CROSSOVER ADAPTER AND CROSSOVER LEAD
An adapter includes a first connector, a second connector, and a circuit that reverses a polarity of a signal received at the first connector. Moreover, a lead includes a connector including a cathode terminal and an anode terminal, an electrode including a tip and a ring, and a circuit that connects the anode terminal of the connector to the tip of the electrode and that connects the cathode terminal of the connector to the ring of the electrode.
This application is a divisional of U.S. application Ser. No. 16/038,660, filed Jul. 18, 2018, and is based upon and claims priority to U.S. Provisional Application No. 62/560,857 filed Sep. 20, 2017, the entire contents of each of which are incorporated herein by reference.
BACKGROUND Field of the InventionThe present disclosure is directed to leads for cardiac pacing, and specifically to an adapter and leads for pacing with reverse polarity.
Description of the Related ArtConventional cardiac pacing uses cathodal polarity to stimulate the heart. While small amounts of anodal currents are sometimes used to reverse charge accumulation in electrodes, improving sensing, there has not been clinical interest in stimulating the heart with anodal polarity. This lack of interest may be because cathodal polarity pacing may be deemed to be sufficiently effective in treating heart ailments. However, pacing with cathodal polarity is still associated with a degree of morbidity and mortality because of hitherto unrecognized slowing of conduction and reduction of contractility.
Perhaps because of the prevalent use of cathodal polarity, conventional cardiac pacers typically output pacing signals in only one polarity, cathodal, and have connectors designed to accept lead connection in only one way. This makes it extremely difficult, if not impossible, to use conventional cardiac pacers to deliver anodal polarity pacing.
Recently, there is significant evidence that biphasic waveforms with an anodal pulse that precedes a cathodal pulse can improve conduction speeds and contractility because of the increased cell membrane potential prior to stimulation. Therefore, there is a need for an adaptor that allows the generation of anodal polarity from a conventional cardiac pacer.
SUMMARY OF THE INVENTIONIn a first exemplary aspect, an adapter includes a first connector, a second connector, and a circuit that reverses a polarity of a signal received at the first connector.
The circuit of the adapter may include a first wire that connects a cathode terminal of the first connector to an anode receptacle of the second connector, and a second wire that connects an anode terminal of the first connector to a cathode receptacle of the second connector.
In the adapter, the first connector may connect in only one orientation.
In the adapter, the second connector may connect in only one orientation.
The adapter may also be implanted in a patient.
The adapter may also be formed as a single unit encased in one of a plastic, a silicone, a polymer, or a metal.
The adapter may also include a pc board on which the first and second connectors are mounted, and the first and second wires of the adapter are traces on the pc board.
The adapter may be a lead extender.
In another exemplary embodiment, a lead includes a connector including a cathode terminal and an anode terminal, an electrode including a tip and a ring, and a circuit that connects the anode terminal of the connector to the tip of the electrode and that connects the cathode terminal of the connector to the ring of the electrode.
the circuit of the lead may include a first wire that connects the cathode terminal of the connector to the ring of the electrode, and a second wire that connects the anode terminal of the connector to the tip of the electrode.
The connector of the lead may also connect in only one orientation.
A more complete appreciation of the invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:
Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views,
Connected to the cardiac pacer 5 is a lead that includes a lead connector 10, a lead cable 15, and an electrode 20. Thought the lead is shown as having only one electrode 20, a lead with multiple electrodes may also be used without departing from the scope of the present advancements. The cardiac pacer 5 may monitor predetermined cardiac parameters based on signals sensed by the electrode 20 and provided to the cardiac pacer 5 by the lead. The cardiac pacer 5 may also monitor cardiac parameters via signals sensed by other electrodes (not shown) in addition to, or instead of, the signals sensed by the electrode 20. Of course, the cardiac pacer 5 may also be pre-programmed to deliver a particular series of stimulating pulses without monitoring any cardiac parameters as one of ordinary skill would recognize.
In order to deliver a pacing signal, the cardiac pacer 5 provides a signal to the electrode 20 via the lead and lead cable. In order to do this, the lead is connected to the cardiac pacer 5 by at least two wires as illustrated in
As can be seen from
The lead connector 10 may include two pins 215 and 210 that respectively fit into receptacles (not shown) in the connector 205. In this case, the pin 215 corresponds to the cathode connection and the pin 210 corresponds to the anode connection. However, this can be reversed as one of ordinary skill would recognize. Each pin 210, 215 is connected to a wire 225, 220 that, in turn, connects to the electrode 20. In conventional leads, the pin 215, which corresponds to the cathode connection, is connected to the tip 30 of the electrode 20 by the wire 225. The pin 210, which corresponds to the anode connection, is connected to the ring 25 of the electrode 20 by the wire 220. As can be appreciated, the tip 30 and ring 25 of the electrode 20 are electrically isolated from each other.
Since the connector 205 of the cardiac pacer 5 is hardwired in a particular polarity, and the lead connector 10 can connect to the connector 205 in only one way, typical leads are only able to deliver pacing pulses that are cathodal (i.e., the cathode is connected to the tip 30 and the anode is connected to the ring 25 of the electrode 20). Even if the cardiac pacer 5 is able to generate a biphasic waveform whose second half is a small anodal pulse, the polarity orientation remains fixed with the cathode at the tip 30 and the anode at the ring 25 of the electrode 20.
In
Moreover, the adaptor 300 may be formed as a single unit, such as a pc board with traces serving as the wires 325 and 330. In this case the entire assembly may be encased in plastic, silicone, or other polymer. In the case that the cardiac pacer 5 is external to the body, the adapter 300 may also be enclosed in a metallic case. Other case materials are also possible as one of ordinary skill would recognize.
The adapter 400 can be regarded as a lead extender and the wires 415 and 420 may be any length required without limitation. The wires 415 and 420 may also be encased in a sheath. The connectors 405 and 410 may also be replaced by any of the connectors discussed above with reference to
Next a lead 500 according to exemplary aspects of the present disclosure is described with reference to
The above discussed assumes that the cardiac pacer 5 generates cathodal signals or biphasic signals with leading cathodal pulses. However, the advancements described in the present disclosure can also be used to reverse the polarity of signals generated by a cardiac pacer that generates anodal signals or biphasic signals with leading anodal pulses. Moreover, the drawings in this application are made to aid in the understanding of the present advancements, but are merely exemplary and are not to scale. Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.
Claims
1. A lead, comprising:
- a connector including a cathode terminal and an anode terminal;
- an electrode including a tip and a ring; and
- a circuit configured to connect the anode terminal of the connector to the tip of the electrode and to connect the cathode terminal of the connector to the ring of the electrode.
2. The lead according to claim 1, wherein the circuit includes:
- a first wire configured to connect the cathode terminal of the connector to the ring of the electrode; and
- a second wire configured to connect the anode terminal of the connector to the tip of the electrode.
3. The lead according to claim 1, wherein the connector is configured to connect in only one orientation.
Type: Application
Filed: Jun 25, 2020
Publication Date: Oct 15, 2020
Inventor: Morton M. Mower (Denver, CO)
Application Number: 16/912,096