wn; however, if use of these drugs can be safely suspended, discontinue use 12 hours before administration of fluorodopa f18 injection [see dosage and administration ( 2.3 )] .

ures to avoid unnecessary radiation exposure to the patient, occupational workers, clinical personnel, and other persons. 2.2 recommended dosage and administration recommended dose • the recommended dose for adults is 185 megabecquerels (mbq) [5 millicuries (mci)] administered as an intravenous injection infused over 1 minute. • minimize the dose of fluorodopa f 18 injection consistent with the objectives of the procedure and the nature of the imaging cameras employed. administration • use aseptic techniques and radiation shielding during all operations involved in the manipulation and administration of fluorodopa f 18 injection. • calculate the necessary volume to administer based on calibration time and dose. • inspect fluorodopa f 18 injection visually and do not use the drug if the solution contains particulate matter or is discolored. • measure the patient dose immediately prior to administration in a dose calibrator. • dispose of unused drug in compliance with applicable regulations. 2.3 patient preparation hydration • patients must have nothing to eat or drink, except water for 4 hours before administration • to minimize the radiation absorbed dose to the bladder, instruct patient to: o hydrate 4 hours prior to the administration of fluorodopa f 18 injection and continue hydration after the study. o void 70 minutes after administration of fluorodopa f 18 injection and as frequently thereafter as possible for the next 12 hours. pre-medication and medication withdrawal • carbidopa blocks systemic/peripheral decarboxylation of fluorodopa f 18 injection to increase uptake in the brain. administer 150 mg of carbidopa orally at least 60 minutes (and no longer than 120 minutes) prior to the administration of fluorodopa f 18 injection. • instruct the patient to discontinue medications for the treatment of parkinson’s disease 12 hours prior to administration of fluorodopa f 18 injection [see drug interactions ( 7 )] . 2.4 radiation dosimetry the estimated human absorbed radiation dose for 10 human subjects (8 men and 2 women; mean age 50 ±8.8 yr) from intravenous administration of fluorodopa f 18 injection is shown in table 1. in subjects who voided at 40 min post-injection, the radiation absorbed dose to the bladder wall was 50% lower than the radiation absorbed dose in subjects who voided at 2 hours post-injection. the identified critical organ is the urinary bladder. table 1. estimated absorbed radiation dose (mgy/mbq) for adult patients after intravenous administration of fluorodopa f 18 injection a organ absorbed dose per unit activity (mgy/mbq) urinary bladder wall 0.30 heart wall 0.01 pancreas 0.01 spleen 0.01 lungs 0.01 kidneys 0.03 ovaries 0.02 uterus 0.03 lower large intestine wall 0.02 liver 0.01 gallbladder wall 0.01 small intestine 0.01 upper large intestine wall 0.01 stomach wall 0.01 adrenals 0.01 testes 0.01 red marrow 0.01 thymus 0.01 thyroid 0.01 muscle 0.01 bone surfaces 0.01 breast 0.01 skin 0.01 brain 0.01 remaining organs 0.01 effective dose (msv/mbq) 0.03 a icrp publication 128, radiation dose to patients from radiopharmaceuticals, annals of the icrp , vol. 44, no. 2s, 2015. 2.5 imaging guidelines • instruct the patient to void immediately before imaging, 70 minutes post administration. • start imaging at about 80 minutes post administration (with a 9 second ct scan for attenuation correction) followed by 3d pet scan from 80 to 100 minutes post administration. 2.6 image interpretation fluorodopa f 18 pet scans are interpreted visually, based upon the appearance and shape of the putamen and caudate of the striatum. optimum presentation of the reconstructed images for visual interpretation is transaxial slices parallel to the anterior commissure-posterior commissure (ac-pc) line. determination of whether an image is negative or positive is made by assessing the shape and intensity of the striatal signal (see figure 1 and 2). image interpretation does not involve integration of the image with clinical signs and/or symptoms. negative scans: a full crescent shaped putamen and caudate image (see figure 1). fdopa uptake is clearly delineated from the background activity in the brain. it is bilaterally symmetrical and of uniform thickness in both caudate and putamen (comma- or crescent-shaped). figure 1: negative scan positive scans: a reduction in the size and shape of putamen (unilaterally or bilaterally) or both putamen and caudate (unilaterally or bilaterally). all of the following are considered positive: • fdopa uptake is asymmetric in the putamen; normal on one side but reduced on the contralateral side with respect to the background, especially in the posterior part. caudate uptake is symmetrical on both sides and clearly delineated from the background (see figure 2, a). • fdopa uptake is bilaterally reduced in the putamen (see figure 2, b). • fdopa uptake is bilaterally reduced in the putamen and in the caudate nuclei (see figure 2, c). figure 2: positive scans a b c fdopa negative scan fdopa positive scan

reast 0.01 skin 0.01 brain 0.01 remaining organs 0.01 effective dose (msv/mbq) 0.03 a icrp publication 128, radiation dose to patients from radiopharmaceuticals, annals of the icrp , vol. 44, no. 2s, 2015.

or bilaterally). all of the following are considered positive: • fdopa uptake is asymmetric in the putamen; normal on one side but reduced on the contralateral side with respect to the background, especially in the posterior part. caudate uptake is symmetrical on both sides and clearly delineated from the background (see figure 2, a). • fdopa uptake is bilaterally reduced in the putamen (see figure 2, b). • fdopa uptake is bilaterally reduced in the putamen and in the caudate nuclei (see figure 2, c). figure 2: positive scans a b c fdopa negative scan fdopa positive scan

y from a population of uncertain size, it is not always possible to reliably estimate their frequency or establish a causal relationship to drug exposure. general disorders and administration site conditions: pain

wn; however, if use of these drugs can be safely suspended, discontinue use 12 hours before administration of fluorodopa f18 injection [see dosage and administration ( 2.3 )] .

lation is unknown. all pregnancies have a background risk of birth defect, loss, or other adverse outcomes. in the u.s. general population, the estimated background risks of major birth defects and miscarriage in clinically recognized pregnancies are 2 to 4% and 15 to 20%, respectively, regardless of drug exposure. 8.2 lactation risk summary no data are available regarding the presence of fluorodopa f 18 injection in human milk, the effects of the drug on the breastfed child, or the effects of the drug on milk production. exposure of fluorodopa f 18 injection to a breast fed infant can be minimized by temporary discontinuation of breastfeeding [see clinical considerations] . the developmental and health benefits of breastfeeding should be considered along with the mother’s clinical need for fluorodopa f 18 injection and any potential adverse effects on the breastfed child from fluorodopa f 18 injection or from the underlying maternal condition. the body of scientific information related to radioactivity decay, drug tissue distribution and drug elimination shows that less than 0.01% of the radioactivity administered remains in the body after 24 hours. clinical considerations to decrease radiation exposure to a nursing infant, advise a lactating woman to pump and discard breastmilk for at least 24 hours (12 half-lives) after administration of fluorodopa f 18 injection. 8.4 pediatric use the safety and effectiveness of fluorodopa f 18 injection for visualization of dopaminergic neurons in the striatum has not been established in pediatric patients.

to 4% and 15 to 20%, respectively, regardless of drug exposure.

t 24 hours (12 half-lives) after administration of fluorodopa f 18 injection.

onal differences in amino acid transport. elimination fluorodopa f 18 is cleared from the blood and tissue within 24 hours. metabolism: fluorodopa f 18 is decarboxylated by aromatic amino acid decarboxylase in the striatum to fluorodopamine f 18. fluorodopamine f 18 is also metabolized via monoamine oxidase to yield [ 18 f] 6-fluoro-3,4-dihydroxyphenylacetic acid ( 18 fdopac) and subsequently by comt to yield [ 18 f]6-fluorohomovanillic acid ( 18 fhva). elimination: 80% of the radioactivity is eliminated through the urine. urine radioactivity peaks at about 30 minutes post-injection. the radiation absorbed dose to the bladder wall is reduced by emptying the bladder just before scanning.

ion. the radiation absorbed dose to the bladder wall is reduced by emptying the bladder just before scanning.

n-ps diagnoses. carbidopa (150 mg) was administered orally to patients approximately 60 minutes prior to the administration of fluorodopa f 18 injection. each patient was injected 5 mci f-18 fdopa (range 4.5-5.5 mci), and pet images were acquired 80-100 minutes post injection. f-18 fdopa pet images were evaluated independently by 3 readers blinded to clinical information who had no other role in patient assessment. patients with at least one cardinal feature of ps were referred to the study by physicians who were uncertain of a diagnosis. thirty-three of these patients had symptoms for 2 years or less. fifty-six of these patients completed f-18 fdopa pet imaging and at least 6 month clinical follow-up. among these 56 patients, 32% were female and 68% were male. mean patient age was 66 years. thirty-three patients were categorized as ps, and twenty-three patients were categorized as non-ps based on minimum 6 month clinical follow-up by a movement disorder specialist. table 5 shows the positive percent agreement and negative percent agreement of f-18 fdopa injection pet image results with the reference clinical diagnostic standard. positive percent agreement represents the percent of patients with positive f-18 fdopa pet images among all the patients with a clinical diagnostic reference standard of ps. negative percent agreement represents the percent of patients with negative f-18 fdopa pet images among the patients with a non-ps clinical diagnostic reference standard. table 5. positive and negative percent agreement for f-18 fdopa injection pet imaging n=56 patients positive percent agreement positive test/clinical ps (95 % ci) negative percent agreement negative test/clinical non-ps (95 % ci) reader 1 24/33 73% (55, 87) 21/23 91% (72, 99) reader 2 16/33 49% (31, 67) 21/23 91% (72, 99) reader 3 19/33 58% (39, 75) 19/23 83% (61, 94) the effectiveness of f-18 fdopa pet as a screening or confirmatory test and for monitoring disease progression or response to therapy has not been established.