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March 1, 2017
The U.S. Food and Drug Administration today approved Odactra, the first allergen extract to be administered under the tongue (sublingually) to treat house dust mite (HDM)-induced nasal inflammation (allergic rhinitis), with or without eye inflammation (conjunctivitis), in people 18 through 65 years of age.
“House dust mite allergic disease can negatively impact a person’s quality of life,” said Peter Marks, M.D., Ph.D., director of the FDA’s Center for Biologics Evaluation and Research. “The approval of Odactra provides patients an alternative treatment to allergy shots to help address their symptoms.”
House dust mite allergies are a reaction to tiny bugs that are commonly found in house dust. Dust mites, close relatives of ticks and spiders, are too small to be seen without a microscope. They are found in bedding, upholstered furniture and carpeting. Individuals with house dust mite allergies may experience a cough, runny nose, nasal itching, nasal congestion, sneezing, and itchy and watery eyes.
Odactra exposes patients to house dust mite allergens, gradually training the immune system in order to reduce the frequency and severity of nasal and eye allergy symptoms. It is a once-daily tablet, taken year round, that rapidly dissolves after it is placed under the tongue. The first dose is taken under the supervision of a health care professional with experience in the diagnosis and treatment of allergic diseases. The patient is to be observed for at least 30 minutes for potential adverse reactions. Provided the first dose is well tolerated, patients can then take Odactra at home. It can take about eight to 14 weeks of daily dosing after initiation of Odactra for the patient to begin to experience a noticeable benefit.
The safety and efficacy of Odactra was evaluated in studies conducted in the United States, Canada and Europe, involving approximately 2,500 people. Some participants received Odactra, while others received a placebo pill. Participants reported their symptoms and the need to use symptom-relieving allergy medications. During treatment, participants taking Odactra experienced a 16 to 18 percent reduction in symptoms and the need for additional medications compared to those who received a placebo.
The most commonly reported adverse reactions were nausea, itching in the ears and mouth, and swelling of the lips and tongue. The prescribing information includes a boxed warning that severe allergic reactions, some of which can be life-threatening, can occur. As with other FDA-approved allergen extracts administered sublingually, patients receiving Odactra should be prescribed auto-injectable epinephrine. Odactra also has a Medication Guide for distribution to the patient.
Odactra is manufactured for Merck, Sharp & Dohme Corp., (a subsidiary of Merck and Co., Inc., Whitehouse Station, N.J.) by Catalent Pharma Solutions Limited, United Kingdom.
(sublingually) to treat house dust mite (HDM)-induced nasal inflammation (allergic rhinitis), with or without eye inflammation (conjunctivitis), in people 18 through 65 years of age
/////////////Odactra, Merck, Sharp & Dohme Corp, Catalent Pharma Solutions Limited, United Kingdom, FDA 2017, approves, house dust mite allergies
Cyclobutanecarboxylic acid, 1-amino-3-(fluoro-18F)-, trans- [
- Molecular FormulaC5H818FNO2
- Average mass132.124 Da
May 27, 2016
The U.S. Food and Drug Administration today approved Axumin, a radioactive diagnostic agent for injection. Axumin is indicated for positron emission tomography (PET) imaging in men with suspected prostate cancer recurrence based on elevated prostate specific antigen (PSA) levels following prior treatment.
Prostate cancer is the second leading cause of death from cancer in U.S. men. In patients with suspected cancer recurrence after primary treatment, accurate staging is an important objective in improving management and outcomes.
“Imaging tests are not able to determine the location of the recurrent prostate cancer when the PSA is at very low levels,” said Libero Marzella, M.D., Ph.D., director of the Division of Medical Imaging Products in the FDA’s Center for Drug Evaluation and Research. “Axumin is shown to provide another accurate imaging approach for these patients.”
Two studies evaluated the safety and efficacy of Axumin for imaging prostate cancer in patients with recurrent disease. The first compared 105 Axumin scans in men with suspected recurrence of prostate cancer to the histopathology (the study of tissue changes caused by disease) obtained by prostate biopsy and by biopsies of suspicious imaged lesions. Radiologists onsite read the scans initially; subsequently, three independent radiologists read the same scans in a blinded study.
The second study evaluated the agreement between 96 Axumin and C11 choline (an approved PET scan imaging test) scans in patients with median PSA values of 1.44 ng/mL. Radiologists on-site read the scans, and the same three independent radiologists who read the scans in the first study read the Axumin scans in this second blinded study. The results of the independent scan readings were generally consistent with one another, and confirmed the results of the onsite scan readings. Both studies supported the safety and efficacy of Axumin for imaging prostate cancer in men with elevated PSA levels following prior treatment.
Axumin is a radioactive drug and should be handled with appropriate safety measures to minimize radiation exposure to patients and healthcare providers during administration. Image interpretation errors can occur with Axumin PET imaging. A negative image does not rule out the presence of recurrent prostate cancer and a positive image does not confirm the presence of recurrent prostate cancer. Clinical correlation, which may include histopathological evaluation of the suspected recurrence site, is recommended.
The most commonly reported adverse reactions in patients are injection site pain, redness, and a metallic taste in the mouth.
Axumin is marketed by Blue Earth Diagnostics, Ltd., Oxford, United Kingdom
The non-natural amino acid [ F]-l-amino-3-fluorocyclobutane-l-carboxylic acid
([18F]-FACBC, also known as [18F]-Fluciclovine) is taken up specifically by amino acid transporters and has shown promise for tumour imaging with positron emission tomography (PET).
A known synthesis of [18F]-FACBC begins with the provision of the protected precursor compound 1 -(N-(t-butoxycarbonyl)amino)-3 –
[((trifluoromethyl)sulfonyl)oxy]-cyclobutane-l-carboxylic acid ethyl ester. This precursor compound is first labelled with [18F]-fluoride:
II before removal of the two protecting groups:
EP2017258 (Al) teaches removal of the ethyl protecting group by trapping the [18F]- labelled precursor compound (II) onto a solid phase extraction (SPE) cartridge and incubating with 0.8 mL of a 4 mol/L solution of sodium hydroxide (NaOH). After 3 minutes incubation the NaOH solution was collected in a vial and a further 0.8 mL 4 mol/L NaOH added to the SPE cartridge to repeat the procedure. Thereafter the SPE cartridge was washed with 3 mL water and the wash solution combined with the collected NaOH solution. Then 2.2 mL of 6 mol/L HCl was then added with heating to 60°C for 5 minutes to remove the Boc protecting group. The resulting solution was purified by passing through (i) an ion retardation column to remove Na+ from excess NaOH and Cl~ from extra HCl needed to neutralise excess of NaOH to get a highly acidic solution before the acidic hydrolysis step, (ii) an alumina column, and (iii) a reverse-phase column. There is scope for the deprotection step(s) and/or the
purification step in the production of [18F]-FACBC to be simplified.
Example 1: Synthesis of f FIFACBC
No-carrier- added [18F]fluoride was produced via the 180(p,n)18F nuclear reaction on a GE PETtrace 6 cyclotron (Norwegian Cyclotron Centre, Oslo). Irradiations were performed using a dual-beam, 30μΑ current on two equal Ag targets with HAVAR foils using 16.5 MeV protons. Each target contained 1.6 ml of > 96% water (Marshall Isotopes). Subsequent to irradiation and delivery to a hotcell, each target was washed with 1.6 ml of water (Merck, water for GR analysis), giving approximately 2-5 Gbq in 3.2 ml of water. All radiochemistry was performed on a commercially available GE FASTlab™ with single-use cassettes. Each cassette is built around a one-piece-moulded manifold with 25 three-way stopcocks, all made of polypropylene. Briefly, the cassette includes a 5 ml reactor (cyclic olefin copolymer), one 1 ml syringe and two 5 ml syringes, spikes for connection with five prefilled vials, one water bag (100 ml) as well as various SPE cartridges and filters. Fluid paths are controlled with nitrogen purging, vacuum and the three syringes. The fully automated system is designed for single-step fluorinations with cyclotron-produced [18F]fluoride. The FASTlab was programmed by the software package in a step-by-step time-dependent sequence of events such as moving the syringes, nitrogen purging, vacuum, and temperature regulation. Synthesis of
[18F]FACBC followed the three general steps: (a) [18F]fluorination, (b) hydrolysis of protection groups and (c) SPE purification.
Vial A contained K222 (58.8 mg, 156 μπιοΐ), K2C03 (8.1 mg, 60.8 μπιοΐ) in 79.5% (v/v)
MeCN(aq) (1105 μΐ). Vial B contained 4M HC1 (2.0 ml). Vial C contained MeCN
(4.1ml). Vial D contained the precursor (48.4 mg, 123.5 μιηοΐ) in its dry form (stored at -20 °C until cassette assembly). Vial E contained 2 M NaOH (4.1 ml). The 30 ml product collection glass vial was filled with 200 mM trisodium citrate (10 ml). Aqueous
[18F]fluoride (1-1.5 ml, 100-200 Mbq) was passed through the QMA and into the 180-
H20 recovery vial. The QMA was then flushed with MeCN and sent to waste. The trapped [18F]fluoride was eluted into the reactor using eluent from vial A (730 μΐ) and then concentrated to dryness by azeotropic distillation with acetonitrile (80 μΐ, vial C). Approximately 1.7 ml of MeCN was mixed with precursor in vial D from which 1.0 ml of the dissolved precursor (corresponds to 28.5 mg, 72.7 mmol precursor) was added to the reactor and heated for 3 min at 85°C. The reaction mixture was diluted with water and sent through the tC18 cartridge. Reactor was washed with water and sent through the tC18 cartridge. The labelled intermediate, fixed on the tC18 cartridge was washed with water, and then incubated with 2M NaOH (2.0 ml) for 5 min after which the 2M NaOH was sent to waste. The labelled intermediate (without the ester group) was then eluted off the tC18 cartridge into the reactor using water. The BOC group was hydrolysed by adding 4M HC1 (1.4 ml) and heating the reactor for 5 min at 60 °C. The reactor content with the crude [18F]FACBC was sent through the HLB and Alumina cartridges and into the 30 ml product vial. The HLB and Alumina cartridges were washed with water (9.1 ml total) and collected in the product vial. Finally, 2M NaOH (0.9 ml) and water (2.1 ml) was added to the product vial, giving a purified formulation of [18F]FACBC with a total volume of 26 ml. Radiochemical purity was measured by radio-TLC using a mixture of MeCN:MeOH:H20:CH3COOH (20:5:5: 1) as the mobile phase. The radiochemical yield (RCY) was expressed as the amount of radioactivity in the [18F]FACBC fraction divided by the total used [18F]fluoride activity (decay corrected). Total synthesis time was 43 min.
The RCY of [18F]FACBC was 62.5% ± 1.93 (SD), n=4.
/////FDA, diagnostic imaging agent, recurrent prostate cancer, fda 2016, Axumin, marketed, Blue Earth Diagnostics, Ltd., Oxford, United Kingdom, fluciclovine F 18
|Axumin : EPAR – Summary for the public||EN = English||06/07/2017|