Patents by Inventor Clark E. Fortney
Clark E. Fortney has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20090143727Abstract: A medical pump, for use with a cassette having a pumping chamber, includes a pumping element with a piston slider assembly which intermittently pressurizes the pumping chamber during a pumping cycle and has a piston head connected to a main body with a single pressure sensor positioned there between. A camshaft is associated with the pumping element, an inlet control element, and an outlet control element for closing the pumping chamber to flow when the pumping chamber is pressurized. A processing unit receives pressure and position data from the pressure sensor and a position sensor associated with the pumping element, and processes this data to determine the operating condition of the pump. The operating conditions determined include: blocked fluid flow, no fluid in the line, no cassette associated with the pump, proper pump priming, or proper valve sealing.Type: ApplicationFiled: July 11, 2008Publication date: June 4, 2009Applicant: Abbott LaboratoriesInventors: Chad E. Bouton, Dale M. Radcliff, Steven R. Nelson, Clark E. Fortney
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Publication number: 20090144026Abstract: A method is disclosed for determining the operating condition of a medical pump based on data derived from a pressure sensor and a position sensor. The pressure sensor generates pressure data by sensing the force on the pumping element. The position sensor generates position data by tracking the pumping cycle and determining the position of the pumping element. The pump pressure data and pump position data are processed and the calculated results compared with a pre-determined threshold value to determine the operating condition of the pump. The three main types of operating conditions of concern are the following: normal condition, where liquid is present and no leaks exist in pumping chamber; leak condition, where liquid is present but a leak exists in the pumping chamber; and air stroke condition, where the chamber contains some air.Type: ApplicationFiled: July 11, 2008Publication date: June 4, 2009Applicant: Abbott LaboratoriesInventors: Chad E. Bouton, Dale M. Radcliff, Steven R. Nelson, Clark E. Fortney
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Publication number: 20090144025Abstract: A method is disclosed for determining the operating condition of a medical pump based on data derived from a pressure sensor and a position sensor. The pressure sensor generates pressure data by sensing the force on the pumping element. The position sensor generates position data by tracking the pumping cycle and determining the position of the pumping element. The pump pressure data and pump position data are processed and the calculated results compared with a pre-determined threshold value to determine the operating condition of the pump. The three main types of operating conditions of concern are the following: normal condition, where liquid is present and no leaks exist in pumping chamber; leak condition, where liquid is present but a leak exists in the pumping chamber; and air stroke condition, where the chamber contains some air.Type: ApplicationFiled: June 27, 2008Publication date: June 4, 2009Applicant: Abbott LaboratoriesInventors: Chad E. Bouton, Dale M. Radcliff, Steven R. Nelson, Clark E. Fortney
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Publication number: 20090143726Abstract: A medical pump, for use with a cassette having a pumping chamber, includes a pumping element with a piston slider assembly which intermittently pressurizes the pumping chamber during a pumping cycle and has a piston head connected to a main body with a single pressure sensor positioned there between. A camshaft is associated with the pumping element, an inlet control element, and an outlet control element for closing the pumping chamber to flow when the pumping chamber is pressurized. A processing unit receives pressure and position data from the pressure sensor and a position sensor associated with the pumping element, and processes this data to determine the operating condition of the pump. The operating conditions determined include: blocked fluid flow, no fluid in the line, no cassette associated with the pump, proper pump priming, or proper valve sealing.Type: ApplicationFiled: June 27, 2008Publication date: June 4, 2009Applicant: Abbott LaboratoriesInventors: Chad E. Bouton, Dale M. Radcliff, Steven R. Nelson, Clark E. Fortney
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Patent number: 7452190Abstract: A method is disclosed for determining the operating condition of a medical pump based on data derived from a pressure sensor and a position sensor. The pressure sensor generates pressure data by sensing the force on the pumping element. The position sensor generates position data by tracking the pumping cycle and determining the position of the pumping element. The pump pressure data and pump position data are processed and the calculated results compared with a pre-determined threshold value to determine the operating condition of the pump. The three main types of operating conditions of concern are the following: normal condition, where liquid is present and no leaks exist in pumping chamber; leak condition, where liquid is present but a leak exists in the pumping chamber; and air stroke condition, where the chamber contains some air.Type: GrantFiled: August 11, 2006Date of Patent: November 18, 2008Assignee: Abbott LaboratoriesInventors: Chad E. Bouton, Dale M. Radcliff, Steven R. Nelson, Clark E. Fortney
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Patent number: 7360999Abstract: A medical pump, for use with a cassette having a pumping chamber, includes a pumping element with a piston slider assembly which intermittently pressurizes the pumping chamber during a pumping cycle and has a piston head connected to a main body with a single pressure sensor positioned therebetween. A camshaft is associated with the pumping element, an inlet control element, and an outlet control element for closing the pumping chamber to flow when the pumping chamber is pressurized. A processing unit receives pressure and position data from the pressure sensor and a position sensor associated with the pumping element, and processes this data to determine the operating condition of the pump. The operating conditions determined include: blocked fluid flow, no fluid in the line, no cassette associated with the pump, proper pump priming, or proper valve sealing.Type: GrantFiled: July 22, 2003Date of Patent: April 22, 2008Assignee: Abbott LaboratoriesInventors: Steven R. Nelson, Chad E. Bouton, Dale M. Radcliff, Roger W. Smith, Clark E. Fortney
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Patent number: 7104763Abstract: A method is disclosed for determining the operating condition of a medical pump based on data derived from a pressure sensor and a position sensor. The pressure sensor generates pressure data by sensing the force on the pumping element. The position sensor generates position data by tracking the pumping cycle and determining the position of the pumping element. The pump pressure data and pump position data are processed and the calculated results compared with a pre-determined threshold value to determine the operating condition of the pump. The three main types of operating conditions of concern are the following: normal condition, where liquid is present and no leaks exist in pumping chamber; leak condition, where liquid is present but a leak exists in the pumping chamber; and air stroke condition, where the chamber contains some air.Type: GrantFiled: July 22, 2003Date of Patent: September 12, 2006Assignee: Abbott LaboratoriesInventors: Chad E. Bouton, Dale M. Radcliff, Steven R. Nelson, Clark E. Fortney
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Publication number: 20040247445Abstract: A medical pump, for use with a cassette having a pumping chamber, includes a pumping element with a piston slider assembly which intermittently pressurizes the pumping chamber during a pumping cycle and has a piston head connected to a main body with a single pressure sensor positioned therebetween. A camshaft is associated with the pumping element, an inlet control element, and an outlet control element for closing the pumping chamber to flow when the pumping chamber is pressurized. A processing unit receives pressure and position data from the pressure sensor and a position sensor associated with the pumping element, and processes this data to determine the operating condition of the pump. The operating conditions determined include: blocked fluid flow, no fluid in the line, no cassette associated with the pump, proper pump priming, or proper valve sealing.Type: ApplicationFiled: July 22, 2003Publication date: December 9, 2004Inventors: Steven R. Nelson, Chad E. Bouton, Dale M. Radcliff, Roger W. Smith, Clark E. Fortney
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Publication number: 20040120825Abstract: A method is disclosed for determining the operating condition of a medical pump based on data derived from a pressure sensor and a position sensor. The pressure sensor generates pressure data by sensing the force on the pumping element. The position sensor generates position data by tracking the pumping cycle and determining the position of the pumping element. The pump pressure data and pump position data are processed and the calculated results compared with a pre-determined threshold value to determine the operating condition of the pump. The three main types of operating conditions of concern are the following: normal condition, where liquid is present and no leaks exist in pumping chamber; leak condition, where liquid is present but a leak exists in the pumping chamber; and air stroke condition, where the chamber contains some air.Type: ApplicationFiled: July 22, 2003Publication date: June 24, 2004Inventors: Chad E. Bouton, Dale M. Radcliff, Steven R. Nelson, Clark E. Fortney
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Patent number: 5995077Abstract: A wearable electronic data collection and storage device is used for recording field medical data. The device is small, portable and easily worn, similar to a watch or medallion and is capable of interfacing with a large, external accessing system. The device includes an application specific integrated circuit card which is received in and is removable from a wearable/portable data entry, storage and retrieval device. The card includes a programmable memory for storing data. These two elements, when combined, form the MEDTAG unit. This unit also includes a memory for storing software, and a microprocessor for reading and entering data, and executing the software. The wearable/portable data entry storage and retrieval device includes an electrical connection to the removable card, a display for showing menus and data to a user, and two manual input buttons allowing the user to select from the menus and enter data into the programmable memory of the card.Type: GrantFiled: January 31, 1996Date of Patent: November 30, 1999Assignee: The United States of America as represented by the Secretary of the NavyInventors: Walter W. Wilcox, Michael R. Galarneau, Clark E. Fortney, Richard D. Rosen
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Patent number: 5853387Abstract: A pumping system for infusing fluids into a patient. The pumping system includes a pump and a controller constructed to control operation of the pump. The controller has a hold condition in which it deactivates the pump. The controller also has a timer subsystem having a variable duration. A magnitude control operable by a human is connected to the controller, the magnitude control being constructed to alter the variable duration of the timer subsystem of the controller. The pumping system further includes an alarm connected to the controller, the controller constructed to activate the alarm upon expiration of the variable duration of the timer subsystem.Type: GrantFiled: April 3, 1996Date of Patent: December 29, 1998Assignee: Abbott LaboratoriesInventors: Robert D. Clegg, Matthew S. Fleming, Clark E. Fortney, Barbara J. McAllister, Robert S. Osborne
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Patent number: 5755563Abstract: An apparatus and method for controlling a flow parameter of a pump. The pump includes a pumping device for pumping fluid, the pumping device having at least one flow parameter. The pump further includes a control coupled to the pumping device and a control panel having a plurality of controls operable by a human. The control is programmable by operation of the plurality of controls, thereby allowing a human to program the at least one flow parameter of said pumping device by operation of the plurality of controls. The control has a lock that can be activated by operation of at least two of the plurality of controls. Upon activation, the lock prevents the alteration of the at least one flow parameter. The method includes the step of providing the pump of the present invention, programming the at least one flow parameter by operating the plurality of controls, and activating the lock by operating at least two of the plurality of controls.Type: GrantFiled: April 3, 1996Date of Patent: May 26, 1998Assignee: Abbott LaboratoriesInventors: Robert D. Clegg, Matthew S. Fleming, Clark E. Fortney, Robert S. Osborne