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1
Q

Which cells do not divide regularly, but can be stimulated to divide (can enter cell cycle if needed) and are located in parenchymal (solid) organs such as the liver and kidneys.

A

Quiescent Cells/Stable Cells

2
Q

What are the 4 most important cells involved in wound healing?

A
  • Leukocytes
  • Macrophages
  • Connective Tissue Cells
  • Epithelial cells

(PMN’s play a brief scavenging role, then macrophages stay)

3
Q

Which 3 cells participate in wound healing?

A
  1. Myofibroblasts
  2. Angioblasts
  3. Fibroblasts
4
Q

Which cell in wound healing?

  • Hybrid properties of both smooth muscle cells and Fibroblasts
  • They contract within first few days of healing (reducing defect)
  • Holds margins of tissue in close approximation
A

Myofibrobasts

5
Q

Which cell in wound healing?

  • Precursors of blood vessels that proliferate like sprouts from several small blood vessels at margins of wound
  • Appear 2 - 3 days after incision
  • By 5th - 6th day newy formed blood vessels are all over the field (allows for influx of blood w/ O2 and nutrients)
A

Angioblasts

6
Q

Which cell in wound healing?

  • Produce most of the extracellular matrix:
    • Fibronectin- tensile strength to connective tissue matrix and glues other substances and cells together
    • Collagen- wound initially w/ type 3 collagen (immature/young) laid by fibroblasts
A

Fibroblasts

7
Q
  • Necrotic tissue attracts Calcium Salts and frequently undergoes calcification
  • Macroscopic deposition of calcium in injured/dead tissues
  • Visible to naked eye
  • Gritty/sand-like grains to firm, rock hard material
A

Dystrophic Calcification

8
Q
  • Calcifications in atherosclerotic coronary arteries (contributes to narrowing of vessels)
  • Calcifications of mitral or aortic valves (leads to impeded blood flow/stenosis)
  • **Calcifications seen around breast cancers, visualized on mammography**
  • Infant periventricular calcifications seen in congenital Toxoplasmosis
A

Examples of Dystrophic Calcifications

9
Q
  • Deranged Calcium Metabolism (NOT CELL INJURY)
  • Associated w/ increased serum calcium levels (leads to deposition of calcium in other locations)
A

Metastatic Calcifications

10
Q
  • Hyperparathyroidism
  • Vitamin D toxicity
  • Chronic Renal Failure
  • Formation of Calcium stones in gallbladder, kidney, and bladder are due to precipitation of salts from solution into tissues
A

Examples of Metastatic Calcifications

11
Q
  • Dead tissue is due to what?
A
  • Infarction
12
Q

Hypoxic tissue is due to what?

A

Ischemia

13
Q

What predisposes a patient to events of thrombosis and emboli?

A

Atherosclerosis

14
Q

Result in localized ischemia and subsequent cerebral infarction

A

Both thrombosis and embolic events

15
Q

Cerebral infarcts are designated as which 2 things?

A
  • Hemorrhagic
  • Bland/White
16
Q

Cerebral infarcts caused by what are sites of hemorrhage?

A

Embolization

17
Q

Cerebral infarcts caused by what are largely ischemic and therefore bland/white/anemic?

A

Thrombotic occlusion

18
Q

Occludes vascular flow abruptly, after which the ischemic region undergoes necrosis

A

Embolus

19
Q

Progresses more slowly, guards against secondary hemorrhage.

A

Thrombosis

20
Q

What are the 2 “pathological cerebral infarcts?”

Which one has astrogliosis?

A
  • Remote Cerebral Infarct
  • Old Cystic Infarct (astrogliosis)
21
Q
  • Where is the most common location of a hypertensive intracerebral hemorrhage?
  • Which percent occur here?
A
  • Basal Ganglia - Thalamus
  • 75% occur here
22
Q

A freely movable, intravascular mass that is carried from one anatomic site to another by the blood.

A

Embolism

(most common form is thromboemboli)

23
Q

The transformation of the fluid blood into a solid aggregate encompassing blood cells and fibrin.

A

Thrombus

24
Q

2 examples of “infarcts”

A

Red and White Infarcts

25
Q

Which infarct (red or white) typical of arterial occlusion in solid organs (heart, kidneys, etc).??

A

White Infarcts

26
Q

Which infarct (red or white) is typical of venous obstruction involving the intestines (volvulus) or testes (torsion)

A

Red Infarcts

27
Q
  • Caused by arterial defects that originate during embryonic development when the bifurcation of an artery in the Circle of Willis creates a “Y” shaped configuration
A

Berry Aneurysm

28
Q

When the artery from Circle of Willis bifurcates during embryonic development, the circumferential muscluar layer of the parent vessel may fail to interdigitate the 2 branches, what does this create?

A

(berry aneurysm)

  • This creates a point of congenital muscular weakness
  • Bridged only by:
    • endothelium
    • Internal elastic lamina
    • slender adventitia
29
Q

What % of berry aneurysms occur at branch points in Circle of Willis?

A

Over 90%

30
Q

If a Berry Aneurysm ruptures, where does the blood go?

A

Subarachnoid space (between arachnoid membrane and pia mater), would result in “subarachnoid hemorrhage”

31
Q

W/ a berry aneurysm, bloodstream from the parent vessel exerts pressure on “crotch of Y” which results in what over time?

A

The endothelium and internal elastic membrane degenerates and fragments

32
Q

As the endothelium and internal elastic membrane degenerate/fragment, what evolves?

A

A saccular aneurysm w/ walls formed only by adventitia

33
Q

Undetected berry aneurysms are found in what % of people older than 55 yrs old?

A

25%

34
Q

What is the % mortality of an initial subarachnoid hemorrhage from a ruptured berry aneurysm?

A

35 - 50%

35
Q

In 1/3 of patients w/ a ruptured berry, the rupture causes either of which 2 things?

A
  • intracerebral hemorrhage
  • intraventricular hemorrhage
36
Q

What do large berry aneurysms of the internal carotid complex cause?

A
  • Palsies of 3rd, 4th, 6th cranial nerves
  • Seizures due to compression of medial aspect of temporal lobe
37
Q

If you see a metal clip on an x-ray, what does this mean?

A

Clipping of a Berry Aneurysm

38
Q

What are the sxs of a subarachnoid hemorrhage from a ruptured berry?

A

Sudden severe HA, may be followed by a coma

39
Q

Patients w/ SAH from ruptured berry surviving how many days will start to manifest progressive decline in consciousness due to arterial spasm/consequent cerebral ischemia/infaction/stroke?

A

3 - 4 days

40
Q

If a person survives a ruptured berry, what is the risk?

A

Rebleed (worse prognosis)

41
Q
  • E. coli
  • Group B Strep
A

2 bacterias which cause meningitis in Neonates

42
Q

H. influenza

A

Bacterial meningitis in infants (3mo - 3yrs)

43
Q

Strept. pneumococcus

A

Bacterial meningitis in adults

44
Q

N. meningitidis

A

Bacterial meningitis in crowded conditions (dormitories, military barracks)