study guide circulatory pathology

Question 1

What is the difference between exudates and transudates and which of those cause non-pitting edema?

Answer 1

exudate:Edema fluid with high protein content and
cells
• Specific gravity >1.020

transudate: Edema fluid with low protein content
• Specific gravity <1.020

Protein-rich fluid produces non-pitting edema! EXUDATE

Question 2

What is the “newspaper test”?

Answer 2

holding newspaper up behind tube of fluid.If cloudy and cant read print, then HIGH PROTEIN–> exudate

Question 3

28. Normally, people do not develop edema because the ________ pressure, and the _______ pressure balance one another out.

Answer 3

hydrostatic (out) and oncotic (in)

Question 4

29. How does Hypoalbuminemia cause edema?

Answer 4

decreased colloid osmotic pressure pushing into capillaries causes imbalance in hydrostatic vs. oncotic and fluid leaks OUT

Question 5

In what types of diseases does a person develop Hypoalbuminemia?

Answer 5

• Liver disease
• Nephrotic syndrome
• Protein deficiency (e.g.,
Kwashiorkor)

Question 6

30. What is myxedema?

Answer 6

Specialized form of tissue swelling due to increased extracellular glycosaminoglycans
• Pretibial myxedema and
exophthalmos (Graves disease)
HYPOTHYROID

Question 7

Where do effusions collect and why? (hint: potential spaces in the body)
32.

Answer 7

Fluid within the body cavities.
Serous – thin fluid derived from either serum or secretions of mesothelial cells (effusion). i.e. COLLAPSED LUNG
infarctions due to PE–> effusion in lungs

Question 8

What is the major cause of ascites, and why does this fluid typically only collect in the abdomen?
33.

Answer 8

Inreased blood volume leads to ascites. In ABDOMEN
Increased blood volume from:
-Portal HTN (major)--chirrohsis
-heart failure
-renal Na retention/ nephrotic sundrome
-kwashiorkor
-peripheral artery vasodilation
Stays in abdomen because of peritoneum/walled off from other cavities.

Question 9

What is the difference between hyperemia and congestion?

34.

Answer 9

• hyperemia (active hyperemia)=active inc. in volume of blood/tissue, vasodilation. blushing, inflammation…
• congestion (passive hyperemia) =passive increase in volume, accompanied by edema. impaired venous flow. ALWAYS PATHOLOGICAL

Question 10

Be able to describe the steps of platelet adhesion and the glycoproteins involved in each

Answer 10

1. First, vWF adheres to subendothelial collagen

2. Platelets then adhere to vWF by glycoprotein IB

Question 11

35. Be able to identify the disease associated with the deficiency of each glycoprotein, and describe which medication inhibits thromboxane production.
    36.

Answer 11

medication that inhibits thromboxane: ASPIRIN
-Irreversibly acetylates cyclooxygenase, preventing
platelet production of thromboxane A2

Deficiency of platelet Gp Ib: BERNARD SOULIER SYNDROME.
-defective adhesion
Deficiency of Gp IIb-IIIa: GLANZMANN THROMBASTHENIA
-defective aggregation
deficiency of VWF: VON WILLEBRANDS disease

Question 12

List the major features of ITP

Answer 12

Immune Thrombocytopenia Purpura
-Autoimmune mediated attack (typically IgG antiplatelet
antibodies) against platelets leading to decreased platelets
(thrombocytopenia)
-Antiplatelet antibodies against platelet antigens such as Gp IIb-IIIaand Gp Ib-IX (type II hypersensitivity reaction)

-Results in petechiae, purpura (bruises), and a bleeding
diathesis (e.g. hematomas)
-platelets destroyed in spleen

Question 13

List the pentad of characteristic signs of TTP

Answer 13

Thrombotic Thrombocytopenic Purpura
1. Fever
2. Thrombocytopenia
3. Microangiopathic hemolytic anemia (intravascular hemolysis)
4. Neurologic symptoms
5. Renal failure
***Most often affects adult women
caused by: deficiency of ADAMTS13–> cleaving large
multimers of von Willebrand factor–>fibrin-platelet thrombi

Question 14

List the major features of hemolytic uremic syndrome, and what illness it typically follows?

Answer 14

Follows a gastroenteritis with bloody diarrhea

1. thrombotic microangiopathy due to endothelial cell damage
2. thrombotic microangiopathy due to endothelial cell damage
3. children
   * *similar pentad to TTP (fever, thrombocytopenia, hemolutic anemia, neuro symtpms, RENAL FAILURE)

Question 15

39. How are the extrinsic and intrinsic pathways activated (i.e. what factor initiates each)?

Answer 15

EXTRINSIC (PT): tissue factor (trauma)
INTRINSIC (PTT): activated by contact factors. damaged surface
• Contact with subendothelial collagen
• High molecular weight kininogen (HMWK)

Question 16

40. What tests are used to monitor the extrinisic and intrinsic pathways?

Answer 16

Prothrombin time (PT)
• Tests the EXTRINSIC and common coagulation pathways
• Tests factors VII, X, V, prothrombin, fibrinogen
• International normalized ratio standardizes
the PT test

Partial thromboplastin time (PTT)
• Tests the INTRINSIC and common coagulation pathways
• Tests factors XII, XI, IX, VIII, X, V, prothrombin, fibrinogen

Thrombin time (TT): tests for adequate FIBRINOGEN LEVELS

Fibrin degradation products (FDP): tests the 
FIBRINOLYTIC system (increased with DIC)

Question 17

41. What test is used to determine if platelets are functioning correctly?

Answer 17

• Platelet count (normal: 150,000 to 400,000)
• Platelet aggregometry
• Bleeding time

Question 18

42. List the major features of DIC?

Answer 18

• Platelet count is decreased
• Prolonged PT/PTT
• Decreased fibrinogen
• Elevated fibrin split products (D-dimers)
• Treatment: treat the underlying disorder
microthrombi–>hemorraghes

Question 19

43. What factors are missing in hemophilia A and B? Do these diseases produce petechiae or ecchymoses?

Answer 19

Hemophilia A (classic):  8
• Deficiency of factor VIII
• X-linked recessive
• No petechiae or ecchymoses
• Normal PT and PROLONGED PTT
• normal platelet count and bleeding time

Hemophilia B (Christmas Disease): 9
• Deficiency of factor IX
• X-linked recessive
• Clinically identical to hemophilia A

Question 20

44. What are the vitamin K dependent clotting factors?

Answer 20

if Vit. K is deficinent--> Decreased synthesis of factors
 II, (2)
VII, (7)
IX, (9)
X, (10)
and protein C & S

Question 21

45. Describe the major features of Von Willebrand disease.

Answer 21

LAB:
• Normal platelet count and a prolonged bleeding time
• Normal PT with often a prolonged PTT
• Abnormal platelet response to ristocetin (adhesion defect)
CLINICAL:
• Spontaneous bleeding from mucous membranes
• Prolonged bleeding from wounds
• Menorrhagia in young females
• Hemarthrosis is uncommon

Question 22

46. What is Virchow’s triad, and what are examples of the diseases/conditions contributing to stasis, vascular injury, and hypercoagulability?

Answer 22

Factors involved in thrombus formation (Virchow’s Triad)

1. Endothelial injury
2. Atherosclerosis
3. Vasculitis

Question 23

47. What is the difference between an embolism and a thrombus?

Answer 23

THROMBUS: fibrin platelet clot. STATIONARY
EMBOLUS: moving thrombus.
carried down the bloodstream from its site of origin resulting in the occlusion of a vessel
multiple types

Question 24

48. Know the features of pulmonary emboli?

Answer 24

patient ICU, bedridden, post-op gets out of bed and BOOM

1. often clinically silent and often missed
2. most from DVT (pelvic plexus, right side of heart)
3. can cause sudden death

Question 25

49. What is the most common potential outcome of PE?

Answer 25

No sequelae (75%)
• Asymptomatic or transient dyspnea/tachypnea
• No infarction (dual blood supply)
• Complete resolution
Infarctions (15%)

Question 26

50. What is a paradoxical emboli?

Answer 26

• Any venous embolus that gains access to the systemic circulation by crossing over from the right to the left side of the heart through a SEPTAL DEFECT

Question 27

51. Where do anemic and hemorrhagic infarcts occur, and how do they differ on gross pathology?

Answer 27

Anemic infarcts (pale or white color)
• Occur in solid organs with a single blood supply (spleen,
kidney, heart)
Hemorrhagic infarcts (red color)
• Occur in organs with a dual blood supply or collateral
circulation (lung and intestines)
• Also occur with venous occlusion (e.g., testicular torsion)
reperfused someties
Often has a wedge shape
• Apex of the wedge tends to point to the occlusion

Question 28

52. What are the 4 major causes of shock?

Answer 28

1. Cardiogenic (pump failure)
2. Hypovolemic shock (reduced blood
   volume)
   3.Septic shock (bacterial infection)
3. Neurogenic shock (generalized vasodilation)

Question 29

53. How is hypovolemic shock classified (i.e. classes I-IV)?

Answer 29

1. (loss of 0-15%)
   - no sig. change in vitals
2. (loss 0f 15-30%)
   - HR >100 bpm, tachypnea, decr. pulse pressure
3. (loss of 30-40%)
   - tachycardia, decreased systolic, oliguria
4. (loss of >40%)
   - same,almost no urinary output. Life threatening.

Question 30

54. What are the 3 stages of shock?

Answer 30

Stage I: • Compensation, in which perfusion to vital organs is
maintained by reflex mechanisms
-sympathetic tone, catecholamines, renin-angiotensin system
Stage II• Decompensation
acidosis, renal insuffiiency…
Stage III• Irreversible

Question 31

steps of platelet activation

Answer 31

1. Platelets undergo a shape change and degranulation
   occurs
2. Platelet synthesis of thromboxane A2
3. Membrane expression of the phospholipid complex,
   which is an important substrate for the coagulation
   cascade

Question 32

steps of platelet aggregation

Answer 32

1. Additional platelets are recruited from the bloodstream
2. ADP and thromboxane A2 are potent mediators of
   aggregation
3. Platelets bind to each other by binding to fibrinogen
   using Gp IIb-IIIa

Question 33

Chronic and acute ITP

Answer 33

•Acute ITP
• Seen in children following a viral 
infection
• Self-limited disorder
Chronic ITP
• Usually seen in women in their 
childbearing years
• May be the first manifestation of SLE
• Petechiae, ecchymoses, menorrhagia, 
and nosebleeds

Question 34

lab characteristics of ITP

Answer 34

-Decreased platelet count and prolonged bleeding time
• Normal prothrombin time (PT) and partial thromboplastin time (PTT)
• Peripheral blood smear shows thrombocytopenia with enlarged immature platelets (megathrombocytes)
• Bone marrow biopsy shows increased numbers of
megakaryocytes with immature forms

Question 35

pathogenesis of TTP

Answer 35

Widespread formation of platelet thrombi with fibrin
(hyaline thrombi) leading to intravascular hemolysis (thrombotic microangiopathy)

LAB:
• Decreased platelet count and prolonged bleeding time
• Normal PT and PTT
• Peripheral blood smear shows thrombocytopenia and
schistocytes, and reticulocytos

Question 36

tissue changes after infarction

Answer 36

Ischemia –> Coagulative necrosis –>inflammation –>granulation tissue –>fibrous scar