公开(公告)号：US20120258914A1

公开(公告)日：2012-10-11

申请号：US13335667

申请日：2011-12-22

Applicant: Rajesh Kumar ,  Gregory Troiano ,  J. Michael Ramstack ,  Paul Herbert ,  Michael Figa

Inventor： Rajesh Kumar ,  Gregory Troiano ,  J. Michael Ramstack ,  Paul Herbert ,  Michael Figa

IPC: A61K38/16 ,  A61P3/04 ,  A61P3/10

CPC classification number: A61K9/1647 ,  A61K9/1623 ,  A61K9/1682 ,  A61K9/5031 ,  A61K9/5089 ,  A61K38/2278

Abstract: Methods of forming compositions for the sustained release of water soluble active agents, including biologically active polypeptides and products produced by the process are described. Improved product characteristics and ease of scale-up can be achieved using a novel coacervation process wherein at least one coacervation agent is added to the mixture comprising the active agent and the polymer in at least two distinct stages.

Abstract translation: 描述了形成用于持续释放水溶性活性剂（包括生物活性多肽）和由该方法产生的产物的组合物的方法。 可以使用新颖的凝聚方法来实现改进的产品特性和容易的放大，其中在至少两个不同阶段向包含活性剂和聚合物的混合物中加入至少一种凝聚剂。

公开(公告)号：US20070260038A1

公开(公告)日：2007-11-08

申请号：US11812697

申请日：2007-06-21

Applicant: J. Michael Ramstack ,  Steven Wright ,  David Dickason

Inventor： J. Michael Ramstack ,  Steven Wright ,  David Dickason

IPC: C08F6/00

CPC classification number: C08F6/005 ,  B01F17/0028 ,  B01J13/12

Abstract: Methods for preparing microparticles having improved flowability to facilitate processing in automated equipment. Microparticles are conditioned so that a flowability index of the microparticles is greater than about 60. The conditioning preferably includes maintaining the microparticles at a conditioning temperature for a period of time. The conditioning can be used with microparticles containing an active agent, and with placebo microparticles, and it is reversible.

Abstract translation: 制备具有改善的流动性以促进自动化设备中的加工的微粒的方法。 对微粒进行调节，使得微粒的流动指数大于约60.调理优选包括将微粒保持在调理温度一段时间。 调理剂可以与含有活性剂的微粒和安慰剂微粒一起使用，并且是可逆的。

公开(公告)号：US07247319B2

公开(公告)日：2007-07-24

申请号：US10022859

申请日：2001-12-20

Applicant: J. Michael Ramstack ,  Steven G. Wright ,  David A. Dickason

Inventor： J. Michael Ramstack ,  Steven G. Wright ,  David A. Dickason

IPC: A61K9/50

CPC classification number: C08F6/005 ,  B01F17/0028 ,  B01J13/12

Abstract: Methods for preparing microparticles having improved flowability to facilitate processing in automated equipment. Microparticles are conditioned so that a flowability index of the microparticles is greater than about 60. The conditioning preferably includes maintaining the microparticles at a conditioning temperature for a period of time. The conditioning can be used with microparticles containing an active agent, and with placebo microparticles, and it is reversible.

Abstract translation: 制备具有改善的流动性以促进自动化设备中的加工的微粒的方法。 对微粒进行调节，使得微粒的流动指数大于约60.调理优选包括将微粒保持在调理温度一段时间。 调理剂可以与含有活性剂的微粒和安慰剂微粒一起使用，并且是可逆的。

公开(公告)号：US20060099271A1

公开(公告)日：2006-05-11

申请号：US11312371

申请日：2005-12-21

Applicant: Michael Rickey ,  J. Michael Ramstack ,  Rajesh Kumar

Inventor： Michael Rickey ,  J. Michael Ramstack ,  Rajesh Kumar

IPC: A61K9/14 ,  B29C39/10

CPC classification number: A61K38/09 ,  A61K9/1641 ,  A61K9/1647 ,  A61K9/1682 ,  A61K9/1694 ,  A61K9/5089 ,  A61K31/519 ,  B01J8/025 ,  B01J13/08 ,  B01J13/12 ,  B01J13/206 ,  B01J14/00 ,  B01J19/121 ,  B01J19/122 ,  B01J19/2415 ,  B01J2219/0877

Abstract: Methods for preparing microparticles having reduced residual solvent levels. Microparticles are contacted with a non-aqueous washing system to reduce the level of residual solvent in the microparticles. Preferred non-aqueous washing systems include 100% ethanol and a blend of ethanol and heptane. A solvent blend of a hardening solvent and a washing solvent can be used to harden and wash microparticles in a single step, thereby eliminating the need for a post-hardening wash step.

公开(公告)号：US08546521B2

公开(公告)日：2013-10-01

申请号：US13357977

申请日：2012-01-25

Applicant: J. Michael Ramstack ,  John Podobinski

Inventor： J. Michael Ramstack ,  John Podobinski

IPC: C08G63/02 ,  C08G634/00

CPC classification number: B01D35/30 ,  B01D61/027 ,  B01D2239/0258 ,  B01D2315/10 ,  B01D2315/16 ,  B01J14/00 ,  B01J19/00 ,  B01J2219/00006 ,  B82Y5/00 ,  B82Y40/00 ,  C08J3/14 ,  C08J2367/04

Abstract: Systems and methods are provided for filtering a fluid containing nanoparticles. The systems and methods generally include introducing a stream of the nanoparticle-containing fluid into a holding vessel, and extracting at least a part of a nanoparticle-containing fluid accumulated in the holding vessel. The extracted nanoparticle-containing fluid is passed through a filtration module to separate a nanoparticle-containing retentate from a permeate, and the retentate is returned to the vessel. The filtration cycle can be repeated until a desired concentration of the nanoparticles is achieved in the holding vessel. In many embodiments, the generation of the nanoparticle-containing fluid and its filtration are performed concurrently.

Abstract translation: 提供了用于过滤含有纳米颗粒的流体的系统和方法。 系统和方法通常包括将含纳米颗粒的流体流引入保持容器中，以及提取在储存容器中积聚的含纳米颗粒的流体的至少一部分。 将提取的含纳米颗粒的流体通过过滤模块以从渗透物中分离含纳米颗粒的渗余物，并将滞留物返回到容器中。 可以重复该过滤循环，直到在保持容器中达到所需的纳米颗粒浓度。 在许多实施方案中，同时进行含纳米颗粒的流体的产生及其过滤。

公开(公告)号：US08207290B2

公开(公告)日：2012-06-26

申请号：US13023163

申请日：2011-02-08

Applicant: John Podobinski ,  J. Michael Ramstack ,  David S. Dickey

Inventor： John Podobinski ,  J. Michael Ramstack ,  David S. Dickey

IPC: C08G75/02 ,  C08C2/06

CPC classification number: C08L67/02 ,  A61J1/00 ,  A61K9/14 ,  A61K9/146 ,  A61K9/51 ,  A61K31/337 ,  A61K47/58 ,  A61K47/593 ,  A61K47/60 ,  B29B2009/125 ,  B82Y40/00 ,  C08F6/12 ,  C08J3/14 ,  C08L29/04 ,  Y10S977/895

Abstract: In one aspect, the present invention provides a process for forming polymeric nanoparticles, which comprises using a static mixer to create a mixed flowing stream of an anti-solvent, e.g., by introducing a liquid anti-solvent into a static mixer, and introducing a polymer solution into the mixed flowing anti-solvent stream such that controlled precipitation of polymeric nanoparticles occurs. The nanoparticles can then be separated from the anti-solvent stream.

Abstract translation: 一方面，本发明提供了一种形成聚合物纳米颗粒的方法，其包括使用静态混合器产生反溶剂的混合流动流，例如通过将液体抗溶剂引入静态混合器中，并引入 聚合物溶液进入混合流动的反溶剂流，从而发生聚合物纳米粒子的受控沉淀。 然后可以将纳米颗粒与反溶剂流分离。

公开(公告)号：US06824822B2

公开(公告)日：2004-11-30

申请号：US09942631

申请日：2001-08-31

Applicant: Michael E. Rickey ,  J. Michael Ramstack ,  Rajesh Kumar

Inventor： Michael E. Rickey ,  J. Michael Ramstack ,  Rajesh Kumar

IPC: B01J1312

CPC classification number: A61K38/09 ,  A61K9/1641 ,  A61K9/1647 ,  A61K9/1682 ,  A61K9/1694 ,  A61K9/5089 ,  A61K31/519 ,  B01J8/025 ,  B01J13/08 ,  B01J13/12 ,  B01J13/206 ,  B01J14/00 ,  B01J19/121 ,  B01J19/122 ,  B01J19/2415 ,  B01J2219/0877

Abstract: Methods for preparing microparticles having reduced residual solvent levels. Microparticles are contacted with a non-aqueous washing system to reduce the level of residual solvent in the microparticles. Preferred non-aqueous washing systems include 100% ethanol and a blend of ethanol and heptane. A solvent blend of a hardening solvent and a washing solvent can be used to harden and wash microparticles in a single step, thereby eliminating the need for a post-hardening wash step.

Abstract translation: 制备具有降低的残留溶剂水平的微粒的方法。 微粒与非水洗涤体系接触以降低微粒中残留溶剂的含量。 优选的非水洗涤系统包括100％乙醇和乙醇与庚烷的混合物。 可以使用硬化溶剂和洗涤溶剂的溶剂共混物在一个步骤中硬化和洗涤微粒，从而不需要后硬化洗涤步骤。

公开(公告)号：US06194006B1

公开(公告)日：2001-02-27

申请号：US09223276

申请日：1998-12-30

Applicant: Shawn L. Lyons ,  J. Michael Ramstack ,  Steven G. Wright

Inventor： Shawn L. Lyons ,  J. Michael Ramstack ,  Steven G. Wright

IPC: A61K914

CPC classification number: A61K9/1647 ,  A61K9/1694 ,  B01J13/02 ,  Y10T428/2982

Abstract: An improved method for preparing microparticles that exhibit controlled release of an effective amount of an active agent over an extended period of time. More particularly, a method is provided for preparing microparticles having a selected release profile for release of active agent contained in the microparticles. By adjusting the degree of drying that is performed during the preparation of the microparticles, the release profile can be controlled. By performing no intermediate drying, an initial burst and a substantially linear release profile is achieved. By performing substantially complete intermediate drying, an initial lag phase and a substantially sigmoidal release profile is achieved.

Abstract translation: 一种用于制备在长时间内显示有效量的活性剂的受控释放的微粒的改进方法。 更具体地，提供了一种制备具有选择的释放曲线的微粒以释放微粒中所含的活性剂的方法。 通过调节在制备微粒期间进行的干燥程度，可以控制剥离曲线。 通过不进行中间干燥，实现初始脉冲串和基本上线性的释放曲线。 通过进行基本上完全的中间干燥，实现了初始滞后期和基本上S形释放曲线。

公开(公告)号：US5916598A

公开(公告)日：1999-06-29

申请号：US71865

申请日：1998-05-04

Applicant: Michael E. Rickey ,  J. Michael Ramstack ,  Danny H. Lewis

Inventor： Michael E. Rickey ,  J. Michael Ramstack ,  Danny H. Lewis

IPC: A61K9/56 ,  A61K9/14 ,  A61K9/16 ,  A61K9/50 ,  A61K9/58 ,  A61K31/505 ,  A61K31/517 ,  A61K31/519 ,  A61K31/529 ,  A61K47/30 ,  A61K47/34 ,  B01J13/04 ,  B01J13/06 ,  B29B9/00 ,  B01J13/02 ,  B32B5/16

CPC classification number: B01J13/04 ,  A61K31/519 ,  A61K9/1647 ,  A61K9/1694 ,  A61K9/5089 ,  Y10T428/2985

Abstract: A method for preparing biodegradable, biocompatible microparticles. A first phase is prepared that includes a biodegradable, biocompatible polymer, an active agent, and a solvent. An immiscible second phase is prepared. The first and second phases are combined to form an emulsion in which the first phase is discontinuous and the second phase is continuous. The two phases are immersed in a quench liquid that includes a quench medium and a quantity of the solvent. The quantity of the solvent is selected to control a rate of extraction of the solvent from the first phase. The first phase is isolated in the form of microparticles. Also disclosed is a microencapsulated active agent prepared by the method for preparing biodegradable, biocompatible microparticles.

公开(公告)号：US20120263653A1

公开(公告)日：2012-10-18

申请号：US13479646

申请日：2012-05-24

Applicant: John Podobinski ,  J. Michael Ramstack ,  David S. Dickey

Inventor： John Podobinski ,  J. Michael Ramstack ,  David S. Dickey

IPC: C08G63/08 ,  A61K49/00 ,  A61K9/14 ,  A61K31/337 ,  A61K31/427 ,  A61P29/00 ,  A61P9/00 ,  A61P31/00 ,  C08G63/91 ,  C08L5/00 ,  A61K47/30 ,  A61P35/00 ,  B82Y30/00

CPC classification number: C08L67/02 ,  A61J1/00 ,  A61K9/14 ,  A61K9/146 ,  A61K9/51 ,  A61K31/337 ,  A61K47/58 ,  A61K47/593 ,  A61K47/60 ,  B29B2009/125 ,  B82Y40/00 ,  C08F6/12 ,  C08J3/14 ,  C08L29/04 ,  Y10S977/895

Abstract: In one aspect, the present invention provides a process for forming polymeric nanoparticles, which comprises using a static mixer to create a mixed flowing stream of an anti-solvent, e.g., by introducing a liquid anti-solvent into a static mixer, and introducing a polymer solution into the mixed flowing anti-solvent stream such that controlled precipitation of polymeric nanoparticles occurs. The nanoparticles can then be separated from the anti-solvent steam.

Abstract translation: 一方面，本发明提供了一种形成聚合物纳米颗粒的方法，其包括使用静态混合器产生反溶剂的混合流动流，例如通过将液体抗溶剂引入静态混合器中，并引入 聚合物溶液进入混合流动的反溶剂流，从而发生聚合物纳米粒子的受控沉淀。 然后可以将纳米颗粒与反溶剂蒸汽分离。