Part 1: Bkgd And RCP

Question 1

Mo-99 causes what?

Answer 1

Higher patient dose

Question 2

Al3+ causes what?

Answer 2

Colloid formation and clumping of sulphur colloid and RBCs

Question 3

What can wrong pH cause?

Answer 3

Colloid formation

Question 4

What type of range would you expect for Tc-99m RPs?

Answer 4

pH on the more acidic side or more neutral

Question 5

Why is the range of tc-99m RPs typically more acidic?

Answer 5

To eliminate the possible hydrolyzed reduce impurity

Question 6

What is done if QC for the RP fails?

Answer 6

• retest
• if it fails twice, don’t use
• if multiple kit vials of the same lot fails, contact manufacturer

Question 7

What does radiochemical purity describe?

Answer 7

The ratio of radioactivity in the desired chemical form compared to the total radioactivity in the preparation

Question 8

What are radiochemical impurities?

Answer 8

Free pert, hydrolyzed reduced tech, other kit dependent impurities

Question 9

% labelling efficiency, % bound, %RCP, %tag means the same thing

Question 10

Two methods to test rcp?

Answer 10

1. Thin layer chromatography
2. Solid phase extraction

Question 11

Goal of TLC?

Answer 11

Separate different radiochemical species along length of paper

To analyze counts at different locations on the strip to determine % impurities and % bound rp

Question 12

Stationary phase

Answer 12

Paper/thin layer strip

Question 13

Mobile phase

Answer 13

Solvent

Question 14

Origin

Answer 14

Bottom where the RP is placed

Question 15

Solvent front

Answer 15

Line or distance the solvent travelled up the strip

Question 16

Species are separated on TLC based on the _______ of the stationary phase and ______ of the mobile phase.

Answer 16

Electrostatic forces - Stationary
Polarity - mobile phase

Question 17

the degree of ______ and _____ will determine how far the species will travel with the solvent.

Answer 17

degree of miscibility and attraction will determine

Question 18

hydrophilic = ?

Answer 18

polar, aqueous

Question 19

lipophilic = ?

Answer 19

non-polar, organic

Question 20

examples of hydrophilic solvents?

Answer 20

saline, water, HCl

Question 21

examples of lipophilic solvents?

Answer 21

chemicals ending in “one” or “ol”
acetone, ethanol
chloroform, dichloromethane, tetrahydrofuran

Question 22

relative front

Answer 22

distance that a radiochemical travels relative to the distance that the solvent travels

Question 23

formula for rf

Answer 23

rf = distance travelled by sample/distance travelled by the solvent

Question 24

rf = 0

Answer 24

radiochemical species remained at origin

Question 25

rf = 1

Answer 25

radiochemical species travelled to the top of the strip with the solvent front

Question 26

rf = 0.5

Answer 26

radiochemical species travelled halfway to top of the strip with the solvent front

Question 27

free pert (TcO4-) in chromatography

Answer 27

rf = 1 (travels up the solvent front)

Question 28

hydrolyzed reduced (TcO2) in chromatography

Answer 28

rf = 0 (stays at origin)

Question 29

“bound” tc-complex is (in/dependent) on solvent used and the characteristics of the rp

Answer 29

bound tc-complex is dependent on solvent

Question 30

in an organic solvent:
hydrophilic RP - bound Tc will _______
lipophilic RP - bound Tc will ________

Answer 30

organic - hydrophilic “opposite” therefore, stay at origin

organic - lipophilic “like” therefore, will travel to the solvent front

Question 31

in an aqueous solvent:
hydrophilic RP - bound Tc will _______
lipophilic RP - bound Tc will ________

Answer 31

aqueous - hydrophilic “like” therefore, will travel to the solvent front

aqueous - lipophilic “opposite” therefore, stay at origin

Question 32

how do we analyze RCP?

Answer 32

determination of counts at each location
1) cutting strip into pieces
2) using a radiochromatograph

Question 33

radiochromatograph

Answer 33

specialized piece of equipment that scans the length of the strip and forms a graph of the counts at each point

Question 34

formula to determine % bound by two strips in TLC

Answer 34

% bound = 100 - %TcO4- - %HR

Question 35

which RPs always stay at the origin?

Answer 35

particles - MAA and SC

Question 36

since particles (do/not) travel with any solvent. can we calculate % of HR?

Answer 36

particles don’t travel with any solvent
- can’t calculate % HR

Question 37

which RP uses only one strip for TLC? where do you find the bound? where do you find the impurities?

Answer 37

Mibi
- bound at solvent front
- impurities at origin

Question 38

which RP uses 3 strips for TLC?

Answer 38

HMPAO

Question 39

in solid phase extractions, if the species has an affinity for the solid it will (remain/exit) the cartridge

Answer 39

remain inside

Question 40

in solid phase extractions, if the species has an affinity for the solvent it will (remain/exit) the cartridge

Answer 40

exit the cartridge