Patents by Inventor David Altreuter
David Altreuter has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240390270Abstract: Gastric residence systems for administration of risperidone are disclosed. Features which enhance gastric retention during the desired residence time and which allow for more precise control over residence time are disclosed, including circumferential filaments connecting the arms of a stellate gastric residence system; improved time-dependent and enteric disintegrating matrices (linkers); and release rate-modulating polymer coatings which are resistant to change in release rate properties during heat-assisted assembly or thermal cycling. Combinations of these features are also disclosed.Type: ApplicationFiled: January 19, 2022Publication date: November 28, 2024Inventors: Rosemary KANASTY, Tyler GRANT, David ALTREUTER, Alisha WEIGHT, Saumya MOORTHY, Marlene SCHWARZ, Jie JING, David C. DUFOUR, Erik Robert Waldemar RYDE, Nupura BHISE, Craig SIMSES, Erick PEEKE, Erica LAI, Tammy TAI, Juan Jaramillo MONTEZCO, Luigi ANNESE, Nufar HERZBERG, Magali HICKEY, Dinara VILLANUEVA
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Publication number: 20240382418Abstract: The invention provides gastric residence systems, or components of gastric residence system such as segments or elongate members of gastric residence systems, with release rate-modulating films and methods for making and using such systems. The release rate-modulating films provide good control over release of agents (such as therapeutic, diagnostic, or nutritional agents) present in the gastric residence system. The films also permit higher drug loading in the gastric residence systems and components of gastric residence systems while maintaining good control over release of agents. Some embodiments of the films can provide resistance against burst release of agent upon exposure to alcohol.Type: ApplicationFiled: May 17, 2024Publication date: November 21, 2024Inventors: Rosemary KANASTY, Nupura BHISE, Stephen ZALE, Bennett CARTER, Jung Hoon YANG, Andrew BELLINGER, Susan LOW, James WRIGHT, David ALTREUTER, Colin GARDNER
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Publication number: 20240335400Abstract: Provided are gastric residence systems comprising at least one drug-eluting component comprising methadone or a salt thereof, 35-50 wt % polycaprolactone, and 0.5-3 wt % poloxamer, and a rate-modulating release film coating the at least one co-extruded drug eluting component. The gastric residence systems comprising at least one drug-eluting component are configured to be maintained within a stomach of a human body for at least 48 hours and to release methadone for at least 48 hours, such that the at least one drug eluting component with the rate-modulating release film is configured to release at least 10% of the methadone or the salt thereof after the first 24 hours of residence within the stomach.Type: ApplicationFiled: May 4, 2022Publication date: October 10, 2024Inventors: Estelle BEGUIN, Patricia QUARTON, Jeffrey KATSTRA, David ALTREUTER, Juan Jaramillo MONTEZCO, Manjeet PIMPARADE
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Publication number: 20240252483Abstract: Provided are gastric residence systems comprising at least one co-extruded drug-eluting component comprising a carrier polymer, buprenorphine or a salt thereof, and naloxone or a salt thereof, and a rate-modulating release film coating the at least one co-extruded drug-eluting component. The gastric residence systems comprising at least one co-extruded drug-eluting component are configured to be maintained within a stomach of a human body for at least 48 hours and to release buprenorphine for at least 48 hours, such that the at least one co-extruded drug eluting component with the rate-modulating release film is configured to release at least 10% of the buprenorphine or the salt thereof after the first 24 hours of residence within the stomach and at least 10% of the naloxone or the salt thereof after the first 24 hours of residence within the stomach.Type: ApplicationFiled: May 4, 2022Publication date: August 1, 2024Inventors: Nupura BHISE, Jeffrey KATSTRA, David ALTREUTER
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Patent number: 12023406Abstract: The invention provides gastric residence systems, or components of gastric residence system such as segments or elongate members of gastric residence systems, with release rate-modulating films and methods for making and using such systems. The release rate-modulating films provide good control over release of agents (such as therapeutic, diagnostic, or nutritional agents) present in the gastric residence system. The films also permit higher drug loading in the gastric residence systems and components of gastric residence systems while maintaining good control over release of agents. Some embodiments of the films can provide resistance against burst release of agent upon exposure to alcohol.Type: GrantFiled: June 8, 2018Date of Patent: July 2, 2024Assignee: LYNDRA THERAPEUTICS, INC.Inventors: Rosemary Kanasty, Nupura Bhise, Stephen Zale, Bennett Carter, Jung Hoon Yang, Andrew Bellinger, Susan Low, James Wright, David Altreuter, Colin Gardner
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Publication number: 20230190941Abstract: Gastric residence systems and methods of delivering a drug to an individual using a gastric residence system are described herein. The gastric residence system may include a time-dependent and/or enteric, or dual time-dependent and enteric polymeric linker. In some embodiments, the time-dependent polymeric linker includes PLGA, and optionally PLA or a carrier polymer. The enteric polymeric linker includes an enteric polymeric, and optionally a carrier polymer such as PCL or TPU. The time-dependent polymeric linker may degrade in the stomach of the individual according to a degradation (or flexural modulus loss) profile described herein, and the enteric polymeric linker may degrade in the intestine of the individual another degradation profile described herein (or flexural modulus loss).Type: ApplicationFiled: November 6, 2020Publication date: June 22, 2023Inventors: Juan Jaramillo MONTEZCO, Marlene SCHWARZ, Rosemary KANASTY, David ALTREUTER, Nicholas DE LA TORRE, Sonia HOLAR, Tyler GRANT, Craig SIMSES, Erick PEEKE, Erica LAI
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Publication number: 20220387312Abstract: Provided are gastric residence dosage forms comprising flexible arms that can help prevent premature passage of the gastric residence system through the pylorus of a patient. In particular, described herein are gastric residence systems comprising one or more arms extending radially, the one or more arms comprising a first segment comprising a first polymer composition and a second segment comprising a second polymer composition, wherein the first segment has a stiffness of greater than a stiffness of the second segment, as measured using a 3-point bending test per ASTM D790. The second segments of the arms of the gastric residence systems help prevent premature passage of the gastric residence system through the pylorus of a patient.Type: ApplicationFiled: November 6, 2020Publication date: December 8, 2022Inventors: Rosemary KANASTY, Tyler GRANT, Juan Jaramillo MONTEZCO, David C. DUFOUR, David ALTREUTER, Nupura BHISE, Jung Hoon YANG
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Publication number: 20220387310Abstract: Provided herein are gastric residence systems, or components of gastric residence system such as arms (elongate members) or segments of gastric residence systems, with release rate-modulating films. The release rate-modulating films provide good control over release of agents (such as therapeutic, diagnostic, or nutritional agents) from the gastric residence systems. The release rate-modulating films disclosed herein resist changes to their release properties during heat-assisted assembly of the gastric residence systems.Type: ApplicationFiled: November 6, 2020Publication date: December 8, 2022Inventors: David ALTREUTER, Alisha WEIGHT, Saumya MOORTHY, Tammy TAI, Estelle BEGUIN
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Publication number: 20220387311Abstract: Gastric residence systems for administration of agents, such as drugs, are disclosed. Features which enhance gastric retention during the desired residence time and which allow for more precise control over residence time are disclosed, including circumferential filaments connecting the arms of a stellate gastric residence system; flexible arms for a gastric residence system; improved time-dependent and enteric disintegrating matrices (linkers); and release rate-modulating polymer coatings which are resistant to change in release rate properties during heat-assisted assembly or thermal cycling. Combinations of these features are also disclosed.Type: ApplicationFiled: November 6, 2020Publication date: December 8, 2022Inventors: Rosemary KANASTY, Tyler GRANT, David ALTREUTER, Alisha WEIGHT, Saumya MOORTHY, Tammy TAI, Juan Jaramillo MONTEZCO, Marlene SCHWARZ, Jung Hoon YANG, Jeanne TRAN, Michelle DUAN, Jie JING, David C. DUFOUR, Erik Robert Waldemar RYDE, Nupura BHISE, Nicholas DE LA TORRE, Sonia HOLAR, Estelle BEGUIN, Craig SIMSES, Erick PEEKE, Erica LAI
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Publication number: 20220192995Abstract: Provided are enrobed gastric residence dosage forms comprising: a gastric residence system in a folded configuration; and a coating enrobing the gastric residence system in the folded configuration, wherein the enrobed gastric residence dosage form is configured to release the gastric residence system in the folded configuration in a stomach of a patient, allowing the gastric residence system to assume an open configuration. The coating comprises water, a plasticizer, a gelling agent, and/or a polymer.Type: ApplicationFiled: March 19, 2020Publication date: June 23, 2022Inventors: Rosemary KANASTY, Tyler GRANT, Erick PEEKE, Nupura BHISE, David ALTREUTER, Sonia HOLAR, Martene SCHWARZ
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Publication number: 20210196627Abstract: Described herein are systems for the enteric delivery of therapeutic agents, and methods of administering a therapeutic agent to a patient by orally administering an enteric delivery system. The enteric deliver system includes one or more carrier members comprising a carrier polymer and a therapeutic agent, and the system is configurable in a compacted configuration and an expanded configuration, and is sized to maintain contact with the intestinal wall of the small intestine by applying an outwardly directed pressure to the intestinal wall and transport at least a portion of the therapeutic agent across the enteric mucosa of the small intestine.Type: ApplicationFiled: August 13, 2019Publication date: July 1, 2021Inventors: Tyler GRANT, Rosemary KANASTY, David ALTREUTER, Andrew BELLINGER, Alisha WEIGHT, Stephen ZALE, Susan LOW
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Publication number: 20200146979Abstract: The invention provides gastric residence systems, or components of gastric residence system such as segments or elongate members of gastric residence systems, with release rate-modulating films and methods for making and using such systems. The release rate-modulating films provide good control over release of agents (such as therapeutic, diagnostic, or nutritional agents) present in the gastric residence system. The films also permit higher drug loading in the gastric residence systems and components of gastric residence systems while maintaining good control over release of agents. Some embodiments of the films can provide resistance against burst release of agent upon exposure to alcohol.Type: ApplicationFiled: June 8, 2018Publication date: May 14, 2020Inventors: Rosemary KANASTY, Nupura BHISE, Stephen ZALE, Bennett CARTER, Jung Hoon YANG, Andrew BELLINGER, Susan LOW, James WRIGHT, David ALTREUTER, Colin GARDNER
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Patent number: 8821938Abstract: Drugs, especially low aqueous solubility drugs, are provided in a porous matrix form, preferably microparticles, which enhances dissolution of the drug in aqueous media. The drug matrices preferably are made using a process that includes (i) dissolving a drug, preferably a drug having low aqueous solubility, in a volatile solvent to form a drug solution, (ii) combining at least one pore forming agent with the drug solution to form an emulsion, suspension, or second solution and hydrophilic or hydrophobic excipients that stabilize the drug and inhibit crystallization, and (iii) removing the volatile solvent and pore forming agent from the emulsion, suspension, or second solution to yield the porous matrix of drug. Hydrophobic or hydrophilic excipients may be selected to stabilize the drug in crystalline form by inhibiting crystal growth or to stabilize the drug in amorphous form by preventing crystallization.Type: GrantFiled: February 8, 2011Date of Patent: September 2, 2014Assignee: Acusphere, Inc.Inventors: Julie Straub, David Altreuter, Howard Bernstein, Donald E. Chickering, III, Sarwat Khattak, Greg Randall
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Publication number: 20110129533Abstract: Drugs, especially low aqueous solubility drugs, are provided in a porous matrix form, preferably microparticles, which enhances dissolution of the drug in aqueous media. The drug matrices preferably are made using a process that includes (i) dissolving a drug, preferably a drug having low aqueous solubility, in a volatile solvent to form a drug solution, (ii) combining at least one pore forming agent with the drug solution to form an emulsion, suspension, or second solution and hydrophilic or hydrophobic excipients that stabilize the drug and inhibit crystallization, and (iii) removing the volatile solvent and pore forming agent from the emulsion, suspension, or second solution to yield the porous matrix of drug. Hydrophobic or hydrophilic excipients may be selected to stabilize the drug in crystalline form by inhibiting crystal growth or to stabilize the drug in amorphous form by preventing crystallization.Type: ApplicationFiled: February 8, 2011Publication date: June 2, 2011Inventors: Julie Straub, David Altreuter, Howard Bernstein, Donald E. Chickering, III, Sarwat Khattak, Greg Randall
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Patent number: 7919119Abstract: Drugs, especially low aqueous solubility drugs, are provided in a porous matrix form, preferably microparticles, which enhances dissolution of the drug in aqueous media. The drug matrices preferably are made using a process that includes (i) dissolving a drug, preferably a drug having low aqueous solubility, in a volatile solvent to form a drug solution, (ii) combining at least one pore forming agent with the drug solution to form an emulsion, suspension, or second solution and hydrophilic or hydrophobic excipients that stabilize the drug and inhibit crystallization, and (iii) removing the volatile solvent and pore forming agent from the emulsion, suspension, or second solution to yield the porous matrix of drug. Hydrophobic or hydrophilic excipients may be selected to stabilize the drug in crystalline form by inhibiting crystal growth or to stabilize the drug in amorphous form by preventing crystallization.Type: GrantFiled: January 22, 2002Date of Patent: April 5, 2011Assignee: Acusphere, Inc.Inventors: Julie Straub, David Altreuter, Howard Bernstein, Donald E. Chickering, III, Sarwat Khattak, Greg Randall
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Publication number: 20070178165Abstract: A method is provided for making a parenteral dosage form of a pharmaceutical agent which includes (a) providing particles of a pharmaceutical agent; (b) blending the particles with particles of at least one bulking agent to form a first powder blend, which does not include a surfactant; (c) milling the first powder blend to form a milled blend which comprises microparticles or nanoparticles of the pharmaceutical agent; and (d) reconstituting the milled blend with a liquid vehicle, which includes at least one surfactant, for parenteral administration. A method also is provided which includes (a) providing particles of a pharmaceutical agent; (b) blending these particles with particles of an excipient to form a first blend; and (c) milling the first blend to form a milled blend that includes microparticles or nanoparticles, which exhibits a greater dispersibility, wettability, and suspendability as compared to the particles of step (a) or the first blend.Type: ApplicationFiled: December 14, 2006Publication date: August 2, 2007Applicant: ACUSPHERE, INC.Inventors: David Altreuter, Howard Bernstein, Luis Brito, Shaina Brito, Olinda Carneiro, Donald Chickering, Eric Huang, Rajeev Jain, Sridhar Narasimhan, Namrata Pandit, Julie Straub
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Publication number: 20070148211Abstract: A method is provided for making an oral dosage form of a pharmaceutical agent which includes the steps of (a) providing particles which include a pharmaceutical agent; (b) blending the particles with particles of a pre-processed excipient to form a primary blend, wherein the pre-processed excipient is prepared by (i) dissolving a bulking agent (e.g., a sugar) and at least one non-friable excipient (e.g., a waxy or liquid surfactant) in a solvent to form an excipient solution, and (ii) removing the solvent from the excipient solution to form the pre-processed excipient in dry powder form; (c) milling the primary blend to form a milled pharmaceutical formulation blend that includes microparticles or nanoparticles of the pharmaceutical agent; and (d) processing the milled pharmaceutical formulation blend into a solid oral dosage form or liquid suspension for oral administration. The process yields formulations having improved wettability or dispersibility.Type: ApplicationFiled: December 14, 2006Publication date: June 28, 2007Applicant: Acusphere, Inc.Inventors: David Altreuter, Howard Bernstein, Luis Brito, Shaina Brito, Donald Chickering, Eric Huang, Rajeev Jain, Sridhar Narasimhan, Julie Straub
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Publication number: 20060093678Abstract: Methods are provided for making a dry powder blend pharmaceutical formulation comprising (i) forming microparticles which comprise a pharmaceutical agent; (ii) providing at least one excipient in the form of particles having a volume average diameter that is greater than the volume average diameter of the microparticles; (iii) blending the microparticles with the excipient to form a powder blend; and (iv) jet milling the powder blend to deagglomerate at least a portion of any of the microparticles which have agglomerated, while substantially maintaining the size and morphology of the individual microparticles. Jet milling advantageously can eliminate the need for more complicated wet deagglomeration processes, can lower residual moisture and solvent levels in the microparticles (which leads to better stability and handling properties for dry powder formulations), and can improve wettability, suspendability, and content uniformity of dry powder blend formulations.Type: ApplicationFiled: December 16, 2005Publication date: May 4, 2006Inventors: Donald Chickering, Shaina Reese, Sridhar Narasimhan, Julie Straub, Howard Bernstein, David Altreuter, Eric Huang
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Publication number: 20060093677Abstract: Methods are provided for making a dry powder blend pharmaceutical formulation comprising (i) forming microparticles which comprise a pharmaceutical agent; (ii) providing at least one excipient in the form of particles having a volume average diameter that is greater than the volume average diameter of the microparticles; (iii) blending the microparticles with the excipient to form a powder blend; and (iv) jet milling the powder blend to deagglomerate at least a portion of any of the microparticles which have agglomerated, while substantially maintaining the size and morphology of the individual microparticles. Jet milling advantageously can eliminate the need for more complicated wet deagglomeration processes, can lower residual moisture and solvent levels in the microparticles (which leads to better stability and handling properties for dry powder formulations), and can improve wettability, suspendability, and content uniformity of dry powder blend formulations.Type: ApplicationFiled: December 16, 2005Publication date: May 4, 2006Inventors: Donald Chickering, Shaina Reese, Sridhar Narasimhan, Julie Straub, Howard Bernstein, David Altreuter, Eric Huang
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Patent number: 6962006Abstract: Methods and apparatus are provided for making particles comprising: (a) spraying an emulsion, solution, or suspension, which comprises a solvent and a bulk material (e.g., a pharmaceutical agent), through an atomizer and into a primary drying chamber, having a drying gas flowing therethrough, to form droplets comprising the solvent and bulk material dispersed in the drying gas; (b) evaporating, in the primary drying chamber, at least a portion of the solvent into the drying gas to solidify the droplets and form particles dispersed in drying gas; and (c) flowing the particles and at least a portion of the drying gas through a jet mill to deagglomerate or grind the particles. By coupling spray drying with “in-line” jet milling, a single step process is created from two separate unit operations, and an additional collection step is advantageously eliminated. The one-step, in-line process has further advantages in time and cost of processing.Type: GrantFiled: December 19, 2002Date of Patent: November 8, 2005Assignee: Acusphere, Inc.Inventors: Donald E. Chickering, III, Sridhar Narasimhan, David Altreuter, Paul Kopesky, Mark Keegan, Julie A. Straub, Howard Bernstein