1
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. The Board of Trustees of the Leland Stanford Junior University, Womble Carlyle Sandridge & Rice PLLC, September 13, 2005: US06942018 (105 worldwide citation)

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


2
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Closed-loop microchannel cooling system. The Board of Trustees of the Leland Stanford Junior University, Womble Carlyle Sandridge & Rice PLLC, February 26, 2008: US07334630 (57 worldwide citation)

Apparatus and methods according to the present invention utilize micropumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in reliability. These mic ...


3
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. The Board of Trustees of the Leland Stanford Junior Universty, Womble Carlyle Sandridge & Rice PLLC, November 7, 2006: US07131486 (30 worldwide citation)

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


4
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. Board of Trustees of the Leland Stanford Junior University, Womble Carlyle Sandridge & Rice PLLC, March 6, 2007: US07185697 (30 worldwide citation)

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


5
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. The Board of Trustees of the Leland Stanford Junior University, Womble Carlyle Sandridge & Rice PLLC, January 31, 2006: US06991024 (29 worldwide citation)

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


6
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evelyn Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. Pillsbury Winthrop, April 3, 2003: US20030062149-A1 (2 worldwide citation)

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


7
David E Huber, Craig R Andrews: Pressure ulcer prosthesis and method for treating and/or preventing pressure ulcers. Viater Medical, Ladas and Parry, May 29, 2007: US07222625 (1 worldwide citation)

A pressure ulcer prosthesis (10) having an elongated body (11) to support a patient's limb. The body (11) has a longitudinally extending support surface (13) that is arcuate and concave in transverse cross section. A distal end (12) having a surface (18) extends away from the surface (13) so as to d ...


8
David E Huber, Craig R Andrews: Pressure ulcer prosthesis and method for treating and/or preventing pressure ulcers. Guardaheel IP, Ladas & Parry, September 21, 2010: US07798150

A pressure ulcer prosthesis (10) having an elongated body (11) to support a patient's limb. The body (11) has a longitudinally extending support surface (13) that is arcuate and concave in transverse cross section. A distal end (12) having a surface (18) extends away from the surface (13) so as to d ...


9
Kenneth E Goodson, Chuan Hua Chen, David E Huber, Linan Jiang, Thomas W Kenny, Jae Mo Koo, Daniel J Laser, James C Mikkelsen, Juan G Santiago, Evely Ning Yi Wang, Shulin Zeng, Lian Zhang: Electroosmotic microchannel cooling system. The Board of Trustees of the Leland Stanford Junior University, John J Timar, Womble Carlyle Sandridge & Rice, May 13, 2004: US20040089442-A1

Apparatus and methods according to the present invention preferably utilize electroosmotic pumps that are capable of generating high pressure and flow without moving mechanical parts and the associated generation of unacceptable electrical and acoustic noise, as well as the associated reduction in r ...


10
David E Huber, Craig R Andrews: Pressure ulcer prosthesis and method for treating and/or preventing pressure ulcers. Viater Medical, Ladas & Parry, August 16, 2007: US20070186938-A1

A pressure ulcer prosthesis (10) having an elongated body (11) to support a patient's limb. The body (11) has a longitudinally extending support surface (13) that is arcuate and concave in transverse cross section. A distal end (12) having a surface (18) extends away from the surface (13) so as to d ...