Abstract: A rotor core is provided that includes a rotor length defined along an axis of rotation and a plurality of separation channels. The plurality of separation channels having a channel length extending along the axis of rotation a distance that is less than the rotor length. A rotor assembly is also provided that includes such a rotor core removably disposed in an outer housing.
Type:
Grant
Filed:
July 8, 2020
Date of Patent:
July 19, 2022
Assignee:
ALFA WASSERMANN, INC.
Inventors:
Kurt Spiegel, Sandra Patricia Meriño, Blaine J. Marsh
Abstract: A rotor core is provided that includes a rotor length defined along an axis of rotation and a plurality of separation channels. The plurality of separation channels having a channel length extending along the axis of rotation a distance that is less than the rotor length. A rotor assembly is also provided that includes such a rotor core removably disposed in an outer housing.
Type:
Application
Filed:
July 8, 2020
Publication date:
October 29, 2020
Applicant:
ALFA WASSERMANN, INC.
Inventors:
Kurt Spiegel, Sandra Patricia Meriño, Blaine J. Marsh
Abstract: A system is provided that includes a controller in a control cabinet, a touch screen having a plurality of control icons, a controlled device, and a single safety sensor. The controlled device is a continuous flow centrifugation system. The controller prevents operation of the controlled device without simultaneous contact by a user of both the single safety sensor and a respective one of the plurality of control icons.
Type:
Grant
Filed:
August 2, 2016
Date of Patent:
September 15, 2020
Assignee:
ALFA WASSERMANN, INC.
Inventors:
Kurt Spiegel, Sorin Weissman, Bill Lepse, Blaine J. Marsh
Abstract: A rotor core is provided that includes a rotor length defined along an axis of rotation and a plurality of separation channels. The plurality of separation channels having a channel length extending along the axis of rotation a distance that is less than the rotor length. A rotor assembly is also provided that includes such a rotor core removably disposed in an outer housing.
Type:
Grant
Filed:
May 19, 2017
Date of Patent:
August 25, 2020
Assignee:
ALFA WASSERMANN, INC.
Inventors:
Kurt Spiegel, Sandra Patricia Meriño, Blaine J. Marsh
Abstract: A fluid handling system is provided that includes a controller, a plurality of valves, a pump, and an interface in communication with the controller. The valves can be operatively connected with a conduit to along a flow path. Each of the valves is controlled by the controller for selective movement between a first position and a second position. The first position closes the flow path, while the second position opens the flow path. The pump can be operatively connected with the conduit and the is controlled by the controller for selective pumping of fluid through the flow path. The interface allows selective definition of the flow path through the valves.
Type:
Grant
Filed:
July 21, 2017
Date of Patent:
June 2, 2020
Assignee:
Alfa Wassermann, Inc.
Inventors:
Kurt Spiegel, Blaine J Marsh, Christopher A DeBlasis, Fernando J Garcia, Ian Eric Lynes, Raymond A Hathaway
Abstract: Centrifugation systems are provided that have a non-contact seal assemblies including an upper guard and a skirted pivot, as well as a pressure source that provides a gas flow between the upper guard and a surface of the skirted pivot. In some embodiments, the non-contact seal assembly further includes a lower guard having one or more capillary channels defined on an upper surface.
Type:
Grant
Filed:
January 22, 2015
Date of Patent:
July 10, 2018
Assignee:
Alfa Wassermann, Inc.
Inventors:
Kurt Michael Spiegel, Eric Bernard Weiland
Abstract: The present invention describes a new crystalline form of rifaximin, characterized in that it is a solvated form of rifaximin called rifaximin ?. The invention also describes a process for the preparation of rifaximin ?, a pharmaceutical composition comprising said rifaximin form, and its use for treating inflammations and infections.
Type:
Grant
Filed:
May 7, 2015
Date of Patent:
April 10, 2018
Assignee:
ALFA WASSERMANN S.P.A.
Inventors:
Giuseppe Claudio Viscomi, Paola Maffei, Annalisa Sforzini, Fabrizia Grepioni, Laura Chelazzi
Abstract: A method of purifying a viral vector is provided. The method includes loading a nonionic density gradient into a continuous flow centrifuge rotor; loading a material including the viral vector and a predictable contaminant into the continuous flow centrifuge rotor; rotating the continuous flow centrifuge rotor in a manner sufficient to separate the viral vector from the predictable contaminant and the material in the nonionic density gradient; and unloading the separated viral vector from the continuous flow centrifuge rotor.
Abstract: A fluid handling system is provided that includes a controller, a plurality of valves, a pump, and an interface in communication with the controller. The valves can be operatively connected with a conduit to along a flow path. Each of the valves is controlled by the controller for selective movement between a first position and a second position. The first position closes the flow path, while the second position opens the flow path. The pump can be operatively connected with the conduit and the is controlled by the controller for selective pumping of fluid through the flow path. The interface allows selective definition of the flow path through the valves.
Type:
Application
Filed:
July 21, 2017
Publication date:
January 25, 2018
Applicant:
Alfa Wassermann, Inc.
Inventors:
Kurt Spiegel, Blaine J. Marsh, Christopher A. DeBlasis, Fernando J. Garcia, Ian Eric Lynes, Raymond A. Hathaway
Abstract: A method of purifying a viral vector is provided. The method includes loading a nonionic density gradient into a continuous flow centrifuge rotor; loading a material including the viral vector into the continuous flow centrifuge rotor; rotating the continuous flow centrifuge rotor in a manner sufficient to separate the viral vector and a predictable contaminate from the material in the nonionic density gradient; and unloading the separated viral vector and the predicable contaminant from the continuous flow centrifuge rotor.
Abstract: A rotor core is provided that includes a rotor length defined along an axis of rotation and a plurality of separation channels. The plurality of separation channels having a channel length extending along the axis of rotation a distance that is less than the rotor length. A rotor assembly is also provided that includes such a rotor core removably disposed in an outer housing.
Type:
Application
Filed:
May 19, 2017
Publication date:
November 23, 2017
Applicant:
ALFA WASSERMANN, INC.
Inventors:
Kurt Spiegel, Sandra Patricia Meriño, Blaine J. Marsh
Abstract: 25-desacetyl rifaximin or a pharmaceutically acceptable salt thereof is provided. Methods of treatment of bowl related disorders using isolated and/or purified 25-desacetyl rifaximin or a pharmaceutically acceptable salt thereof are also provided.
Abstract: A liquid collection device is provided. The device includes an input conduit, an output conduit, a plurality of product collection containers, and a valve block. The input and output conduits are connectable to a liquid processing line. The valve block has a valve block input in fluid communication with the input conduit, a valve block output in fluid communication with the output conduit, and a plurality of valves. The valves correspond in number to product collection containers and each valve places the input conduit in liquid communication with a different one of the product collection containers. An automated liquid collection workstation for use with the liquid collection device and a method of automatically collecting liquid from a processing line or vessel are also provided.
Abstract: A system is provided that includes a controller, a touch screen having a plurality of control icons, a controlled device, and a single safety sensor. The controller prevents operation of the controlled device without contact by a user of both the single safety sensor and a respective one of the plurality of control icons.
Type:
Application
Filed:
August 2, 2016
Publication date:
November 24, 2016
Applicant:
Alfa Wassermann, Inc.
Inventors:
Kurt Spiegel, Sorin Weissman, Bill Lepse, Blaine J. Marsh
Abstract: The present invention describes rifaximin powder and to a process for preparing the same. The invention relates also to a pharmaceutical composition in solid form comprising said rifaximin, pharmaceutically acceptable excipients and optionally other ingredients. The compositions according to the invention are suitable for oral administration and are characterized by producing a controlled release of rifaximin, whereby a long-lasting effect is obtained in a patient.
Type:
Grant
Filed:
April 24, 2014
Date of Patent:
November 22, 2016
Assignee:
ALFA WASSERMANN S.P.A.
Inventors:
Giuseppe Claudio Viscomi, Paola Maffei, Vittoria Lauro, Maria Barbanti, Donatella Confortini, Dario Braga
Abstract: The present invention relates to rifaximin compositions comprising amino acids, characterized in that they increase rifaximin solubility in aqueous solutions and are useful in the treatment of disease wherein amino acids and rifaximin are efficacious. The present invention also relates to pharmaceutical compositions comprising rifaximin or one of the pharmaceutically acceptable salts thereof and one or more amino acid(s), wherein the molar ratio between the amino acid(s) and rifaximin is from 1:1 to 10:1, together with pharmaceutically acceptable excipients. The present invention further relates to rifaximin crystals obtained by dissolving rifaximin and amino acids in solutions formed by ethanol/water and evaporating the solution.
Type:
Grant
Filed:
July 3, 2013
Date of Patent:
September 27, 2016
Assignee:
Alfa Wassermann S.P.A
Inventors:
Giuseppe Claudio Viscomi, Laura Chelazzi, Fabrizia Grepioni, Dario Braga, Maddalena Kindt
Abstract: A continuous flow centrifuge system is provided. The system includes a rotor, a stator, a stator housing, upper and lower bearing plates, upper and lower bearings, first and second snap rings, and lip seal. The upper bearing rotatably secures a shaft of the rotor in the upper bearing plate. The first snap ring secures the upper bearing to the rotor shaft. The lip seal is over the upper bearing and forms a rotatable seal with the upper bearing plate. The second snap ring secures the lip seal to an inner diameter of the upper bearing plate. The upper and lower bearing plates are secured to the stator housing so that the rotor is operatively aligned with the stator.
Type:
Grant
Filed:
May 3, 2012
Date of Patent:
August 2, 2016
Assignee:
ALFA WASSERMANN, INC.
Inventors:
Kurt Spiegel, Sorin Weissman, Bill Lepse, Blaine J. Marsh
Abstract: The present disclosure relates to pharmaceutical or nutritional compositions containing ?-galactosidase and ?-galactosidase and their use in the prevention and/or treatment of gastroesophageal reflux disease; in particular the present disclosure related to pharmaceutical or nutritional compositions.
Abstract: A method of purifying a viral vector is provided. The method includes loading a nonionic density gradient into a continuous flow centrifuge rotor; loading a material including the viral vector into the continuous flow centrifuge rotor; rotating the continuous flow centrifuge rotor in a manner sufficient to separate the viral vector and a predictable contaminate from the material in the nonionic density gradient; and unloading the separated viral vector and the predicable contaminant from the continuous flow centrifuge rotor.
Abstract: A system for separating a sample and collecting the separated sample. The system includes an ultracentrifuge having a cylindrical rotor. The system includes a gradient delivery assembly for delivering a gradient solution to the ultracentrifuge rotor, and a sample delivery assembly for delivering the solution containing the sample to the ultracentrifuge rotor. The system includes a fraction collection assembly for collecting discrete volumes of the separated sample. The system includes a processor for controlling operation of the ultracentrifuge, as well as the gradient delivery assembly, the sample delivery assembly, and/or the fraction collection assembly.