WO2002094233A1 - Delivery of antiemetics through an inhalation route - Google Patents
Delivery of antiemetics through an inhalation route Download PDFInfo
- Publication number
- WO2002094233A1 WO2002094233A1 PCT/US2002/015768 US0215768W WO02094233A1 WO 2002094233 A1 WO2002094233 A1 WO 2002094233A1 US 0215768 W US0215768 W US 0215768W WO 02094233 A1 WO02094233 A1 WO 02094233A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- aerosol
- percent
- particles
- weight
- granisetron
- Prior art date
Links
- 239000002111 antiemetic agent Substances 0.000 title claims abstract description 74
- 230000003474 anti-emetic effect Effects 0.000 title claims abstract description 73
- 229940125683 antiemetic agent Drugs 0.000 title abstract description 11
- 239000000443 aerosol Substances 0.000 claims abstract description 251
- 239000002245 particle Substances 0.000 claims abstract description 147
- 239000000203 mixture Substances 0.000 claims abstract description 45
- 241000124008 Mammalia Species 0.000 claims abstract description 34
- 238000000034 method Methods 0.000 claims abstract description 26
- 238000009833 condensation Methods 0.000 claims abstract description 25
- 230000005494 condensation Effects 0.000 claims abstract description 25
- 238000010438 heat treatment Methods 0.000 claims abstract description 22
- 238000002664 inhalation therapy Methods 0.000 claims abstract description 5
- MFWNKCLOYSRHCJ-BTTYYORXSA-N granisetron Chemical compound C1=CC=C2C(C(=O)N[C@H]3C[C@H]4CCC[C@@H](C3)N4C)=NN(C)C2=C1 MFWNKCLOYSRHCJ-BTTYYORXSA-N 0.000 claims description 60
- 229960003727 granisetron Drugs 0.000 claims description 60
- UKTAZPQNNNJVKR-KJGYPYNMSA-N chembl2368925 Chemical compound C1=CC=C2C(C(O[C@@H]3C[C@@H]4C[C@H]5C[C@@H](N4CC5=O)C3)=O)=CNC2=C1 UKTAZPQNNNJVKR-KJGYPYNMSA-N 0.000 claims description 53
- 229960003413 dolasetron Drugs 0.000 claims description 53
- TTWJBBZEZQICBI-UHFFFAOYSA-N metoclopramide Chemical compound CCN(CC)CCNC(=O)C1=CC(Cl)=C(N)C=C1OC TTWJBBZEZQICBI-UHFFFAOYSA-N 0.000 claims description 50
- 229960004503 metoclopramide Drugs 0.000 claims description 50
- 239000007857 degradation product Substances 0.000 claims description 21
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- 239000003814 drug Substances 0.000 description 47
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- BLUGYPPOFIHFJS-UUFHNPECSA-N (2s)-n-[(2s)-1-[[(3r,4s,5s)-3-methoxy-1-[(2s)-2-[(1r,2r)-1-methoxy-2-methyl-3-oxo-3-[[(1s)-2-phenyl-1-(1,3-thiazol-2-yl)ethyl]amino]propyl]pyrrolidin-1-yl]-5-methyl-1-oxoheptan-4-yl]-methylamino]-3-methyl-1-oxobutan-2-yl]-3-methyl-2-(methylamino)butanamid Chemical compound CN[C@@H](C(C)C)C(=O)N[C@@H](C(C)C)C(=O)N(C)[C@@H]([C@@H](C)CC)[C@H](OC)CC(=O)N1CCC[C@H]1[C@H](OC)[C@@H](C)C(=O)N[C@H](C=1SC=CN=1)CC1=CC=CC=C1 BLUGYPPOFIHFJS-UUFHNPECSA-N 0.000 description 4
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- NOOLISFMXDJSKH-UTLUCORTSA-N (+)-Neomenthol Chemical compound CC(C)[C@@H]1CC[C@@H](C)C[C@@H]1O NOOLISFMXDJSKH-UTLUCORTSA-N 0.000 description 1
- MFWNKCLOYSRHCJ-AGUYFDCRSA-N 1-methyl-N-[(1S,5R)-9-methyl-9-azabicyclo[3.3.1]nonan-3-yl]-3-indazolecarboxamide Chemical compound C1=CC=C2C(C(=O)NC3C[C@H]4CCC[C@@H](C3)N4C)=NN(C)C2=C1 MFWNKCLOYSRHCJ-AGUYFDCRSA-N 0.000 description 1
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- OSWFIVFLDKOXQC-UHFFFAOYSA-N 4-(3-methoxyphenyl)aniline Chemical compound COC1=CC=CC(C=2C=CC(N)=CC=2)=C1 OSWFIVFLDKOXQC-UHFFFAOYSA-N 0.000 description 1
- RXEOYAKUNXAFKW-UHFFFAOYSA-N 8H-quinolizin-2-yl 1H-indole-3-carboxylate Chemical compound C=1CC=CN2C=CC(=CC=12)OC(=O)C1=CNC2=CC=CC=C12 RXEOYAKUNXAFKW-UHFFFAOYSA-N 0.000 description 1
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- QYZRTBKYBJRGJB-UHFFFAOYSA-N hydron;1-methyl-n-(9-methyl-9-azabicyclo[3.3.1]nonan-3-yl)indazole-3-carboxamide;chloride Chemical compound Cl.C1=CC=C2C(C(=O)NC3CC4CCCC(C3)N4C)=NN(C)C2=C1 QYZRTBKYBJRGJB-UHFFFAOYSA-N 0.000 description 1
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Classifications
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- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/0012—Galenical forms characterised by the site of application
- A61K9/007—Pulmonary tract; Aromatherapy
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- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
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- A61K31/13—Amines
- A61K31/135—Amines having aromatic rings, e.g. ketamine, nortriptyline
- A61K31/137—Arylalkylamines, e.g. amphetamine, epinephrine, salbutamol, ephedrine or methadone
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- A61K31/135—Amines having aromatic rings, e.g. ketamine, nortriptyline
- A61K31/138—Aryloxyalkylamines, e.g. propranolol, tamoxifen, phenoxybenzamine
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- A61K31/16—Amides, e.g. hydroxamic acids
- A61K31/165—Amides, e.g. hydroxamic acids having aromatic rings, e.g. colchicine, atenolol, progabide
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- A61K31/166—Amides, e.g. hydroxamic acids having aromatic rings, e.g. colchicine, atenolol, progabide having the carbon of a carboxamide group directly attached to the aromatic ring, e.g. procainamide, procarbazine, metoclopramide, labetalol
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- A61K31/19—Carboxylic acids, e.g. valproic acid
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- A61K31/40—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having five-membered rings with one nitrogen as the only ring hetero atom, e.g. sulpiride, succinimide, tolmetin, buflomedil
- A61K31/403—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having five-membered rings with one nitrogen as the only ring hetero atom, e.g. sulpiride, succinimide, tolmetin, buflomedil condensed with carbocyclic rings, e.g. carbazole
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- A61K31/40—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having five-membered rings with one nitrogen as the only ring hetero atom, e.g. sulpiride, succinimide, tolmetin, buflomedil
- A61K31/403—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having five-membered rings with one nitrogen as the only ring hetero atom, e.g. sulpiride, succinimide, tolmetin, buflomedil condensed with carbocyclic rings, e.g. carbazole
- A61K31/404—Indoles, e.g. pindolol
- A61K31/405—Indole-alkanecarboxylic acids; Derivatives thereof, e.g. tryptophan, indomethacin
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Definitions
- the present invention relates to the delivery of antiemetics through an inhalation route. Specifically, it relates to aerosols containing antiemetics that are used in inhalation therapy.
- compositions currently marketed as antiemetics contain at least one active ingredient that provides for observed therapeutic effects.
- active ingredients given in such antiemetic compositions are dolasetron and granisetron.
- the present invention relates to the delivery of antiemetics through an inhalation route. Specifically, it relates to aerosols containing antiemetics that are used in inhalation therapy.
- the aerosol comprises particles comprising at least 5 percent by weight of an antiemetic.
- the particles comprise at least 10 percent by weight of an antiemetic. More preferably, the particles comprise at least 20 percent, 30 percent, 40 percent, 50 percent, 60 percent, 70 percent, 80 percent, 90 percent, 95 percent, 97 percent, 99 percent, 99.5 percent or 99.97 percent by weight of an antiemetic.
- the aerosol has a mass of at least 10 ⁇ g.
- the aerosol has a mass of at least 100 ⁇ g. More preferably, the aerosol has a mass of at least 200 ⁇ g.
- the particles comprise less than 10 percent by weight of antiemetic degradation products.
- the particles comprise less than 5 percent by weight of antiemetic degradation products. More preferably, the particles comprise less than 2.5, 1, 0.5, 0.1 or 0.03 percent by weight of antiemetic degradation products.
- the particles comprise less than 90 percent by weight of water.
- the particles comprise less than 80 percent by weight of water.
- the particles comprise less than 70 percent, 60 percent, 50 percent, 40 percent, 30 percent, 20 percent, 10 percent, or 5 percent by weight of water.
- At least 50 percent by weight of the aerosol is amorphous in form, wherein crystalline forms make up less than 50 percent by weight of the total aerosol weight, regardless of the nature of individual particles.
- at least 75 percent by weight of the aerosol is amorphous in form. More preferably, at least 90 percent by weight of the aerosol is amorphous in form.
- the aerosol particles have a mass median aerodynamic diameter of less than 5 microns.
- the particles have a mass median aerodynamic diameter of less than 3 microns. More preferably, the particles have a mass median aerodynamic diameter of less than 2 or 1 micron(s).
- the geometric standard deviation around the mass median aerodynamic diameter of the aerosol particles is less than 3.
- the geometric standard deviation is less than 2.5. More preferably, the geometric standard deviation is less than 2.3.
- the aerosol is formed by heating a composition containing an antiemetic to form a vapor and subsequently allowing the vapor to condense into an aerosol.
- the aerosol comprises particles comprising at least 5 percent by weight of dolasetron, granisetron, or metoclopramide.
- the particles comprise at least 10 percent by weight of dolasetron, granisetron, or metoclopramide. More preferably, the particles comprise at least 20 percent, 30 percent, 40 percent, 50 percent, 60 percent, 70 percent, 80 percent, 90 percent, 95 percent, 97 percent, 99 percent, 99.5 percent or 99.97 percent by weight of dolasetron, granisetron, or metoclopramide.
- the aerosol has a mass of at least 10 ⁇ g.
- the aerosol has a mass of at least 100 ⁇ g. More preferably, the aerosol has a mass of at least 200 ⁇ g.
- the particles comprise less than 10 percent by weight of dolasetron, granisetron, or metoclopramide degradation products.
- the particles comprise less than 5 percent by weight of dolasetron, granisetron, or metoclopramide degradation products. More preferably, the particles comprise less than 2.5, 1, 0.5, 0.1 or 0.03 percent by weight of dolasetron, granisetron, or metoclopramide.
- the particles comprise less than 90 percent by weight of water.
- the particles comprise less than 80 percent by weight of water.
- the particles comprise less than 70 percent, 60 percent, 50 percent, 40 percent, 30 percent, 20 percent, 10 percent, or 5 percent by weight of water.
- At least 50 percent by weight of the aerosol is amorphous in form, wherein crystalline forms make up less than 50 percent by weight of the total aerosol weight, regardless of the nature of individual particles.
- at least 75 percent by weight of the aerosol is amorphous in form. More preferably, at least 90 percent by weight of the aerosol is amorphous in form.
- the aerosol has an inhalable aerosol drug mass density of between 5 mg/L and 150 mg/L.
- the aerosol has an inhalable aerosol drug mass density of between 10 mg/L and 120 mg/L. More preferably, the aerosol has an inhalable aerosol drug mass density of between 20 mg/L and 100 mg/L.
- the aerosol has an inhalable aerosol drug mass density of between 0.1 mg/L and 2 mg/L.
- the aerosol has an inhalable aerosol drug mass density of between 0.2 mg/L and 1.75 mg/L. More preferably, the aerosol has an inhalable aerosol drug mass density of between 0.4 mg/L and 1.5 mg/L.
- the aerosol comprises metoclopramide
- the aerosol has an inhalable aerosol drug mass density of between 1.0 mg/L and 20 mg/L.
- the aerosol has an inhalable aerosol drug mass density of between 1.5 mg/L and 15 mg/L. More preferably, the aerosol has an inhalable aerosol drug mass density of between 2.0 mg/L and 10 mg/L.
- the aerosol has an inhalable aerosol particle density greater than 10 6 particles/mL.
- the aerosol has an inhalable aerosol particle density greater than 10 particles/mL or 10 particles/mL.
- the aerosol particles have a mass median aerodynamic diameter of less than 5 microns.
- the particles Preferably, the particles have a mass median aerodynamic diameter of less than 3 microns. More preferably, the particles have a mass median aerodynamic diameter of less than 2 or 1 micron(s).
- the geometric standard deviation around the mass median aerodynamic diameter of the aerosol particles is less than 3.0.
- the geometric standard deviation is less than 2.5. More preferably, the geometric standard deviation is less than 2.3.
- the aerosol is formed by heating a composition containing dolasetron, granisetron, or metoclopramide to form a vapor and subsequently allowing the vapor to condense into an aerosol.
- an antiemetic is delivered to a mammal through an inhalation route.
- the method comprises: a) heating a composition, wherein the composition comprises at least 5 percent by weight of an antiemetic, to form a vapor; and, b) allowing the vapor to cool, thereby forming a condensation aerosol comprising particles, which is inhaled by the mammal.
- the composition that is heated comprises at least 10 percent by weight of an antiemetic. More preferably, the composition comprises at least
- the particles comprise at least 5 percent by weight of an antiemetic.
- the particles comprise at least 10 percent by weight of an antiemetic. More preferably, the particles comprise at least 20 percent, 30 percent, 40 percent, 50 percent, 60 percent, 70 percent, 80 percent, 90 percent, 95 percent, 97 percent, 99 percent, 99.5 percent, 99.9 percent or 99.97 percent by weight of an antiemetic.
- the condensation aerosol has a mass of at least 10 ⁇ g.
- the aerosol has a mass of at least 100 ⁇ . More preferably, the aerosol has a mass of at least 200 ⁇ g.
- the particles comprise less than 10 percent by weight of antiemetic degradation products.
- the particles comprise less than 5 percent by weight of antiemetic degradation products. More preferably, the particles comprise 2.5, 1, 0.5, 0.1 or 0.03 percent by weight of antiemetic degradation products.
- the particles comprise less than 90 percent by weight of water.
- the particles comprise less than 80 percent by weight of water.
- the particles comprise less than 70 percent, 60 percent, 50 percent, 40 percent, 30 percent, 20 percent, 10 percent, or 5 percent by weight of water.
- At least 50 percent by weight of the aerosol is amorphous in form, wherein crystalline forms make up less than 50 percent by weight of the total aerosol weight, regardless of the nature of individual particles.
- at least 75 percent by weight of the aerosol is amorphous in form. More preferably, at least 90 percent by weight of the aerosol is amorphous in form.
- the particles of the delivered condensation aerosol have a mass median aerodynamic diameter of less than 5 microns.
- the particles have a mass median aerodynamic diameter of less than 3 microns. More preferably, the particles have a mass median aerodynamic diameter of less than 2 or 1 micron(s).
- the geometric standard deviation around the mass median aerodynamic diameter of the aerosol particles is less than 3.0.
- the geometric standard deviation is less than 2.5. More preferably, the geometric standard deviation is less than 2.3.
- the delivered aerosol has an inhalable aerosol particle density greater than 10 6 particles/mL.
- the aerosol has an inhalable
- the rate of inhalable aerosol particle formation of the delivered condensation aerosol is greater than 10 particles per second.
- the aerosol is formed at a rate greater than 10 9 inhalable particles per second. More preferably, the aerosol is formed at a rate greater than 10 10 inhalable particles per second.
- the delivered condensation aerosol is formed at a rate greater than 0.5 mg/second.
- the aerosol is formed at a rate greater than 0.75 mg/second. More preferably, the aerosol is formed at a rate greater than 1 mg/second, 1.5 mg/second or 2 mg/second.
- the delivered condensation aerosol results in a peak plasma concentration of an antiemetic in the mammal in less than 1 h.
- the peak plasma concentration is reached in less than 0.5 h. More preferably, the peak plasma concentration is reached in less than 0.2, 0.1, 0.05, 0.02, 0.01, or 0.005 h (arterial measurement).
- one of dolasetron, granisetron, or metoclopramide is delivered to a mammal through an inhalation route.
- the method comprises: a) heating a composition, wherein the composition comprises at least 5 percent by weight of dolasetron, granisetron, or metoclopramide, to form a vapor; and, b) allowing the vapor to cool, thereby forming a condensation aerosol comprising particles, which is inhaled by the mammal.
- the composition that is heated comprises at least 10 percent by weight of dolasetron, granisetron, or metoclopramide.
- the composition comprises at least 20 percent, 30 percent, 40 percent, 50 percent, 60 percent, 70 percent, 80 percent, 90 percent, 95 percent, 97 percent, 99 percent, 99.5 percent, 99.9 percent or 99.97 percent by weight of dolasetron, granisetron, or metoclopramide.
- the particles comprise at least 5 percent by weight of dolasetron, granisetron, or metoclopramide.
- the particles comprise at least 10 percent by weight of dolasetron, granisetron, or metoclopramide.
- the particles comprise at least 20 percent, 30 percent, 40 percent, 50 percent, 60 percent, 70 percent, 80 percent, 90 percent, 95 percent, 97 percent, 99 percent, 99.5 percent, 99.9 percent or 99.97 percent by weight of dolasetron, granisetron, or metoclopramide.
- the condensation aerosol has a mass of at least 10 ⁇ g.
- the aerosol has a mass of at least 100 ⁇ g. More preferably, the aerosol has a mass of at least 200 ⁇ g.
- the particles comprise less than 10 percent by weight of dolasetron, granisetron, or metoclopramide degradation products.
- the particles comprise less than 5 percent by weight of dolasetron, granisetron, or metoclopramide degradation products. More preferably, the particles comprise
- the particles comprise less than 90 percent by weight of water.
- the particles comprise less than 80 percent by weight of water.
- the particles comprise less than 70 percent, 60 percent, 50 percent, 40 percent, 30 percent, 20 percent, 10 percent, or 5 percent by weight of water.
- At least 50 percent by weight of the aerosol is amorphous in form, wherein crystalline forms make up less than 50 percent by weight of the total aerosol weight, regardless of the nature of individual particles.
- at least 75 percent by weight of the aerosol is amorphous in form. More preferably, at least 90 percent by weight of the aerosol is amorphous in form.
- the particles of the delivered condensation aerosol have a mass median aerodynamic diameter of less than 5 microns.
- the particles have a mass median aerodynamic diameter of less than 3 microns. More preferably, the particles have a mass median aerodynamic diameter of less than 2 or 1 micron(s).
- the geometric standard deviation around the mass median aerodynamic diameter of the aerosol particles is less than 3.0.
- the geometric standard deviation is less than 2.5. More preferably, the geometric standard deviation is less than 2.3.
- the delivered aerosol has an inhalable aerosol drug mass density of between 5 mg/L and 150 mg/L.
- the aerosol has an inhalable aerosol drug mass density of between 10 mg/L and 120 mg/L. More preferably, the aerosol has an inhalable aerosol drug mass density of between 20 mg/L and 100 mg/L.
- the delivered aerosol has an inhalable aerosol drug mass density of between 0.1 mg/L and 2 mg/L.
- the aerosol has an inhalable aerosol drug mass density of between 0.2 mg/L and 1.75 mg/L. More preferably, the aerosol has an inhalable aerosol drug mass density of between 0.4 mg/L and 1.5 mg/L.
- the delivered aerosol has an inhalable aerosol drug mass density of between 1 mg/L and 20 mg/L.
- the aerosol has an inhalable aerosol drug mass density of between 1.5 mg/L and 15 mg/L. More preferably, the aerosol has an inhalable aerosol drug mass density of between 2.0 mg/L and 10 mg/L.
- the delivered aerosol has an inhalable aerosol particle density greater than 10 6 particles/mL.
- the aerosol has an inhalable
- the rate of inhalable aerosol particle formation of the delivered condensation aerosol is greater than 10 particles per second.
- the aerosol is formed at a rate greater than 10 9 inhalable particles per second. More preferably, the aerosol is formed at a rate greater than 10 10 inhalable particles per second.
- the delivered condensation aerosol is formed at a rate greater than 0.5 mg/second.
- the aerosol is formed at a rate greater than 0.75 mg/second. More preferably, the aerosol is formed at a rate greater than 1 mg/second, 1.5 mg/second or 2 mg/second.
- the condensation aerosol comprises dolasetron
- between 5 mg and 150 mg of dolasetron are delivered to the mammal in a single inspiration.
- between 10 mg and 120 mg of dolasetron are delivered to the mammal in a single inspiration. More preferably, between 20 mg and 100 mg of dolasetron are delivered in a single inspiration.
- the condensation aerosol comprises granisetron
- between 0.1 mg and 2 mg of granesetron are delivered to the mammal in a single inspiration.
- the condensation aerosol comprises metoclopramide
- between 1.0 mg and 20 mg of metoclopramide are delivered to the mammal in a single inspiration.
- the delivered condensation aerosol results in a peak plasma concentration of dolasetron, granisetron, or metoclopramide in the mammal in less than 1 h.
- the peak plasma concentration is reached in less than 0.5 h.
- kits for delivering an antiemetic through an inhalation route to a mammal which comprises: a) a composition comprising at least 5 percent by weight of an antiemetic; and, b) a device that forms an antiemetic aerosol from the composition, for inhalation by the mammal.
- the composition comprises at least 20 percent, 30 percent, 40 percent, 50 percent, 60 percent, 70 percent, 80 percent, 90 percent, 95 percent, 97 percent, 99 percent, 99.5 percent, 99.9 percent or 99.97 percent by weight of an antiemetic.
- the device contained in the kit comprises: a) an element for heating the antiemetic composition to form a vapor; b) an element allowing the vapor to cool to form an aerosol; and, c) an element permitting the mammal to inhale the aerosol.
- kits for delivering dolasetron, granisetron, or metoclopramide through an inhalation route to a mammal which comprises: a) a composition comprising at least 5 percent by weight of dolasetron, granisetron, or metoclopramide; and, b) a device that forms a dolasetron, granisetron, or metoclopramide aerosol from the composition, for inhalation by the mammal.
- the composition comprises at least 20 percent, 30 percent, 40 percent, 50 percent, 60 percent, 70 percent, 80 percent, 90 percent, 95 percent, 97 percent, 99 percent, 99.5 percent, 99.9 percent or 99.97 percent by weight of dolasetron, granisetron, or metoclopramide.
- the device contained in the kit comprises: a) an element for heating the dolasetron, granisetron, or metoclopramide composition to form a vapor; b) an element allowing the vapor to cool to form an aerosol; and, c) an element permitting the mammal to inhale the aerosol.
- FIG. 1 shows a cross-sectional view of a device used to deliver antiemetic aerosols to a mammal through an inhalation route.
- Aerodynamic diameter of a given particle refers to the diameter of a spherical droplet with a density of 1 g/mL (the density of water) that has the same settling velocity as the given particle.
- “Aerosol” refers to a suspension of solid or liquid particles in a gas.
- “Aerosol drug mass density” refers to the mass of antiemetic per unit volume of aerosol.
- Aerosol mass density refers to the mass of particulate matter per unit volume of aerosol.
- Aerosol particle density refers to the number of particles per unit volume of aerosol.
- Amorphous particle refers to a particle that does not contain more than 50 percent by weight of a crystalline form. Preferably, the particle does not contain more than 25 percent by weight of a crystalline form. More preferably, the particle does not contain more than 10 percent by weight of a crystalline form.
- Antiemetic degradation product refers to a compound resulting from a chemical modification of an antiemetic.
- the modification for example, can be the result of a thermally or photochemically induced reaction.
- Such reactions include, without limitation, oxidation and hydrolysis
- Condensation aerosol refers to an aerosol formed by vaporization of a substance followed by condensation of the substance into an aerosol.
- Dolasetron refers to (2 ⁇ ,6 ⁇ ,8 ⁇ ,9a ⁇ )-octahydro-3-oxo-2,6-methano-
- Dolasetron degradation product refers to a compound resulting from a chemical modification of dolasetron.
- the modification for example, can be the result of a thermally or photochemically induced reaction.
- Such reactions include, without limitation, oxidation and hydrolysis.
- An example of such a degradation product is C H 7 NO 2 (oxidation next to ester oxygen yielding a carboxylic acid).
- Gramisetron refers to e « o-N-(9-methyl-9-azabicyclo [3.3.1] non-3- y 1)- 1 -methyl- 1 H-indazole-3 -carboxamide .
- Gramisetron degradation product refers to a compound resulting from a chemical modification of granisetron.
- the modification for example, can be the result of a thermally or photochemically induced reaction.
- Such reactions include, without limitation, oxidation and hydrolysis.
- Examples of such degradation products include C H 9 N 3 O (oxidation of carbon next to amide nitrogen to provide primary amide) and C 8 H 7 N 3 O (demethylation of C 9 H 9 N 3 O).
- Inhalable aerosol drug mass density refers to the aerosol drug mass density produced by an inhalation device and delivered into a typical patient tidal volume.
- Inhalable aerosol mass density refers to the aerosol mass density produced by an inhalation device and delivered into a typical patient tidal volume.
- “Inhalable aerosol particle density” refers to the aerosol particle density of particles of size between 100 nm and 5 microns produced by an inhalation device and delivered into a typical patient tidal volume.
- Mass median aerodynamic diameter or “MMAD” of an aerosol refers to the aerodynamic diameter for which half the particulate mass of the aerosol is contributed by particles with an aerodynamic diameter larger than the
- Methodoclopramide refers to 4-amino-5-chloro-N-[(2- diethylamino)ethyl]-2-methoxybenzamide.
- Metaloclopramide degradation product refers to a compound resulting from a chemical modification of metoclopramide.
- the modification for example, can be the result of a thermally or photochemically induced reaction.
- Such reactions include, without limitation, oxidation and hydrolysis.
- Examples of such degradation products include C 8 H 9 N 2 O 2 Cl (oxidation of carbon next to amide nitrogen to provide primary amide) and C 7 H N 2 O 2 Cl (demethylation of
- Rate of aerosol formation refers to the mass of aerosolized particulate matter produced by an inhalation device per unit time.
- Rate of inhalable aerosol particle formation refers to the number of particles of size between 100 nm and 5 microns produced by an inhalation device per unit time.
- Rateate of drug aerosol formation refers to the mass of aerosolized antiemetic produced by an inhalation device per unit time.
- Settling velocity refers to the terminal velocity of an aerosol particle undergoing gravitational settling in air.
- Typical patient tidal volume refers to 1 L for an adult patient and 15 mL/kg for a pediatric patient.
- Vapor refers to a gas
- vapor phase refers to a gas phase
- thermal vapor refers to a vapor phase, aerosol, or mixture of aerosol-vapor phases, formed preferably by heating. Formation of Antiemetic Containing Aerosols
- any suitable method is used to form the aerosols of the present invention.
- a preferred method involves heating a composition comprising an antiemetic to form a vapor, followed by cooling of the vapor such that it condenses to provide an antiemetic comprising aerosol (condensation aerosol).
- the composition is heated in one of four forms: as pure active compound (i.e., pure dolasetron, granisetron, or metoclopramide); as a mixture of active compound and a pharmaceutically acceptable excipient; as a salt form of the pure active compound; and, as a mixture of active compound salt form and a pharmaceutically acceptable excipient.
- Salt forms of antiemetics are either commercially available or are obtained from the corresponding free base using well known methods in the art.
- a variety of pharmaceutically acceptable salts are suitable for aerosolization. Such salts include, without limitation, the following: hydrochloric acid, hydrobromic acid, acetic acid, maleic acid, formic acid, and fumaric acid salts.
- Pharmaceutically acceptable excipients may be volatile or nonvolatile. Volatile excipients, when heated, are concurrently volatilized, aerosolized and inhaled with the antiemetic.
- Classes of such excipients include, without limitation, gaseous, supercritical fluid, liquid and solid solvents.
- gaseous, supercritical fluid, liquid and solid solvents include, without limitation, gaseous, supercritical fluid, liquid and solid solvents.
- exemplary carriers within the classes water; terpenes, such as menthol; alcohols, such as ethanol, propylene glycol, glycerol and other similar alcohols; dimethylformamide; dimethylacetamide; wax; supercritical carbon dioxide; dry ice; and mixtures thereof.
- Solid supports on which the composition is heated are of a variety of shapes. Examples of such shapes include, without limitation, cylinders of less than 1.0 mm in diameter, boxes of less than 1.0 mm thickness and virtually any shape permeated by small (e.g., less than 1.0 mm-sized) pores. Preferably, solid supports provide a large surface to volume ratio (e.g. , greater than 100 per meter) and a large surface to mass ratio (e.g., greater than 1 cm per gram). [0089] A solid support of one shape can also be transformed into another shape with different properties. For example, a flat sheet of 0.25 mm thickness has a surface to volume ratio of approximately 8,000 per meter. Rolling the sheet into a hollow cylinder of 1 cm diameter produces a support that retains the high surface to mass ratio of the original sheet but has a lower surface to volume ratio (about 400 per meter).
- a number of different materials are used to construct the solid supports. Classes of such materials include, without limitation, metals, inorganic materials, carbonaceous materials and polymers. The following are examples of the material classes: aluminum, silver, gold, stainless steel, copper and tungsten; silica, glass, silicon and alumina; graphite, porous carbons, carbon yarns and carbon felts; polytetrafluoroethylene and polyethylene glycol. Combinations of materials and coated variants of materials are used as well. [0091] Where aluminum is used as a solid support, aluminum foil is a suitable material. Examples of silica, alumina and silicon based materials include amphorous silica S-5631 (Sigma, St.
- the heating of the antiemetic compositions is performed using any suitable method.
- methods by which heat can be generated include the following: passage of current through an electrical resistance element; absorption of electromagnetic radiation, such as microwave or laser light; and, exothermic chemical reactions, such as exothermic solvation, hydration of pyrophoric materials and oxidation of combustible materials. Delivery of Antiemetic Containing Aerosols
- Antiemetic containing aerosols of the present invention are delivered to a mammal using an inhalation device.
- the aerosol is a condensation aerosol
- the device has at least three elements: an element for heating an antiemetic containing composition to form a vapor; an element allowing the vapor to cool, thereby providing a condensation aerosol; and, an element permitting the mammal to inhale the aerosol.
- an element that allows cooling is, in it simplest form, an inert passageway linking the heating means to the inhalation means.
- the element permitting inhalation is an aerosol exit portal that forms a connection between the cooling element and the mammal's respiratory system.
- Delivery device 100 has a proximal end 102 and a distal end 104, a heating module 106, a power source 108, and a mouthpiece 110.
- An antiemetic composition is deposited on a surface 112 of heating module 106.
- power source 108 initiates heating of heating module 106 (e.g, through ignition of combustible fuel or passage of current through a resistive heating element).
- the antiemetic composition volatilizes due to the heating of heating module 106 and condenses to form a condensation aerosol prior to reaching the mouthpiece 110 at the proximal end of the device 102. Air flow traveling from the device distal end 104 to the mouthpiece 110 carries the condensation aerosol to the mouthpiece 110, where it is inhaled by the mammal.
- Devices if desired, contain a variety of components to facilitate the delivery of antiemetic containing aerosols.
- the device may include any component known in the art to control the timing of drug aerosolization relative to inhalation (e.g., breath-actuation), to provide feedback to patients on the rate and/or volume of inhalation, to prevent excessive use (i.e., "lock-out” feature), to prevent use by unauthorized individuals, and/or to record dosing histories.
- the dosage amount of an antiemetic in aerosol form is generally no greater than twice the standard dose of the drug given orally.
- dolasetron, granisetron, and metoclopramide are given at strengths of 100 mg ,1 mg, and 10 mg respectively for the treatment of emesis.
- 20 mg to 150 mg of dolasetron, 0.2 mg to 2 mg of granisetron, and 1 mg to 20 mg of metoclopramide are generally provided for the same indication.
- a typical dosage of an antiemetic aerosol is either administered as a single inhalation or as a series of inhalations taken within an hour or less (dosage equals sum of inhaled amounts). Where the drug is administered as a series of inhalations, a different amount may be delivered in each inhalation.
- One animal experiment involves measuring plasma concentrations of drug in an animal after its exposure to the aerosol. Mammals such as dogs or primates are typically used in such studies, since their respiratory systems are similar to that of a human.
- Initial dose levels for testing in humans is generally less than or equal to the dose in the mammal model that resulted in plasma drug levels associated with a therapeutic effect in humans. Dose escalation in humans is then performed, until either an optimal therapeutic response is obtained or a dose-limiting toxicity is encountered.
- Purity of an antiemetic containing aerosol is determined using a number of methods, examples of which are described in Sekine et al, Journal of Forensic Science 32:1271-1280 (1987) and Martin et al, Journal of Analytic Toxicology 13:158-162 (1989).
- One method involves forming the aerosol in a device through which a gas flow (e.g., air flow) is maintained, generally at a rate between 0.4 and 60 L/min.
- the gas flow carries the aerosol into one or more traps.
- the aerosol is subjected to an analytical technique, such as gas or liquid chromatography, that permits a determination of composition purity.
- a variety of different traps are used for aerosol collection.
- the following list contains examples of such traps: filters; glass wool; impingers; solvent traps, such as dry ice-cooled ethanol, methanol, acetone and dichloromethane traps at various pH values; syringes that sample the aerosol; empty, low-pressure (e.g., vacuum) containers into which the aerosol is drawn; and, empty containers that fully surround and enclose the aerosol generating device.
- a solid such as glass wool
- it is typically extracted with a solvent such as ethanol.
- the solvent extract is subjected to analysis rather than the solid (i.e., glass wool) itself.
- the gas or liquid chromatograph discussed above contains a detection system (i.e., detector).
- detection systems are well known in the art and include, for example, flame ionization, photon absorption and mass specfrometry detectors.
- An advantage of a mass specfrometry detector is that it can be used to determine the structure of antiemetic degradation products.
- Particle size distribution of an antiemetic containing aerosol is determined using any suitable method in the art (e.g., cascade impaction).
- Inhalable aerosol mass density is determined, for example, by delivering a drug-containing aerosol into a confined chamber via an inhalation device and measuring the mass collected in the chamber.
- the aerosol is drawn into the chamber by having a pressure gradient between the device and the chamber, wherein the chamber is at lower pressure than the device.
- the volume of the chamber should approximate the tidal volume of an inhaling patient.
- Inhalable aerosol drug mass density is determined, for example, by delivering a drug-containing aerosol into a confined chamber via an inhalation device and measuring the amount of active drug compound collected in the chamber.
- the aerosol is drawn into the chamber by having a pressure gradient between the device and the chamber, wherein the chamber is at lower pressure than the device.
- the volume of the chamber should approximate the tidal volume of an inhaling patient.
- the amount of active drug compound collected in the chamber is determined by extracting the chamber, conducting chromatographic analysis of the extract and comparing the results of the chromatographic analysis to those of a standard containing known amounts of drug.
- Inhalable aerosol particle density is determined, for example, by delivering aerosol phase drug into a confined chamber via an inhalation device and measuring the number of particles of given size collected in the chamber.
- the number of particles of a given size may be directly measured based on the light-scattering properties of the particles.
- Number of particles in a given size range Mass in the size range/Mass of a typical particle in the size range.
- Mass of a typical particle in a given size range ⁇ *D * ⁇ /6, where D is a typical particle diameter in the size range (generally, the mean boundary MMADs defining the size range) in microns, ⁇ is the particle density (in g/mL) and mass is given in units of
- Rate of inhalable aerosol particle formation is determined, for example, by delivering aerosol phase drug into a confined chamber via an inhalation device. The delivery is for a set period of time (e.g., 3 s), and the number of particles of a given size collected in the chamber is determined as outlined above. The rate of particle formation is equal to the number of 100 nm to 5 micron particles collected divided by the duration of the collection time. [0106] Rate of aerosol formation is determined, for example, by delivering aerosol phase drug into a confined chamber via an inhalation device.
- the delivery is for a set period of time (e.g., 3 s), and the mass of particulate matter collected is determined by weighing the confined chamber before and after the delivery of the particulate matter.
- the rate of aerosol formation is equal to the increase in mass in the chamber divided by the duration of the collection time.
- the mass of particulate matter may be equated with the mass lost from the device or component during the delivery of the aerosol.
- the rate of aerosol formation is equal to the decrease in mass of the device or component during the delivery event divided by the duration of the delivery event.
- Rate of drug aerosol formation is determined, for example, by delivering an antiemetic containing aerosol into a confined chamber via an inhalation device over a set period of time (e.g., 3 s). Where the aerosol is pure antiemetic, the amount of drug collected in the chamber is measured as described above. The rate of drug aerosol formation is equal to the amount of antiemetic collected in the chamber divided by the duration of the collection time. Where the antiemetic containing aerosol comprises a pharmaceutically acceptable excipient, multiplying the rate of aerosol formation by the percentage of antiemetic in the aerosol provides the rate of drug aerosol formation.
- the antiemetic containing aerosols of the present invention are typically used to treat emesis.
- Metoclopramide hydrochloride is commercially available from Sigma (www, si gma-aldrich.com ' ) .
- Dolaseteron mesylate and granisetron hydrochloride are commercially available in solution (ANZEMET® and KYTRIL® respectively). Both compounds can be isolated using standard methods in the art.
- a solution of drug in approximately 120 ⁇ L dichloromethane is coated on a 3.5 cm x 7.5 cm piece of aluminum foil (precleaned with acetone). The dichloromethane is allowed to evaporate. The coated foil is wrapped around a 300 watt halogen tube (Feit Electric Company, Pico Rivera, CA), which is inserted into a glass tube sealed at one end with a rubber stopper. Running 60 V of alternating current (driven by line power controlled by a variac) through the bulb for 5-45 s (granisetron) or 90 V for 3.5 seconds (dolasetron) affords thermal vapor (including aerosol), which is collected on the glass tube walls. Reverse- phase HPLC analysis with detection by absorption of 225 nm light is used to determine the purity of the aerosol. (When desired, the system is flushed through with argon prior to volatilization.)
- Granisetron aerosol (1 mg) was obtained in 100% purity using this procedure.
- Dolasetron (0.7 mg) was obtained in greater than 99% purity (argon flush).
- the glass flask was further connected to a large piston capable of drawing 1.1 liters of air through the flask. Alternating current was run through the halogen bulb by application of 90 V using a variac connected to 110 V line power. Within 1 s, an aerosol appeared and was drawn into the 1 L flask by use of the piston, with collection of the aerosol terminated after 6 s. The aerosol was analyzed by connecting the 1 L flask to an eight-stage Andersen non-viable cascade impactor. Results are shown in table 1. MMAD of the collected aerosol was 1.1 microns with a geometric standard deviation of 2.2.
- the inhalable aerosol particle density is the sum of the numbers of particles collected on impactor stages 3 to 8 divided by the collection volume of 1 L, giving an inhalable aerosol particle density of 2.3 x 10 7 particles/mL.
- the rate of inhalable aerosol particle formation is the sum of the numbers of particles collected on impactor stages 3 through 8 divided by the formation time of 6 s, giving a rate of inhalable aerosol particle formation of 3.8 x 10 9 particles/second.
- Table 1 Determination of the characteristics of a granisetron condensation aerosol by cascade impaction using an Andersen 8-stage non-viable cascade impactor run at 1 cubic foot per minute air flow.
- Aerosol A solution of 1.1 mg granisetron in 100 ⁇ L dichloromethane was spread out in a thin layer on the central portion of a 3.5 cm x 7 cm sheet of aluminum foil. The dichloromethane was allowed to evaporate. The aluminum foil was wrapped around a 300 watt halogen tube, which was inserted into a T- shaped glass tube. Both of the openings of the tube were sealed with parafilm, which was punctured with fifteen needles for air flow. The third opening was connected to a 1 liter, 3 -neck glass flask. The glass flask was further connected to a large piston capable of drawing 1.1 liters of air through the flask.
- Alternating current was run through the halogen bulb by application of 90 V using a variac connected to 110 V line power.
- an aerosol appeared and was drawn into the 1 L flask by use of the piston, with formation of the aerosol terminated after 6 s.
- the aerosol was allowed to sediment onto the walls of the 1 L flask for approximately 30 minutes.
- the flask was then extracted with acetonitrile and the extract analyzed by HPLC with detection by light absorption at 225 nm. Comparison with standards containing known amounts of granisetron revealed that 0.4 mg of > 93% pure granisetron had been collected in the flask, resulting in an aerosol drug mass density of 0.4 mg/L.
- the aluminum foil upon which the granisetron had previously been coated was weighed following the experiment. Of the 1.1 mg originally coated on the aluminum, all of the material was found to have aerosolized in the 6 s time period, implying a rate of drug aerosol formation of 0.2 mg/s.
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Abstract
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Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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PCT/US2002/015768 WO2002094233A1 (en) | 2001-05-24 | 2002-05-17 | Delivery of antiemetics through an inhalation route |
DE60227660T DE60227660D1 (en) | 2001-05-24 | 2002-05-17 | RELEASE OF ANTIEMETICS ON THE INHALATION PATH |
EP02771848A EP1392264B1 (en) | 2001-05-24 | 2002-05-17 | Delivery of antiemetics through an inhalation route |
Applications Claiming Priority (5)
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US29420301P | 2001-05-24 | 2001-05-24 | |
US60/294,203 | 2001-05-24 | ||
US31747901P | 2001-09-05 | 2001-09-05 | |
US60/317,479 | 2001-09-05 | ||
PCT/US2002/015768 WO2002094233A1 (en) | 2001-05-24 | 2002-05-17 | Delivery of antiemetics through an inhalation route |
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WO2002094233A1 true WO2002094233A1 (en) | 2002-11-28 |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
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GB2472327A (en) * | 2009-07-31 | 2011-02-02 | Shin Nippon Biomedical Lab Ltd | Intranasal granisetron formulation |
US8337817B2 (en) | 2006-12-26 | 2012-12-25 | Shin Nippon Biomedical Laboratories, Ltd. | Preparation for transnasal application |
US8435554B2 (en) | 2003-02-21 | 2013-05-07 | Shin Nippon Biomedical Laboratories, Ltd. | Compositons for nasal administration of pharmaceuticals |
US8673360B2 (en) | 2004-08-10 | 2014-03-18 | Shin Nippon Biomedical Laboratories, Ltd. | Compositions that enable rapid-acting and highly absorptive intranasal administration |
USRE45404E1 (en) | 2003-03-27 | 2015-03-03 | Shin Nippon Biomedical Laboratories, Ltd. | Powder medicine applicator for nasal cavity |
US9101539B2 (en) | 2009-05-15 | 2015-08-11 | Shin Nippon Biomedical Laboratories, Ltd. | Intranasal pharmaceutical compositions with improved pharmacokinetics |
US9173403B2 (en) | 2010-04-02 | 2015-11-03 | Merial, Inc. | Parasiticidal compositions comprising multiple active agents, methods and uses thereof |
US11744967B2 (en) | 2017-09-26 | 2023-09-05 | Shin Nippon Biomedical Laboratories, Ltd. | Intranasal delivery devices |
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US5804212A (en) * | 1989-11-04 | 1998-09-08 | Danbiosyst Uk Limited | Small particle compositions for intranasal drug delivery |
WO2000027359A1 (en) * | 1998-11-12 | 2000-05-18 | Pilkiewicz Frank G | An inhalation system |
WO2002024158A2 (en) * | 2000-09-19 | 2002-03-28 | Advanced Inhalation Research, Inc. | Pulmonary delivery in treating disorders of the central nervous system |
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2002
- 2002-05-17 WO PCT/US2002/015768 patent/WO2002094233A1/en not_active Application Discontinuation
- 2002-05-17 DE DE60227660T patent/DE60227660D1/en not_active Expired - Lifetime
Patent Citations (3)
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US5804212A (en) * | 1989-11-04 | 1998-09-08 | Danbiosyst Uk Limited | Small particle compositions for intranasal drug delivery |
WO2000027359A1 (en) * | 1998-11-12 | 2000-05-18 | Pilkiewicz Frank G | An inhalation system |
WO2002024158A2 (en) * | 2000-09-19 | 2002-03-28 | Advanced Inhalation Research, Inc. | Pulmonary delivery in treating disorders of the central nervous system |
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8435554B2 (en) | 2003-02-21 | 2013-05-07 | Shin Nippon Biomedical Laboratories, Ltd. | Compositons for nasal administration of pharmaceuticals |
US9138410B2 (en) | 2003-02-21 | 2015-09-22 | Shin Nippon Biomedical Laboratories, Ltd. | Compositions for nasal administration of pharmaceuticals |
USRE45404E1 (en) | 2003-03-27 | 2015-03-03 | Shin Nippon Biomedical Laboratories, Ltd. | Powder medicine applicator for nasal cavity |
US8673360B2 (en) | 2004-08-10 | 2014-03-18 | Shin Nippon Biomedical Laboratories, Ltd. | Compositions that enable rapid-acting and highly absorptive intranasal administration |
US8337817B2 (en) | 2006-12-26 | 2012-12-25 | Shin Nippon Biomedical Laboratories, Ltd. | Preparation for transnasal application |
US10195139B2 (en) | 2006-12-26 | 2019-02-05 | Shin Nippon Biomedical Laboratories, Ltd. | Preparation for transnasal application |
US9101539B2 (en) | 2009-05-15 | 2015-08-11 | Shin Nippon Biomedical Laboratories, Ltd. | Intranasal pharmaceutical compositions with improved pharmacokinetics |
GB2472327A (en) * | 2009-07-31 | 2011-02-02 | Shin Nippon Biomedical Lab Ltd | Intranasal granisetron formulation |
GB2472327B (en) * | 2009-07-31 | 2013-03-13 | Shin Nippon Biomedical Lab Ltd | Intranasal granisetron and nasal applicator |
US8827946B2 (en) | 2009-07-31 | 2014-09-09 | Shin Nippon Biomedical Laboratories, Ltd. | Intranasal granisetron and nasal applicator |
US9173403B2 (en) | 2010-04-02 | 2015-11-03 | Merial, Inc. | Parasiticidal compositions comprising multiple active agents, methods and uses thereof |
US11744967B2 (en) | 2017-09-26 | 2023-09-05 | Shin Nippon Biomedical Laboratories, Ltd. | Intranasal delivery devices |
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