A pharmacological overdose of Neuraceq is unlikely given the relatively low doses used for diagnostic purposes.
In the event of administration of a radiation overdose with Neuraceq, the absorbed organ dose to the patient should be reduced by increasing elimination of the radionuclide from the body by inducing frequent micturition.
None
Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rate observed in clinical practice.
The overall safety profile of Neuraceq is based on data from 1090 administrations of Neuraceq to 872 subjects. No serious adverse reactions related to Neuraceq administration have been reported. The most frequently observed adverse drug reactions in subjects receiving Neuraceq were injection site reactions consisting of erythema, irritation and pain. All adverse reactions were mild to moderate in severity and of short duration. The most commonly reported adverse reactions (occurring in at least 1% of subjects) during Neuraceq clinical trials are shown in Table 2.
Table 2 : Adverse Reactions with a Frequency ≥ 1%
Reported in Clinical Trials (n = 1090 Administrations in 872 Subjects)
| Adverse drug reaction | n (%) |
| Injection / application site erythema | 18 (1.7) |
| Injection site irritation | 12 (1.1) |
| Injection site pain | 37 (3.4) |
Neuraceq is indicated for Positron Emission Tomography (PET) imaging of the brain to estimate β-amyloid neuritic plaque density in adult patients with cognitive impairment who are being evaluated for Alzheimer's Disease (AD) and other causes of cognitive decline.
A negative Neuraceq scan indicates sparse to no amyloid neuritic plaques and is inconsistent with a neuropathological diagnosis of AD at the time of image acquisition; a negative scan result reduces the likelihood that a patient's cognitive impairment is due to AD. A positive Neuraceq scan indicates moderate to frequent amyloid neuritic plaques; neuropathological examination has shown this amount of amyloid neuritic plaque is present in patients with AD, but may also be present in patients with other types of neurologic conditions as well as older people with normal cognition. Neuraceq is an adjunct to other diagnostic evaluations.
Limitations Of UseFollowing intravenous administration, Neuraceq crosses the blood brain barrier and shows differential retention in brain regions that contain β-amyloid deposits. Differences in signal intensity between brain regions showing specific and nonspecific Neuraceq uptake form the basis for the image interpretation method.
Ten minutes after intravenous bolus injection of 300 MBq of Neuraceq in human volunteers, approximately 6% of the injected radioactivity was distributed to the brain. Florbetaben F 18 plasma concentrations declined by approximately 75% at 20 minutes post-injection, and by approximately 90% at 50 minutes. The F 18 in circulation during the 45130 minute imaging window was principally associated with polar metabolites of florbetaben. Florbetaben F 18 was 98.5% bound to plasma proteins and was eliminated from plasma primarily via the hepatobiliary route with a mean biological half-life of approximately 1 hour. In vitro studies show that metabolism of florbetaben is predominantly catalyzed by CYP2J2 and CYP4F2. At 12 hours post-administration, approximately 30% of the injected radioactivity had been excreted in urine. Almost all F18 radioactivity in urine was excreted as polar metabolites of florbetaben F18 and only trace amounts of florbetaben F18 were detected.
In in vitro studies using human liver microsomes, florbetaben did not inhibit cytochrome P450 enzymes at concentrations present in vivo.
Pregnancy Category C: It is not known whether Neuraceq can cause fetal harm when administered to a pregnant woman or if it can affect reproduction capacity. Animal reproduction studies have not been conducted with Neuraceq. All radiopharmaceuticals, including Neuraceq, have a potential to cause fetal harm. The likelihood of fetal harm depends on the stage of fetal development and the magnitude of the radiopharmaceutical dose. Neuraceq should be given to a pregnant woman only if clearly needed. Assess pregnancy status before administering Neuraceq to a female of reproductive potential.
Neuraceq is available in 30 mL multi-dose vials containing a clear solution at a strength of 50-5000 MBq/mL (1.4-135 mCi/mL) florbetaben F18 at EOS. At time of administration 300 MBq (8.1 mCi) are contained in up to 10 mL of solution for injection.
Neuraceq is supplied in a 30 mL glass vial containing up to 30 mL of a clear solution at a strength of 50 to 5000 MBq/mL (1.4 to 135 mCi/mL) florbetaben F18 at EOS. Each vial contains multiple doses and is enclosed in a shielded container to minimize external radiation exposure.
Storage And HandlingStore Neuraceq at room temperature 25°C (77°F); excursions permitted to 2°C to 42°C (36°F to 108°F).
The product does not contain a preservative. Store Neuraceq within the original container or equivalent radiation shielding. Neuraceq must not be diluted.
This preparation is approved for use by persons under license by the Nuclear Regulatory Commission or the relevant regulatory authority of an Agreement State.
Manufactured for Piramal Imaging, S.A., Route de l'Ecole 13, 1753 Matran Switzerland. Revised: Aug 2016
Included as part of the PRECAUTIONS section.
PRECAUTIONS Risk For Image Misinterpretation And Other ErrorsErrors may occur in the Neuraceq estimation of brain neuritic β-amyloid plaque density during image interpretation. Image interpretation should be performed independently of the patient’s clinical information. The use of clinical information in the interpretation of Neuraceq images has not been evaluated and may lead to errors. Errors may also occur in cases with severe brain atrophy that limits the ability to distinguish gray and white matter on the Neuraceq scan. Errors may also occur due to motion artifacts that result in image distortion. Neuraceq scan results are indicative of the presence of brain neuritic β-amyloid plaques only at the time of image acquisition and a negative scan result does not preclude the development of brain neuritic β-amyloid plaques in the future.
Radiation RiskNeuraceq, 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. Ensure safe handling to protect patients and health care workers from unintentional radiation exposure.
Nonclinical Toxicology Carcinogenesis, Mutagenesis, Impairment Of FertilityAnimal studies have not been performed to evaluate the carcinogenic potential of florbetaben.
Florbetaben did not demonstrate mutagenic potential in an in vitro bacterial mutation assay (Ames test) using five strains of Salmonella typhimurium and one strain of Escherichia coli or in an in vitro chromosomal aberration assay using human peripheral lymphocytes in the absence and presence of a metabolic activator.
No study on impairment of male or female fertility and reproductive performance was conducted in animals.
Use In Specific Populations PregnancyPregnancy Category C: It is not known whether Neuraceq can cause fetal harm when administered to a pregnant woman or if it can affect reproduction capacity. Animal reproduction studies have not been conducted with Neuraceq. All radiopharmaceuticals, including Neuraceq, have a potential to cause fetal harm. The likelihood of fetal harm depends on the stage of fetal development and the magnitude of the radiopharmaceutical dose. Neuraceq should be given to a pregnant woman only if clearly needed. Assess pregnancy status before administering Neuraceq to a female of reproductive potential.
Nursing MothersIt is not known whether Neuraceq is excreted in human milk. Because many drugs are excreted into human milk and because of the potential for radiation exposure to nursing infants from Neuraceq, avoid use of the drug in a breastfeeding mother or have the mother temporarily interrupt breastfeeding for 24 hours ( > 10 half-lives of radioactive decay for the F 18 isotope) after exposure to Neuraceq. If breastfeeding is interrupted, the patient should pump and discard her breast milk and use alternate nutrition sources (e.g. stored breast milk or infant formula) for 24 hours after the administration of Neuraceq.
Pediatric UseNeuraceq is not indicated for use in pediatric patients.
Geriatric UseOf the 872 subjects in clinical studies of Neuraceq, 603 (69%) were 65 years or over, while 304 (35%) were 75 years or over. No overall differences in safety were observed between these subjects and younger subjects.
Neuraceq is a radioactive drug and should be handled with appropriate safety measures to minimize radiation exposure during administration. Use waterproof gloves and effective shielding, including lead-glass syringe shields when handling and administering Neuraceq. Radiopharmaceuticals, including Neuraceq, should only be used by or under the control of physicians who are qualified by specific training and experience in the safe use and handling of radioactive materials, and whose experience and training have been approved by the appropriate governmental agency authorized to license the use of radiopharmaceuticals.
Recommended Dosing And Administration InstructionsThe recommended dose of Neuraceq is 300 MBq (8.1 mCi), maximum 30 mcg mass dose, administered as a single slow intravenous bolus (6 sec/mL) in a total volume of up to 10 mL.
Acquire PET images over 15 to 20 minutes starting 45 to 130 minutes after Neuraceq injection. Keep the patient supine with the head positioned to center the brain, including the cerebellum, in the PET scanner field of view. Reduce head movement with tape or other flexible head restraints if necessary. Reconstruction should include attenuation correction with resulting transaxial pixel sizes between 2 and 3 mm.
Image Display And InterpretationNeuraceq images should be interpreted only by readers who successfully complete Electronic Media-or In-Person Training provided by the manufacturer. The objective of Neuraceq image interpretation is to estimate β-amyloid neuritic plaque density in brain gray matter, not to make a clinical diagnosis. Image interpretation is performed independently of a patient's clinical features and relies upon the recognition of image features in certain brain regions.
Image DisplayPET images should be displayed in the transaxial orientation using gray scale or inverse gray scale. The sagittal and coronal planes may be used for additional orientation purposes. CT or MR images may be helpful for anatomic reference purposes. However, visual assessment should be performed using the axial planes according to the recommended reading methodology.
Image InterpretationInterpretation of the images is made by visually comparing the activity in cortical gray matter with activity in adjacent white matter. Regions displayed in the PET images which "anatomically" correspond to white matter structures (e.g., the cerebellar white matter or the splenium) should be identified to help the readers orient themselves. Images should be viewed and assessed in a systematic manner, starting with the cerebellum and scrolling up through the lateral temporal and frontal lobes, the posterior cingulate cortex/precuneus, and the parietal lobes. For a gray matter cortical region to be assessed as showing "tracer uptake", the majority of slices from the respective region must be affected.
For each patient, the PET image assessment is categorized as either “β-amyloid-positive” or “β-amyloid-negative”. This determination is based on the assessment of tracer uptake in the gray matter of the following four brain regions: the temporal lobes, the frontal lobes, the posterior cingulate cortex/precuneus, and the parietal lobes; according to the following "rules for assessment" :
β-amyloid negative -tracer uptake (i.e., signal intensity) in gray matter is lower than in white matter in all four brain regions (no β-amyloid deposition)
β-amyloid positive -smaller area(s) of tracer uptake equal to or higher than that present in white matter extending beyond the white matter rim to the outer cortical margin involving the majority of the slices within at least one of the four brain regions (“moderate” β-amyloid deposition), or a large confluent area of tracer uptake equal to or higher than that present in white matter extending beyond the white matter rim to the outer cortical margin and involving the entire region including the majority of slices within at least one of the four brain regions (“pronounced” β-amyloid deposition). There is no known clinical or histopathologic correlation distinguishing “moderate” from “pronounced” β-amyloid deposition.
Examples of positive and negative scans for each of the four brain regions are illustrated in Figure 1.
Figure 1 :Axial view of negative (top row) and
positive (bottom row) Neuraceq PET scans
Cerebellum: A contrast between the white matter (arrows) and gray matter is seen in both negative and positive scans. Extracerebral tracer uptake in scalp and in the posterior sagittal sinus (arrowhead) can be seen. Lateral temporal lobes: Spiculated or “mountainous” appearance of the white matter (arrows) is seen in the negative scan, and radioactive signal does not reach the outer rim of the brain (dashed line) due to lower tracer uptake in the gray matter. The positive scan shows a “plumped”, smooth appearance of the outer border of the brain parenchyma (dashed line) due to tracer uptake in the gray matter. Frontal Lobes: Spiculated appearance of the white matter in the frontal lobes (arrows) is seen in the negative scan. The positive scan shows the tracer uptake in these regions has a “plumped”, smooth appearance due to the increased gray matter signal (dashed line). Posterior cingulate/precuneus: Adjacent and posterior to the splenium (arrow), these regions appear as a hypo-intense “hole” (circle) in the negative scan, whereas this hole is “filled-up” (circle) in the positive scan. Parietal lobes: In the negative scan, the midline between the parietal lobes can be easily identified (long arrow); white matter has a spiculated appearance (short arrow) with low signal near the outer rim of the brain (dashed line). In the positive scan, the midline between the parietal lobes is much thinner. The cortical areas are “filled-up” and are smooth in appearance as tracer uptake extends to the outer rim of the brain.
Some scans may be difficult to interpret due to image noise, atrophy with a thinned cortex, or image blur. If a coregistered computerized tomography (CT) image is available, the CT image may be used to clarify the relationship of the Neuraceq uptake and the gray matter anatomy.
Radiation DosimetryThe estimated radiation absorbed doses for adults from intravenous injection of Neuraceq are shown in Table 1.
Table 1 : Estimated Radiation Absorbed Doses from
Intravenous Injection of Neuraceq
| Organ/Tissue | Mean Absorbed Radiation Dose per Unit Administered Activity [mcGy/MBq] |
| Adrenals | 13 |
| Brain | 13 |
| Breasts | 7 |
| Gallbladder Wall | 137 |
| Heart Wall | 14 |
| Kidneys | 24 |
| Liver | 39 |
| Lower Large Intestine-Wall | 35 |
| Lungs | 15 |
| Muscle | 10 |
| Osteogenic Cells | 15 |
| Ovaries | 16 |
| Pancreas | 14 |
| Red Marrow | 12 |
| Skin | 7 |
| Small Intestine | 31 |
| Spleen | 10 |
| Stomach Wall | 12 |
| Testes | 9 |
| Thymus | 9 |
| Thyroid | 8 |
| Upper Large Intestine-Wall | 38 |
| Urinary Bladder Wall | 70 |
| Uterus | 16 |
| Total Body | 11 |
| Effective Dose (mcSv/MBq) | 19 |
The effective dose resulting from a 300 MBq (8.1 mCi) administration of Neuraceq in adult subjects is 5.8 mSv. The use of a CT scan to calculate attenuation correction for reconstruction of Neuraceq images (as done in PET/CT imaging) will add radiation exposure. Diagnostic head CT scans using helical scanners administer an average of 2.2 ± 1.3 mSv effective dose (CRCPD Publication E-07-2, 2007). The actual radiation dose is operator and scanner dependent. Thus, the total combined radiation exposure from Neuraceq administration and subsequent scan on a PET/CT scanner is estimated to be 8 mSv.
Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rate observed in clinical practice.
The overall safety profile of Neuraceq is based on data from 1090 administrations of Neuraceq to 872 subjects. No serious adverse reactions related to Neuraceq administration have been reported. The most frequently observed adverse drug reactions in subjects receiving Neuraceq were injection site reactions consisting of erythema, irritation and pain. All adverse reactions were mild to moderate in severity and of short duration. The most commonly reported adverse reactions (occurring in at least 1% of subjects) during Neuraceq clinical trials are shown in Table 2.
Table 2 : Adverse Reactions with a Frequency ≥ 1%
Reported in Clinical Trials (n = 1090 Administrations in 872 Subjects)
| Adverse drug reaction | n (%) |
| Injection / application site erythema | 18 (1.7) |
| Injection site irritation | 12 (1.1) |
| Injection site pain | 37 (3.4) |
Drug-drug interaction studies have not been performed in patients to establish the extent, if any, to which concomitant medications may alter Neuraceq image results.
