Fluid, Blood, Coagulation

Question 1

Describe the distribution of body water

Answer 1

60% of TBW = 42 L
60/40/20 (15/5)

40% = intracellular
20% = extracellular
15% = interstitial
5% = plasma

Question 2

What populations tend to have a greater percentage of TBW by weight?

Answer 2

neonates have the most
women, elderly, obese have the least

Question 3

What are the 2 most important determinants of fluid transfer between capillaries and interstitial space?

Answer 3

starling forces
glycocalyx

Question 4

Net filtration pressure

Answer 4

(Pc - Pif) - (iic - iiif)

<0 = reabsorption
> 0 = filtration

Question 5

What is the glycocalyx - what disrupts it?

Answer 5

forms a protective layer on the interior wall of the blood vessel. it has anticoagulant properties. it is the gatekeeper.

DM, sepsis, ischemia, vascular surgery all disrupt it

Question 6

how is lymph returned to the systemic circulation?

Answer 6

via thoracic duct at the juncture of the IJ and subclavian vein

Question 7

what is osmotic pressure and what is its primary determinant

Answer 7

the pressure of a solution against a semipermeable membrane that prevents water from diffusing across that membrane

-it is a function of the number of osmotically active particles in a solution. not a function of their molecular weights!

Question 8

osmolarity vs osmolality

Answer 8

osmolarity = osmoles per liter
osmolality = osmoles per kg

Question 9

reference for plasma osmolarity? and what are the 3 most important contributors

Answer 9

it is 280 - 290 mOsm/L
most important determinatns: sodium, glucose, BUN

Nax2 + Glucose/18 + BUN/2.8

Question 10

NaCl 0.45%

Answer 10

hypotonic @ 154

Question 11

D5W

Answer 11

hypotonic @253

Question 12

NaCl 0.9%

Answer 12

isotonic @ 308

Question 13

LR

Answer 13

isotonic @ 273

Question 14

plasmalyte

Answer 14

294

Question 15

albumin 5%

Answer 15

300

Question 16

nacl 3%

Answer 16

1026

Question 17

d5 nacl 0.9% (0.45%)

Answer 17

560, 405

Question 18

D5 LR

Answer 18

525

Question 19

How do isotonic IV fluids distribute to the patient?

Answer 19

they expand plasma volume and ECF

remain intravascularly (crystalloids) for30 minutes before moving to the ECF

Question 20

what is the fda black box for on synthetic colloids

Answer 20

risk of renal injury

Question 21

coagulopathy risks with colloids

Answer 21

dextran > hetastarch > hextend

dont exceed 20 mL/kg
not a problem with voluven

Question 22

colloid anaphylactic potential

Answer 22

dextran

Question 23

albumin leads to what electrolyte abnormality

Answer 23

hypocalcemia

Question 24

how does hyperkalemia affect the EKG?

Answer 24

5.5 - 6.5 = peaked T wave
6.5 - 7.5 = p wave flattening, PR prolong
7 - 8 = QRS prolonged
> 8.5 = sine wave, VF

Question 25

discuss hypocalcemia s/s

Answer 25

nerve irritability - tetany
change in LOC = sz
long QT

Question 26

hypercalcemia s/s

Answer 26

nausea, abdominal pain
HTN
psychosis, sz
short QT

Question 27

treatment for hypercalcemia

Answer 27

0.9% NaCl
diuretic

Question 28

Hypermagnesemia

Answer 28

DTR loss = 5.8 - 10 mEq/ 7 - 12 mg/dL
Resp. Depression = > 10 or > 12
Cardiac arrest > 10 or > 12

Question 29

What is the treatment for hypermagnesemia

Answer 29

CaCl
Ca gluconate

Question 30

Acidosis

Answer 30

hyperkalemia, increased ICP, increased SNS tone

Question 31

Alkalosis

Answer 31

decreased coronary blood flow, decreased calcium and potassium

Question 32

Anion gap

Answer 32

Na - Cl + HCO3

Normal = 8-12

Accumulation of acid = gap acidosis (>12)
Loss of bicarbonate or ECF dilution = non-gap acidosis

Question 33

Possible causes of anion gap

Answer 33

MUDPILES
M-methanol
U-uremia
D- DKA
p- paraldehyde
I- isoniazid
L- lactate
E- ethanol
S- salicylates

Question 34

Nongap acidosis

Answer 34

HARDUP
H-hypoaldosteronism
A-acetazolamide
R- renal tubular acidosis
D- diaarrhea
U-uretrosigmoid fistula
P-pancreatic fistula

LARGE VOLUME NACL CAN CAUSE THIS TOO

Question 35

Etiology of metabolic alkalosis

Answer 35

-Sodium bicarb administration
-Massive transfusion (liver converts preservatives to HCO3)
-Loss of gastric fluid (NG, vomiting)
-Diuretics
-ECF depletion –> sodium reabsorption –> H+ and K+ excretion to maintain electroneutrality
-Cushings or hyperaldosteronism

Question 36

What is the most common electrolyte d/o found

Answer 36

HYPOKALEMIA

Question 37

Major intracellulaar ions

Answer 37

Potassium, magnesium, and phosphate

Question 38

what are the 4 steps of hemostasis

Answer 38

1. vascular spasm
2. platelet adhesion (primary hemostasis)
3. coagulation and formation of fibrin (secondary hemostasis)
4. fibrinolysis

Question 39

where are platelets formed?

Answer 39

by megakaryocytes in the bone marrow. they are cleared by macrophages in the reticuloendothelial system and the spleen

Question 40

platelet valuess

Answer 40

< 50 k = increased surgical bleeding risk
< 20 k = increased spontaneous bleeding risk

Question 41

what are the 3 steps of plt plug formation?

Answer 41

1. adhesion (d/t collagen exposure, vwf and tf release)
2. activation
3. aggregation

MADE IN 5 MINUTES

Question 42

list the 12 coagulation factors

Answer 42

1 - fibrinogen
2 - prothrombin
3 - tissue factor
4 - calcium
5 - cofactor (labile)
7 - stable factor
8 - cofactor (antihemophilic)
9 - christmas factor
10 - stuart-prower
11 - plasma thromboplastin
12 - hageman’s factor
13 - fibrin stabilizing

Question 43

what activates the extrinsic pathway?

Answer 43

vascular injury (tissue trauma liberates TF from subendothelium)
measured by PT, INR
inhibited by warfarin

Question 44

What activates the intrinsic pathway

Answer 44

blood injury or collagen exposure
PTT, ACT
inhibited by hepaarin

Question 45

what factors are in the extrinsic pathway

Answer 45

3, 7 (EXTRINSIC)
13, 10, 5, 2, 1 (COMMON)
12, 11, 9, 8 (INTRINSIC)

…can be purchased for 37 cents
….. if you can’t buy it from $12, you can buy it for $11.98

Question 46

describe the process of fibrinolysis

Answer 46

since the clot is a temporary fix - we need a process to break down the clot once the body has healed itself.

plasminogen is a proenzyme that is synthesized in the liver. it is incorporated into the clot but it lays dormant until it is activated. plasmin degreades fibrin into FDP

Question 47

what two enzymes are needed for the converison of plasminogen to plasmin

Answer 47

tpa
urokinase

Question 48

what is R time

Answer 48

the time it takes for the clot to start forming

normal = 6 - 8 minutes
measures clotting factors
replace with FFP

Question 49

what is K time

Answer 49

time it takes for the clot to reach a certain strength

normal = 5 - 7 minutes
measures fibrinogen
replace with cryo

Question 50

what is alpha angle

Answer 50

the rate of fibrin deposition. obviously measures fibrinogen then.

normal = 50 - 60 degrees

treat with cryo

Question 51

what is maximum amplitude

Answer 51

the strength of the clot
normal = 50 - 60 mm

if it is low, treat with ddavp or platelets

Question 52

what is A60

Answer 52

height of vertical amplitude 60 minutes after MA

normal = MA5
if it is abnormal, it is due to excess fibrinolysis. treat with txa

Question 53

MOA of heparin

Answer 53

it inhibits the intrinsic and final common pathway.

antithrombin III is a naturally occurring anticoagulant that circulates in the plasma. heparin binds to AT and accelerates its anticoagulant activity 1000x

heparin AT complex neutralizes 9, 10, 11,12

Question 54

what drugs can you give to someone who can’t have heparin but need CPB

Answer 54

bivalirudin - 2 - 3 hours
argatroban - 4 - 6 hours

Question 55

MOA for COXi

Answer 55

prevent platelet aggregation by blocking COX1. this stops conversion of arachidonic acid to PG and ultimately txA2

Question 56

name 2 antifibrinolytics and 4 fibrinolytics

Answer 56

antifibrinolytic - txa, amicar
*block conversion of plasminogen to plasmin, promote clot formation
fibrinolytic - tPa, urokinase, streptokinase, reteplase, alteplase
*facilitate conversion of plasminogen to plasmin. they break DOWN clots!! (MI, stroke)

Question 57

what are the 3 types of vwd

Answer 57

1- mild, moderate reduction
2 - vWF that is produced doesn’t work well
3 - severe reduction in the amount of vwf produced

Question 58

lab values with vwdx

Answer 58

prolonged PTT and bleeding time

Question 59

MOA of desmopressin … dose?

Answer 59

synthetic analogue of ADH. it facilitates the release of vwf and f8
dose = 0.3 mcg/kg
type 1 > type 2
type 3 it doesn’t work at all

causes hotn with administration

Question 60

other than desmopressin .. what are 3 other treatments for vwdx

Answer 60

factor 8
ffp
cryo - 8. 13. fibrinogen. vwf.

Question 61

describe pathophysiology of hemophilia a

Answer 61

x-linked recessive d/o.
factor 8 deficiency

Question 62

lab values associated

Answer 62

PTT prolonged only

Question 63

hemophilia A treatment

Answer 63

factor 8 before surgery and continued for 2 - 6 weeks after
half life = 8 - 12 hours
T&C prior to surgery
antifibrinolytics

Question 64

hemophilia b

Answer 64

factor 9 deficiency
factor 9 is the concentrate to treat it. otherwise, same as hemophilia a.

Question 65

describe the role of rf7 in the management of hemophilia A and B

Answer 65

BYPASSSSSSS factor 8 or 9.
dose = 90 - 120 mcg/kg

SE: thrombosis arterial and venous.

last ditch effort treatment for idiopathic bleeding (20 - 40 mcg/kg) off-label

Question 66

Lab Results for DIC

Answer 66

increased PT, PTT, D-dimer
Decreased plt, fibrinogen

Question 67

Name 3 conditions that are at risk for DIC

Answer 67

sepsis - gram negative
pregnant - pre-e, abruption, AFE
malignancy - adenocarcinoma, leukemia, lymphoma

Question 68

DIC management

Answer 68

coagulopathy - FFP - feed the beast (plt, cryo ok)
severe thrombosis - IV heparin or LMWH
hypovolemia - give fluids

Question 69

HIT vs HIT 2 pathophys.

Answer 69

HIT is heparin induced platelet aggregation after a large dose of heparin

HIT 2 - antiplatelet abs (IGG) attack factor 4 immune complexes –> platelet aggregation. They are resistant to heparin anticoag. occurs after any dose of heparin

Question 70

onset of HIT 1 & 2

Answer 70

1 - 1-4 days
2- 5 - 14 days

Question 71

Plt count of HIT 1 vs 2

Answer 71

1 - <100
2 - < 50

Question 72

treatment for HIT 1 vs 2

Answer 72

no treatment for HIT 1
HIT 2 - d/c heparin. anticoagulate with direct thrombin inhibitor (bivalirudin, hiruidin, argatroban)

Question 73

Protein C/S deficiency

Answer 73

hypercoagulable
*heparin –> warfarin
*may or may not need lifelong anticoagulation

Question 74

factor 5 Leiden

Answer 74

causes a resistance to the anticoagulant effect of protein C
-only pt w/thromboembolism require anticoagulation

Question 75

Pathophys sickle cell

Answer 75

Amino acid substitution (valine for glutamic acid) on beta globulin chain
spleen removes sickled cells at 12 - 17days, compared to 120days

Question 76

Treatment for vaso-occlusive crisis

Answer 76

hydroxyurea
analgesics
hydration

Question 77

discuss blood type, antigens, plasma antibodies

Answer 77

Blood type = specific glycoproteins present on the erythrocyte cell membrane. They have an antigenic potential.

If an antigen is expressed on the erythrocyte, then there will NOT be an antibody against that specific antigen in the plasma

If an antigen is NOT expressed on the erythrocyte, then there will be an antibody against that specific antigen in the plasma

Question 78

Universal donor vs universal acceptor of FFP

Answer 78

Donor = AB +
Acceptor = O -

(opposite of RBC stuff)

Question 79

Type only

Answer 79

tests for ABO and Rh-D antigens.

5 minutes

recipient blood is mixed with anti-A, anti-B, anti-Rh D antibodies. 0.2% chance of incompatibility after this test

Question 80

Type & Screen

Answer 80

Tests for most clinically significant antibodies

45 minutes

recipient blood mixed with COMMERCIALLY prepared O RBCs that contain known antigens. 0.06% incompatibility rxn after this test

Question 81

Type & Crossmatch

Answer 81

tests for compatibility btw recipient plasma and the actual blood unit to be transfused.

45 minutes

simulates transfusion in a test tube. 0.05% chance of incompatibility reaction after this.

specific units are assigned to the patient after this!

Question 82

what are the indications for FFp

Answer 82

PT x 1.5
warfarin reversal
antithrombin deficiency
massive tx
DIC
c1 esterase deficiency

Question 83

cutoff for plt tx

Answer 83

< 100 for eye or neurosurgery
< 50 for neuraxial, invasive procedures, most surgeries

Question 84

what is in cryo

Answer 84

factor 8, 13
vwf
fibrinogen

Question 85

cryo indications

Answer 85

fibrinogen < 80
vwb dx
hemophilia

Question 86

FFP dosing

Answer 86

warfarin reversal 5 - 8 mL/kg

coagulop. = 10 - 20 mL/kg

Question 87

Plt dosing

Answer 87

1 pack per 10 kg body weight

Question 88

cryo dosing

Answer 88

5 bag pool increases fibrinogen by 50 mg/dL

Question 89

What is leukoreduction

Answer 89

Removes WBCs from RBCs and platelets

Leukocytes are responsible for HLA alloimmunization, febrile rxn, CMV tx

Question 90

What is washing and why is it used

Answer 90

removes any remaining plasma and antigens in the donor blood

prevents anaphylaxis in IgA deficient patients

Question 91

What is irradiation

Answer 91

Exposes units to gamma radiation, disrupting WBC DNA, destroying donor leukocytes. This prevents GVHost dx in immunocompromised pt.

leukemia, lymphoma, digeorge pt, stem cell pt

Question 92

Most common infection complication of RBC

Answer 92

CMV
leukoreduction reduces this risk

Question 93

List 4 most common complications of RBC

Answer 93

CMV > Hep B > Hep C > HIV