Deon Smit, 59107 Glen Hearth Ct, Cary, NC 27511

2011007, Apr 7, 2011

Oct 1, 2009

12/572126

Jeremy Fetvedt - Raleigh NC, US
Deon Smit - Cary NC, US

G01N 33/00
B23P 11/00

73866, 29428

A vessel includes a cylindrical section coaxially disposed about a central axis of the vessel. The cylindrical section includes an inside vessel surface, an outside vessel surface opposing the inside vessel surface, an upper end region circumscribing a vessel opening, and a lower end region axially spaced from the upper end region. A bottom section is disposed at the lower end region. A flange is coaxially disposed about the central axis and extends radially outward from the outside vessel surface at the upper end region. The flange includes a bottom surface facing generally toward the lower end region and perpendicular to the inside vessel surface. A ring may be coaxially disposed about the central axis and provide the bottom surface. An annular shoulder may protrude from the outside vessel surface, and may be spaced from or integrally adjoined to the flange.

2011021, Sep 8, 2011

Mar 2, 2010

12/716157

C.J. Anthony Fernando - Singapore, SG
Deon Smit - Cary NC, US

G01K 1/14
G01J 5/00

374121, 374E01018

A dissolution test apparatus may include a vessel support member, a sensor support member, infrared temperature sensors, and an electronic controller. The vessel support member may have apertures for receiving vessels. The infrared temperature sensors are mounted at the sensor support member. Each infrared temperature sensor is positioned proximate to a respective vessel mounting site to receive infrared radiation emitted by media contained in a vessel mounted at the vessel mounting site, and is configured to transmit a measurement signal indicative of the temperature of the media. The electronic controller communicates with the infrared temperature sensors and is configured to receive and process the measurement signals transmitted from the infrared temperature sensors. The electronic controller may be configured to control media temperature in the vessels.

2012009, Apr 19, 2012

Oct 15, 2010

12/905806

Anna Bobasheva - Raleigh NC, US
David Moody - Cary NC, US
Deon Smit - Cary NC, US
Francisco Alonso - Cary NC, US
Jeffrey Kuhn - Durham NC, US
Jeremy Fetvedt - Raleigh NC, US
John W. Taylor - Chapel Hill NC, US

Agilent Technologies, Inc. - Santa Clara CA

G01B 11/14
G06F 15/00
G01P 3/487
G01P 3/00

702145, 356614, 702151, 324173, 356 72

An apparatus is used for determining at least one parameter relating to an elongate member disposed within a vessel. The apparatus includes at least one measurement unit having a light emitting component and a corresponding light receiving component. The light receiving component is positioned apart from the light emitting component such that the elongate member is positionable between the light emitting component and the light receiving component. Additionally, the light emitting component is adapted to emit light towards the light receiving component, and the light receiving component is adapted to generate a signal corresponding to the light received from the light emitting component. A method for determining at least one parameter relating to the elongate member disposed within the vessel is also provided.

2012010, May 3, 2012

Nov 3, 2010

12/938562

Deon Smit - Cary NC, US
Jeffrey Kuhn - Durham NC, US
Jeremy Fetvedt - Raleigh NC, US

B23Q 7/00
B01L 9/00

29559, 422561

An apparatus for holding a contact lens during in vitro testing includes a first support member, a second support member, an alignment rod, and a cage member. The first support member includes a first end cap and a body portion. The body portion includes grooves formed in a lateral surface extending from the first end cap. The alignment rod is configured for interconnecting the body portion and a second end cap of the second support member. The cage member is positionable about the body portion between the first and second end caps, and includes an inner surface, an outer surface, and a plurality of openings between the inner surface and the outer surface. The inner surface and the lateral surface cooperatively define an annular space therebetween and a plurality of fluid flow paths between the inner space and the openings. The annular space is configured for receiving the contact lens.

2012010, May 3, 2012

Nov 3, 2010

12/938735

Anna Bobasheva - Raleigh NC, US
Deon Smit - Cary NC, US
George Bryan Crist - Wilmington NC, US

G06F 19/00
G01N 33/15

702108

In acquiring and managing measurement data relating to operating parameters of a dissolution tester, operating parameters are measured by operating one or more sensors. The measured operating parameters are transmitted from the sensors to a user computing device. It is then determined whether the measured operating parameters are in compliance or non-compliance with one or more standards, by comparing the measured operating parameters with a plurality of corresponding predefined values. The measured operating parameters and indications of compliance or non-compliance of each measured operating parameter are stored as a data record in a memory local or remote to the user computing device. The data record may be accessible by a computing device remote from the memory. The operating parameters may include, for example, shaft parameters.