Scott D Cambron

US Patent:

8569691, Oct 29, 2013

Filed:

Nov 23, 2010

Appl. No.:

12/953108

Inventors:

Scott Cambron - Louisville KY, US
Thomas J. Roussel - Louisville KY, US
Robert S. Keynton - Louisville KY, US

Assignee:

University of Louisville Research Foundation - Louisville KY

International Classification:

H01J 49/26

US Classification:

250288, 250281, 250282

Abstract:

An interchangeable preconcentrator assembly for delivering an analyte to an analysis instrument. The assembly includes a housing defining an inner chamber. An inlet is in fluid communication with the inner chamber, an outlet is in fluid communication with the inner chamber for delivering fluid to the inlet of the analysis instrument, and an exhaust outlet is in fluid communication with the inner chamber. A plurality of removable preconcentrator packages are disposed within the inner chamber. Each of the removable preconcentrator packages including a microscale preconcentrator. A fluid flow path is defined between the inlet and the inner chamber. A first fluid flow path is defined between the preconcentrators and the exhaust outlet, and a second fluid flow path is defined between the preconcentrators and the outlet. A selectably operable valve directs fluid flow from the inner chamber into either the first fluid flow path or the second fluid flow path.

US Patent:

20090249958, Oct 8, 2009

Filed:

Dec 17, 2008

Appl. No.:

12/337449

Inventors:

Scott Cambron - Louisville KY, US
Thomas Roussel - Louisville KY, US
Robert Keynton - Louisville KY, US
Michael Martin - Louisville KY, US
Kevin Walsh - Louisville KY, US
Doug Jackson - New Albany IN, US
John Naber - Goshen KY, US

International Classification:

B01D 50/00

US Classification:

96 87, 553921, 55393, 55415, 96417

Abstract:

An interchangeable preconcentrator assembly comprises an outer housing and an inner housing defining a chamber. A biased urging member is held at least partially within the outer housing and slidably biased toward a surface of the inner housing. When the biased urging member is at least partially retracted, a space is defined between the urging member and the surface of the inner housing for accommodating at least one preconcentrator chip. A continuous fluid flow path is defined through the outer housing and through the space. The interchangeable preconcentrator assembly may further comprise at least one modular preconcentrator carriage.

US Patent:

20110214482, Sep 8, 2011

Filed:

Jul 31, 2009

Appl. No.:

13/056091

Inventors:

Michael Martin - Louisville KY, US
Robert Keynton - Louisville KY, US
Thomas Roussel - Louisville KY, US
Kevin M. Walsh - Louisville KY, US
Douglas J. Jackson - New Albany IN, US
John Naber - Prospect NY, US
Julia W. Abersold - Floyds Knob IN, US
Suraj Alexander - Anchorage KY, US
Scott Cambron - Louisville KY, US

Assignee:

UNIVERSITY OF LOUISVILLE RESEARCH FOUNDATION, INC. - Louisville KY

International Classification:

G01N 25/00

US Classification:

73 2505

Abstract:

A large volume preconcentrator device for concentrating analytes. A housing accepts an analyte vapor flow, and a plurality of collection surfaces are disposed within the housing. A selectively actuatable heater is disposed on each of the plurality of collection surfaces. At least one selectively actuable damper is disposed within the housing for selectively restricting a collection flow.

US Patent:

20220388007, Dec 8, 2022

Filed:

Jun 3, 2022

Appl. No.:

17/831992

Inventors:

- Louisville KY, US
Scott Cambron - Louisville KY, US

Assignee:

Advanced Solutions Life Sciences, LLC - Louisville KY

International Classification:

B01L 9/00

Abstract:

A tiltable stage assembly includes a base and a tiltable stage operably coupled to the base and pivotable relative to the base. The tiltable stage is moveable between an initial position and a tilted position, wherein the tiltable stage is parallel with the base in the initial position and is oriented at an angle to the base when in the tilted position. The tiltable stage is biased to the initial position.

US Patent:

20220347924, Nov 3, 2022

Filed:

Apr 28, 2022

Appl. No.:

17/731951

Inventors:

- Louisville KY, US
Justin Palmer - Louisville KY, US
Scott Cambron - Louisville KY, US

Assignee:

Advanced Solutions Life Sciences, LLC - Louisville KY

International Classification:

B29C 64/364
B25J 21/00
B33Y 30/00
B08B 15/02

Abstract:

A biofabrication system includes a workstation and an articulating arm disposed within a work area of a biosafety cabinet. The workstation includes a stage for biofabrication. The biosafety cabinet includes an integration port that provides access to the work area through a wall of the biosafety cabinet. The articulating arm may be positioned to reach the workstation and the integration port.

US Patent:

20230081269, Mar 16, 2023

Filed:

Sep 15, 2022

Appl. No.:

17/945198

Inventors:

- Louisville KY, US
Scott Cambron - Louisville KY, US

Assignee:

Advanced Solutions Life Sciences, LLC - Louisville KY

International Classification:

B29C 64/227
B33Y 10/00
B33Y 30/00
B29C 64/106
B29C 64/209
C12N 11/00

Abstract:

A 3D printing assembly, system, and method for 3D printing a biomaterial may include a robotic arm end effector and a barrel clamp assembly. The robotic arm end effector is configured to move along one or more axes of movement for 3D printing. The barrel clamp assembly is distally coupled to the robotic arm end effector and includes a barrel clamp arm and a barrel clamp. The barrel clamp arm includes a top end coupled to the robotic arm end effector and a bottom end opposite to the top end. The bottom end is angled forward with respect to the top end. The barrel clamp is coupled to the bottom end of the barrel clamp arm and is configured to receive and clamp against a distal end of a printing syringe barrel for 3D printing.

US Patent:

20210069974, Mar 11, 2021

Filed:

Nov 23, 2020

Appl. No.:

17/101097

Inventors:

- Louisville KY, US
Scott Douglas Cambron - Louisville KY, US

Assignee:

Advanced Solutions Life Sciences, LLC - Louisville KY

International Classification:

B29C 64/209
B29C 64/106
B33Y 10/00
B33Y 30/00
B33Y 50/02
B29C 64/112
B29C 64/232
B29C 64/245
B29C 64/393
B29C 64/236
B29C 64/241

Abstract:

Systems and methods for a robotic fabrication and assembly platform providing a plurality of printable materials for fabrication of a three-dimensional object are provided. A method includes activating a pneumatic actuator to extend a quick-change turret from a pneumatic seal. The method may insert a plurality of barrels into the quick-change turret. The method may also align one of the plurality of barrels with a pneumatic seal in the quick-change turret. The method may also disengage the pneumatic actuator to seat the aligned barrel onto the pneumatic seal and print a three-dimensional object. The method may further halt the printing of the three-dimensional object prior to completion and engage the pneumatic actuator to extend the quick-change turret from the pneumatic seal.

US Patent:

20200282393, Sep 10, 2020

Filed:

Mar 6, 2020

Appl. No.:

16/811808

Inventors:

- Louisville KY, US
Scott Douglas Cambron - Louisville KY, US

Assignee:

Advanced Solutions Life Sciences, LLC - Louisville KY

International Classification:

B01L 3/00

Abstract:

Modular pump assemblies according to the present disclosure include a plurality of mounting frames configured to be stackable with one another in a modular configuration, and an array of pumps mounted to each of the plurality mounting frames, the array of pumps comprising an array of inlet pumps configured to be fluidically coupled a plurality of fluid inlet paths of a well-plate manifold or an array of fluid outlet pumps configured to be fluidically coupled to a plurality of fluid outlet paths of the well-plate manifold, or any combination thereof.