1
Dean Kamen, Jason A Demers, David E Altobelli, Larry B Gray, N Christopher Perry, Brian Tracey, James D Dale, Dirk A van der Merwe, Kingston Owens: Heat exchange systems, devices and methods. DEKA Products Partnership, Wolf Greenfield & Sacks P C, March 3, 2015: US08968232 (21 worldwide citation)

Embodiments of the present invention relate generally to heat-exchanger systems that can be used to heat or cool a fluid such as blood. Pod pumps that provide low shear and low turbulence may be used in such systems, particularly for systems that pump blood. A certain heat-exchanger system used to h ...


2
Michael J Wilt, Todd A Ballantyne, Jason A Demers: Blood treatment systems and methods. DEKA Products Partnership, Wolf Greenfield & Sacks P C, March 28, 2017: US09603985 (6 worldwide citation)

Dialysis systems comprising actuators that cooperate to perform dialysis functions and sensors that cooperate to monitor dialysis functions are disclosed. According to one aspect, such a hemodialysis system comprises a user interface model layer, a therapy layer, below the user interface model layer ...


3
Dean Kamen, N Christopher Perry, Jason A Demers, Brian D Tracey, Arun D Chawan, Kevin L Grant: Sensor apparatus systems, devices and methods. DEKA Products Partnership, Wolf Greenfield & Sacks P C, January 3, 2017: US09535021 (5 worldwide citation)

A sensor apparatus and sensor apparatus system for use in conjunction with a cassette, including a disposable or replaceable cassette. In some embodiments, the cassette includes a thermal well for permitting the sensing of various properties of a subject media. The thermal well includes a hollow hou ...


4
Michael J Wilt: Air trap for a medical infusion device. DEKA Products Partnership, Wolf Greenfield & Sacks P C, March 21, 2017: US09597442 (5 worldwide citation)

An air trap for a blood circuit and method for removing air from blood in a dialysis unit. The air trap may include a blood inlet supply line, a blood outlet supply line, and a container having an approximately spherical internal wall, an inlet at a top end of the container connected to the blood in ...


5
Kevin L Grant, Jason A Demers, James D Dale, Arun D Chawan, David E Collins: Enclosure for a portable hemodialysis system. DEKA Products Partnership, Wolf Greenfield & Sacks P C, January 10, 2017: US09539379 (5 worldwide citation)

An enclosure for containing a portable hemodialysis unit includes a housing suitable to support components for performing hemodialysis including a dialyzer, one or more pumps to circulate blood through the dialyzer, a source of dialysate, and one or more pumps to circulate the dialysate through the ...


6
Michael J Wilt, Dirk A van der Merwe, Todd A Ballantyne, Kevin L Grant, Jonathan P Rosse, Catharine N Flynn, Brian K Yee: Blood treatment systems and methods. DEKA Products Partnership, Wolf Greenfield & Sacks P C, August 1, 2017: US09717834 (5 worldwide citation)

Dialysis systems are disclosed comprising new fluid flow circuits. Systems may include blood and dialysate flow paths, where the dialysate flow path includes balancing, mixing, and/or directing circuits. Dialysate preparation may be decoupled from patient dialysis. Circuits may be defined within one ...


7
William W Behrens, Andrew R Tucker: Extended plug cold plate. The Boeing Company, Toler Law Group PC, May 13, 2014: US08720828

Heat exchange systems, devices and methods are provided. A particular heat exchange device includes a housing defining an inlet and an outlet. The heat exchange device also includes at least one ceramic foam member inside the housing. The at least one ceramic foam member defines a plurality of pores ...


8
BEHRENS WILLIAM W, TUCKER ANDREW R: Cold plate comprising ceramic foam member, Kühlplatte mit Keramikschaum-Element, Plaque de refroidissement avec un élément de mousse céramique. Boeing, June 15, 2011: EP2333475-A2

Heat exchange systems, devices and methods are provided. A particular heat exchange device (100) includes a housing defining an inlet (112) and an outlet (114). The heat exchange device (100) also includes at least one ceramic foam member (106) inside the housing. The at least one ceramic foam membe ...


9
Dean Kamen, Jason A Demers, David E Altobelli, Larry B Gray, N Christopher Perry, Brian Tracey, James D Dale, Dirk A van der Merwe, Kingston Owens: Heat exchange systems, devices and methods. DEKA Products Partnership, Michelle Saquet Temple, March 6, 2008: US20080058697-A1

Embodiments of the present invention relate generally to heat-exchanger systems that can be used to heat or cool a fluid such as blood. Pod pumps that provide low shear and low turbulence may be used in such systems, particularly for systems that pump blood. A certain heat-exchanger system used to h ...


10
Dean Kamen, Jason A Demers, David E Altobelli, Larry B Gray, N Christopher Perry, Brian Tracey, James D Dale, Dirk A van der Merwe, Kingston Owens: Heat exchange systems, devices and methods. DEKA Products Partnership, September 8, 2011: US20110218600-A1

Embodiments of the present invention relate generally to heat-exchanger systems that can be used to heat or cool a fluid such as blood. Pod pumps that provide low shear and low turbulence may be used in such systems, particularly for systems that pump blood. A certain heat-exchanger system used to h ...