Myopia progression is safely and effectively reduced by topical administration of a storage-stable low-dose formulation in which atropine is present at a concentration of 0.01%. Unexpectedly, such formulation was proven more effective to reduce myopia progression as compared to an otherwise identical formulation containing 0.02% atropine. For example, formulations with an atropine concentration of about 0.01% slowed down myopia progression as compared to subjects not receiving treatment.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
A sterile multi-dose ophthalmic consumer product, and especially a multi-dose low-concentration atropine eye drop container is disclosed having desirable atropine stability, low loss of viscosity, and low levels of total impurities leached from the container even after extended storage in the container.
A61K 9/00 - Préparations médicinales caractérisées par un aspect particulier
A61K 31/439 - Composés hétérocycliques ayant l'azote comme hétéro-atome d'un cycle, p. ex. guanéthidine ou rifamycines ayant des cycles à six chaînons avec un azote comme seul hétéro-atome d'un cycle le cycle formant une partie d'un système cyclique ponté, p. ex. quinuclidine
A61K 47/32 - Composés macromoléculaires obtenus par des réactions faisant intervenir uniquement des liaisons non saturées carbone-carbone, p. ex. carbomères
The present disclosure is directed to novel ophthalmic formulations comprising a gabapentinoid and methods for treating corneal pain using said formulations.
A61K 31/197 - Acides carboxyliques, p. ex. acide valproïque ayant un groupe amino les groupes amino et carboxyle étant liés à la même chaîne carbone acyclique, p. ex. acide gamma-aminobutyrique [GABA], bêta-alanine, acide epsilon-aminocaproïque ou acide pantothénique
A61K 9/00 - Préparations médicinales caractérisées par un aspect particulier
A61K 31/195 - Acides carboxyliques, p. ex. acide valproïque ayant un groupe amino
Myopia progression is safely and effectively reduced by topical administration of a storage-stable low-dose formulation in which atropine is present at a concentration of 0.01%. Unexpectedly, such formulation was proven more effective to reduce myopia progression as compared to an otherwise identical formulation containing 0.02% atropine. For example, formulations with an atropine concentration of about 0.01% slowed down myopia progression as compared to subjects not receiving treatment.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
Ophthalmic formulations for treatment of night vision disturbance syndrome (NVD) are presented and preferably comprise brimonidine, rivastigmine, and/or galantamine at very low concentrations. Such formulations unexpectedly provided acute and transient therapeutic effect to alleviate one or more symptoms associated with NVD.
A61K 31/498 - Pyrazines ou pipérazines condensées en ortho ou en péri avec des systèmes carbocycliques, p. ex. quinoxaline, phénazine
A61K 31/27 - Esters, p. ex. nitroglycérine, sélénocyanates d'acides carbamiques ou thiocarbamiques, p. ex. méprobamate, carbachol, néostigmine
A61K 31/55 - Composés hétérocycliques ayant l'azote comme hétéro-atome d'un cycle, p. ex. guanéthidine ou rifamycines ayant des cycles à sept chaînons, p. ex. azélastine, pentylènetétrazole
A61K 31/221 - Esters, p. ex. nitroglycérine, sélénocyanates d'acides carboxyliques d'acides acycliques, p. ex. pravastatine avec des composés ayant un groupe amino, p. ex. acétylcholine, acétylcarnitine
A61K 9/00 - Préparations médicinales caractérisées par un aspect particulier
A topical ophthalmological formulation comprises carbachol at a low concentration that effects reduction in pupil diameter over time when repeatedly administered over at least a week. Such formulations are particularly beneficial where carbachol is the sole active agent in the treatment of presbyopia and night vision disturbance. Such and other formulations may also comprise modified carbachol exhibiting improved delivery to the pupillary muscle and will (further) beneficially reduce the required quantity of active agent while still producing a desired pupil size for a predetermined period of time. Moreover, such compositions may not require combination with a penetration enhancer, such as benzalkonium chloride, and will as such be better tolerated.
A61K 47/12 - Acides carboxyliquesLeurs sels ou anhydrides
A61K 31/27 - Esters, p. ex. nitroglycérine, sélénocyanates d'acides carbamiques ou thiocarbamiques, p. ex. méprobamate, carbachol, néostigmine
A61K 31/4178 - 1,3-Diazoles non condensés et contenant d'autres hétérocycles, p. ex. pilocarpine, nitrofurantoïne
A61K 31/498 - Pyrazines ou pipérazines condensées en ortho ou en péri avec des systèmes carbocycliques, p. ex. quinoxaline, phénazine
A61K 31/55 - Composés hétérocycliques ayant l'azote comme hétéro-atome d'un cycle, p. ex. guanéthidine ou rifamycines ayant des cycles à sept chaînons, p. ex. azélastine, pentylènetétrazole
A61K 45/06 - Mélanges d'ingrédients actifs sans caractérisation chimique, p. ex. composés antiphlogistiques et pour le cœur
A sterile multi-dose ophthalmic consumer product, and especially a multi-dose low- concentration atropine eye drop container is disclosed having desirable atropine stability, low loss of viscosity, and low levels of total impurities leached from the container even after extended storage in the container.
The present disclosure is directed to novel ophthalmic formulations comprising a gabapentinoid and methods for treating corneal pain using said formulations.
A61K 31/197 - Acides carboxyliques, p. ex. acide valproïque ayant un groupe amino les groupes amino et carboxyle étant liés à la même chaîne carbone acyclique, p. ex. acide gamma-aminobutyrique [GABA], bêta-alanine, acide epsilon-aminocaproïque ou acide pantothénique
A61P 25/04 - Analgésiques centraux, p. ex. opioïdes
A61P 29/00 - Agents analgésiques, antipyrétiques ou anti-inflammatoires non centraux, p. ex. agents antirhumatismauxMédicaments anti-inflammatoires non stéroïdiens [AINS]
Ophthalmic formulations for acute and transient treatment of night vision disturbance syndrome (NVD) are presented. Preferred formulations comprise carbachol at very low concentrations that were demonstrated to unexpectedly provide an acute and transient therapeutic effect for a desirable magnitude and period of time.
Ophthalmic formulations for treatment of night vision disturbance syndrome (NVD) are presented and preferably comprise brimonidine, rivastigmine, and/or galantamine at very low concentrations. Such formulations unexpectedly provided acute and transient therapeutic effect to alleviate one or more symptoms associated with NVD.
A61K 31/439 - Composés hétérocycliques ayant l'azote comme hétéro-atome d'un cycle, p. ex. guanéthidine ou rifamycines ayant des cycles à six chaînons avec un azote comme seul hétéro-atome d'un cycle le cycle formant une partie d'un système cyclique ponté, p. ex. quinuclidine
A61K 31/4409 - Pyridines non condenséesLeurs dérivés hydrogénés substituées uniquement en position 4, p. ex. isoniazide, iproniazide
Ophthalmic formulations for acute and transient treatment of night vision disturbance syndrome (NVD) are presented. Preferred formulations comprise carbachol at very low concentrations that were demonstrated to unexpectedly provide an acute and transient therapeutic effect for a desirable magnitude and period of time.
Ophthalmic formulations for acute and transient treatment of night vision disturbance syndrome (NVD) are presented. Preferred formulations comprise carbachol at very low concentrations that were demonstrated to unexpectedly provide an acute and transient therapeutic effect for a desirable magnitude and period of time.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
The inventive subject matter is directed to compositions and methods for sterile and storage stable low-dose atropine formulations with improved stability. Most preferably, the compositions presented herein are substantially preservative free and exhibit less than 0.35% tropic acid from degradation of atropine. Advantageously, contemplated formulations are also substantially free of preservatives.
