CardioGen-82 description, usages, side effects, indications, overdosage, supplying and lots more!

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CardioGen-82

Bracco Diagnostics Inc
Bracco Diagnostics Inc

HIGHLIGHTS OF PRESCRIBING INFORMATIONThese highlights do not include all the information needed to use CARDIOGEN-82 safely and effectively. See full prescribing information for CARDIOGEN-82. CARDIOGEN-82 (rubidium Rb 82 generator)To produce rubidium Rb 82 chloride injection, for intravenous useInitial U.S. Approval: 1989BOXED WARNING WARNING: UNINTENDED STRONTIUM-82 (Sr-82) AND STRONTIUM-85 (Sr-85) RADIATION EXPOSURE Please see full prescribing information for complete boxed warning Unintended radiation exposure occurs when the levels of Sr-82 or Sr-85 in the rubidium Rb 82 chloride injection exceed limits. (5.1) Perform generator eluate tests: Record each eluate volume, including waste and test volumes. (2.4) Determine Rb-82, Sr-82, Sr-85 levels in the eluate: ● Once daily, prior to any drug administrations, and ● With additional daily tests after detection of an Alert Limit. (2.5) Stop use of the generator at its Expiration Limit. (2.6) RECENT MAJOR CHANGESNone.INDICATIONS AND USAGECardioGen-82 is a closed system used to produce rubidium Rb 82 chloride injection for intravenous use. Rubidium Rb 82 chloride injection is a radioactive diagnostic agent indicated for Positron Emission Tomography (PET) imaging of the myocardium under rest or pharmacologic stress conditions to evaluate regional myocardial perfusion in adult patients with suspected or existing coronary artery disease. (1) DOSAGE AND ADMINISTRATION Use CardioGen-82 with a specific infusion system. (2.1) The recommended adult (70 kg) dose of rubidium Rb 82 chloride injection is 1480 MBq (40 mCi), with a range of 1110-2220 MBq (30-60 mCi) infused intravenously at a rate of 50 mL/minute, not to exceed a total volume of 100 mL. Do not exceed a single dose of 2220 MBq (60 mCi). (2.2) Start imaging acquisition 60-90 seconds after completion of the infusion; if a longer circulation time is anticipated, wait for 120 seconds. Image acquisition is typically 5 minutes long. (2.2) To obtain rest and stress images, wait 10 minutes after completion of the rest image acquisition then administer the pharmacologic stress agent in accordance with its prescribing information. Three minutes after administration of the pharmacologic stress agent, infuse the second dose of rubidium Rb-82 chloride and complete the stress image acquisition. (2.2) DOSAGE FORMS AND STRENGTHSCardioGen-82 consists of strontium Sr-82 adsorbed on a hydrous stannic oxide column with an activity of 90-150 millicuries Sr-82 at calibration time. (3) CONTRAINDICATIONSNone. (4) WARNINGS AND PRECAUTIONS Unintended radiation exposure occurs when Sr-82 and Sr-85 levels in rubidium Rb 82 chloride injection exceed specified generator eluate limits (5.1) Pharmacologic induction of cardiovascular stress: May cause serious adverse reactions such as myocardial infarction, arrhythmia, hypotension, broncho-constriction, and cerebrovascular events. Perform testing only in setting where cardiac resuscitation equipment and trained staff are readily available. (5.2) Volume overload: Observe patients with congestive heart failure during infusion and for several hours following injection. (5.3) Side Effects To report SUSPECTED ADVERSE REACTIONS,contact Bracco Diagnostics Inc at 1-800-257-5181 or FDA at 1-800-FDA-1088 or www.fda.gov/medwatch USE IN SPECIFIC POPULATIONS Pregnancy: Only administer Rb-82 if clearly needed. (8.1) Nursing Mothers: Do not resume breast feeding until one hour after the last infusion. (8.3) Pediatric Use: Safety and effectiveness in pediatric patients have not been established. (8.4)


FULL PRESCRIBING INFORMATION: CONTENTS*




FULL PRESCRIBING INFORMATION

WARNING: UNINTENDED STRONTIUM-82 (Sr-82) AND STRONTIUM-85 (Sr-85) RADIATION EXPOSURE

Unintended radiation exposure occurs when the levels of Sr-82 or Sr-85 in the rubidium Rb 82 chloride injection exceed specified limits [see Warnings and Precautions (5.1)]
Perform generator eluate tests:

  • Record each generator eluate volume, including waste and test volumes, and keep a record of the cumulative eluate volume [see Dosage and Administration (2.4)].
  • Determine Rb-82, Sr-82, Sr-85 in the generator eluate:
    Once a day, prior to any drug administrations, and
    At additional daily tests after detection of an Alert Limit. Alert Limits are:
    14 L for the generator’s cumulative eluate volume, or
    An eluate Sr-82 level of 0.002 μCi/ mCi Rb-82, or
    An eluate Sr-85 level of 0.02 Sr-85 μCi/ mCi Rb-82.
    Perform the additional daily tests at time points determined by the day’s elution volume; tests are performed every 750 mL [see Dosage and Administration (2.5)].
  • Stop use of a generator at an Expiration Limit of:
    17 L for the generator’s cumulative eluate volume, or
    42 days post generator calibration date, or
    An eluate Sr-82 level of 0.01 μCi /mCi Rb-82, or
    An eluate Sr-85 level of 0.1 μCi /mCi Rb-82 [see Dosage and Administration (2.6)].

1 INDICATIONS AND USAGE

CardioGen-82 is a closed system used to produce rubidium Rb 82 chloride injection for intravenous administration. Rubidium Rb 82 chloride injection is indicated for Positron Emission Tomography (PET) imaging of the myocardium under rest or pharmacologic stress conditions to evaluate regional myocardial perfusion in adult patients with suspected or existing coronary artery disease.

2 DOSAGE AND ADMINISTRATION

2.1 Infusion System

Use CardioGen-82 only with an infusion system specifically designed for use with the generator and capable of accurate measurement and delivery of doses of rubidium Rb 82 chloride injection. Follow instructions in the Infusion System User’s Guide for the set up and intravenous infusion of rubidium Rb 82 chloride injection dose(s).

2.2 Rubidium Rb 82 Chloride Injection Dosage

The recommended adult single dose of rubidium Rb 82 chloride injection is 1480 MBq (40 mCi) with a range of 1110-2220 MBq (30-60 mCi).

  • Do not exceed a single dose of 2220 MBq (60 mCi).
  • Use the lowest dose necessary to obtain adequate cardiac visualization consistent with the dosing goal of as low as reasonably achievable (ALARA).
  • Individualize the dose by considering factors such as body size, and the imaging equipment and technique.
  • Administer the single dose at 50 mL/minute through a catheter inserted into a large peripheral vein; do not to exceed a total infusion volume of 100 mL.

Administer two separate single doses to complete rest and stress myocardial perfusion imaging as follows:


  • Administer a single (“rest”) rubidium Rb-82 chloride dose;
  • Start imaging 60-90 seconds after completion of the infusion of the rest dose and acquire images for 5 minutes; if a longer circulation time is anticipated (e.g., in a patient with severe left ventricular dysfunction), start imaging 120 seconds after the rest dose.

For stress imaging:

  • Begin the study 10 minutes after completion of the resting dose infusion, to allow for sufficient Rb-82 decay;
  • Administer a pharmacologic stress agent in accordance with its prescribing information;
  • After an interval of 3 minutes, infuse a single (“stress”) rubidium Rb-82 chloride dose;
  • Start imaging 60-90 seconds after completion of the stress Rb-82 chloride dose infusion and acquire images for 5 minutes; if a longer circulation time is anticipated start imaging 120 sec after the stress dose.

2.3 Drug Handling

  • Limit the use of radiopharmaceuticals to physicians who are qualified by training and experience in the safe use and handling of radionuclides and whose experience and training have been approved by the appropriate government agency authorized to license the use of radionuclides.
  • Wear waterproof gloves and effective shielding when handling rubidium Rb-82 chloride injection and the infusion system.
  • Observe aseptic techniques in all drug handling.
  • Use only additive-free Sodium Chloride Injection USP to elute the generator.
  • Visually inspect the drug for particulate matter and discoloration prior to administration whenever solution and container permit. Do not administer eluate from the generator if there is any evidence of foreign matter.

2.4 Directions for Eluting Rubidium Rb 82 Chloride Injection

  • Allow at least 10 minutes between elutions for regeneration of Rb-82.
  • Elute with additive-free Sodium Chloride Injection USP only. Additives (particularly calcium ions, to which strontium ions are chemically analogous), may cause the release of substantial amounts of Sr-82 and/or Sr-85 into the eluate regardless of the age or prior use of the generator.
  • Discard the first 50 mL eluate each day the generator is first eluted. Employ proper safety precautions since the eluate contains radioactivity.
  • Maintain an on-going record of all eluate volumes (washing, testing, dosing volumes), including a summary of the cumulative volume of eluate from the generator.

2.5 Eluate Testing Protocol

Use additive-free sodium chloride injection USP for all elutions. Apply aseptic technique throughout.

Before administering rubidium Rb 82 chloride injection to the first patient each day, perform the following test:

Strontium Alert Limits and Mandatory Eluate Testing:

  • Use an ionization chamber-type dose calibrator for eluate testing.
  • Daily, before administering rubidium Rb 82 chloride injection to any patient, perform an eluate testing to determine Rb-82, Sr-82, and Sr-85 levels
  • Perform additional daily eluate tests after detecting any of the following Alert Limits:
    • 14 L total elution volume has passed through the generator column, or
    • Sr-82 level reaches 0.002 µCi per mCi Rb-82, or
    • Sr-85 level reaches 0.02 µCi per mCi Rb-82.

Perform the additional daily eluate tests at time points determined by the day’s elution volume; tests are performed every 750 mL.

  •  
    • For example, if an Alert Limit were reached and the clinical site eluted less than 750 mL from the generator during the day, then no additional eluate tests would have been performed that day.
    • If the same clinical site the next day eluted 1,500 mL from the generator, then the site would have performed three tests that day: 1) the required daily test that precedes any patient dosing, 2) a test at the 750 mL elution point, and 3) a test at the 1,500 mL elution point.
    • If a generator’s Alert Limit is reached, the clinical site performs the additional daily tests (at intervals of 750 mL) each subsequent day the generator is used. The additional tests are necessary to promptly detect excessive Sr-82 and/or Sr-85 in eluates.

Rubidium Eluate Level Testing:

  • Set a dose calibrator for Rb-82 as recommended by the manufacturer or use the Co-60 setting and divide the reading obtained by 0.548. Obtain the reading from the instrument in millicuries.
  • Elute the generator with 50 mL of Sodium Chloride Injection USP and discard the eluate (first elution).
  • Allow at least 10 minutes for the regeneration of Rb-82, then elute the generator with 50 mL of Sodium Chloride Injection USP at a rate of 50 mL/min and collect the eluate in a stoppered glass vial (plastic containers are not suitable). Note the exact time of end of elution (E.O.E.).
  • Using the dose calibrator, determine the activity of Rb-82 and note the time of the reading. Correct the reading for decay to the E.O.E. using the appropriate decay factor for Rb-82 (see Table 1).
    Note: If the reading is taken 2 1/2 minutes after end of elution, multiply the dose calibrator reading by 4 to correct for decay.
    Strontium Eluate Level Testing:
  • Using the sample obtained for the Rb-82 activity determination, allow the sample to stand for at least one hour to allow for the complete decay of Rb-82.
  • Measure the activity of the sample in a dose calibrator at the setting recommended by the manufacturer for Rb-82 and/or Sr-82. As an alternative, use the Co-60 setting and the reading obtained divided by 0.548. Set the instrument to read in microcuries and record the reading in the display.
  • Calculate the ratio (R) of Sr-85/Sr-82 on the day (post-calibration) of the measurement using the ratio of Sr-85/Sr-82 on the day of calibration provided on the generator label and the Sr-85/Sr-82 Ratio Factor from Table 2. Determine R using the following equation:
    R = [Sr-85] / [Sr-82] on calibration date X Ratio Factor on the day (post-calibration) of measurement
  • Use a correction factor (F) of 0.478 to compensate for the contribution of Sr-85 to the reading.
  • Calculate the amount of Sr-82 in the sample using the following equation:
    Sr-82 (μCi) = dose calibration reading (μCi) / [1 + (R) (F)]Example: dose calibrator reading (μCi) = 0.8; Sr85/Sr82 ratio (R) =1.48; correction factor (F) = 0.478.Sr-82 (μCi) = 0.8 / [1 + (1.48)(0.478)] = 0.47

  • Determine if Sr-82 in the eluate exceeds an Alert or Expiration Limit by dividing the μCi of Sr-82 by the mCi of Rb-82 at End of Elution (see below for further instructions based on the Sr-82 level)
    Example: 0.47 μCi of Sr-82; 50 mCi of Rb-82 E.O.E.
    0.47 μCi Sr-82 / 50 mCi Rb-82 = 0.0094 μCi/mCi Rb-82 (is above Alert Limit of 0.002; additional daily eluate testing must be performed)

  • Determine if Sr-85 in the eluate exceeds an Alert or Expiration Limit by multiplying the result obtained in step 10 by (R) as calculated in step 7 (above).
    Example: 0.0094 x 1.48 = 0.014 μCi Sr-85/mCi Rb-82 (test result is below Alert and Expiration Limits)
*Elution time
TABLE 1
Physical Decay Chart: Rb-82 half-life 75 seconds
Seconds Fraction
Remaining
Seconds Fraction
Remaining
0* 1.000 165 0.218
15 0.871 180 0.190
30 0.758 195 0.165
45 0.660 210 0.144
60 0.574 225 0.125
75 0.500 240 0.109
90 0.435 255 0.095
105 0.379 270 0.083
120 0.330 285 0.072
135 0.287 300 0.063
150 0.250    
*Day of calibration
TABLE 2
Sr-85/Sr-82 Ratio Chart (Sr-85 T ½ = 65 days, Sr-82 ½ = 25 days)
Days Ratio Factor Days Ratio Factor Days Ratio Factor
0* 1.00 15 1.29 30 1.67
1 1.02 16 1.31 31 1.70
2 1.03 17 1.34 32 1.73
3 1.05 18 1.36 33 1.76
4 1.07 19 1.38 34 1.79
5 1.09 20 1.41 35 1.82
6 1.11 21 1.43 36 1.85
7 1.13 22 1.46 37 1.88
8 1.15 23 1.48 38 1.91
9 1.17 24 1.51 39 1.95
10 1.19 25 1.53 40 1.98
11 1.21 26 1.56 41 2.01
12 1.23 27 1.58 42 2.05
13 1.25 28 1.61    
14 1.27 29 1.64    

2.6 CardioGen-82 Expiration

Stop use of the CardioGen-82 generator once any one of the following Expiration Limits is reached.

  • A total elution volume of 17 L has passed through the generator column, or
  • 42 days post calibration date, or
  • An eluate Sr-82 level of 0.01 μCi /mCi Rb-82, or
  • An eluate Sr-85 level of 0.1 μCi /mCi Rb-82.

2.7 Radiation Dosimetry

The estimated absorbed radiation doses for Rb-82, Sr-82, and Sr-85 from an intravenous injection rubidium Rb- 82 chloride are shown in Table 3.

Table 3 Adult Absorbed Radiation Dose Coefficient
  Organa,b Rb-82
(Average for Rest and Stress)
mrem/mCi
(µSv/3.7 MBq)c
Sr-82
mrem/µCi
(µSv/3.7kBq)c
Sr-85
mrem/µCi
(µSv/3.7kBq)c
  Effective Dosee .74f4 23.4 4.03
aRb-82 doses are averages of rest and stress dosimetry data (see Senthamizhchelvan et al. 1,2). To calculate organ doses (mrem) from Rb-82, multiply the dose coefficient for each organ by the administered activity in mCi.
bSr-82 and Sr-85 doses are calculated using software package DCAL and ICRP dose coefficients. To calculate organ doses (mrem) attributable to Sr-82, and Sr-85, multiply the dose coefficients by the calculated amounts of strontium in µCi.3
cTo convert to SI units, insert the dose coefficient into the formula in parentheses, e.g. for adrenals 7.56 mrem/mCi = 7.56 µSv/37 MBq = 2.04 x 10-13 Sv/Bq .
dCalculated from ICRP 66
eCalculated from ICRP 60
fStress phase only
  Adrenals 7.56 10.6 5.03
  Bone – Osteogenic cells 1.86 --- ---
  Bone Surface ---- 107 9.81
  Brain 0.60 8.29 2.96
  Breast 0.82 7.03 1.72
  Gall Bladder Wall 3.17 8.47 2.82
  Heart Wall 16.5 8.18 2.67
  Kidneys 20.04 9.18 2.50
  Liver 4.20 8.10 2.50
  Lower Large Intestine Wall 2.84 51.8 5.14
  Lungsd 10.7 8.25 2.84
  Muscles 1.29 8.14 2.66
  Ovaries 1.41 10.2 4.29
  Pancreas 8.85 9.10 3.46
  Red Marrow 1.19 91.0 9.84
  Skin 1.14 7.03 1.75
  Small Intestine 4.76 9.62 4.03
  Spleen 6.61 8.10 2.54
  Stomach 8.14 7.84 2.26
  Testes 0.82 7.25 1.70
  Thymus 1.49 7.84 2.33
  Thyroid 6.11 8.07 2.57
  Upper Large Intestine 5.94 23.7 3.62
  Urinary Bladder Wall 1.61 21.9 2.90
  Uterus 3.72 9.14 3.32
  Total Body 1.77 Not Calculated Not Calculated

3 DOSAGE FORMS AND STRENGTHS

CardioGen-82 is a closed system used to produce rubidium Rb 82 chloride injection for intravenous use. CardioGen-82 consists of strontium Sr-82 adsorbed on a hydrous stannic oxide column with an activity of 90-150 millicuries Sr-82 at calibration time.

4 CONTRAINDICATIONS

None.

5 WARNINGS AND PRECAUTIONS

5.1 Unintended Sr-82 and Sr-85 Exposure

Unintended radiation exposure occurs when the Sr-82 and Sr-85 levels in rubidium Rb 82 chloride injections exceed the specified generator eluate limits. Unintended exposure to strontium radiation has occurred in some patients who received rubidium Rb 82 injections at clinical sites where generator eluate testing appeared insufficient. The physical half lives of Sr-82 and Sr-85 are 25 days and 65 days, respectively, in contrast to Rb-82 which has a physical half-life of 75 seconds. Unintended exposure to strontium radiation contributes to a patient’s overall cumulative radiation dose [see Warnings and Precautions (5.4)].

To minimize the risk of unintended radiation exposure, strict adherence to a daily eluate testing protocol is required. Stop using the rubidium generator when the expiration limits are reached [see Dosage and Administration (2.5) and (2.6)].

5.2 Risks Associated with Pharmacologic Stress

Pharmacologic induction of cardiovascular stress may be associated with serious adverse reactions such as myocardial infarction, arrhythmia, hypotension, bronchoconstriction, and cerebrovascular events. Perform pharmacologic stress testing in accordance with the pharmacologic stress agent’s prescribing information and only in the setting where cardiac resuscitation equipment and trained staff are readily available.

5.3 Volume Overload

Patients with congestive heart failure or the elderly may experience a transitory increase in circulatory volume load. Observe these patients during infusion and for several hours following rubidium chloride injection administration to detect delayed hemodynamic disturbances.

5.4 Cumulative Radiation Exposure: Long-Term Risk of Cancer

Rubidium Rb 82 chloride injection, similar to other radiopharmaceuticals, contributes to a patient’s overall long-term cumulative radiation exposure. Long-term cumulative radiation exposure is associated with an increased risk of cancer. Use the lowest dose of rubidium Rb 82 chloride injection necessary for imaging and ensure safe handling to protect the patient and health care worker [see Dosage and Administration (2.2) and (2.3)]. Encourage patients to void as soon as a study is completed and as often as possible thereafter for at least one hour.

6 ADVERSE REACTIONS

6.1 Postmarketing Experience

The following serious adverse reactions have been identified during postapproval use of CardioGen-82. Because these reactions are reported voluntarily from a population of uncertain size, it is not always possible to reliably estimate their frequency or establish a causal relationship to drug exposure.

Unintended radiation exposure has occurred in some patients who received rubidium Rb 82 chloride injections at clinical sites where generator eluate testing appeared insufficient [see Boxed Warning, Warnings and Precautions (5.1), and Dosage and Administration (2.5)].

7 DRUG INTERACTIONS

Specific drug-drug interactions have not been studied.

8 USE IN SPECIFIC POPULATIONS

8.1 Pregnancy

Pregnancy Category C

Animal reproductive studies have not been conducted with rubidium Rb 82 chloride injection. It is also not known whether rubidium Rb 82 chloride injection can cause fetal harm when administered to a pregnant woman; however, all radiopharmaceuticals have the potential to cause fetal harm depending on the fetal stage of development and the magnitude of the radiation dose. If considering rubidium Rb 82 chloride injection administration to a pregnant woman, inform the patient about the potential for adverse pregnancy outcomes based on the radiation dose from rubidium Rb-82 and the gestational timing of exposure. Administer rubidium Rb-82 to a pregnant woman only if clearly needed.

8.3 Nursing Mothers

It is not known whether rubidium Rb 82 chloride injection is excreted in human milk. Due to the short half-life of rubidium Rb-82 (75 seconds) it is unlikely that the drug would be excreted in human milk during lactation. However, because many drugs are excreted in human milk, caution should be exercised when rubidium Rb-82 chloride injection is administered to nursing women. Do not resume breastfeeding until one hour after the last infusion.

8.4 Pediatric Use

Rubidium Rb 82 chloride injection safety and effectiveness in pediatric patients have not been established.

8.5 Geriatric Use

In elderly patients with a clinically important decrease in cardiac function, lengthen the delay between infusion and image acquisition [see Dosage and Administration (2.2)]. Observe for the possibility of fluid overload [see Warnings and Precautions (5.3)].

8.6 Renal Impairment

Reductions in renal function are not anticipated to alter clearance of rubidium Rb 82 chloride injection because Rb-82 decays to stable Kr-82 with a half-life of 75 seconds and Kr-82 is exhaled through the lungs.

8.7 Hepatic Impairment

Reductions in hepatic function are not anticipated to alter clearance of rubidium Rb 82 chloride injection.

11 DESCRIPTION

11.1 Chemical Characteristics

CardioGen-82 contains accelerator-produced Sr-82 adsorbed on stannic oxide in a lead-shielded column and provides a means for obtaining sterile nonpyrogenic solutions of rubidium Rb 82 chloride injection. The chemical form of Rb-82 is 82RbCl.

The amount (millicuries) of Rb-82 obtained in each elution will depend on the potency of the generator.
When eluted at a rate of 50 mL/minute, each generator eluate at the end of elution should not contain more than 0.02 microcurie of Sr-82 and not more than 0.2 microcurie of Sr-85 per millicurie of rubidium Rb 82 chloride injection, and not more than 1 microgram of tin per mL of eluate.

11.2 Physical Characteristics

Rb-82 decays by positron emission and associated gamma emission with a physical half-life of 75 seconds.4 Table 4 shows the annihilation photons released following positron emission which are useful for detection and imaging studies.

The decay modes of Rb-82 are: 95.5% by positron emission, resulting in the production of annihilation radiation, i.e., two 511 keV gamma rays; and 4.5% by electron capture, resulting in the emission of “prompt” gamma rays of predominantly 776.5 keV. Both decay modes lead directly to the formation of stable Kr-82.4

TABLE 4
Principal Radiation Emission Data
  Mean Percent Mean Energy
Radiation Per Disintegration (keV)
Annihilation photons (2) 191.01 511 (each)
Gamma rays 13-15 776.5

The specific gamma ray constant for Rb-82 is 6.1 R/hour-millicurie at 1 centimeter. The first half-value layer is 0.7 centimeter of lead (Pb). Table 5 shows a range of values for the relative attenuation of the radiation emitted by this radionuclide that results from interposition of various thicknesses of lead.5 For example, the use of a 7.0 centimeter thickness of Pb will attenuate the radiation emitted by a factor of about 1,000.

TABLE 5
Radiation Attenuation by Lead Shielding
Shield Thickness (Pb) cm Attenuation Factor
0.7 0.5
2.3 10 -1
4.7 10-2
7.0 10-3
9.3 10-4

Sr-82 (half-life of 25 days (600 hrs)) decays to Rb-82. To correct for physical decay of Sr-82, Table 6 shows the fractions that remain at selected intervals after the time of calibration.

*Calibration time
TABLE 6
Physical Decay Chart: Sr-82 half-life 25 days
Days Fraction
Remaining
Days Fraction
Remaining
Days Fraction
Remaining
0* 1.000 15 0.660 30 0.435
1 0.973 16 0.642 31 0.423
2 0.946 17 0.624 32 0.412
3 0.920 18 0.607 33 0.401
4 0.895 19 0.591 34 0.390
5 0.871 20 0.574 35 0.379
6 0.847 21 0.559 36 0.369
7 0.824 22 0.543 37 0.359
8 0.801 23 0.529 38 0.349
9 0.779 24 0.514 39 0.339
10 0.758 25 0.500 40 0.330
11 0.737 26 0.486 41 0.321
12 0.717 27 0.473 42 0.312
13 0.697 28 0.460    
14 0.678 29 0.448    

To correct for physical decay of Rb-82, Table 1 shows the fraction of Rb-82 remaining in all 15 second intervals up to 300 seconds after time of calibration [see Dosage and Administration (2.5)].

12 CLINICAL PHARMACOLOGY

12.1 Mechanism of Action

Rb-82 is analogous to potassium ion (K+) in its biochemical behavior and is rapidly extracted by the myocardium proportional to the blood flow. Rb+ participates in the sodium-potassium (Na+/K+) ion exchange pumps that are present in cell membranes. The intracellular uptake of Rb-82 requires maintenance of ionic gradient across cell membranes. Rb-82 radioactivity is increased in viable myocardium reflecting intracellular retention, while the tracer is cleared rapidly from necrotic or infarcted tissue.

12.2 Pharmacodynamics

In human studies, myocardial activity was noted within the first minute after peripheral intravenous injection of Rb-82. When areas of infarction or ischemia are present in the myocardium, they are visualized within 2-7 minutes after injection as photon-deficient, or “cold”, areas on the myocardial scan.
In patients with reduced cardiac function, transit of the injected dose from the peripheral infusion site to the myocardium may be delayed [see Dosage and Administration (2.2)].

Blood flow brings Rb-82 to all areas of the body during the first pass of circulation. Accordingly, visible uptake is also observed in other highly vascularized organs, such as the kidneys, liver, spleen and lungs.

12.3 Pharmacokinetics

With a physical half-life of 75 seconds, Rb-82 is very rapidly converted by radioactive decay into a trace amount of stable Kr-82 gas, which is passively expired by the lungs. Renal and hepatic excretion is not anticipated to play an essential role in Rb-82 elimination, although some of the Rb-82 dose may be excreted in the urine prior to radioactive decay.

13 NONCLINICAL TOXICOLOGY

13.1 Carcinogenesis, Mutagenesis, Impairment of Fertility

No long-term studies have been performed to evaluate carcinogenic potential, mutagenicity potential, or to determine whether rubidium Rb 82 chloride injection may affect fertility in males or females.

14 CLINICAL STUDIES

In a descriptive, prospective, blinded image interpretation study6 of adult patients with known or suspected coronary artery disease, myocardial perfusion deficits in stress and rest PET images obtained with ammonia N 13 (n = 111) or rubidium Rb-82 chloride (n = 82) were compared to changes in stenosis flow reserve (SFR) as determined by coronary angiography. PET perfusion defects at rest and stress for seven cardiac regions (anterior, apical, anteroseptal, posteroseptal, anterolateral, posterolateral, and inferior walls) were graded on a scale of 0 (normal) to 5 (severe). Values for stenosis flow reserve, defined as flow at maximum coronary vasodilatation relative to rest flow, ranged from 0 (total occlusion) to 5 (normal). With increasing impairment of flow reserve, the subjective PET defect severity increased. A PET defect score of 2 or higher was positively correlated with flow reserve impairment (SFR<3).

A systematic review of published literature was conducted using pre-defined inclusion/exclusion criteria which resulted in identification of 10 studies evaluating the use of Rb-82 PET myocardial perfusion imaging (MPI) for the identification of coronary artery disease as defined by catheter-based angiography. In these studies, the patient was the unit of analysis and 50% stenosis was the threshold for clinically significant coronary artery disease (CAD). Of these 10 studies, 9 studies were included in a meta-analysis for sensitivity (excluding one study with 100% sensitivity) and 7 studies were included in a meta-analysis of specificity (excluding 3 studies with 100% specificity). A random effects model yielded overall estimates of sensitivity and specificity of 92% (95% CI: 89% to 95%) and 81% (95% CI: 76% to 86%), respectively. The use of meta-analysis in establishing performance characteristics is limited, particularly by the possibility of publication bias (positive results being more likely to be published than negative results) which is difficult to detect especially when based on a limited number of small studies.

15 REFERENCES

  • Senthamizhchelvan S. et al. Human biodistribution and radiation dosimetry of 82Rb. J Nucl Med, 2010; 51:1592 – 99.
  • Senthamizhchelvan S. et al. Radiation dosimetry of 82Rb in humans under pharmacologic stress. J Nucl Med 2011; 52: 485-91
  • Eckerman, K. F. et al. User’s Guide to the DCAL System, ORNL/TM-2001-190; Oak Ridge National Laboratory, Oak Ridge, TN, August, 2006.
  • Lederer, M and Shirley, V. Table of Isotopes, 7th Edition.
  • Judge, S et al. Applied radiation and isotopes (1987); vol 38, no. 3: pp 185-90.
  • Demer, L.L. et al. Assessment of coronary artery disease severity by PET: Comparison with quantitative arteriography in 193 patients. Circulation 1989; 79: 825-35.

16 HOW SUPPLIED/STORAGE AND HANDLING

16.1 How Supplied

CardioGen-82®(rubidium Rb 82 generator) consists of Sr-82 adsorbed on a hydrous stannic oxide column with an activity of 90-150 millicuries Sr-82 at calibration time. A lead shield surrounded by a labeled plastic container encases the generator. The container label provides complete assay data for each generator. Directions for determining the activity of Rb-82 eluted from the generator are described above [see Dosage and Administration (2.5)]. Use CardioGen-82 (rubidium Rb 82 Generator) only with an appropriate, properly calibrated infusion system labeled for use with the generator.

Receipt, transfer, handling, possession or use of this product is subject to the radioactive material regulations and licensing requirements of the U.S. Nuclear Regulatory Commission, Agreement States or Licensing States as appropriate.

16.2 Disposal

Licensee personnel should monitor the amount of radioactivity present within the generator prior to its disposal. Do not dispose of the generator in regular refuse systems. Store and/or dispose of the generator in accordance with the conditions of NRC radioactive materials license pursuant to 10 CFR, Part 20, or equivalent conditions pursuant to Agreement State Regulation. For questions about the disposal of the CardioGen-82 generator, contact Bracco Diagnostics Inc. at 1-800-447-6883, option 3.

16.3 Storage

Store the generator at 20-25°C (68-77°F) [See USP].

17 PATIENT COUNSELING INFORMATION

17.1 Women of Childbearing Potential

Patients should be advised to inform their physician or healthcare provider if they are pregnant or breast feeding.

17.2 Post-study Breastfeeding Avoidance

Instruct nursing patients to substitute stored breast milk or infant formula for breast milk for one hour after administration of rubidium Rb 82 chloride injection.

17.3 Post-study Voiding

Instruct patients to void after completion of each image acquisition session and as often as possible for one hour after completion of the PET scan.

Manufactured for Bracco Diagnostics Inc.
Monroe Twp., NJ 08831

By GE Healthcare
Medi-Physics, Inc.,
South Plainfield, NJ 07080

US Patent 7,504,646

Printed in USA 43–8200E Revised April 2013

CardioGen-82
NDC: 0270–0091–01
Rubidium Rb 82 Generator

CardioGen-82

CardioGen-82
NDC: 0270–0091–01
Rubidium Rb 82 Generator

CardioGen-82

CardioGen-82

Rubidium Chloride RB-82 INJECTION, SOLUTION

Product Information

Product Type Human prescription drug label Item Code (Source) NDC:0270-0091
Route of Administration INTRAVENOUS DEA Schedule

Active Ingredient/Active Moiety

Ingredient Name Basis of Strength Strength
RUBIDIUM CHLORIDE RB-82 RUBIDIUM CATION RB-82 150 mCi

Packaging

# Item Code Package Description Marketing Start Date Marketing End Date
1 NDC:0270-0091-01 1 in 1 PACKAGE

Marketing Information

Marketing Category Application Number or Monograph Citation Marketing Start Date Marketing End Date
NDA NDA019414 1989-12-30


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