Cardiac assist system and method thereof
First Claim
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1. A system for assisting a heart to pump blood, the system comprising:
- a ventricular assist device having an interior surface and including an inflatable bladder that is operative to apply pressure to at least a portion of the heart;
a source of pressurized fluid connected to the inflatable bladder and operative to inflate the bladder;
at least one electrical sensor configured to be positioned in contact with the heart when the ventricular assist device is engaged to the heart, the electrical sensor being operative to sense electrical activity of the heart and to generate corresponding electrical signals; and
a controller electrically connected to the sensor and to the source of pressurized fluid, the controller being programmed to receive the electrical signals from the sensor, process the electrical signals to determine the onset of ventricular contraction in the heart, and control the source of pressurized fluid to supply pressurized fluid to the bladder to inflate the bladder at a time synchronous with the ventricular contraction of the heart;
wherein the sensor comprises an electrode operative to sense electrical activity of the heart and to generate a corresponding electrical signal;
the sensor defines a stimulating electrode connected to the interior surface of the ventricular assist device to contact the heart when the ventricular assist device is placed over the heart, the stimulating electrode being responsive to receipt of electrical stimulating energy to apply the energy to the heart, the stimulating electrode further being operative to sense electrical activity of the heart; and
further including at least one pick-up electrode external of the ventricular assist device and electrically connected to the stimulating electrode, the pick-up electrode being operative to collect electrical energy and to conduct the electrical energy to the stimulating electrode.
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Abstract
A cardiac assist system includes a sensor that is operative to sense the electrical activity of a patient'"'"'s heart. The sensed electrical activity is processed to determine the onset of ventricular contraction. A compressive force from a ventricular assist device is applied to the ventricles during at least a portion of the heart'"'"'s ventricular contraction. The cardiac assist system also includes an electrical stimulating system. Thus, in the event the heart begins to fibrillate, the electrical stimulating system is actuated to apply stimulating pulses to the heart.
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Citations
18 Claims
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1. A system for assisting a heart to pump blood, the system comprising:
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a ventricular assist device having an interior surface and including an inflatable bladder that is operative to apply pressure to at least a portion of the heart;
a source of pressurized fluid connected to the inflatable bladder and operative to inflate the bladder;
at least one electrical sensor configured to be positioned in contact with the heart when the ventricular assist device is engaged to the heart, the electrical sensor being operative to sense electrical activity of the heart and to generate corresponding electrical signals; and
a controller electrically connected to the sensor and to the source of pressurized fluid, the controller being programmed to receive the electrical signals from the sensor, process the electrical signals to determine the onset of ventricular contraction in the heart, and control the source of pressurized fluid to supply pressurized fluid to the bladder to inflate the bladder at a time synchronous with the ventricular contraction of the heart;
wherein the sensor comprises an electrode operative to sense electrical activity of the heart and to generate a corresponding electrical signal;
the sensor defines a stimulating electrode connected to the interior surface of the ventricular assist device to contact the heart when the ventricular assist device is placed over the heart, the stimulating electrode being responsive to receipt of electrical stimulating energy to apply the energy to the heart, the stimulating electrode further being operative to sense electrical activity of the heart; and
further including at least one pick-up electrode external of the ventricular assist device and electrically connected to the stimulating electrode, the pick-up electrode being operative to collect electrical energy and to conduct the electrical energy to the stimulating electrode. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of assisting a heart to pump blood, comprising:
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engaging a ventricular assist device to at least a portion of the heart;
sensing the electrical activity of the heart;
determining when the ventricles of the heart are contracting;
applying pressure to at least a portion of the ventricles of the heart at a time synchronous with the heart'"'"'s natural contraction of the ventricles; and
applying defibrillation energy to a patient from a location external to the patient, when the patient'"'"'s heart is fibrillating;
receiving the externally applied energy at one or more electrodes inside the patient'"'"'s body; and
conducting the received energy to one or more electrodes in contact with the patient'"'"'s heart to apply the energy to the heart. - View Dependent Claims (8, 9, 10, 11)
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12. A system for assisting a heart to pump blood and for applying stimulating pulses to the heart, the system comprising:
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a ventricular assist device including an inflatable bladder that is operative to apply pressure to at least a portion of the heart;
a source of pressurized fluid connected to the inflatable bladder and operative to inflate the bladder;
at least one electrical sensor in contact with the ventricular assist device and configured to be positioned in contact with the heart when the ventricular assist device is engaged to the heart, the electrical sensor being operative to sense electrical activity of the heart and to generate corresponding electrical signals;
a controller electrically connected to the sensor and to the source of pressurized fluid, the controller being programmed to receive the electrical signals from the sensor, determine from the electrical signals when the heart enters into a ventricular contraction stage, and control the source of pressurized fluid to supply pressurized fluid to the bladder to inflate the bladder during at least a portion of the ventricular contraction of the heart;
a stimulating electrode in contact with the ventricular assist device and configured to be positioned in contact with the heart when the ventricular assist device is engaged to the heart; and
a source of stimulating pulses in communication with the stimulating electrode and operative to generate electrical stimulating pulses and transmit the stimulating pulses to the stimulating electrode for application to the heart;
wherein the source of stimulating pulses comprises at least one pick-up electrode external of the ventricular assist device and electrically connected to the stimulating electrode, the pick-up electrode being operative to collect externally applied electrical energy and conduct the electrical energy to the stimulating electrode. - View Dependent Claims (13, 14, 15, 16, 17, 18)
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Specification
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Current AssigneeCardio Technologies, Inc.
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Original AssigneeCardio Technologies, Inc.
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InventorsReinhardt, Robert W., Levin, Howard R.
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Primary Examiner(s)Schaetzle, Kennedy
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Application NumberUS09/432,518Time in Patent Office609 DaysField of Search600/16, 600/17, 607/2, 607/3, 607/4, 607/5, 623/3.11, 623/3.16, 623/3.21, 623/3.28, 623/3.27US Class Current600/17CPC Class CodesA61M 2205/33 Controlling, regulating or ...A61M 2205/3303 Using a biosensorA61M 60/148 in line with a blood vessel...A61M 60/191 mechanically acting upon th...A61M 60/289 Devices for mechanical circ...A61M 60/468 the force acting on the act...A61M 60/515 Regulation using real-time ...A61M 60/839 of devices for mechanical c...A61N 1/3621 for treating or preventing ...
