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Conrad Laskowski Phones & Addresses

  • Baltimore, MD
  • 40 Upper Rock Cir APT 332, Rockville, MD 20850
  • N Bethesda, MD
  • Gaithersburg, MD
  • Bethesda, MD
  • North Middletown, NJ
  • College Park, MD

Work

Company: Trx systems, inc. Mar 2013 to Mar 2015 Position: Lead mechanical engineer

Education

Degree: Bachelors, Bachelor of Science School / High School: University of Maryland 2004 to 2008 Specialities: Engineering, Mechanical Engineering

Skills

Medical Devices • Product Design • Product Development • Solidworks • Engineering • Manufacturing • Cad • Testing • R&D • Embedded Systems • Rapid Prototyping • Design For Manufacturing • Project Management • Industrial Design • Sensors • Mechanical Engineering

Ranks

Certificate: Usatf

Industries

Mechanical Or Industrial Engineering

Resumes

Resumes

Conrad Laskowski Photo 1

Senior Mechanical Engineer

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Location:
Owings Mills, MD
Industry:
Mechanical Or Industrial Engineering
Work:
Trx Systems, Inc. Mar 2013 - Mar 2015
Lead Mechanical Engineer

Root3 Labs Mar 2013 - Mar 2015
Senior Mechanical Engineer

Uspto Sep 2012 - Mar 2013
Patent Examiner

Key Tech Inc. Jul 2008 - May 2012
Mechanical Engineer

University of Maryland Jan 2006 - May 2008
Umd Functional Materials Lab
Education:
University of Maryland 2004 - 2008
Bachelors, Bachelor of Science, Engineering, Mechanical Engineering
Skills:
Medical Devices
Product Design
Product Development
Solidworks
Engineering
Manufacturing
Cad
Testing
R&D
Embedded Systems
Rapid Prototyping
Design For Manufacturing
Project Management
Industrial Design
Sensors
Mechanical Engineering
Certifications:
Usatf
Usatf Level 1 Certified Coach

Publications

Us Patents

Pipettor Head Assembly

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US Patent:
D679827, Apr 9, 2013
Filed:
Feb 23, 2011
Appl. No.:
29/385966
Inventors:
Alex Flamm - Baltimore MD, US
Conrad Laskowski - Baltimore MD, US
Brian Murphy - Baltimore MD, US
Jeremy Savage - Rockville MD, US
Assignee:
Canon U.S. Life Sciences, Inc. - Rockville MD
International Classification:
2402
US Classification:
D24222

Chip Station Plate With Led Assembly

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US Patent:
D686310, Jul 16, 2013
Filed:
Feb 23, 2011
Appl. No.:
29/385964
Inventors:
Conrad Laskowski - Baltimore MD, US
Eric Schneider - Catonsville MD, US
Jeremy Savage - Rockville MD, US
Hongye Liang - Clarksville MD, US
Kenton Hasson - Germantown MD, US
Assignee:
Canon U.S. Life Sciences, Inc. - Rockville MD
International Classification:
2401
US Classification:
D24107, D24216, D24232

Chip Station Assembly

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US Patent:
D686334, Jul 16, 2013
Filed:
Feb 23, 2011
Appl. No.:
29/385967
Inventors:
Eric Schneider - Catonsville MD, US
Alex Flamm - Baltimore MD, US
Brian Murphy - Baltimore MD, US
Chad Schneider - Owings Mills MD, US
Charly Mar - Rockville MD, US
Ben Lane - Hydes MD, US
Jeremy Savage - Rockville MD, US
Conrad Laskowski - Baltimore MD, US
Assignee:
Canon U.S. Life Sciences, Inc. - Rockville MD
International Classification:
2401
US Classification:
D24216, D24232

Systems And Methods For Minimization Or Elimination Of Diffusion Effects In A Microfluidic System

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US Patent:
20110091877, Apr 21, 2011
Filed:
Apr 12, 2010
Appl. No.:
12/758395
Inventors:
Brian Murphy - Baltimore MD, US
Scott Corey - Hydes MD, US
Alex Flamm - Baltimore MD, US
Ben Lane - Hydes MD, US
Conrad Laskowski - Bethesda MD, US
Chad Schneider - Owings Mills MD, US
Assignee:
Canon U.S. Life Sciences, Inc. - Rockville MD
International Classification:
G01N 1/10
C12Q 1/68
C12M 1/34
US Classification:
435 6, 7386321, 7386302, 4352872
Abstract:
The present invention relates to systems and methods for minimizing or eliminating diffusion effects. Diffused regions of a segmented flow of multiple, miscible fluid species may be vented off to a waste channel, and non-diffused regions of fluid may be preferentially pulled off the channel that contains the segmented flow. Multiple fluid samples that are not contaminated via diffusion may be collected for analysis and measurement in a single channel. The systems and methods for minimizing or eliminating diffusion effects may be used to minimize or eliminate diffusion effects in a microfluidic system for monitoring the amplification of DNA molecules and the dissociation behavior of the DNA molecules.

System And Method For Serial Processing Of Multiple Nucleic Acid Assays

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US Patent:
20120052560, Mar 1, 2012
Filed:
Aug 31, 2011
Appl. No.:
13/223290
Inventors:
Ivor T. Knight - Arlington VA, US
Kenton C. Hasson - Germantown MD, US
Johnathan S. Coursey - Germantown MD, US
Hongye Liang - Clarksville MD, US
Sami Kanderian - Germantown MD, US
Gregory H. Owen - Clarksburg MD, US
Weidong Cao - N. Potomac MD, US
Scott Corey - Hydes MD, US
Ben Lane - Hydes MD, US
Conrad Laskowski - Baltimore MD, US
Alex Flamm - Baltimore MD, US
Brian Murphy - Baltimore MD, US
Eric Schneider - Catonsville MD, US
Takayoshi Hanagata - Newport News VA, US
Hiroshi Inoue - Rockville MD, US
Shulin Zeng - Gaithersburg MD, US
Brian Bean - Baltimore MD, US
Franklin Regan - Baltimore MD, US
Assignee:
CANON U.S. LIFE SCIENCES, INC. - Rockville MD
International Classification:
C12M 1/40
US Classification:
4352861, 4352872
Abstract:
The present invention relates generally to systems and methods for the rapid serial processing of multiple nucleic acid assays. More particularly, the present invention provides for the real time processing of nucleic acid during polymerase chain reaction (PCR) and thermal melt applications. According to an aspect of the invention, a system for the rapid serial processing of multiple nucleic acid assays is provided. In one embodiment, the system includes, but is not limited to: a microfluidic cartridge having microfluidic (flow-through) channels, a fluorescence imaging system, a temperature measurement and control system; a pressure measurement and control system for applying variable pneumatic pressures to the microfluidic cartridge; a storage device for holding multiple reagents (e.g., a well-plate); a liquid handling system comprising at least one robotic pipettor for aspirating, mixing, and dispensing reagent mixtures to the microfluidic cartridge; systems for data storage, processing, and output; and a system controller to coordinate the various devices and functions.

Method, Devices, And Systems For Fluid Mixing And Chip Interface

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US Patent:
20120058519, Mar 8, 2012
Filed:
Aug 31, 2011
Appl. No.:
13/222474
Inventors:
Ivor T. Knight - Arlington VA, US
Scott Corey - Hydes MD, US
Ben Lane - Hydes MD, US
Conrad Laskowski - Baltimore MD, US
Alex Flamm - Baltimore MD, US
Brian Murphy - Baltimore MD, US
Assignee:
Canon U.S. Life Sciences, Inc. - Rockville MD
International Classification:
C12P 19/34
C12M 1/00
US Classification:
435 912, 4352891
Abstract:
In one aspect, the present invention provides methods, devices, and systems for ensuring that multiple components of a mixture are fully mixed in a continuous flow microfluidic system while ensuring that mixing between segments flowing through the chip is minimized. In some embodiments, the present invention includes mixing fluids in a droplet maintained at the tip of a pipette before the mixture is introduced to the microfluidic device. In another aspect, the present invention provides methods, devices, and systems for creating segments that move through a microfluidic chip with minimal mixing between segments. The microfluidic chip may have an interface chip and a reaction chip. In some embodiments, the present invention includes creating segments that flow through an interface chip and a reaction chip, wherein the interface chip and a reaction chip have separate flow control mechanisms and produce minimal mixing between segments.

Methods, Devices, And Systems For Fluid Mixing And Chip Interface

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US Patent:
20120058571, Mar 8, 2012
Filed:
Aug 31, 2011
Appl. No.:
13/222450
Inventors:
Ivor T. Knight - Arlington VA, US
Scott Corey - Hydes MD, US
Ben Lane - Hydes MD, US
Conrad Laskowski - Baltimore MD, US
Alex Flamm - Baltimore MD, US
Brian Murphy - Baltimore MD, US
Assignee:
Canon U.S. Life Sciences, Inc. - Rockville MD
International Classification:
G01N 1/00
B01L 3/02
US Classification:
436180, 422524
Abstract:
In one aspect, the present invention provides methods, devices, and systems for ensuring that multiple components of a mixture are fully mixed in a continuous flow microfluidic system while ensuring that mixing between segments flowing through the chip is minimized. In some embodiments, the present invention includes mixing fluids in a droplet maintained at the tip of a pipette before the mixture is introduced to the microfluidic device. In another aspect, the present invention provides a pipette tip having a ratio of an outside diameter to an inside diameter that provides sufficient surface area for a droplet comprising up to the entire volume of the liquid to suspend from the pipette tip intact. In yet another aspect, the present invention provides methods, devices, and systems for delivering a reaction mixture to a microfluidic chip comprising a docking receptacle, an access tube and a reservoir.

Pipette Tip

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US Patent:
D673291, Dec 25, 2012
Filed:
Feb 23, 2011
Appl. No.:
29/385969
Inventors:
Ivor Knight - Arlington VA, US
Scott Corey - Hydes MD, US
Ben Lane - Hydes MD, US
Conrad Laskowski - Baltimore MD, US
Alex Flamm - Baltimore MD, US
Brian Murphy - Baltimore MD, US
Assignee:
Canon U.S. Life Sciences, Inc. - Rockville MD
International Classification:
2402
US Classification:
D24222
Conrad J Laskowski from Baltimore, MD, age ~38 Get Report