Acoustic body bus medical device communication system
First Claim
1. A system for providing pacing, cardioversion and defibrillation staged therapies for bradycardia, tachycardia and fibrillation of a patient'"'"'s heart, comprising:
- (A) a body implantable pacemaker comprising;
(1) pacing energy pulse generator means for applying pacing stimuli to said heart;
(2) pacing lead means bearing at least one electrode means adapted to be placed in contact with or within said heart and coupled to said pulse generator means for applying said pacing stimuli to said heart and receiving electrical signals appearing at the tissue-electrode interface;
(3) sensing means coupled to said electrode means for sensing electrical signals appearing at said electrode means;
(4) detecting means responsive to said sensing means for detecting a bradyarrhythmia, tachyarrhythmia or ventricular fibrillation condition of said heart;
(5) first control means responsive to said detecting means for instructing said pulse generator means to provide;
(a) pacing stimuli to said pacing electrode means in response to the detection of a bradyarrhythmia or tacharrhythmia condition; and
(b) an encoded defibrillation shock control command in response to the detection of a ventricular fibrillation condition, said encoded defibrillation shock command comprising a predetermined modulated first medium frequency signal in the frequency range from 10 to 100 kHz; and
(6) first acoustic transducer means acoustically coupled to the body fluids and tissue of said patient for transducing said encoded defibrillation shock control command into modulated ultrasonic acoustic waves for transmission into said body fluids and tissue as a function of said modulated first medium frequency signal; and
(B) a remotely implanted defibrillator comprising;
(1) defibrillation pulse generator means for generating defibrillation shocks;
(2) defibrillation electrode means adapted to be placed in contact with said heart for providing defibrillation shocks thereto;
(3) second acoustic transducer means acoustically coupled to said body fluids and tissue for transducing said modulated ultrasonic acoustic waves transmitted from said pacemaker into said modulated first medium frequency signal;
(4) receiving means coupled to said second acoustic transducer means for demodulating said modulated first medium frequency signal into a decoded defibrillator shock control command; and
(5) second control means responsive to said decoded shock control command for instructing said defibrillation pulse generator to provide a defibrillation shock across said defibrillation electrode means as a function of said decoded shock control command.
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Accused Products
Abstract
A system intended for being at least partly implanted into a living body and comprising at least two modules or devices which are interconnected by a communication transmission channel, at least one of said modules being provided with transmitting and receiving means for a bidirectional exchange of information with at least one further module and at least one other module of which being provided at least with receiving means or transmitting means for receiving information from at least one further module or for transmitting information to at least one further module, respectively. Within the intracorporeal region, said communication transmission channel by data modulated ultrasound. The body mass provides for an ultrasonic coupling between two or more implantable modules and/or between at least one implantable module and an external skin transducer intended for connection to an external module. The exchange of information is effected by modulated medium frequency signals in the frequency range from 10 to 100 kHz, which signals are passed through said communication transmission channel and transmitted or received by ultrasonic transducers, e.g. piezoelectric crystals.
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Citations
3 Claims
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1. A system for providing pacing, cardioversion and defibrillation staged therapies for bradycardia, tachycardia and fibrillation of a patient'"'"'s heart, comprising:
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(A) a body implantable pacemaker comprising; (1) pacing energy pulse generator means for applying pacing stimuli to said heart; (2) pacing lead means bearing at least one electrode means adapted to be placed in contact with or within said heart and coupled to said pulse generator means for applying said pacing stimuli to said heart and receiving electrical signals appearing at the tissue-electrode interface; (3) sensing means coupled to said electrode means for sensing electrical signals appearing at said electrode means; (4) detecting means responsive to said sensing means for detecting a bradyarrhythmia, tachyarrhythmia or ventricular fibrillation condition of said heart; (5) first control means responsive to said detecting means for instructing said pulse generator means to provide; (a) pacing stimuli to said pacing electrode means in response to the detection of a bradyarrhythmia or tacharrhythmia condition; and (b) an encoded defibrillation shock control command in response to the detection of a ventricular fibrillation condition, said encoded defibrillation shock command comprising a predetermined modulated first medium frequency signal in the frequency range from 10 to 100 kHz; and (6) first acoustic transducer means acoustically coupled to the body fluids and tissue of said patient for transducing said encoded defibrillation shock control command into modulated ultrasonic acoustic waves for transmission into said body fluids and tissue as a function of said modulated first medium frequency signal; and (B) a remotely implanted defibrillator comprising; (1) defibrillation pulse generator means for generating defibrillation shocks; (2) defibrillation electrode means adapted to be placed in contact with said heart for providing defibrillation shocks thereto; (3) second acoustic transducer means acoustically coupled to said body fluids and tissue for transducing said modulated ultrasonic acoustic waves transmitted from said pacemaker into said modulated first medium frequency signal; (4) receiving means coupled to said second acoustic transducer means for demodulating said modulated first medium frequency signal into a decoded defibrillator shock control command; and (5) second control means responsive to said decoded shock control command for instructing said defibrillation pulse generator to provide a defibrillation shock across said defibrillation electrode means as a function of said decoded shock control command. - View Dependent Claims (2, 3)
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Specification