudate
2. removal of cellular and tissue debris
3. replacement of cells and lost tissues

Question 33

Replacement of lost cells involves two processes, regeneration and repair, what are some differences between the two?

Answer 33

Regeneration: new cells are identical to the ones they are replacing
Repair: new cells are the same kind or simpler form than those being replaced

Question 34

what are the three 3 groups of regeneration cells?

Answer 34

Labile: follow cell cycle from 1 mitosis to the next ( epithelium, blood cells)
Stable: Low normal levels of replication, but still able to divide in response to stimuli: G0 –> G1 (glands and mesenchymal cells)
Permanent: can NOT divide in postnatal life
(CNS and cardiac muscle)

Question 35

Growth of new cells is best accomplished by what?

Answer 35

Recruitment of stable G0 cells into cell cycle

1. growth/stimulatory factors
2. loss of growth inhibitors normally present (neg feedback)
3. cell -cell or cell-matrix interactions

Question 36

What are some mechanisms involved in repair?

Answer 36

1. Control of cell proliferation
2. Stimulatory hormones and growth factors
3. Inhibitory Factors: Chalones (hormone life mitosis inhibitors -> epidermal, granulocyte and lymphocyte)
4. Cell cell interactions
5. Cell Matrix interactions
6. Fibronectin –> most important glycoprotein in healing

Question 37

What are the three steps involved in repair process?

Answer 37

1. Angiogenesis –> mediated by growth factors VEGF and b-FGF
2. Fibrosis –> proliferation of fibroblasts and deposition of ECM=scar formation
3. Maturation and Organization: scar ECM continues to be modified and remolded (mediated by metalloproteinases and collagenases)

Question 38

What are the steps in repair?

Answer 38

1. Crust –> forms only if blood is available and conditions permit drying
2. Removal of Debris: sloughing and phagocytosis
3. Replacement of lost cells: cell migration and division (fibroblasts migrate after 8 hours, endothelium migrate in arcs after a lag period and epithelium migrates in sheets)

Question 39

What is granulation tissue?

Answer 39

Meshwork of capillaries, fibroblasts, inflammatory cells, ECM
formed during repair, after 3-5 days
acts as a scaffold that scar can form on

Question 40

Does brain tissue form a scar?

Answer 40

Nope just a hole

Question 41

Keloid is a lesion that consists of what?

Answer 41

Irregularly arranged, broad, homogenous, hyalinzed and basophilic collagen fibers
type III collagen

Question 42

What is primary healing ?

Answer 42

edges of wound in apposition, may be the case when it mimics closely restitution ad intergrum
superficial wound w/o bleeding: heal quickly by regeneration of epithelium
deeper cuts with retraction

Question 43

What is secondary healing?

Answer 43

Considerable loss of tissue; edges of wound can not be approximated
Large wound, abscess formation, ulceration
loss tissue is replaced with granulation tissue –> forms a scar

Question 44

What are some factors influencing the rate of healing?

Answer 44

Age, size of wound, secondary infection, dietary status (Vit C, D, protein)

Question 45

What are some local factors modifying the inflammatory response (factors relating to host)?

Answer 45

Adequacy of blood supply: well vascularized tissues are resistant to infections and capable of containing them
Location of injury: densely compact tissues resist spread of infections
Presence of infection
Presence of foreign bodies
Immobilization of wounds

Question 46

what are some systemic factors modifying the inflammatory response (factors relating to host)?

Answer 46

Physiolgoic condition of the host
Immunity
Hormones
Cortisone, hydrocortisone, corticosterone, ACTH: decrease inflammatory response