topic 2

Question 1

Neonatal:

Answer 1

less than 30 days

Question 2

pediatrics

Answer 2

up to 18 yrs

Question 3

Neonates have immature

Answer 3

myocardium

Question 4

Neonates utilize _______ for energy

Answer 4

glucose

Question 5

Immature myocardium prone to

Answer 5

stretch injury

Question 6

Adult circuits tend to be

Answer 6

one size fits all”

Question 7

blood volume for < 10 (kg)

Answer 7

85 cc/kg

Question 8

blood volume for 11-20 kg

Answer 8

80 cc/kg

Question 9

blood volume for 21-30 kg

Answer 9

75 cc/kg

Question 10

blood volume for 31-40 kg

Answer 10

70 cc/kg

Question 11

blood volume for >40 kg

Answer 11

65 cc/kg

Question 12

A 1100 gram child has how much BV

Answer 12

93.5 mL

Question 13

Adult circuit characteristics

Answer 13

3/8” arterial line 3/8”, 1⁄2” venous line Large oxygenators Larger priming volume

Question 14

pediatric circuit cicuits

Answer 14

1/8”, 3/16”, 1⁄4”, 3/8” arterial line 3/16” 1⁄4”, 3/8”, 1⁄2” venous line Small/Med/Large Oxygenators Smaller Priming Volumes

Question 15

Neonatal Pack

Answer 15

3/16” x 1⁄4”

Question 16

infant pack

Answer 16

1⁄4” x 1⁄4”

Question 17

pediatric pack

Answer 17

1⁄4” x 3/8”

Question 18

small adult pack

Answer 18

3/8” x 3/8”

Question 19

adult pack

Answer 19

3/8” x 1⁄2”

Question 20

sequence to determine appropriate pediatric circuit

Answer 20

It is Imperative to ascertain kg weight prior to choosing  1. Determine BSA (kg weight may suffice)  2. Determine maximum flow rate (KG weight based or BSA based)  3.Choose appropriate pump boot  4. Pick arterial cannula  5. Determine arterial line size  6. Pick venous cannula  7. Determine venous line size

*Packs (1/8” x 3/16”, 3/16”x3/16”, 3/16”x1⁄4”, 1⁄4” x 1⁄4”, 1⁄4”x3/8”, 3/8”x3/8”, 3/8”x1⁄2”)
 8. Choose oxygenator  9. Choose arterial filter

Question 21

CPB normothermic flows for 0-3 kg

Answer 21

200 cc/kg

Question 22

CPB normothermic flows for 3-10 kg

Answer 22

150 cc/kg

Question 23

CPB normothermic flows for 10-15 kg

Answer 23

125 cc/kg 1

Question 24

CPB normothermic flows for 15-30 kg

Answer 24

100 cc/kg

Question 25

CPB normothermic flows for >30kg

Answer 25

75cc/kg

Question 26

CPB normothermic flows for >55kg

Answer 26

65cc/kg

Question 27

kg weight x cc/kg/min flow =

Answer 27

max flow 5.3 kg x 150 cc/kg/min = 795 cc/min or 0.795 L/min

Question 28

Normothermic CPB flows :  1. BSA:

Answer 28

1.8 l/m/m2 up to 2.4 l/m/m2  2.4 l/m/m2 X 2.00 m2 BSA = 4.8 L/m

Question 29

Normothermic CPB flows .KG:

Answer 29

50-75 cc/kg/min  75 cc/kg/min x 70 kg = 5.25 L/m

Question 30

SV FOR Rollerpump Callibration Chart: Boot Diameter 3/16

Answer 30

7 CC x 100 rpm =700 ml/monn

Question 31

SV FORRollerpump Callibration Chart: Boot Diameter 1/4

Answer 31

13 CC x 100 rpm = 1300 ml/min

Question 32

SV FOR Rollerpump Callibration Chart: Boot Diameter 3/8

Answer 32

27 CC x 100 rpm = 2700 ml/min

Question 33

SV FOR Rollerpump Callibration Chart: Boot Diameter 1/2

Answer 33

45 CC x 100 rpm =4500 ml/min

Question 34

Do NOT exceed ______ RPM for max tubing flow

Answer 34

100

Question 35

reynolds # equals

Answer 35

(velocity of fluid)(density)(diameter)/viscosity

Question 36

Poiseuille’s law

Answer 36

Flow = (ΔP x πr4)/( Lx V x 8)

Question 37

pediatric arterial cannula selection aim:

Answer 37

Aim: utilize the smallest cannula w/ the highest flow rate
 Do NOT exceed pressure drop > 100 mmHg
 Critical velocity is reached when laminar flow becomes turbulent (Reynolds #)
 Higher pressures = higher sheer stress = hemolysis = bad

Question 38

pediatric venous cannula selection aim:

Answer 38

 Aim: drain the patient with the smallest cannulas
 Be aware if the cannulation is bicaval or single atrial cannula
 Pressure drop is in the -30 to -40 range (pressure-flow curve)
 Vacuum Assist Venous Drainage (VAVD) may help but at a cost (micro-emboli may be associated with VAVD)

Question 39

tubing pack selection for single atrial cannula neonatal

Answer 39

3/16,1/4 <800ml/min

Question 40

tubing pack selection for single atrial cannula infant

Answer 40

1/4,1/4 800-1278 ml/min

Question 41

tubing pack selection for single atrial cannula peds

Answer 41

1/4,3/8 1278-2898 ml/min

Question 42

tubing pack selection for single atrial cannula small adult

Answer 42

3/8,3/8 2898-3500 ml/min

Question 43

tubing pack selection for single atrial cannula adult

Answer 43

3/8,1/2 >3500 ml/min

Question 44

tubing pack selection for bicaval atrial cannula neonatal

Answer 44

3/16,1/4 < 800 ml/min.

Question 45

tubing pack selection for bi caval atrial cannula infant

Answer 45

1/4,1/4 800-1566 ml/min

Question 46

tubing pack selection for bi caval atrial cannula peds

Answer 46

1/4,3/8 1566-3000 ml/min

Question 47

tubing pack selection for bi caval atrial cannula small adult

Answer 47

3/8,3/8 3000-3500 ml/min

Question 48

tubing pack selection for bi caval atrial cannula adult

Answer 48

3/8,1/2 > 3500 ml/min

Question 49

PED ALFs

Answer 49

Terumo AFX02 Medtronic affinity Integral oxygenator filtration

Question 50

the new integral filter oxgenators _______is currently

changing the landscape

Answer 50

(FX 05)

Question 51

Pediatric CannulaSelection: Arterial PROCESS

Answer 51

 Determinemaxflow:  Cannulation may be aortic / femoral / neck  Pressure drop should not exceed 100 mmHg  Anticipate larger flow needs when warming  Anticipateviscositychanges

Question 52

Pediatric CannulaSelection: venous PROCESS

Answer 52

 Determine max flow  Cannulation utilizes Bicaval or Single Atrial  Pressure drop -30 to -40 mmHg  ( MEASURE IT - its gravity! )  Anticipate larger flow needs when warming  Anticipate viscosity changes

Question 53

bicaval cannulation max flow 12/12

Answer 53

846

Question 54

bicaval cannulation max flow 12/14

Answer 54

1120

Question 55

bicaval cannulation max flow 12/16

Answer 55

1197

Question 56

bicaval cannulation max flow 14/14

Answer 56

1287

Question 57

bicaval cannulation max flow 14/16

Answer 57

1332

Question 58

bicaval cannulation max flow 16/16

Answer 58

1377

Question 59

bicaval cannulation max flow 16/18

Answer 59

1512

Question 60

bicaval cannulation max flow 18/18

Answer 60

1566

Question 61

venous 3/16” MAXIMUM VENOUS CALCULATED BFR (mLmin) and PRIME VOLUME (mL/ft)

Answer 61

1100,7

Question 62

venous 1/4” MAXIMUM VENOUS CALCULATED BFR (mLmin) and PRIME VOLUME (mL/ft)

Answer 62

2000,9.65

Question 63

venous 3/8” MAXIMUM VENOUS CALCULATED BFR (mLmin) and PRIME VOLUME (mL/ft)

Answer 63

6500,21.7

Question 64

venous 1/2” MAXIMUM VENOUS CALCULATED BFR (mLmin) and PRIME VOLUME (mL/ft)

Answer 64

—–,38.6

Question 65

capiox infant ALF flow range

Answer 65

< 2500 ml/min

Question 66

intersect pediatric ALF flow range

Answer 66

2500-3000 ml/min

Question 67

GISH ALF flow range >3000 ml/min

Answer 67

> 3000 ml/min

Question 68

pall leuco guard 3 max flow

Answer 68

3000 ml/min

Question 69

pall leuco guard 6 flow range

Answer 69

3000-6000 ml/min

Question 70

basic prime constituents adults

Answer 70

 Normosol Hetastarch/Albumin  Antibiotic  NaHCO3  Mannitol Heparin 10 K units

Question 71

basic prime constituents peds

Answer 71

 Normosol25% Albumin  Antibiotic  Solumedrol  NaHCO3 Heparin 100 units  Mannitol  CaCl  PRBC’s

Question 72

25% albumin purpose

Answer 72

 Largemolecule  Aids passification of tubing  Elevates C.O.P. and serum osmolarity  Good osmotic “pull” from tissues (1.3:1)  Be careful in recommendations  (i.e X-coating calls for wetting with crystalloid 1st)

Question 73

Cefazolin(Kefzol,Ancef) dosage

Answer 73

25 mg/kg (max dose = 1 g)

Question 74

Ampicillin dosage

Answer 74

 50 mg/kg (max dose = 1 g)

Question 75

gentamicin dosage

Answer 75

2 mg/kg (max dose = 80 mg)

Question 76

nafcilliin dosage

Answer 76

25 mg/kg (max dose = 1 g)

Question 77

vancomycin dosage

Answer 77

0 -15 mg/kg (max dose = 1 g)
 Vancomycin is titrated during CPB. All other of the antibiotics listed can be safely administered to the extra-corporeal circuit prior to the intiation of CPB.

Question 78

solumedrol dosage pump prime

Answer 78

The pump prime may contain 30mg/kg. methylprednisolone (up to 500 mg) on all to patients undergoing procedures requiring CPB.

Question 79

Pediatric transplant patients receive ______methylprednisolone when the aortic crossclamp is released.

Answer 79

30 mg/kg

Question 80

The prime should have a bicarbonate concentration of approximately

Answer 80

24 mEq/L.

Question 81

formula for he amount of NaHCO3 necessary for a given amount of asanguineous volume

Answer 81

x = 0.025V

Question 82

f PRBC’s are added to the prime, then a sample should be taken, and NaHCO3 administered according to the following formula:

Answer 82

? mEq NaHCO3 = 0.3(kg wt)(BE)

Question 83

mannitol purpose

Answer 83

 Osmoticdieuretic
 ElevatesOsmolarityrapidly
 Given over a range of medical disciplines
 Oxygen radical scavenger

Question 84

mannitol dosage

Answer 84

0.25g/kgintheprime
 An additional 0.25 g/kg is administered on the release of the aortic cross-clamp.
 Since mannitol is 25% solution (5.3 kg x .25 = 1.325 g) And that is 5.3 cc

Question 85

CaCl2 is not

Answer 85

routinely added to the prime.

Question 86

perfusate level of CaCL2 should be_______ because_______

Answer 86

0.7 - 0.8 mM/L, if necessary. would allow the appropriate level to be present in the cardioplegia solution of a standard 4:1 solution

Question 87

PRBCS patient kg weight range intravascular BV index <10KG

Answer 87

85 mL/kg

Question 88

PRBCS patient kg weight range intravascular BV index 10-20 KG

Answer 88

80 mL/kg

Question 89

PRBCS patient kg weight range intravascular BV index 20-30KG

Answer 89

75 mL/kg

Question 90

PRBCS patient kg weight range intravascular BV index 30-40 KG

Answer 90

70 mL/kg

Question 91

PRBCS patient kg weight range intravascular BV index >40KG

Answer 91

65 mL/kg

Question 92

PRBCS patient kg weight range intravascular BV index For neonates/infants < 5kg

Answer 92

100 ml PRBC’s are added to the prime

to avoid a prolonged period of asanguineous perfusion.

Question 93

CPB Hct =

Answer 93

(((IVBV x kg x (patient Hct / 100)) / ((IVBV x kg) + mL prime))) x 100

Question 94

TEG use in PEDS

Answer 94

 Sporatic use in Or/Perfusion labs  Takes a long time to finalize (takes patience)  Looks at the larger spectrum

Question 95

TEG Viscoelastic test on whole blood – rotates specimen in cuvette

Answer 95

10 seconds

Question 96

platelet works

Answer 96

 Assesses plateletn function and compares functional and non-functional platelets by percentage (%)
 More useful due to looks at function, not number

Question 97

nirs

Answer 97


Near-infrared spectroscopy (NIRS) technology, such as that used in pulse oximetry, has been used and trusted in the world of medicine for decades.
Near-infrared spectroscopy (NIRS) is a spectroscopic method that uses the near-infrared region of the electromagnetic spectrum (from about 800 nm to 2500 nm)

Question 98

CDI in line analyzer

Answer 98

Standard of care Important in pediatrics pH stat or Alpha stat use

Question 99

Capiox Rx05 flow range

Answer 99

< 1500 ml. Min

Question 100

Capiox sx10 flow range

Answer 100

1500-4000 ml./min.

Question 101

Capiox sx18 flow range

Answer 101

4000-6000 ml./min

Question 102

Dlp wire reinforced a ending aortic cannula sizes

Answer 102

8 10 12 16 fr

Question 103

Biomedicus femoral arterial cannula sizes

Answer 103

8 10 12 14 fr

Question 104

Max flow dlp 8 fr

Answer 104

750

Question 105

Max flow dlp 10 fr

Answer 105

1300

Question 106

Max flow dlp 12 fr

Answer 106

2200

Question 107

Max flow dlp 14 fr

Answer 107

2900

Question 108

Max flow dlp 16 fr

Answer 108

4000

Question 109

Pediatric muf / 4:1cardioplegia

Answer 109

<30 kg

Question 110

Adult 4:1 cardioplegia

Answer 110

> 30 kg